From 9f18eb93d29281d8cb1b75d3199179ec0d289e82 Mon Sep 17 00:00:00 2001 From: Gabe Fierro Date: Thu, 19 Dec 2024 09:48:17 -0700 Subject: [PATCH] update 223p.ttl --- ontologies/223p.ttl | 51723 +++++++++++++++++++++++++----------------- 1 file changed, 31074 insertions(+), 20649 deletions(-) diff --git a/ontologies/223p.ttl b/ontologies/223p.ttl index c0a41da..a87a738 100644 --- a/ontologies/223p.ttl +++ b/ontologies/223p.ttl @@ -2,10 +2,10 @@ @prefix dcterms: . @prefix ns1: . @prefix ns2: . -@prefix ns3: . -@prefix ns4: . -@prefix ns5: . -@prefix ns6: . +@prefix ns3: . +@prefix ns4: . +@prefix ns5: . +@prefix ns6: . @prefix org: . @prefix owl: . @prefix prov: . @@ -35,6 +35,10 @@ s223:SymmetricProperty a rdfs:Class, rdfs:comment "A cooling element made of pipe or tube that may or may not be finned and formed into helical or serpentine shape."^^xsd:string ; rdfs:subClassOf s223:CoolingCoil ; sh:property [ rdfs:comment "The ChilledWaterCoil shall be connected to a ChilledWaterValve using the relation connectedTo."^^xsd:string ; + sh:path s223:connectedTo ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class ] ], + [ rdfs:comment "The ChilledWaterCoil shall be connected to a ChilledWaterValve using the relation connectedTo."^^xsd:string ; sh:path s223:connectedTo ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class ] ] . @@ -68,14 +72,39 @@ s223:SymmetricProperty a rdfs:Class, sh:path s223:hasProperty ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; - sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Binary ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasEnumerationKind ], - [ sh:hasValue s223:EnumerationKind-Position ; + sh:path s223:hasAspect ], + [ sh:hasValue s223:EnumerationKind-Binary ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasAspect ] ] ] ] ] ) ; + sh:path s223:hasEnumerationKind ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A ChilledWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ] ] ] ] ] [ sh:property [ rdfs:comment "A ChilledWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:hasValue s223:EnumerationKind-Binary ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ] ] ) ; sh:targetClass . a s223:Class, @@ -107,14 +136,39 @@ s223:SymmetricProperty a rdfs:Class, sh:path s223:hasProperty ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; - sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Binary ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasEnumerationKind ], - [ sh:hasValue s223:EnumerationKind-Position ; + sh:path s223:hasAspect ], + [ sh:hasValue s223:EnumerationKind-Binary ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasAspect ] ] ] ] ] ) ; + sh:path s223:hasEnumerationKind ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A damper shall have at least one analog damper command property or at least two binary damper command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ] ] ] ] ] [ sh:property [ rdfs:comment "A damper shall have at least one analog damper command property or at least two binary damper command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:hasValue s223:EnumerationKind-Binary ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ] ] ) ; sh:targetClass . a s223:Class, @@ -124,6 +178,16 @@ s223:SymmetricProperty a rdfs:Class, rdfs:comment "A heating element that forms into a helical or serpentine shape and uses electricity to perform heating."^^xsd:string ; rdfs:subClassOf s223:ElectricResistanceElement ; sh:property [ rdfs:comment "An electric heating coil shall have at least one analog heating command property using a relation hasProperty."^^xsd:string ; + sh:message "g36: An electric heating coil shall have at least one analog heating command property using a relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableActuatableProperty ; + sh:node [ sh:property [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ] ] ] ], + [ rdfs:comment "An electric heating coil shall have at least one analog heating command property using a relation hasProperty."^^xsd:string ; sh:message "g36: An electric heating coil shall have at least one analog heating command property using a relation hasProperty."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasProperty ; @@ -141,6 +205,16 @@ s223:SymmetricProperty a rdfs:Class, rdfs:comment "A machine used to create flow within a gas such as air."^^xsd:string ; rdfs:subClassOf s223:Fan ; sh:property [ rdfs:comment "A Fan shall have at least one Start/Stop command using the relation hasProperty."^^xsd:string ; + sh:message "g36: A Fan shall have at least one Start/Stop command using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; + sh:node [ sh:property [ sh:class s223:EnumerationKind-OnOff ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ], + [ rdfs:comment "A Fan shall have at least one Start/Stop command using the relation hasProperty."^^xsd:string ; sh:message "g36: A Fan shall have at least one Start/Stop command using the relation hasProperty."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasProperty ; @@ -170,7 +244,21 @@ s223:SymmetricProperty a rdfs:Class, [ sh:hasValue s223:EnumerationKind-Speed ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasAspect ] ] ] ] . + sh:path s223:hasAspect ] ] ] ], + [ rdfs:comment "A fan with VFD shall have at least one fan speed command using the relation hasProperty."^^xsd:string ; + sh:message "g36: A fan with VFD shall have at least one fan speed command using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Speed ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ] ] ] ] . a s223:Class, rdfs:Class, @@ -179,6 +267,12 @@ s223:SymmetricProperty a rdfs:Class, rdfs:comment "A heating element made of pipe or tube that may or may not be finned and formed into helical or serpentine shape."^^xsd:string ; rdfs:subClassOf s223:HeatingCoil ; sh:property [ rdfs:comment "The HotWaterCoil shall be connected to a HotWaterValve using the relation connectedTo."^^xsd:string ; + sh:message "g36: The HotWaterCoil shall be connected to a HotWaterValve using the relation connectedTo."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:connectedTo ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class ] ], + [ rdfs:comment "The HotWaterCoil shall be connected to a HotWaterValve using the relation connectedTo."^^xsd:string ; sh:message "g36: The HotWaterCoil shall be connected to a HotWaterValve using the relation connectedTo."^^xsd:string ; sh:minCount 1 ; sh:path s223:connectedTo ; @@ -198,6 +292,31 @@ s223:SymmetricProperty a rdfs:Class, rdfs:comment "A HotWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; sh:message "g36: A HotWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A HotWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableActuatableProperty ; + sh:node [ sh:property [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ], + [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ] ] ] ] ] [ sh:property [ rdfs:comment "A HotWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Binary ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ], + [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A HotWaterValve shall have at least one analog valve command property or at least two binary valve command properties using the relation hasProperty."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasProperty ; sh:qualifiedMinCount 1 ; @@ -236,14 +355,28 @@ s223:SymmetricProperty a rdfs:Class, sh:path s223:hasProperty ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; - sh:node [ sh:property [ sh:class s223:EnumerationKind-Binary ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasEnumerationKind ], - [ sh:hasValue s223:EnumerationKind-Position ; + sh:path s223:hasAspect ], + [ sh:class s223:EnumerationKind-Binary ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasAspect ] ] ] ] . + sh:path s223:hasEnumerationKind ] ] ] ], + [ rdfs:comment "A Two Position Damper shall have at least one open-and-close damper command property using the relation hasProperty."^^xsd:string ; + sh:message "g36: A Two Position Damper shall have at least one open-and-close damper command property using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedActuatableProperty ; + sh:node [ sh:property [ sh:hasValue s223:EnumerationKind-Position ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ], + [ sh:class s223:EnumerationKind-Binary ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ] . a s223:Class, rdfs:Class, @@ -251,11 +384,28 @@ s223:SymmetricProperty a rdfs:Class, rdfs:label "Zone"^^xsd:string ; rdfs:comment "A Zone is a generic thermal zone, with the points required for Guideline 36 controls. It is a collection of s223:DomainSpace instances."^^xsd:string ; rdfs:subClassOf s223:Zone ; - sh:property [ rdfs:comment "A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; - sh:hasValue s223:Domain-HVAC ; - sh:message "g36: A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; + sh:property [ rdfs:comment "A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; + sh:message "g36: A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; sh:minCount 1 ; - sh:path s223:hasDomain ], + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedObservableProperty ; + sh:node [ sh:property [ sh:class s223:EnumerationKind-Occupancy ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ; + sh:severity sh:Info ], + [ rdfs:comment "A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; + sh:message "g36: A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedObservableProperty ; + sh:node [ sh:property [ sh:class s223:EnumerationKind-Occupancy ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ] ] ] ; + sh:severity sh:Info ], [ rdfs:comment "A Zone shall have a zone temperature setpoint adjustment property using the relation hasProperty, if applicable."^^xsd:string ; sh:message "g36: A Zone shall have a zone temperature setpoint adjustment property using the relation hasProperty, if applicable."^^xsd:string ; sh:minCount 1 ; @@ -278,14 +428,48 @@ s223:SymmetricProperty a rdfs:Class, sh:path s223:hasProperty ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:QuantifiableObservableProperty ; - sh:node [ sh:property [ sh:hasValue ; + sh:node [ sh:property [ sh:hasValue s223:Constituent-CO2 ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path ns1:hasQuantityKind ], - [ sh:hasValue s223:Constituent-CO2 ; + sh:path s223:ofConstituent ], + [ sh:hasValue ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:ofConstituent ] ] ] ; + sh:path ns1:hasQuantityKind ] ] ] ; + sh:severity sh:Info ], + [ rdfs:comment "A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; + sh:hasValue s223:Domain-HVAC ; + sh:message "g36: A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "A Zone shall have at least one window switch on-off property using the relation hasProperty."^^xsd:string ; + sh:message "g36: A Zone shall have at least one window switch on-off property using the relation hasProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:EnumeratedObservableProperty ; + sh:node [ sh:property [ sh:class s223:EnumerationKind-OnOff ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ], + [ rdfs:comment "Property shall be measured at a window."^^xsd:string ; + sh:class s223:Window ; + sh:path [ sh:alternativePath ( ( [ sh:inversePath s223:observes ] s223:hasObservationLocation ) [ sh:inversePath s223:hasProperty ] ) ] ] ] ] ; + sh:severity sh:Info ], + [ rdfs:comment "A Zone shall have at least a zone CO2 concentration property using the relation hasProperty, if applicable control is used."^^xsd:string ; + sh:message "g36: A Zone shall have at least a zone CO2 concentration property using the relation hasProperty, if applicable control is used."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasProperty ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableObservableProperty ; + sh:node [ sh:property [ sh:hasValue s223:Constituent-CO2 ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:ofConstituent ], + [ sh:hasValue ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ] ] ] ; sh:severity sh:Info ], [ rdfs:comment "A Zone shall have at least one window switch on-off property using the relation hasProperty."^^xsd:string ; sh:message "g36: A Zone shall have at least one window switch on-off property using the relation hasProperty."^^xsd:string ; @@ -301,16 +485,26 @@ s223:SymmetricProperty a rdfs:Class, sh:minCount 1 ; sh:path s223:hasEnumerationKind ] ] ] ; sh:severity sh:Info ], - [ rdfs:comment "A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; - sh:message "g36: A Zone shall have at least one binary zone occupancy property using the relation hasProperty"^^xsd:string ; + [ rdfs:comment "A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; + sh:hasValue s223:Domain-HVAC ; + sh:message "g36: A Zone shall have at least one Domain-HVAC using the relation hasDomain. "^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "A Zone shall have a zone temperature setpoint adjustment property using the relation hasProperty, if applicable."^^xsd:string ; + sh:message "g36: A Zone shall have a zone temperature setpoint adjustment property using the relation hasProperty, if applicable."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasProperty ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:EnumeratedObservableProperty ; - sh:node [ sh:property [ sh:class s223:EnumerationKind-Occupancy ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableObservableProperty ; + sh:node [ sh:property [ sh:hasValue ; sh:maxCount 1 ; sh:minCount 1 ; - sh:path s223:hasEnumerationKind ] ] ] ; + sh:path ns1:hasQuantityKind ], + [ sh:hasValue s223:Dimensioned-Delta ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasAspect ] ] ] ; + sh:qualifiedValueShapesDisjoint true ; sh:severity sh:Info ] . a s223:Class, @@ -328,7 +522,17 @@ s223:SymmetricProperty a rdfs:Class, sh:hasValue s223:Domain-HVAC ; sh:message "g36: A ZoneGroup shall have the Domain HVAC using the relation hasDomain."^^xsd:string ; sh:minCount 1 ; - sh:path s223:hasDomain ] . + sh:path s223:hasDomain ], + [ rdfs:comment "A ZoneGroup shall have the Domain HVAC using the relation hasDomain."^^xsd:string ; + sh:hasValue s223:Domain-HVAC ; + sh:message "g36: A ZoneGroup shall have the Domain HVAC using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "A ZoneGroup shall contain at least one Zone using the relation contains."^^xsd:string ; + sh:class ; + sh:message "g36: A ZoneGroup shall contain at least one Zone using the relation contains."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:contains ] . ns1:AbstractQuantityKind a rdfs:Class, sh:NodeShape ; @@ -379,6 +583,10 @@ ns1:BitEncodingType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Encoding ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:BitEncoding ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:BitEncoding ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -389,6 +597,10 @@ ns1:BooleanEncodingType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Encoding ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:BooleanEncoding ns1:BitEncoding ns1:OctetEncoding ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:BooleanEncoding ns1:BitEncoding ns1:OctetEncoding ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -403,16 +615,22 @@ ns1:ByteEncodingType a rdfs:Class, ns1:CardinalityType a rdfs:Class, sh:NodeShape ; rdfs:label "Cardinality Type"^^xsd:string ; - dcterms:description "In mathematics, the cardinality of a set is a measure of the number of elements of the set. For example, the set \\(A = {2, 4, 6}\\) contains 3 elements, and therefore \\(A\\) has a cardinality of 3. There are two approaches to cardinality – one which compares sets directly using bijections and injections, and another which uses cardinal numbers."^^ns1:LatexString ; + dcterms:description "In mathematics, the cardinality of a set is a measure of the number of elements of the set. For example, the set $A = {2, 4, 6}$ contains 3 elements, and therefore $A$ has a cardinality of 3. There are two approaches to cardinality – one which compares sets directly using bijections and injections, and another which uses cardinal numbers."^^ns1:LatexString, + "In mathematics, the cardinality of a set is a measure of the number of elements of the set. For example, the set \\(A = {2, 4, 6}\\) contains 3 elements, and therefore \\(A\\) has a cardinality of 3. There are two approaches to cardinality – one which compares sets directly using bijections and injections, and another which uses cardinal numbers."^^ns1:LatexString ; ns1:informativeReference "http://en.wikipedia.org/wiki/Cardinal_number"^^xsd:anyURI, "http://en.wikipedia.org/wiki/Cardinality"^^xsd:anyURI ; ns1:plainTextDescription "In mathematics, the cardinality of a set is a measure of the number of elements of the set. For example, the set 'A = {2, 4, 6}' contains 3 elements, and therefore 'A' has a cardinality of 3. There are two approaches to cardinality – one which compares sets directly using bijections and injections, and another which uses cardinal numbers."^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:EnumeratedValue ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:CT_COUNTABLY-INFINITE ns1:CT_FINITE ns1:CT_UNCOUNTABLE ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:CT_COUNTABLY-INFINITE ns1:CT_FINITE ) ; - sh:path [ sh:inversePath rdf:type ] ] . + sh:path [ sh:inversePath rdf:type ] ], + ns1:CardinalityType-literal . ns1:CharEncodingType a rdfs:Class, sh:NodeShape ; @@ -421,6 +639,10 @@ ns1:CharEncodingType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Encoding ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:CharEncoding ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:CharEncoding ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -448,6 +670,7 @@ ns1:Concept a rdfs:Class, rdfs:comment "The root class for all QUDT concepts."^^rdf:HTML ; rdfs:isDefinedBy , ; + rdfs:subClassOf rdfs:Resource ; sh:property ns1:Concept-abbreviation, ns1:Concept-code, ns1:Concept-deprecated, @@ -469,7 +692,8 @@ ns1:ConstantValue a rdfs:Class, rdfs:comment "Used to specify the values of a constant."^^rdf:HTML ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:QuantityValue ; - sh:property ns1:ConstantValue-exactConstant . + sh:property ns1:ConstantValue-exactConstant, + ns1:ConstantValue-informativeReference . ns1:CountingUnit a rdfs:Class, sh:NodeShape ; @@ -484,7 +708,10 @@ ns1:CurrencyUnit a rdfs:Class, rdfs:comment "Currency Units have their own subclass of unit because: (a) they have additonal properites such as 'country' and (b) their URIs do not conform to the same rules as other units."^^rdf:HTML, "Used for all units that express currency."^^rdf:HTML ; rdfs:isDefinedBy ; - rdfs:subClassOf ns1:DimensionlessUnit . + rdfs:subClassOf ns1:DimensionlessUnit ; + sh:property ns1:CurrencyUnit-currencyCode, + ns1:CurrencyUnit-currencyExponent, + ns1:CurrencyUnit-currencyNumber . ns1:DataEncoding a rdfs:Class, sh:NodeShape ; @@ -577,6 +804,10 @@ ns1:EndianType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:EnumeratedValue ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -600,7 +831,8 @@ ns1:EnumeratedValue a rdfs:Class, ns1:informativeReference "http://en.wikipedia.org/wiki/Enumeration"^^xsd:anyURI ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:Concept, - ns4:EnumeratedValue ; + ns1:Verifiable, + ns3:EnumeratedValue ; sh:property ns1:EnumeratedValue-abbreviation, ns1:EnumeratedValue-description, ns1:EnumeratedValue-symbol . @@ -616,7 +848,7 @@ ns1:Enumeration a rdfs:Class,

The tags are a set of positive whole numbers, not necessarily contiguous and having no numerical significance, each corresponding to the associated literal identifier. An order attribute can also be given on the enumeration elements. An enumeration can itself be a member of an enumeration. This allows enumerations to be enumerated in a selection. Enumerations are also subclasses of Scalar Datatype. This allows them to be used as the reference of a datatype specification."""^^rdf:HTML ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:Concept, - ns4:Enumeration ; + ns3:Enumeration ; sh:property ns1:Enumeration-abbreviation, ns1:Enumeration-default, ns1:Enumeration-element . @@ -626,7 +858,7 @@ ns1:EnumerationScale a rdfs:Class, rdfs:label "Enumeration scale"^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:Scale, - ns4:Enumeration . + ns3:Enumeration . ns1:Figure a rdfs:Class, sh:NodeShape ; @@ -648,6 +880,10 @@ ns1:FloatingPointEncodingType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Encoding ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:DoublePrecisionEncoding ns1:IEEE754_1985RealEncoding ns1:SinglePrecisionRealEncoding ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:DoublePrecisionEncoding ns1:IEEE754_1985RealEncoding ns1:SinglePrecisionRealEncoding ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -659,6 +895,10 @@ ns1:IntegerEncodingType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Encoding ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:LongUnsignedIntegerEncoding ns1:ShortUnsignedIntegerEncoding ns1:ShortUnsignedIntegerEncoding ns1:SignedIntegerEncoding ns1:UnsignedIntegerEncoding ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:LongUnsignedIntegerEncoding ns1:ShortUnsignedIntegerEncoding ns1:ShortUnsignedIntegerEncoding ns1:SignedIntegerEncoding ns1:UnsignedIntegerEncoding ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -716,7 +956,12 @@ ns1:OrderedType a rdfs:Class, sh:property [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:Unordered ns1:PartiallyOrdered ns1:TotallyOrdered ) ; - sh:path [ sh:inversePath rdf:type ] ] . + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:Unordered ns1:PartiallyOrdered ns1:TotallyOrdered ) ; + sh:path [ sh:inversePath rdf:type ] ], + ns1:OrderedType-literal . ns1:OrdinalScale a rdfs:Class, sh:NodeShape ; @@ -744,9 +989,22 @@ ns1:PhysicalConstant a rdfs:Class, rdfs:comment "A physical constant is a physical quantity that is generally believed to be both universal in nature and constant in time. It can be contrasted with a mathematical constant, which is a fixed numerical value but does not directly involve any physical measurement. There are many physical constants in science, some of the most widely recognized being the speed of light in vacuum c, Newton's gravitational constant G, Planck's constant h, the electric permittivity of free space ε0, and the elementary charge e. Physical constants can take many dimensional forms, or may be dimensionless depending on the system of quantities and units used."^^rdf:HTML ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:Quantity ; - sh:property ns1:PhysicalConstant-latexDefinition, + sh:property ns1:PhysicalConstant-applicableSystem, + ns1:PhysicalConstant-applicableUnit, + ns1:PhysicalConstant-dbpediaMatch, + ns1:PhysicalConstant-exactConstant, + ns1:PhysicalConstant-exactMatch, + ns1:PhysicalConstant-hasDimensionVector, + ns1:PhysicalConstant-iec61360Code, + ns1:PhysicalConstant-informativeReference, + ns1:PhysicalConstant-isoNormativeReference, + ns1:PhysicalConstant-latexDefinition, ns1:PhysicalConstant-latexSymbol, - ns1:PhysicalConstant-mathMLdefinition . + ns1:PhysicalConstant-mathMLdefinition, + ns1:PhysicalConstant-normativeReference, + ns1:PhysicalConstant-siExactMatch, + ns1:PhysicalConstant-symbol, + ns1:PhysicalConstant-ucumCode . ns1:PlaneAngleUnit a rdfs:Class, sh:NodeShape ; @@ -760,8 +1018,10 @@ ns1:Prefix a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Concept, ns1:Verifiable ; - sh:property ns1:Prefix-latexSymbol, + sh:property ns1:Prefix-exactMatch, + ns1:Prefix-latexSymbol, ns1:Prefix-prefixMultiplier, + ns1:Prefix-siExactMatch, ns1:Prefix-symbol, ns1:Prefix-ucumCode . @@ -776,14 +1036,29 @@ ns1:Quantifiable a rdfs:Class, ns1:Quantifiable-hasUnit, ns1:Quantifiable-relativeStandardUncertainty, ns1:Quantifiable-standardUncertainty, + ns1:Quantifiable-standardUncertaintySN, ns1:Quantifiable-unit, - ns1:Quantifiable-value . + ns1:Quantifiable-value, + ns1:Quantifiable-valueSN . ns1:Quantity a rdfs:Class, sh:NodeShape ; rdfs:label "Quantity"^^xsd:string ; ns1:dbpediaMatch "http://dbpedia.org/resource/Quantity"^^xsd:anyURI ; - rdfs:comment """

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

+ rdfs:comment """

A quantity is the measurement of an observable property of a particular object, event, or physical system. + A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the + underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific + quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as + the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

+

In other words, quantities are quantifiable aspects of the world, such as the duration of a movie, the distance between two points, +velocity of a car, the pressure of the atmosphere, and a person's weight; and units are used to describe their numerical measure.

+

Many quantity kinds are related to each other by various physical laws, and as a result, the associated units of some quantity +kinds can be expressed as products (or ratios) of powers of other quantity kinds (e.g., momentum is mass times velocity and velocity is defined as distance +divided by time). In this way, some quantities can be calculated from other measured quantities using their associations to the quantity kinds in these +expressions. These quantity kind relationships are also discussed in dimensional analysis. Those that cannot be so expressed can be regarded +as "fundamental" in this sense.

+

A quantity is distinguished from a "quantity kind" in that the former carries a value and the latter is a type specifier."""^^rdf:HTML, + """

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

In other words, quantities are quantifiable aspects of the world, such as the duration of a movie, the distance between two points, velocity of a car, the pressure of the atmosphere, and a person's weight; and units are used to describe their numerical measure. @@ -817,18 +1092,34 @@ ns1:QuantityKind a rdfs:Class, ns1:QuantityKind-baseUSCustomaryUnitDimensions, ns1:QuantityKind-belongsToSystemOfQuantities, ns1:QuantityKind-dimensionVectorForSI, + ns1:QuantityKind-exactMatch, ns1:QuantityKind-expression, ns1:QuantityKind-generalization, ns1:QuantityKind-hasDimensionVector, + ns1:QuantityKind-iec61360Code, ns1:QuantityKind-isQuantityKindOf, ns1:QuantityKind-latexDefinition, ns1:QuantityKind-mathMLdefinition, ns1:QuantityKind-qkdvDenominator, - ns1:QuantityKind-qkdvNumerator . + ns1:QuantityKind-qkdvNumerator, + ns1:QuantityKind-siExactMatch . ns1:QuantityKindDimensionVector a rdfs:Class, sh:NodeShape ; rdfs:label "Quantity Kind Dimension Vector"^^xsd:string ; + dcterms:description """ + $\\text{Quantity Kind Dimension Vector}$ describes the dimensionality of a quantity kind in the context of a system of units. + In the SI system of units, the dimensions of a quantity kind are expressed as a product of the basic + physical dimensions mass ($M$), length ($L$), time ($T$) current ($I$), amount of substance ($N$), + luminous intensity ($J$) and absolute temperature + ($\\theta$) as $dim \\, Q = L^{\\alpha} \\, M^{\\beta} \\, T^{\\gamma} \\, I ^{\\delta} \\, \\theta ^{\\epsilon} \\, N^{\\eta} \\, J ^{\\nu}$. + + + The rational powers of the dimensional exponents, $\\alpha, \\, \\beta, \\, \\gamma, \\, \\delta, \\, \\epsilon, \\, \\eta, \\, \\nu$, are positive, negative, or zero. + + For example, the dimension of the physical quantity kind $\\it{speed}$ is $\\boxed{length/time}$, $L/T$ or $LT^{-1}$, + and the dimension of the physical quantity kind force is $\\boxed{mass \\times acceleration}$ or $\\boxed{mass \\times (length/time)/time}$, $ML/T^2$ or $MLT^{-2}$ respectively. + """^^ns1:LatexString ; ns1:informativeReference "http://en.wikipedia.org/wiki/Dimensional_analysis"^^xsd:anyURI, "http://web.mit.edu/2.25/www/pdf/DA_unified.pdf"^^xsd:anyURI ; rdfs:comment """

A Quantity Kind Dimension Vector describes the dimensionality of a quantity kind in the context of a system of units. In the SI system of units, the dimensions of a quantity kind are expressed as a product of the basic physical dimensions mass (\\(M\\)), length (\\(L\\)), time (\\(T\\)) current (\\(I\\)), amount of substance (\\(N\\)), luminous intensity (\\(J\\)) and absolute temperature (\\(\\theta\\)) as \\(dim \\, Q = L^{\\alpha} \\, M^{\\beta} \\, T^{\\gamma} \\, I ^{\\delta} \\, \\theta ^{\\epsilon} \\, N^{\\eta} \\, J ^{\\nu}\\).

@@ -846,7 +1137,9 @@ ns1:QuantityKindDimensionVector a rdfs:Class, ns1:QuantityKindDimensionVector-dimensionExponentForThermodynamicTemperature, ns1:QuantityKindDimensionVector-dimensionExponentForTime, ns1:QuantityKindDimensionVector-dimensionlessExponent, - ns1:QuantityKindDimensionVector-latexDefinition . + ns1:QuantityKindDimensionVector-hasReferenceQuantityKind, + ns1:QuantityKindDimensionVector-latexDefinition, + ns1:QuantityKindDimensionVector-latexSymbol . ns1:QuantityKindDimensionVector_CGS a rdfs:Class, sh:NodeShape ; @@ -904,7 +1197,8 @@ ns1:QuantityKindDimensionVector_SI a rdfs:Class, ns1:QuantityType a rdfs:Class, sh:NodeShape ; rdfs:label "Quantity type"^^xsd:string ; - dcterms:description "\\(\\textit{Quantity Type}\\) is an enumeration of quanity kinds. It specializes \\(\\boxed{dtype:EnumeratedValue}\\) by constrinaing \\(\\boxed{dtype:value}\\) to instances of \\(\\boxed{qudt:QuantityKind}\\)."^^ns1:LatexString ; + dcterms:description "$\\textit{Quantity Type}$ is an enumeration of quanity kinds. It specializes $\\boxed{dtype:EnumeratedValue}$ by constrinaing $\\boxed{dtype:value}$ to instances of $\\boxed{qudt:QuantityKind}$."^^ns1:LatexString, + "\\(\\textit{Quantity Type}\\) is an enumeration of quanity kinds. It specializes \\(\\boxed{dtype:EnumeratedValue}\\) by constrinaing \\(\\boxed{dtype:value}\\) to instances of \\(\\boxed{qudt:QuantityKind}\\)."^^ns1:LatexString ; rdfs:isDefinedBy ; rdfs:subClassOf ns1:EnumeratedValue ; sh:property ns1:QuantityType-value . @@ -989,6 +1283,10 @@ ns1:SignednessType a rdfs:Class, rdfs:isDefinedBy ; rdfs:subClassOf ns1:EnumeratedValue ; sh:property [ a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:in ( ns1:SIGNED ns1:UNSIGNED ) ; + sh:path [ sh:inversePath rdf:type ] ], + [ a sh:PropertyShape ; rdfs:isDefinedBy ; sh:in ( ns1:SIGNED ns1:UNSIGNED ) ; sh:path [ sh:inversePath rdf:type ] ] . @@ -1032,10 +1330,13 @@ ns1:SystemOfQuantityKinds a rdfs:Class, rdfs:label "System of Quantity Kinds"^^xsd:string ; rdfs:comment "A system of quantity kinds is a set of one or more quantity kinds together with a set of zero or more algebraic equations that define relationships between quantity kinds in the set. In the physical sciences, the equations relating quantity kinds are typically physical laws and definitional relations, and constants of proportionality. Examples include Newton’s First Law of Motion, Coulomb’s Law, and the definition of velocity as the instantaneous change in position. In almost all cases, the system identifies a subset of base quantity kinds. The base set is chosen so that all other quantity kinds of interest can be derived from the base quantity kinds and the algebraic equations. If the unit system is explicitly associated with a quantity kind system, then the unit system must define at least one unit for each quantity kind. From a scientific point of view, the division of quantities into base quantities and derived quantities is a matter of convention."^^rdf:HTML ; rdfs:isDefinedBy ; - rdfs:subClassOf ns1:Concept ; + rdfs:subClassOf ns1:Concept, + ns1:Verifiable ; sh:property ns1:SystemOfQuantityKinds-baseDimensionEnumeration, + ns1:SystemOfQuantityKinds-hasBaseQuantityKind, ns1:SystemOfQuantityKinds-hasQuantityKind, - ns1:SystemOfQuantityKinds-hasUnitSystem . + ns1:SystemOfQuantityKinds-hasUnitSystem, + ns1:SystemOfQuantityKinds-systemDerivedQuantityKind . ns1:SystemOfUnits a rdfs:Class, sh:NodeShape ; @@ -1044,7 +1345,8 @@ ns1:SystemOfUnits a rdfs:Class, "http://www.ieeeghn.org/wiki/index.php/System_of_Measurement_Units"^^xsd:anyURI ; rdfs:comment "A system of units is a set of units which are chosen as the reference scales for some set of quantity kinds together with the definitions of each unit. Units may be defined by experimental observation or by proportion to another unit not included in the system. If the unit system is explicitly associated with a quantity kind system, then the unit system must define at least one unit for each quantity kind."^^rdf:HTML ; rdfs:isDefinedBy ; - rdfs:subClassOf ns1:Concept ; + rdfs:subClassOf ns1:Concept, + ns1:Verifiable ; sh:property ns1:SystemOfUnits-applicablePhysicalConstant, ns1:SystemOfUnits-hasAllowedUnit, ns1:SystemOfUnits-hasBaseUnit, @@ -1052,7 +1354,8 @@ ns1:SystemOfUnits a rdfs:Class, ns1:SystemOfUnits-hasDefinedUnit, ns1:SystemOfUnits-hasDerivedCoherentUnit, ns1:SystemOfUnits-hasDerivedUnit, - ns1:SystemOfUnits-hasUnit . + ns1:SystemOfUnits-hasUnit, + ns1:SystemOfUnits-prefix . ns1:TransformType a rdfs:Class, sh:NodeShape ; @@ -1064,7 +1367,8 @@ ns1:TransformType a rdfs:Class, ns1:Unit a rdfs:Class, sh:NodeShape ; rdfs:label "Unit"^^xsd:string ; - dcterms:description "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)."^^ns1:LatexString ; + dcterms:description "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as $Q = nU$."^^ns1:LatexString, + "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)."^^ns1:LatexString ; ns1:informativeReference "http://dbpedia.org/resource/Category:Units_of_measure"^^xsd:anyURI, "http://www.allmeasures.com/Fullconversion.asp"^^xsd:anyURI ; rdfs:isDefinedBy , @@ -1074,7 +1378,13 @@ ns1:Unit a rdfs:Class, ns1:Verifiable ; sh:property ns1:Unit-applicableSystem, ns1:Unit-conversionMultiplier, + ns1:Unit-conversionMultiplierSN, ns1:Unit-conversionOffset, + ns1:Unit-conversionOffsetSN, + ns1:Unit-definedUnitOfSystem, + ns1:Unit-derivedCoherentUnitOfSystem, + ns1:Unit-derivedUnitOfSystem, + ns1:Unit-exactMatch, ns1:Unit-expression, ns1:Unit-hasDimensionVector, ns1:Unit-hasQuantityKind, @@ -1083,8 +1393,10 @@ ns1:Unit a rdfs:Class, ns1:Unit-latexSymbol, ns1:Unit-mathMLdefinition, ns1:Unit-omUnit, + ns1:Unit-prefix, ns1:Unit-qkdvDenominator, ns1:Unit-qkdvNumerator, + ns1:Unit-siExactMatch, ns1:Unit-siUnitsExpression, ns1:Unit-symbol, ns1:Unit-ucumCode, @@ -1366,14 +1678,39 @@ s223:Actuator a s223:Class, sh:class s223:ActuatableProperty ; sh:message "s223: An Actuator must be associated with at least one ActuatableProperty using the relation actuatedByProperty."^^xsd:string ; sh:minCount 1 ; - sh:path s223:actuatedByProperty ] . + sh:path s223:actuatedByProperty ], + [ rdfs:comment "An Actuator must be associated with at least one ActuatableProperty using the relation actuatedByProperty."^^xsd:string ; + sh:class s223:ActuatableProperty ; + sh:message "s223: An Actuator must be associated with at least one ActuatableProperty using the relation actuatedByProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:actuatedByProperty ], + [ rdfs:comment "If the relation actuates is present it must associate the Actuator with a Equipment."^^xsd:string ; + sh:class s223:Equipment ; + sh:message "s223: If the relation actuates is present it must associate the Actuator with a Equipment."^^xsd:string ; + sh:path s223:actuates ] . s223:AirHandlingUnit a s223:Class, sh:NodeShape ; rdfs:label "Air handling unit"^^xsd:string ; rdfs:comment "An assembly consisting of a fan or fans and other necessary equipment to perform one or more of the following functions: circulating, filtration, heating, cooling, heat recovery, humidifying, dehumidifying, and mixing of air."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "An AirHandlingUnit shall have at least one outlet using the medium Air."^^xsd:string ; + sh:property [ rdfs:comment "An AirHandlingUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: An AirHandlingUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An AirHandlingUnit shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: An AirHandlingUnit shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An AirHandlingUnit shall have at least one outlet using the medium Air."^^xsd:string ; sh:message "s223: An AirHandlingUnit shall have at least one outlet using the medium Air."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -1412,6 +1749,28 @@ s223:AirSourceHeatPump a s223:Class, sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ] . +s223:AirToAirHeatPump a s223:Class, + sh:NodeShape ; + rdfs:label "Air to air heat pump"^^xsd:string ; + rdfs:comment "A subclass of HeatPump that can heat or cool by transferring thermal energy between two bodies of air."^^xsd:string ; + rdfs:subClassOf s223:HeatPump ; + sh:property [ rdfs:comment "An AirToAirHeatPump shall have at least two outlets using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: An AirToAirHeatPump shall have at least two outlets using the medium Fluid-Air."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An AirToAirHeatPump shall have at least two inlets using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: An AirToAirHeatPump shall have at least two inlets using the medium Fluid-Air."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + s223:BACnetExternalReference a s223:Class, sh:NodeShape ; rdfs:label "BACnetExternalReference"^^xsd:string ; @@ -1423,12 +1782,38 @@ s223:BACnetExternalReference a s223:Class, sh:maxCount 1 ; sh:minCount 0 ; sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation priority-for-writing is present it provides the priority for writing values to the object."^^xsd:string ; + sh:datatype xsd:nonNegativeInteger ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation object-identifier is present it associates the external reference with the BACnet object having the specific object identifier."^^xsd:string ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ; + sh:pattern "^[A-Za-z0-9-]+,[1-9][0-9]*$"^^xsd:string ], [ a sh:PropertyShape ; rdfs:comment "If the relation property-identifier is present it is either a decimal number or exactly equal to the ASHRAE 135-2020 Clause 21 identifier text of BACnetPropertyIdentifier. If it is omitted, it defaults to \"present-value\" except for BACnet File objects, where absence of property-identifier refers to the entire content of the file accessed with Stream Access."^^xsd:string ; sh:datatype xsd:string ; sh:maxCount 1 ; sh:minCount 0 ; sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation property-array-index is present it provides the index for reading items from a property that is an array."^^xsd:string ; + sh:datatype xsd:nonNegativeInteger ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation device-identifier is present it associates the external reference with a BACnet device having the specific device identifier."^^xsd:string ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ; + sh:pattern "^[A-Za-z0-9-]+,[1-9][0-9]*$"^^xsd:string ], [ a sh:PropertyShape ; rdfs:comment "If the relation object-name is present it associates the external reference with the BACnet object having the specific object name."^^xsd:string ; sh:datatype xsd:string ; @@ -1436,24 +1821,42 @@ s223:BACnetExternalReference a s223:Class, sh:minCount 0 ; sh:path ], [ a sh:PropertyShape ; - rdfs:comment "If the relation object-identifier is present it associates the external reference with the BACnet object having the specific object identifier."^^xsd:string ; + rdfs:comment "If the relation device-name is present it associates the external reference with a BACnet device having the specific device name."^^xsd:string ; sh:datatype xsd:string ; sh:maxCount 1 ; sh:minCount 0 ; - sh:path ; - sh:pattern "^[A-Za-z0-9-]+,[1-9][0-9]*$"^^xsd:string ], + sh:path ], [ a sh:PropertyShape ; - rdfs:comment "If the relation property-array-index is present it provides the index for reading items from a property that is an array."^^xsd:string ; - sh:datatype xsd:nonNegativeInteger ; + rdfs:comment "If the relation object-name is present it associates the external reference with the BACnet object having the specific object name."^^xsd:string ; + sh:datatype xsd:string ; sh:maxCount 1 ; sh:minCount 0 ; - sh:path ], + sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation property-identifier is present it is either a decimal number or exactly equal to the ASHRAE 135-2020 Clause 21 identifier text of BACnetPropertyIdentifier. If it is omitted, it defaults to \"present-value\" except for BACnet File objects, where absence of property-identifier refers to the entire content of the file accessed with Stream Access."^^xsd:string ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ], [ a sh:PropertyShape ; rdfs:comment "If the relation priority-for-writing is present it provides the priority for writing values to the object."^^xsd:string ; sh:datatype xsd:nonNegativeInteger ; sh:maxCount 1 ; sh:minCount 0 ; sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation property-array-index is present it provides the index for reading items from a property that is an array."^^xsd:string ; + sh:datatype xsd:nonNegativeInteger ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation object-identifier is present it associates the external reference with the BACnet object having the specific object identifier."^^xsd:string ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:minCount 0 ; + sh:path ; + sh:pattern "^[A-Za-z0-9-]+,[1-9][0-9]*$"^^xsd:string ], [ a sh:PropertyShape ; rdfs:comment "If the relation device-identifier is present it associates the external reference with a BACnet device having the specific device identifier."^^xsd:string ; sh:datatype xsd:string ; @@ -1467,6 +1870,19 @@ s223:BatteryCPShape a sh:NodeShape ; rdfs:comment "A Battery shall have at least one outlet or bidirectional ConnectionPoint using the medium Electricity."^^xsd:string ; sh:message "s223: A Battery shall have at least one outlet or bidirectional ConnectionPoint using the medium Electricity."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A Battery shall have at least one outlet or bidirectional ConnectionPoint using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "A Battery shall have at least one outlet or bidirectional ConnectionPoint using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A Battery shall have at least one outlet or bidirectional ConnectionPoint using the medium Electricity."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; @@ -1495,6 +1911,22 @@ s223:Boiler a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Boiler shall have at least one outlet using the medium Water."^^xsd:string ; + sh:message "s223: A Boiler shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Boiler shall have at least one inlet using the medium Water."^^xsd:string ; + sh:message "s223: A Boiler shall have at least one inlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A Boiler shall have at least one outlet using the medium Water."^^xsd:string ; sh:message "s223: A Boiler shall have at least one outlet using the medium Water."^^xsd:string ; sh:minCount 1 ; @@ -1517,6 +1949,22 @@ s223:Chiller a s223:Class, sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Chiller shall have at least one inlet using the medium Water."^^xsd:string ; + sh:message "s223: A Chiller shall have at least one inlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Chiller shall have at least one outlet using the medium Water."^^xsd:string ; + sh:message "s223: A Chiller shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A Chiller shall have at least one inlet using the medium Water."^^xsd:string ; sh:message "s223: A Chiller shall have at least one inlet using the medium Water."^^xsd:string ; sh:minCount 1 ; @@ -1550,6 +1998,28 @@ FILTER NOT EXISTS {$this a/rdfs:subClassOf* ?class . ?class sh:or/rdf:rest*/rdf:first/sh:property/sh:path ?p . } } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment """Ensure that all instances of an s223 class use only the properties defined for that class. Note that +properties from other namespaces are not checked by this validation."""^^xsd:string ; + sh:message "s223: Predicate {?p} is not defined for instance {$this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?p ?o +WHERE { +$this ?p ?o . +FILTER(STRSTARTS (str(?p), "http://data.ashrae.org/standard223#") || STRSTARTS (str(?p), "http://qudt.org/schema/qudt")) +FILTER NOT EXISTS {$this a sh:NodeShape} +FILTER NOT EXISTS {$this a/rdfs:subClassOf* ?class . + ?class sh:property/sh:path ?p . +} +FILTER NOT EXISTS {$this a/rdfs:subClassOf* ?class . +?class sh:xone/rdf:rest*/rdf:first/sh:property/sh:path ?p . +} +FILTER NOT EXISTS {$this a/rdfs:subClassOf* ?class . +?class sh:or/rdf:rest*/rdf:first/sh:property/sh:path ?p . +} +} """^^xsd:string ] ; sh:targetClass s223:Concept . @@ -1558,18 +2028,30 @@ s223:Compressor a s223:Class, rdfs:label "Compressor"^^xsd:string ; rdfs:comment "A device for mechanically increasing the pressure of a gas."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Compressor shall have at least one outlet."^^xsd:string ; - sh:message "s223: A Compressor shall have at least one outlet."^^xsd:string ; + sh:property [ rdfs:comment "A Compressor shall have at least one inlet."^^xsd:string ; + sh:message "s223: A Compressor shall have at least one inlet."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ], + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], [ rdfs:comment "A Compressor shall have at least one inlet."^^xsd:string ; sh:message "s223: A Compressor shall have at least one inlet."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ] . + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], + [ rdfs:comment "A Compressor shall have at least one outlet."^^xsd:string ; + sh:message "s223: A Compressor shall have at least one outlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ], + [ rdfs:comment "A Compressor shall have at least one outlet."^^xsd:string ; + sh:message "s223: A Compressor shall have at least one outlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ] . s223:ConcentrationSensor a s223:Class, sh:NodeShape ; @@ -1586,7 +2068,11 @@ s223:Conductor a s223:Class, rdfs:comment """A Conductor is a subclass of Connection. It is an abstraction that represents one or more wires used to convey electricity, with the electricity conceptualized as flowing through a Conductor like water through a pipe. Each instance of Conductor applies to no more than one circuit."""^^xsd:string ; rdfs:subClassOf s223:Connection ; - sh:property [ rdfs:comment "A Conductor must be associated with exactly one Constituent-Electricity using the relation hasMedium."^^xsd:string ; + sh:property [ rdfs:comment "If the relation hasElectricalPhase is present it must associate the Conductor with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:message "s223: If the relation hasElectricalPhase is present it must associate the Conductor with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:or ( [ sh:class s223:Aspect-ElectricalPhaseIdentifier ] [ sh:class s223:Aspect-ElectricalVoltagePhases ] ) ; + sh:path s223:hasElectricalPhase ], + [ rdfs:comment "A Conductor must be associated with exactly one Constituent-Electricity using the relation hasMedium."^^xsd:string ; sh:class s223:Constituent-Electricity ; sh:maxCount 1 ; sh:message "s223: A Conductor must be associated with exactly one Constituent-Electricity using the relation hasMedium."^^xsd:string ; @@ -1594,14 +2080,40 @@ s223:Conductor a s223:Class, sh:path s223:hasMedium ], [ rdfs:comment "If the relation hasElectricalPhase is present it must associate the Conductor with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; sh:message "s223: If the relation hasElectricalPhase is present it must associate the Conductor with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; - sh:or ( [ sh:class s223:Aspect-ElectricalPhaseIdentifier ] [ sh:class s223:Aspect-ElectricalVoltagePhases ] ) ; - sh:path s223:hasElectricalPhase ] . + sh:or ( [ sh:class s223:EnumerationKind-ElectricalPhaseIdentifier ] [ sh:class s223:EnumerationKind-ElectricalVoltagePhases ] ) ; + sh:path s223:hasElectricalPhase ], + [ rdfs:comment "A Conductor must be associated with exactly one Constituent-Electricity using the relation hasMedium."^^xsd:string ; + sh:class s223:Constituent-Electricity ; + sh:maxCount 1 ; + sh:message "s223: A Conductor must be associated with exactly one Constituent-Electricity using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasMedium ] . s223:ConnectionCnxShape a sh:NodeShape ; rdfs:label "ConnectionCnxShape"^^xsd:string ; rdfs:comment "You need either an InletCP and an OutletCP, or at least one BidirectionalCP and another CP of any type."^^xsd:string ; sh:message "s223: You need either an InletCP and an OutletCP, or at least one BidirectionalCP and another CP of any type."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A Connection shall have at least two connectsAt relations allowing flow in and out of the Connection."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:connectsAt ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ; + sh:severity sh:Warning ], + [ rdfs:comment "A Connection shall have at least two connectsAt relations allowing flow in and out of the Connection."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:connectsAt ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ; + sh:severity sh:Warning ] ] [ sh:property [ rdfs:comment "A Connection shall have at least two connectsAt relations allowing flow in and out of the Connection."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:connectsAt ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ; + sh:severity sh:Warning ] ] ), + ( [ sh:property [ rdfs:comment "A Connection shall have at least two connectsAt relations allowing flow in and out of the Connection."^^xsd:string ; sh:minCount 1 ; sh:path s223:connectsAt ; sh:qualifiedMinCount 1 ; @@ -1630,6 +2142,10 @@ s223:Controller a s223:Class, rdfs:comment "A device for regulation of a system or component in normal operation, which executes a Function."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:property [ rdfs:comment "If the relation executes is present it must associate the Controller with a Function."^^xsd:string ; + sh:class s223:Function ; + sh:message "s223: If the relation executes is present it must associate the Controller with a Function."^^xsd:string ; + sh:path s223:executes ], + [ rdfs:comment "If the relation executes is present it must associate the Controller with a Function."^^xsd:string ; sh:class s223:Function ; sh:message "s223: If the relation executes is present it must associate the Controller with a Function."^^xsd:string ; sh:path s223:executes ] ; @@ -1662,6 +2178,22 @@ s223:CoolingTower a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A CoolingTower shall have at least one inlet using the medium Water."^^xsd:string ; + sh:message "s223: A CoolingTower shall have at least one inlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A CoolingTower shall have at least one outlet using the medium Water."^^xsd:string ; + sh:message "s223: A CoolingTower shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A CoolingTower shall have at least one outlet using the medium Water."^^xsd:string ; sh:message "s223: A CoolingTower shall have at least one outlet using the medium Water."^^xsd:string ; sh:minCount 1 ; @@ -1677,6 +2209,13 @@ s223:CorrelatedColorTemperatureSensor a s223:Class, rdfs:comment "A subclass of LightSensor that observes the correlated color temperature (CCT) of a light source, defined as the absolute temperature of a blackbody whose chromaticity most nearly resembles that of the light source."^^xsd:string ; rdfs:subClassOf s223:LightSensor ; sh:property [ rdfs:comment "A CorrelatedColorTemperatureSensor must always observe a Property that has a QuantityKind of ThermodynamicTemperature."^^xsd:string ; + sh:message "s223: A CorrelatedColorTemperatureSensor must always observe a Property that has a QuantityKind of ThermodynamicTemperature."^^xsd:string ; + sh:path s223:observes ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ] ], + [ rdfs:comment "A CorrelatedColorTemperatureSensor must always observe a Property that has a QuantityKind of ThermodynamicTemperature."^^xsd:string ; sh:message "s223: A CorrelatedColorTemperatureSensor must always observe a Property that has a QuantityKind of ThermodynamicTemperature."^^xsd:string ; sh:path s223:observes ; sh:qualifiedMinCount 1 ; @@ -1690,6 +2229,14 @@ s223:Door a s223:Class, rdfs:comment "A hinged, sliding, or revolving barrier at the entrance to a building or room."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:property [ rdfs:comment "A Door shall have at least two bidirectional connection points using the medium Air."^^xsd:string ; + sh:message "s223: A Door shall have at least two bidirectional connection points using the medium Air."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Door shall have at least two bidirectional connection points using the medium Air."^^xsd:string ; sh:message "s223: A Door shall have at least two bidirectional connection points using the medium Air."^^xsd:string ; sh:minCount 2 ; sh:path s223:hasConnectionPoint ; @@ -1705,6 +2252,14 @@ s223:DualDuctTerminal a s223:Class, rdfs:seeAlso s223:TerminalUnit ; rdfs:subClassOf s223:TerminalUnit ; sh:property [ rdfs:comment "A DualDuctTerminal shall have at least two inlets using the medium Air."^^xsd:string ; + sh:message "s223: A DualDuctTerminal shall have at least two inlets using the medium Air."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A DualDuctTerminal shall have at least two inlets using the medium Air."^^xsd:string ; sh:message "s223: A DualDuctTerminal shall have at least two inlets using the medium Air."^^xsd:string ; sh:minCount 2 ; sh:path s223:hasConnectionPoint ; @@ -1725,6 +2280,13 @@ s223:DuvSensor a s223:Class, rdfs:comment "A subclass of LightSensor that observes Duv of a light source, defined as the distance between the chromaticity of the light source and a blackbody radiator of equal correlated color temperature (CCT)."^^xsd:string ; rdfs:subClassOf s223:LightSensor ; sh:property [ rdfs:comment "A DuvSensor must always observe a Property that has a QuantityKind of Duv."^^xsd:string ; + sh:message "s223: A DuvSensor must always observe a Property that has a QuantityKind of Duv."^^xsd:string ; + sh:path s223:observes ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ] ], + [ rdfs:comment "A DuvSensor must always observe a Property that has a QuantityKind of Duv."^^xsd:string ; sh:message "s223: A DuvSensor must always observe a Property that has a QuantityKind of Duv."^^xsd:string ; sh:path s223:observes ; sh:qualifiedMinCount 1 ; @@ -1738,6 +2300,14 @@ s223:ElectricBreaker a s223:Class, rdfs:comment "A piece of equipment designed to open the circuit automatically at a predetermined overcurrent without damage to itself (when properly applied within its rating)."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:property [ rdfs:comment "An ElectricBreaker shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricBreaker shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricBreaker shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:message "s223: An ElectricBreaker shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -1757,7 +2327,16 @@ s223:ElectricOutlet a s223:Class, rdfs:label "Electric outlet"^^xsd:string ; rdfs:comment "A device to which a piece of electrical equipment can be connected in order to provide it with electricity"^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "An ElectricOutlet shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:property [ rdfs:comment "An ElectricOutlet shall have exactly one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricOutlet shall have exactly one inlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricOutlet shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:message "s223: An ElectricOutlet shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -1772,6 +2351,14 @@ s223:ElectricOutlet a s223:Class, sh:qualifiedMaxCount 1 ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricOutlet shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricOutlet shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ] . @@ -1788,6 +2375,22 @@ s223:ElectricTransformer a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricTransformer shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricTransformer shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricTransformer shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricTransformer shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "An ElectricTransformer shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:message "s223: An ElectricTransformer shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; @@ -1802,7 +2405,27 @@ s223:FanCoilUnit a s223:Class, rdfs:label "Fan coil unit"^^xsd:string ; rdfs:comment "A device consisting of a heat exchanger (coil) and a fan to regulate the temperature of one or more spaces."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A FanCoilUnit must be associated with at least 1 Coil using the relation contains."^^xsd:string ; + sh:property [ rdfs:comment "A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A FanCoilUnit must be associated with at least 1 Fan using the relation contains."^^xsd:string ; + sh:message "s223: A FanCoilUnit must be associated with at least 1 Fan using the relation contains."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:contains ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Fan ] ], + [ rdfs:comment "A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; + sh:message "s223: A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:in ( s223:Role-Heating s223:Role-Cooling ) ] ], + [ rdfs:comment "A FanCoilUnit must be associated with at least 1 Coil using the relation contains."^^xsd:string ; sh:message "s223: A FanCoilUnit must be associated with at least 1 Coil using the relation contains."^^xsd:string ; sh:minCount 1 ; sh:path s223:contains ; @@ -1816,26 +2439,40 @@ s223:FanCoilUnit a s223:Class, sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; - sh:message "s223: A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; + [ rdfs:comment "A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; + sh:message "s223: A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; + sh:path s223:hasRole ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], + sh:qualifiedValueShape [ sh:in ( s223:Role-Heating s223:Role-Cooling ) ] ], [ rdfs:comment "A FanCoilUnit must be associated with at least 1 Fan using the relation contains."^^xsd:string ; sh:message "s223: A FanCoilUnit must be associated with at least 1 Fan using the relation contains."^^xsd:string ; sh:minCount 1 ; sh:path s223:contains ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:Fan ] ], - [ rdfs:comment "A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; - sh:message "s223: A FanCoilUnit must at least have the role Role-Heating or Role-Cooling."^^xsd:string ; + [ rdfs:comment "A FanCoilUnit must be associated with at least 1 Coil using the relation contains."^^xsd:string ; + sh:message "s223: A FanCoilUnit must be associated with at least 1 Coil using the relation contains."^^xsd:string ; sh:minCount 1 ; - sh:path s223:hasRole ; + sh:path s223:contains ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:in ( s223:Role-Heating s223:Role-Cooling ) ] ] . + sh:qualifiedValueShape [ sh:class s223:Coil ] ], + [ rdfs:comment "A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A FanCoilUnit shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A FanCoilUnit shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A FanCoilUnit shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . s223:FanPoweredTerminal a s223:Class, sh:NodeShape ; @@ -1843,6 +2480,12 @@ s223:FanPoweredTerminal a s223:Class, rdfs:comment "An air terminal containing a fan. Airflow may pass through or be parallel to the fan. These units may also have supplemental heating or cooling."^^xsd:string ; rdfs:subClassOf s223:TerminalUnit ; sh:property [ rdfs:comment "A FanPoweredTerminal must be associated with at least one Fan by using the relation contains."^^xsd:string ; + sh:message "s223: A FanPoweredTerminal must be associated with at least one Fan by using the relation contains."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:contains ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Fan ] ], + [ rdfs:comment "A FanPoweredTerminal must be associated with at least one Fan by using the relation contains."^^xsd:string ; sh:message "s223: A FanPoweredTerminal must be associated with at least one Fan by using the relation contains."^^xsd:string ; sh:minCount 1 ; sh:path s223:contains ; @@ -1854,7 +2497,73 @@ s223:Filter a s223:Class, rdfs:label "Filter"^^xsd:string ; rdfs:comment "A device that removes contaminants from gases or liquids."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "Incompatible Medium. Case 3: Associated ConnectionPoints with mediums having constituents."^^xsd:string ; + sh:property [ rdfs:comment "A Filter shall have at least one outlet."^^xsd:string ; + sh:message "s223: A Filter shall have at least one outlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ], + [ rdfs:comment "A Filter shall have at least one outlet."^^xsd:string ; + sh:message "s223: A Filter shall have at least one outlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ], + [ rdfs:comment "A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; + sh:message "s223: A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], + [ rdfs:comment "Incompatible Medium. Case 1: Associated ConnectionPoints with two pure mediums."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: {$this} with inlet medium {?m2} is incompatible with outlet medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?m1 +WHERE { +$this s223:cnx ?cp1, ?cp2 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2) . +?cp1 s223:hasMedium ?m1 . +?cp2 s223:hasMedium ?m2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; + sh:message "s223: A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], + [ rdfs:comment "Incompatible Medium. Case 1: Associated ConnectionPoints with two pure mediums."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: {$this} with inlet medium {?m2} is incompatible with outlet medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?m1 +WHERE { +$this s223:cnx ?cp1, ?cp2 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2) . +?cp1 s223:hasMedium ?m1 . +?cp2 s223:hasMedium ?m2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 3: Associated ConnectionPoints with mediums having constituents."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:sparql [ a sh:SPARQLConstraint ; rdfs:comment "Incompatible Medium. Case 3: Two mediums with constituents."^^xsd:string ; @@ -1883,17 +2592,11 @@ WHERE { } } """^^xsd:string ] ], - [ rdfs:comment "A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; - sh:message "s223: A Filter shall have at least one inlet ConnectionPoint."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], - [ rdfs:comment "Incompatible Medium. Case 1: Associated ConnectionPoints with two pure mediums."^^xsd:string ; + [ rdfs:comment "Incompatible Medium. Case 2: Associated ConnectionPoints, one with a pure medium and one with a medium having constituents.."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; - sh:message "s223: {$this} with inlet medium {?m2} is incompatible with outlet medium {?m1}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 2: A medium with constituents and a pure medium."^^xsd:string ; + sh:message "s223: {$this} has an incompatible medium {?m1} with any constituent of {?m2}."^^xsd:string ; sh:prefixes ; sh:select """ SELECT $this ?m2 ?m1 @@ -1904,10 +2607,41 @@ $this s223:cnx ?cp1, ?cp2 . FILTER (?cp1 != ?cp2) . ?cp1 s223:hasMedium ?m1 . ?cp2 s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS {?m2 s223:composedOf ?c2} -FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . -FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 3: Associated ConnectionPoints with mediums having constituents."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: Two mediums with constituents."^^xsd:string ; + sh:message "s223: For Filter {$this} there is no compatible substance between medium {?m2} and medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT ?this ?m2 ?m1 +WHERE { + ?this s223:cnx ?cp1, ?cp2 . + ?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . + ?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . + FILTER (?cp1 != ?cp2) . + ?cp1 s223:hasMedium ?m1 . + ?cp2 s223:hasMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } } """^^xsd:string ] ], [ rdfs:comment "Incompatible Medium. Case 2: Associated ConnectionPoints, one with a pure medium and one with a medium having constituents.."^^xsd:string ; @@ -1932,13 +2666,7 @@ FILTER NOT EXISTS { {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . } } -"""^^xsd:string ] ], - [ rdfs:comment "A Filter shall have at least one outlet."^^xsd:string ; - sh:message "s223: A Filter shall have at least one outlet."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ] . +"""^^xsd:string ] ] . s223:FlowSensor a s223:Class, sh:NodeShape ; @@ -1959,6 +2687,22 @@ s223:FumeHood a s223:Class, sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A FumeHood shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A FumeHood shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A FumeHood shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A FumeHood shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A FumeHood shall have at least one inlet using the medium Air."^^xsd:string ; sh:message "s223: A FumeHood shall have at least one inlet using the medium Air."^^xsd:string ; sh:minCount 1 ; @@ -1973,6 +2717,13 @@ s223:FunctionPropertyShape a sh:NodeShape ; rdfs:comment "A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; sh:message "s223: A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; + sh:class s223:Property ; + sh:minCount 1 ; + sh:path s223:hasInput ] ] [ sh:property [ rdfs:comment "A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; + sh:class s223:Property ; + sh:minCount 1 ; + sh:path s223:hasOutput ] ] ), + ( [ sh:property [ rdfs:comment "A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; sh:class s223:Property ; sh:minCount 1 ; sh:path s223:hasInput ] ] [ sh:property [ rdfs:comment "A Function must be associated with at least one Property using either the relation hasInput or hasOutput."^^xsd:string ; @@ -1987,7 +2738,15 @@ s223:Furnace a s223:Class, rdfs:label "Furnace"^^xsd:string ; rdfs:comment "An enclosed chamber or structure in which heat is produced, as by burning fuel or by converting electrical energy. "^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Furnace shall have at least one outlet using the medium Air."^^xsd:string ; + sh:property [ rdfs:comment "A Furnace shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A Furnace shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Furnace shall have at least one outlet using the medium Air."^^xsd:string ; sh:message "s223: A Furnace shall have at least one outlet using the medium Air."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -2001,6 +2760,14 @@ s223:Furnace a s223:Class, sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Furnace shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A Furnace shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ] . @@ -2009,23 +2776,44 @@ s223:GaugePressureSensor a s223:Class, rdfs:label "Differential sensor"^^xsd:string ; rdfs:comment "A pressure sensor that indicates pressure relative to atmospheric pressure."^^xsd:string ; rdfs:subClassOf s223:PressureSensor ; - sh:property [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a value of true for qudt:isDeltaQuantity."^^xsd:string ; + sh:property [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; + sh:message "s223: A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; + sh:path ( s223:observes ns1:hasQuantityKind ) ; + sh:value ], + [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; + sh:message "s223: A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; + sh:path ( s223:observes ns1:hasQuantityKind ) ; + sh:value ], + [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a value of true for qudt:isDeltaQuantity."^^xsd:string ; sh:maxCount 1 ; sh:message "s223: A GaugePressureSensor must always observe a Property that has a value of true for qudt:isDeltaQuantity."^^xsd:string ; sh:minCount 1 ; sh:path ( s223:observes ns1:isDeltaQuantity ) ; sh:value true ], - [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; - sh:message "s223: A GaugePressureSensor must always observe a Property that has a QuantityKind of GaugePressure."^^xsd:string ; - sh:path ( s223:observes ns1:hasQuantityKind ) ; - sh:value ] . + [ rdfs:comment "A GaugePressureSensor must always observe a Property that has a value of true for qudt:isDeltaQuantity."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: A GaugePressureSensor must always observe a Property that has a value of true for qudt:isDeltaQuantity."^^xsd:string ; + sh:minCount 1 ; + sh:path ( s223:observes ns1:isDeltaQuantity ) ; + sh:value true ] . s223:Generator a s223:Class, sh:NodeShape ; rdfs:label "Generator"^^xsd:string ; rdfs:comment "An energy transducer that transforms non-electric energy into electric energy."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Generator shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:property [ rdfs:comment "A Generator must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; + sh:message "s223: A Generator must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A Generator shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: A Generator shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A Generator shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:class s223:OutletConnectionPoint ; sh:message "s223: A Generator shall have at least one outlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; @@ -2050,7 +2838,43 @@ s223:GroundSourceHeatPump a s223:Class, sh:path s223:hasMedium ] ] ; sh:path s223:hasConnectionPoint ] . +s223:GroundToAirHeatPump a s223:Class, + sh:NodeShape ; + rdfs:label "Ground to air heat pump"^^xsd:string ; + rdfs:comment "A subclass of HeatPump that can heat or cool air by transferring thermal energy to and from the ground."^^xsd:string ; + rdfs:subClassOf s223:HeatPump ; + sh:property [ rdfs:comment "A GroundToAirHeatPump shall have at least one BidirectionalConnectionPoint using Medium-ThermalContact."^^xsd:string ; + sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: A GroundToAirHeatPump shall have at least one BidirectionalConnectionPoint using Medium-ThermalContact."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Medium-ThermalContact ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A GroundToAirHeatPump shall have at least one outlet using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: A GroundToAirHeatPump shall have at least one outlet using the medium Fluid-Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A GroundToAirHeatPump shall have at least one inlet using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: A GroundToAirHeatPump shall have at least one inlet using the medium Fluid-Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + s223:HeatTransferRole sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer the hasRole s223:Role-HeatTransfer relation for every instance of the listed targetClass values."^^xsd:string ; + sh:object s223:Role-HeatTransfer ; + sh:predicate s223:hasRole ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "Infer the hasRole s223:Role-HeatTransfer relation for every instance of the listed targetClass values."^^xsd:string ; sh:object s223:Role-HeatTransfer ; sh:predicate s223:hasRole ; @@ -2081,6 +2905,12 @@ s223:HumiditySensor a s223:Class, rdfs:comment "A HumiditySensor is a specialization of a Sensor that observes a QuantifiableObservableProperty that represents a humidity measurement. "^^xsd:string ; rdfs:subClassOf s223:Sensor ; sh:property [ rdfs:comment "A HumiditySensor must be defined in terms of the QuantityKind that is being measured, which must be either RelativeHumidity or AbsoluteHumidity."^^xsd:string ; + sh:class s223:QuantifiableObservableProperty ; + sh:message "s223: A HumiditySensor must observe a QuantifiableObservableProperty that hasQuantityKind of either RelativeHumidity or AbsoluteHumidity."^^xsd:string ; + sh:node [ sh:property [ sh:or ( [ sh:hasValue ] [ sh:hasValue ] ) ; + sh:path ns1:hasQuantityKind ] ] ; + sh:path s223:observes ], + [ rdfs:comment "A HumiditySensor must be defined in terms of the QuantityKind that is being measured, which must be either RelativeHumidity or AbsoluteHumidity."^^xsd:string ; sh:class s223:QuantifiableObservableProperty ; sh:message "s223: A HumiditySensor must observe a QuantifiableObservableProperty that hasQuantityKind of either RelativeHumidity or AbsoluteHumidity."^^xsd:string ; sh:node [ sh:property [ sh:or ( [ sh:hasValue ] [ sh:hasValue ] ) ; @@ -2093,6 +2923,13 @@ s223:IlluminanceSensor a s223:Class, rdfs:comment "A subclass of LightSensor that observes illuminance, defined as the areal density of the luminous flux incident at a point on a surface."^^xsd:string ; rdfs:subClassOf s223:LightSensor ; sh:property [ rdfs:comment "An IlluminanceSensor will always observe a Property that has a QuantityKind of Illuminance."^^xsd:string ; + sh:message "s223: An IlluminanceSensor will always observe a Property that has a QuantityKind of Illuminance."^^xsd:string ; + sh:path s223:observes ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ] ], + [ rdfs:comment "An IlluminanceSensor will always observe a Property that has a QuantityKind of Illuminance."^^xsd:string ; sh:message "s223: An IlluminanceSensor will always observe a Property that has a QuantityKind of Illuminance."^^xsd:string ; sh:path s223:observes ; sh:qualifiedMinCount 1 ; @@ -2107,6 +2944,18 @@ s223:InversePropertyShape a sh:NodeShape ; CONSTRUCT { ?o ?invP $this . } +WHERE { + $this ?p ?o . + ?p s223:inverseOf ?invP . +} + """^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Declare the inverse triples for relations that have defined inverse relations"^^xsd:string ; + sh:construct """ +CONSTRUCT { +?o ?invP $this . +} WHERE { $this ?p ?o . ?p s223:inverseOf ?invP . @@ -2135,6 +2984,22 @@ s223:Inverter a s223:Class, sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Electricity-DC ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An Inverter shall have at least one inlet using the medium Electricity-DC."^^xsd:string ; + sh:message "s223: An Inverter shall have at least one inlet using the medium Electricity-DC."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Electricity-DC ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An Inverter shall have at least one outlet using the medium Electricity-AC."^^xsd:string ; + sh:message "s223: An Inverter shall have at least one outlet using the medium Electricity-AC."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Electricity-AC ; sh:path s223:hasMedium ] ] ] ] . s223:JunctionCPShape a sh:NodeShape ; @@ -2145,13 +3010,30 @@ s223:JunctionCPShape a sh:NodeShape ; sh:minCount 2 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ; sh:qualifiedValueShapesDisjoint true ], [ rdfs:comment "A Junction shall have at least two ConnectionPoints including (a) at least one inlet and one outlet, or (b) at least one bidirectional connection point."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ] ] [ sh:property [ rdfs:comment "A Junction shall have at least two ConnectionPoints including (a) at least one inlet and one outlet, or (b) at least one bidirectional connection point."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ] ] ), + ( [ sh:property [ rdfs:comment "A Junction shall have at least two ConnectionPoints including (a) at least one inlet and one outlet, or (b) at least one bidirectional connection point."^^xsd:string ; sh:minCount 2 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "A Junction shall have at least two ConnectionPoints including (a) at least one inlet and one outlet, or (b) at least one bidirectional connection point."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ; sh:qualifiedValueShapesDisjoint true ] ] [ sh:property [ rdfs:comment "A Junction shall have at least two ConnectionPoints including (a) at least one inlet and one outlet, or (b) at least one bidirectional connection point."^^xsd:string ; sh:minCount 2 ; sh:path s223:hasConnectionPoint ; @@ -2182,6 +3064,26 @@ s223:JunctionUsageWarning a sh:NodeShape ; )) } . } + """^^xsd:string ; + sh:severity sh:Warning ], + [ a sh:SPARQLConstraint ; + rdfs:comment "This Junction is not used to model significant details of a branching point in a connection, and may not be required."^^xsd:string ; + sh:message "This Junction {$this} is not used to model significant details of a branching point in a connection, and may not be required."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this + WHERE { + $this s223:hasConnectionPoint? | s223:connectedThrough? ?junc_cp_conn . + + FILTER NOT EXISTS { + # Connection has a relation that is not in the structural or required relationships + { ?junc_cp_conn ?p ?o . } UNION {?o ?p ?junc_cp_conn . } + FILTER (?p NOT IN ( + s223:connected, s223:connectedTo, s223:connectedThrough, s223:hasConnectionPoint, + s223:connectsAt, s223:isConnectionPointOf, s223:cnx, rdf:type, rdfs:label, rdfs:comment + )) + } . + } """^^xsd:string ; sh:severity sh:Warning ] ; sh:targetClass s223:Junction . @@ -2191,13 +3093,13 @@ s223:Luminaire a s223:Class, rdfs:label "Luminaire"^^xsd:string ; rdfs:comment "A complete lighting unit consisting of a light source(s) and ballast(s) or driver(s) (when applicable), together with the parts designed to distribute the light, to position and protect the light source(s), and to connect the light source(s) to the power supply. Also known as a light fixture."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; - sh:message "s223: A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:property [ rdfs:comment "A Luminaire shall have at least one outlet using the medium EM-Light."^^xsd:string ; + sh:message "s223: A Luminaire shall have at least one outlet using the medium EM-Light."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A Luminaire shall have at least one outlet using the medium EM-Light."^^xsd:string ; sh:message "s223: A Luminaire shall have at least one outlet using the medium EM-Light."^^xsd:string ; @@ -2206,6 +3108,22 @@ s223:Luminaire a s223:Class, sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A Luminaire shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ] . s223:Motor a s223:Class, @@ -2214,6 +3132,14 @@ s223:Motor a s223:Class, rdfs:comment "A machine in which power is applied to do work by the conversion of various forms of energy into mechanical force and motion."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:property [ rdfs:comment "A Motor shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A Motor shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Motor shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:message "s223: A Motor shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -2237,6 +3163,17 @@ s223:OccupantCounter a s223:Class, [ sh:hasValue ; sh:maxCount 1 ; sh:path ns1:hasUnit ] ] ; + sh:path s223:observes ], + [ rdfs:comment "An OccupantCounter must always observe a QuantifiableObservableProperty that has a QuantityKind of Population and a Unit of unit:NUM."^^xsd:string ; + sh:class s223:QuantifiableObservableProperty ; + sh:message "s223: An OccupantCounter must always observe a QuantifiableObservableProperty that has a QuantityKind of Population and a Unit of unit:NUM."^^xsd:string ; + sh:minCount 1 ; + sh:node [ sh:property [ sh:hasValue ; + sh:maxCount 1 ; + sh:path ns1:hasUnit ], + [ sh:hasValue ; + sh:maxCount 1 ; + sh:path ns1:hasQuantityKind ] ] ; sh:path s223:observes ] . s223:OccupantMotionSensor a s223:Class, @@ -2245,6 +3182,14 @@ s223:OccupantMotionSensor a s223:Class, rdfs:comment "A subclass of OccupancySensor that observes motion within its sensing region."^^xsd:string ; rdfs:subClassOf s223:OccupancySensor ; sh:property [ rdfs:comment "An OccupantMotionSensor must always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Motion."^^xsd:string ; + sh:class s223:EnumeratedObservableProperty ; + sh:message "s223: An OccupantMotionSensor must always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Motion."^^xsd:string ; + sh:minCount 1 ; + sh:node [ sh:property [ sh:class s223:Occupancy-Motion ; + sh:maxCount 1 ; + sh:path s223:hasEnumerationKind ] ] ; + sh:path s223:observes ], + [ rdfs:comment "An OccupantMotionSensor must always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Motion."^^xsd:string ; sh:class s223:EnumeratedObservableProperty ; sh:message "s223: An OccupantMotionSensor must always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Motion."^^xsd:string ; sh:minCount 1 ; @@ -2259,6 +3204,14 @@ s223:OccupantPresenceSensor a s223:Class, rdfs:comment "A subclass of OccupancySensor that observes presence within its sensing region."^^xsd:string ; rdfs:subClassOf s223:OccupancySensor ; sh:property [ rdfs:comment "An OccupantPresenceSensor will always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Presence."^^xsd:string ; + sh:class s223:EnumeratedObservableProperty ; + sh:message "s223: An OccupantPresenceSensor will always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Presence."^^xsd:string ; + sh:minCount 1 ; + sh:node [ sh:property [ sh:class s223:Occupancy-Presence ; + sh:maxCount 1 ; + sh:path s223:hasEnumerationKind ] ] ; + sh:path s223:observes ], + [ rdfs:comment "An OccupantPresenceSensor will always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Presence."^^xsd:string ; sh:class s223:EnumeratedObservableProperty ; sh:message "s223: An OccupantPresenceSensor will always observe an EnumeratedObservableProperty that has an EnumerationKind of Occupancy-Presence."^^xsd:string ; sh:minCount 1 ; @@ -2287,6 +3240,10 @@ Explicitly declaring the quantity kind of a sensor's output is preferable to rel """^^xsd:string ; rdfs:subClassOf s223:Sensor ; sh:property [ rdfs:comment "If the relation ofSubstance is present it must associate the ParticulateSensor with a Substance-Particulate."^^xsd:string ; + sh:class s223:Substance-Particulate ; + sh:message "s223: If the relation ofSubstance is present it must associate the ParticulateSensor with a Substance-Particulate."^^xsd:string ; + sh:path s223:ofSubstance ], + [ rdfs:comment "If the relation ofSubstance is present it must associate the ParticulateSensor with a Substance-Particulate."^^xsd:string ; sh:class s223:Substance-Particulate ; sh:message "s223: If the relation ofSubstance is present it must associate the ParticulateSensor with a Substance-Particulate."^^xsd:string ; sh:path s223:ofSubstance ] . @@ -2311,6 +3268,22 @@ s223:PhotovoltaicModule a s223:Class, sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An PhotovoltaicModule must have at least one inlet using the medium EM-Light."^^xsd:string ; + sh:message "s223: An PhotovoltaicModule must have at least one inlet using the medium EM-Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An PhotovoltaicModule shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An PhotovoltaicModule shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ] . s223:Pipe a s223:Class, @@ -2331,6 +3304,20 @@ s223:PowerOverEthernetSwitch a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A PowerOverEthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A PowerOverEthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A PowerOverEthernetSwitch shall have at least one BidirectionalConnectionPoint using the medium PowerAndSignal-PoE."^^xsd:string ; + sh:message "s223: A PowerOverEthernetSwitch shall have at least one BidirectionalConnectionPoint using the medium PowerAndSignal-PoE."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:PowerAndSignal-PoE ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A PowerOverEthernetSwitch shall have at least one BidirectionalConnectionPoint using the medium PowerAndSignal-PoE."^^xsd:string ; sh:message "s223: A PowerOverEthernetSwitch shall have at least one BidirectionalConnectionPoint using the medium PowerAndSignal-PoE."^^xsd:string ; sh:path s223:hasConnectionPoint ; @@ -2344,7 +3331,28 @@ s223:Pump a s223:Class, rdfs:label "Pump"^^xsd:string ; rdfs:comment "A machine for imparting energy to a fluid, drawing a fluid into itself through an entrance port, and forcing the fluid out through an exhaust port."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:property [ rdfs:comment "The non-electrical ConnectionPoints of a Pump must have compatible Media."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "The non-electrical ConnectionPoints of a Pump must have compatible Media."^^xsd:string ; + sh:message "s223: {?cpa} and {?cpb} on the Pump {$this} have incompatible Media {$mediuma} and {$mediumb}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cpa ?cpb ?mediuma ?mediumb +WHERE { + $this s223:hasConnectionPoint ?cpa . + $this s223:hasConnectionPoint ?cpb . + FILTER (?cpa != ?cpb) . + ?cpa s223:hasMedium ?mediuma . + FILTER (NOT EXISTS {?mediuma a/rdfs:subClassOf* s223:Constituent-Electricity}) . + ?cpb s223:hasMedium ?mediumb . + FILTER (NOT EXISTS {?mediumb a/rdfs:subClassOf* s223:Constituent-Electricity}) . + FILTER (?mediuma != ?mediumb) . + FILTER (NOT EXISTS {?mediumb a/rdfs:subClassOf* ?mediuma}) . + FILTER (NOT EXISTS {?mediuma a/rdfs:subClassOf* ?mediumb}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; sh:message "s223: A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -2357,19 +3365,6 @@ s223:Pump a s223:Class, sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Oil ; sh:path s223:hasMedium ] ] ) ; sh:severity sh:Warning ] ] ], - [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; - sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; - sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; - sh:or ( [ sh:property [ sh:class s223:Fluid-Water ; - sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Refrigerant ; - sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Oil ; - sh:path s223:hasMedium ] ] ) ; - sh:severity sh:Warning ] ] ], [ rdfs:comment "The non-electrical ConnectionPoints of a Pump must have compatible Media."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:sparql [ a sh:SPARQLConstraint ; @@ -2390,7 +3385,46 @@ WHERE { FILTER (NOT EXISTS {?mediumb a/rdfs:subClassOf* ?mediuma}) . FILTER (NOT EXISTS {?mediuma a/rdfs:subClassOf* ?mediumb}) . } -"""^^xsd:string ] ] . +"""^^xsd:string ] ], + [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:or ( [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Refrigerant ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Oil ; + sh:path s223:hasMedium ] ] ) ; + sh:severity sh:Warning ] ] ], + [ rdfs:comment "A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ rdfs:comment "A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one outlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:or ( [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Refrigerant ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Oil ; + sh:path s223:hasMedium ] ] ) ; + sh:severity sh:Warning ] ] ], + [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ rdfs:comment "A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:message "s223: A Pump shall have at least one inlet using the medium Water, Oil or Refrigerant."^^xsd:string ; + sh:or ( [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Refrigerant ; + sh:path s223:hasMedium ] ] [ sh:property [ sh:class s223:Fluid-Oil ; + sh:path s223:hasMedium ] ] ) ; + sh:severity sh:Warning ] ] ] . s223:RadiantHeaterInletShape a sh:NodeShape ; rdfs:label "Radiant heater inlet shape"^^xsd:string ; @@ -2399,6 +3433,26 @@ s223:RadiantHeaterInletShape a sh:NodeShape ; sh:severity sh:Warning ; sh:targetClass s223:RadiantHeater ; sh:xone ( [ sh:property [ rdfs:comment "A radiant heater shall have at least one inlet using the medium Electricity, NaturalGas, or inlet and outlet of Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:or ( [ sh:class s223:Constituent-Electricity ] [ sh:class s223:Fluid-NaturalGas ] ) ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "A radiant heater shall have at least one inlet using the medium Electricity, NaturalGas, or inlet and outlet of Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A radiant heater shall have at least one inlet using the medium Electricity, NaturalGas, or inlet and outlet of Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A radiant heater shall have at least one inlet using the medium Electricity, NaturalGas, or inlet and outlet of Water."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; @@ -2443,6 +3497,26 @@ s223:RadiatorInletShape a sh:NodeShape ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ] ] ), + ( [ sh:property [ rdfs:comment "A Radiator shall have at least one inlet using the medium Electricity or inlet and outlet of Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "A Radiator shall have at least one inlet using the medium Electricity or Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Radiator shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ] ] ) . @@ -2460,6 +3534,19 @@ $this sh:property ?propshape . ?propshape sh:path ?path . FILTER NOT EXISTS {?sparqlconstraint rdfs:comment ?comment} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that any property shape must have an rdfs:comment. "^^xsd:string ; + sh:message "s223: The SPARQLConstraint for path {?path} for Class {$this} must have an rdfs:comment."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?path +WHERE { +$this sh:property ?propshape . +?propshape sh:sparql ?sparqlconstraint . +?propshape sh:path ?path . +FILTER NOT EXISTS {?sparqlconstraint rdfs:comment ?comment} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2476,6 +3563,18 @@ $this sh:property ?propshape . ?propshape sh:path ?path . FILTER NOT EXISTS {?propshape rdfs:comment ?comment} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that any property shape must have an rdfs:comment. "^^xsd:string ; + sh:message "s223: The property shape with path {?path} for Class {$this} must have an rdfs:comment."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?path +WHERE { +$this sh:property ?propshape . +?propshape sh:path ?path . +FILTER NOT EXISTS {?propshape rdfs:comment ?comment} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2492,6 +3591,18 @@ $this sh:rule ?rule . ?rule a sh:SPARQLRule . FILTER NOT EXISTS {?rule rdfs:comment ?comment} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that every SPARQLRule must have an rdfs:comment. "^^xsd:string ; + sh:message "s223: Every SPARQLRule for Class {$this} must have an rdfs:comment."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this sh:rule ?rule . +?rule a sh:SPARQLRule . +FILTER NOT EXISTS {?rule rdfs:comment ?comment} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2509,6 +3620,19 @@ $this sh:rule ?rule . ?rule sh:predicate ?pred . FILTER NOT EXISTS {?rule rdfs:comment ?comment} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that every TripleRule must have an rdfs:comment. "^^xsd:string ; + sh:message "s223: The TripleRule inferring {?pred} for Class {$this} must have an rdfs:comment."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?pred +WHERE { +$this sh:rule ?rule . +?rule a sh:TripleRule . +?rule sh:predicate ?pred . +FILTER NOT EXISTS {?rule rdfs:comment ?comment} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2523,6 +3647,16 @@ SELECT $this WHERE { FILTER NOT EXISTS {$this a sh:NodeShape} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Every class of the 223 standard must also be an instance of sh:NodeShape. "^^xsd:string ; + sh:message "s223: Class {$this} must be declared as an instance of sh:NodeShape."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +FILTER NOT EXISTS {$this a sh:NodeShape} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2538,6 +3672,17 @@ WHERE { FILTER NOT EXISTS {$this rdfs:subClassOf* rdf:Property} . FILTER NOT EXISTS {$this rdfs:subClassOf* s223:Concept} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Every class of the 223 standard must be a direct or indirect subclass of s223:Concept. "^^xsd:string ; + sh:message "s223: Class {$this} must be within the rdfs:subClassOf hierarchy under s223:Concept."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +FILTER NOT EXISTS {$this rdfs:subClassOf* rdf:Property} . +FILTER NOT EXISTS {$this rdfs:subClassOf* s223:Concept} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2552,6 +3697,16 @@ SELECT $this WHERE { FILTER NOT EXISTS {$this rdfs:comment ?comment} . } +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Every class of the 223 standard must have an rdfs:comment. "^^xsd:string ; + sh:message "s223: Class {$this} must have an rdfs:comment."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +FILTER NOT EXISTS {$this rdfs:comment ?comment} . +} """^^xsd:string ] ; sh:targetClass s223:Class . @@ -2561,6 +3716,19 @@ s223:SensorObservationLocationShape a sh:NodeShape ; sh:message "s223: A Sensor must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasObservationLocation."^^xsd:string ; sh:targetClass s223:Sensor ; sh:xone ( [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasObservationLocation."^^xsd:string ; + sh:class s223:Connectable ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasObservationLocation ] ] [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasObservationLocation."^^xsd:string ; + sh:class s223:Connection ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasObservationLocation ] ] [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasObservationLocation."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:hasObservationLocation ] ] ), + ( [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasObservationLocation."^^xsd:string ; sh:class s223:Connectable ; sh:maxCount 1 ; sh:minCount 1 ; @@ -2580,6 +3748,15 @@ s223:SensorObservesShape a sh:NodeShape ; sh:message "s223: A Sensor must be associated with exactly 1 of QuantifiableObservableProperty or EnumeratedObservableProperty using the relation observes."^^xsd:string ; sh:targetClass s223:Sensor ; sh:xone ( [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of QuantifiableObservableProperty or EnumeratedObservableProperty using the relation observes."^^xsd:string ; + sh:class s223:QuantifiableObservableProperty ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:observes ] ] [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of QuantifiableObservableProperty or EnumeratedObservableProperty using the relation observes."^^xsd:string ; + sh:class s223:EnumeratedObservableProperty ; + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path s223:observes ] ] ), + ( [ sh:property [ rdfs:comment "A Sensor must be associated with exactly 1 of QuantifiableObservableProperty or EnumeratedObservableProperty using the relation observes."^^xsd:string ; sh:class s223:QuantifiableObservableProperty ; sh:maxCount 1 ; sh:minCount 1 ; @@ -2594,6 +3771,13 @@ s223:SensorReferenceLocationShape a sh:NodeShape ; rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; sh:message "s223: A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:class s223:Connectable ; + sh:path s223:hasReferenceLocation ] ] [ sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:class s223:Connection ; + sh:path s223:hasReferenceLocation ] ] [ sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:path s223:hasReferenceLocation ] ] ), + ( [ sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; sh:class s223:Connectable ; sh:path s223:hasReferenceLocation ] ] [ sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; sh:class s223:Connection ; @@ -2601,6 +3785,9 @@ s223:SensorReferenceLocationShape a sh:NodeShape ; sh:class s223:ConnectionPoint ; sh:path s223:hasReferenceLocation ] ] ) ; sh:property [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:maxCount 1 ; + sh:path s223:hasReferenceLocation ], + [ rdfs:comment "A Sensor can be associated with a maximum of one Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; sh:maxCount 1 ; sh:path s223:hasReferenceLocation ] ; sh:targetClass s223:Sensor . @@ -2611,6 +3798,12 @@ s223:SingleDuctTerminal a s223:Class, rdfs:comment "An air-terminal unit assembly having one ducted air inlet and a damper for regulating the airflow rate."^^xsd:string ; rdfs:subClassOf s223:TerminalUnit ; sh:property [ rdfs:comment "A SingleDuctTerminal must be associated with at least one Damper using the relation contains."^^xsd:string ; + sh:message "s223: A SingleDuctTerminal must be associated with at least one Damper using the relation contains."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:contains ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Damper ] ], + [ rdfs:comment "A SingleDuctTerminal must be associated with at least one Damper using the relation contains."^^xsd:string ; sh:message "s223: A SingleDuctTerminal must be associated with at least one Damper using the relation contains."^^xsd:string ; sh:minCount 1 ; sh:path s223:contains ; @@ -2622,7 +3815,15 @@ s223:SolarThermalCollector a s223:Class, rdfs:label "Solar thermal collector"^^xsd:string ; rdfs:comment "A device that converts sunlight into thermal energy."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A SolarThermalCollector shall have at least one inlet using the medium EM-Light."^^xsd:string ; + sh:property [ rdfs:comment "A SolarThermalCollector shall have at least one outlet using the medium Water."^^xsd:string ; + sh:message "s223: A SolarThermalCollector shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A SolarThermalCollector shall have at least one inlet using the medium EM-Light."^^xsd:string ; sh:message "s223: A SolarThermalCollector shall have at least one inlet using the medium EM-Light."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -2637,6 +3838,14 @@ s223:SolarThermalCollector a s223:Class, sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A SolarThermalCollector shall have at least one inlet using the medium EM-Light."^^xsd:string ; + sh:message "s223: A SolarThermalCollector shall have at least one inlet using the medium EM-Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; sh:path s223:hasMedium ] ] ] ] . s223:SymmetricPropertyShape a sh:NodeShape ; @@ -2646,6 +3855,18 @@ s223:SymmetricPropertyShape a sh:NodeShape ; CONSTRUCT { ?o ?p $this . } +WHERE { + $this ?p ?o . + ?p a s223:SymmetricProperty . +} + """^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Declare the inverse triples for symmetric relations"^^xsd:string ; + sh:construct """ +CONSTRUCT { +?o ?p $this . +} WHERE { $this ?p ?o . ?p a s223:SymmetricProperty . @@ -2660,6 +3881,13 @@ s223:TemperatureSensor a s223:Class, rdfs:comment "A TemperatureSensor is a specialization of a Sensor that observes a QuantifiableObservableProperty that represents a temperature measurement."^^xsd:string ; rdfs:subClassOf s223:Sensor ; sh:property [ rdfs:comment "A TemperatureSensor must always observe a Property that has a QuantityKind of Temperature."^^xsd:string ; + sh:message "s223: A TemperatureSensor must always observe a Property that has a QuantityKind of Temperature."^^xsd:string ; + sh:path s223:observes ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ] ], + [ rdfs:comment "A TemperatureSensor must always observe a Property that has a QuantityKind of Temperature."^^xsd:string ; sh:message "s223: A TemperatureSensor must always observe a Property that has a QuantityKind of Temperature."^^xsd:string ; sh:path s223:observes ; sh:qualifiedMinCount 1 ; @@ -2673,6 +3901,11 @@ s223:ThermalEnergyStorageUnit a s223:Class, rdfs:comment "A device that stores thermal energy."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:property [ rdfs:comment "A Thermal Energy Storage Unit must have at least two connection points."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A Thermal Energy Storage Unit must have at least two connection points."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A Thermal Energy Storage Unit must have at least two connection points."^^xsd:string ; sh:class s223:ConnectionPoint ; sh:message "s223: A Thermal Energy Storage Unit must have at least two connection points."^^xsd:string ; sh:minCount 2 ; @@ -2690,6 +3923,10 @@ s223:ThreeWayValve a s223:Class, rdfs:comment "A Valve that can divert a fluid in one of three directions."^^xsd:string ; rdfs:subClassOf s223:Valve ; sh:property [ rdfs:comment "A ThreeWayValve must have at least three ConnectionPoints using the relation hasConnectionPoint."^^xsd:string ; + sh:message "s223: A ThreeWayValve must have at least three ConnectionPoints using the relation hasConnectionPoint."^^xsd:string ; + sh:minCount 3 ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A ThreeWayValve must have at least three ConnectionPoints using the relation hasConnectionPoint."^^xsd:string ; sh:message "s223: A ThreeWayValve must have at least three ConnectionPoints using the relation hasConnectionPoint."^^xsd:string ; sh:minCount 3 ; sh:path s223:hasConnectionPoint ] . @@ -2709,6 +3946,17 @@ s223:Turbine a s223:Class, [ rdfs:comment "A Turbine must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; sh:message "s223: A Turbine must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; sh:minCount 1 ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A Turbine must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; + sh:message "s223: A Turbine must be associated with at least one ConnectionPoint using the relation hasConnectionPoint."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "A Turbine shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: A Turbine shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ; sh:path s223:hasConnectionPoint ] . s223:TwoWayValve a s223:Class, @@ -2722,6 +3970,18 @@ s223:TwoWayValve a s223:Class, sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], + [ rdfs:comment "A TwoWayValve shall have at least one inlet."^^xsd:string ; + sh:message "s223: A TwoWayValve shall have at least one inlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ], + [ rdfs:comment "A TwoWayValve shall have at least one outlet."^^xsd:string ; + sh:message "s223: A TwoWayValve shall have at least one outlet."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ], [ rdfs:comment "A TwoWayValve shall have at least one outlet."^^xsd:string ; sh:message "s223: A TwoWayValve shall have at least one outlet."^^xsd:string ; sh:minCount 1 ; @@ -2734,6 +3994,23 @@ s223:ValveCPShape a sh:NodeShape ; rdfs:comment "A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; sh:message "s223: A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; sh:or ( [ sh:property [ rdfs:comment "A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ] ] [ sh:property [ rdfs:comment "A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ] ; + sh:qualifiedValueShapesDisjoint true ] ] ), + ( [ sh:property [ rdfs:comment "A Valve shall have at least one inlet and one outlet or two bidirectional connection points."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; @@ -2758,18 +4035,15 @@ s223:VariableFrequencyDrive a s223:Class, rdfs:label "VariableFrequencyDrive"^^xsd:string ; rdfs:comment "An electronic device that varies its output frequency to vary the rotating speed of a motor, given a fixed input frequency. Used with fans or pumps to vary the flow in the system as a function of a maintained pressure."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; - sh:class s223:Equipment ; - sh:message "s223: If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; - sh:path s223:connectedTo ], - [ rdfs:comment "A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; - sh:message "s223: A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:property [ rdfs:comment "A VariableFrequencyDrive shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A VariableFrequencyDrive shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; - sh:path s223:hasMedium ] ] ] ], + sh:path s223:hasMedium ] ] ] ; + sh:severity sh:Warning ], [ rdfs:comment "A VariableFrequencyDrive shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:message "s223: A VariableFrequencyDrive shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:minCount 1 ; @@ -2778,27 +4052,111 @@ s223:VariableFrequencyDrive a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ; - sh:severity sh:Warning ] . + sh:severity sh:Warning ], + [ rdfs:comment "A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; + sh:class s223:Equipment ; + sh:message "s223: If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; + sh:path s223:connectedTo ], + [ rdfs:comment "A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:message "s223: A VariableFrequencyDrive shall have at least one outlet using the medium Electricity."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; + sh:class s223:Equipment ; + sh:message "s223: If the relation connectedTo is present it must associate the VariableFrequencyDrive with a Equipment."^^xsd:string ; + sh:path s223:connectedTo ] . s223:WaterSourceHeatPump a s223:Class, sh:NodeShape ; rdfs:label "Water source heat pump"^^xsd:string ; rdfs:comment "A subclass of HeatPump that can heat or cool by transferring thermal energy to and from a body of water."^^xsd:string ; rdfs:subClassOf s223:HeatPump ; - sh:property [ rdfs:comment "A WaterSourceHeatPump shall have at least one inlet using the medium Water."^^xsd:string ; + sh:property [ rdfs:comment "A WaterSourceHeatPump shall have at least one outlet using the medium Water"^^xsd:string ; + sh:message "s223: A WaterSourceHeatPump shall have at least one outlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A WaterSourceHeatPump shall have at least one inlet using the medium Water."^^xsd:string ; sh:message "s223: A WaterSourceHeatPump shall have at least one inlet using the medium Water."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ] . + +s223:WaterToAirHeatPump a s223:Class, + sh:NodeShape ; + rdfs:label "Water to air heat pump"^^xsd:string ; + rdfs:comment "A subclass of HeatPump that can heat or cool air by transferring thermal energy with a body of water."^^xsd:string ; + rdfs:subClassOf s223:HeatPump ; + sh:property [ rdfs:comment "A WaterToAirHeatPump shall have at least one outlet using the medium Fluid-Water"^^xsd:string ; + sh:message "s223: A WaterToAirHeatPump shall have at least one outlet using the medium Fluid-Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A WaterToAirHeatPump shall have at least one inlet using the medium Fluid-Water."^^xsd:string ; + sh:message "s223: A WaterToAirHeatPump shall have at least one inlet using the medium Fluid-Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A WaterSourceHeatPump shall have at least one outlet using the medium Water"^^xsd:string ; - sh:message "s223: A WaterSourceHeatPump shall have at least one outlet using the medium Water."^^xsd:string ; + [ rdfs:comment "A WaterToAirHeatPump shall have at least one inlet using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: A WaterToAirHeatPump shall have at least one inlet using the medium Fluid-Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A WaterToAirHeatPump shall have at least one outlet using the medium Fluid-Air."^^xsd:string ; + sh:message "s223: A WaterToAirHeatPump shall have at least one outlet using the medium Fluid-Air."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + +s223:WaterToWaterHeatPump a s223:Class, + sh:NodeShape ; + rdfs:label "Water to water heat pump"^^xsd:string ; + rdfs:comment "A subclass of HeatPump that can heat or cool by transferring thermal energy to and from two flows of water."^^xsd:string ; + rdfs:subClassOf s223:HeatPump ; + sh:property [ rdfs:comment "A WaterToWaterHeatPump shall have at least two outlets using the medium Fluid-Water."^^xsd:string ; + sh:message "s223: A WaterToWaterHeatPump shall have at least two outlets using the medium Fluid-Water."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A WaterToWaterHeatPump shall have at least two inlets using the medium Fluid-Water."^^xsd:string ; + sh:message "s223: A WaterToWaterHeatPump shall have at least two inlets using the medium Fluid-Water."^^xsd:string ; + sh:minCount 2 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ] . @@ -2808,6 +4166,14 @@ s223:WindowShade a s223:Class, rdfs:comment "A window covering that can be moved to block out or allow in light. "^^xsd:string ; rdfs:subClassOf s223:Equipment . +s223:hasDeadband a rdf:Property ; + rdfs:label "has deadband"^^xsd:string ; + rdfs:comment "This relation binds a control setpoint to the quantifiable property indicating the range of values within which a sensed variable can vary without indictating a condition has changed."^^xsd:string . + +s223:hasThreshold a rdf:Property ; + rdfs:label "has threshold"^^xsd:string ; + rdfs:comment "This relation binds a threshold to the quantifiable property indicating a specific value at which an action may be taken, distinguished from an offset or a range."^^xsd:string . + s223:inverseOf a rdf:Property ; rdfs:label "inverse of"^^xsd:string ; rdfs:comment "The relation inverseOf is a modeling construct to associate relations that are inverses of one another, such as connectedTo and connectedFrom."^^xsd:string . @@ -2818,11 +4184,24 @@ s223:inverseOf a rdf:Property ; sh:condition ; sh:object ; sh:predicate rdf:type ; - sh:subject sh:this ] ; - sh:targetClass s223:CoolingCoil . + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:CoolingCoil matches the constraints defined by g36:ChilledWaterCoil, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ] ; + sh:targetClass s223:CoolingCoil . a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Valve matches the constraints defined by g36:ChilledWaterValve, it will be declared as an instance of that class."^^xsd:string ; + sh:condition , + ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Valve matches the constraints defined by g36:ChilledWaterValve, it will be declared as an instance of that class."^^xsd:string ; sh:condition , ; @@ -2833,6 +4212,13 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Damper matches the constraints defined by g36:Damper, it will be declared as an instance of that class."^^xsd:string ; + sh:condition , + ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Damper matches the constraints defined by g36:Damper, it will be declared as an instance of that class."^^xsd:string ; sh:condition , ; @@ -2843,6 +4229,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:ElectricResistanceElement matches the constraints defined by g36:ElectricHeatingCoil, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:ElectricResistanceElement matches the constraints defined by g36:ElectricHeatingCoil, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2852,6 +4244,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Fan matches the constraints defined by g36:Fan, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Fan matches the constraints defined by g36:Fan, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2861,6 +4259,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Fan matches the constraints defined by g36:FanWithVFD, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Fan matches the constraints defined by g36:FanWithVFD, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2870,6 +4274,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:HeatingCoil matches the constraints defined by g36:HotWaterCoil, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:HeatingCoil matches the constraints defined by g36:HotWaterCoil, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2879,6 +4289,13 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Valve matches the constraints defined by g36:HotWaterValve, it will be declared as an instance of that class."^^xsd:string ; + sh:condition , + ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Valve matches the constraints defined by g36:HotWaterValve, it will be declared as an instance of that class."^^xsd:string ; sh:condition , ; @@ -2889,6 +4306,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Damper matches the constraints defined by g36:TwoPositionDamper, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Damper matches the constraints defined by g36:TwoPositionDamper, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2898,6 +4321,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:Zone matches the constraints defined by g36:Zone, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:Zone matches the constraints defined by g36:Zone, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2907,6 +4336,12 @@ s223:inverseOf a rdf:Property ; a sh:NodeShape ; sh:rule [ a sh:TripleRule ; + rdfs:comment "If an instance of s223:ZoneGroup matches the constraints defined by g36:ZoneGroup, it will be declared as an instance of that class."^^xsd:string ; + sh:condition ; + sh:object ; + sh:predicate rdf:type ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "If an instance of s223:ZoneGroup matches the constraints defined by g36:ZoneGroup, it will be declared as an instance of that class."^^xsd:string ; sh:condition ; sh:object ; @@ -2935,7 +4370,8 @@ dcterms:replaces a owl:AnnotationProperty ; owl:versionInfo "Created with TopBraid Composer"^^xsd:string . - rdfs:label "QUDT SCHEMA Facade graph - v2.1.26"^^xsd:string ; + rdfs:label "QUDT SCHEMA Facade graph - v2.1.26"^^xsd:string, + "QUDT SCHEMA Facade graph - v2.1.32"^^xsd:string ; rdfs:comment "Facade graph for single place to redirect QUDT schema imports. Note that currently, the functions import uses SPIN and OWL."^^xsd:string ; owl:versionInfo "Created with TopBraid Composer"^^xsd:string . @@ -2953,13 +4389,7 @@ ns1:AbstractQuantityKind-skos_broader rdfs:isDefinedBy . - -ns1:CT_UNCOUNTABLE a ns1:CardinalityType ; - rdfs:label "Uncountable Cardinality Type"^^xsd:string ; - dcterms:description "Any set with cardinality greater than that of the natural numbers, or \\(| X | \\; > \\; | \\mathbb N | \\), for example \\(| R| \\; = \\; c \\; > |\\mathbb N |\\), is said to be uncountable."^^ns1:LatexString ; - ns1:literal "uncountable"^^xsd:string ; + ns3:literal "big"^^xsd:string ; rdfs:isDefinedBy . ns1:Citation-qudt_description rdfs:isDefinedBy ; @@ -2999,9 +4429,28 @@ ns1:Concept-qudt_plainTextDescription rdfs:isDefinedBy ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Checks for consistent dimension vectors for a QuantityKind and the Unit"^^xsd:string ; + sh:message "s223: Inconsistent dimensionalities for a Quantity's Unit and Quantity Kind"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this + WHERE +{ + $this qudt:hasQuantityKind/qudt:hasDimensionVector ?qkdv1 . + $this qudt:hasUnit/qudt:hasDimensionVector ?qkdv2 . +FILTER (?qkdv1 != ?qkdv2) . +} +"""^^xsd:string ] ; + sh:targetClass ns1:Quantity . + ns1:DeprecatedPropertyConstraint a sh:NodeShape ; rdfs:label "Warning about use of a deprecated QUDT property"^^xsd:string ; - rdfs:isDefinedBy ; + rdfs:isDefinedBy , + ; sh:severity sh:Info ; sh:sparql [ a sh:SPARQLConstraint ; rdfs:comment "Warns if a deprecated QUDT property is used"^^xsd:string ; @@ -3015,12 +4464,26 @@ $this ?p ?o . ?p dcterms:isReplacedBy ?newp . BIND (STR(?newp) AS ?newpstr) BIND (STR(?p) AS ?oldpstr) +}"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Warns if a deprecated QUDT property is used"^^xsd:string ; + sh:message "Resource, '{$this}' uses the property '{?oldpstr}' which will be deprecated. Please use '{?newpstr}' instead."^^xsd:string ; + sh:prefixes ; + sh:select """SELECT $this ?p ?oldpstr ?newpstr +WHERE { +?p qudt:deprecated true . +?p a rdf:Property . +$this ?p ?o . +?p dcterms:isReplacedBy ?newp . +BIND (STR(?newp) AS ?newpstr) +BIND (STR(?p) AS ?oldpstr) }"""^^xsd:string ] ; sh:targetClass ns1:Concept . ns1:DeprecationConstraint a sh:NodeShape ; rdfs:label "Warning about use of a deprecated QUDT resource"^^xsd:string ; - rdfs:isDefinedBy ; + rdfs:isDefinedBy , + ; sh:severity sh:Info ; sh:sparql [ a sh:SPARQLConstraint ; rdfs:comment "Warns if a deprecated QUDT resource is used"^^xsd:string ; @@ -3034,6 +4497,19 @@ FILTER (!STRSTARTS(STR(?s),'http://qudt.org')) . $this dcterms:isReplacedBy ?newq . BIND (STR(?newq) AS ?newqstr) BIND (STR($this) AS ?oldqstr) +}"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Warns if a deprecated QUDT resource is used"^^xsd:string ; + sh:message "Resource, '{?s}' refers to '{?oldqstr}' which has been deprecated. Please refer to '{?newqstr}' instead."^^xsd:string ; + sh:prefixes ; + sh:select """SELECT ?s $this ?oldqstr ?newqstr +WHERE { +$this qudt:deprecated true . +?s ?p $this . +FILTER (!STRSTARTS(STR(?s),'http://qudt.org')) . +$this dcterms:isReplacedBy ?newq . +BIND (STR(?newq) AS ?newqstr) +BIND (STR($this) AS ?oldqstr) }"""^^xsd:string ] ; sh:targetClass ns1:Concept . @@ -3048,7 +4524,7 @@ ns1:ISO8601-UTCDateTime-BasicFormat a ns1:DateTimeStringEncodingType ; ns1:LittleEndian a ns1:EndianType ; rdfs:label "Little Endian"^^xsd:string ; - ns4:literal "little"^^xsd:string ; + ns3:literal "little"^^xsd:string ; rdfs:isDefinedBy . ns1:PhysicalConstant-qudt_latexSymbol rdfs:isDefinedBy ; @@ -3063,7 +4539,8 @@ ns1:PhysicsForums a org:Organization ; ns1:Quantifiable-qudt_value a sh:PropertyShape ; rdfs:isDefinedBy ; sh:maxCount 1 ; - sh:or ( [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:decimal ] ) ; + sh:or ( [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:decimal ] ), + ( [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:decimal ] ) ; sh:path ns1:value . ns1:Quantity-qudt_description rdfs:isDefinedBy ; @@ -3323,7 +4800,8 @@ ns1:citation a rdf:Property ; ns1:coherentUnitSystem a rdf:Property ; rdfs:label "coherent unit system"^^xsd:string ; - dcterms:description "

A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. In such a coherent system, no numerical factor other than the number 1 ever occurs in the expressions for the derived units in terms of the base units. For example, the \\(newton\\) and the \\(joule\\). These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per (1) second per (1) second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per (1) second per (1) second, and the work done by 1 dyne acting over 1 centimetre. So \\(1\\,newton = 10^5 dyne\\), \\(1 joule = 10^7 erg\\), making each of the four compatible in a decimal sense within its respective other system, but not coherent therein.

"^^ns1:LatexString ; + dcterms:description "

A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. In such a coherent system, no numerical factor other than the number 1 ever occurs in the expressions for the derived units in terms of the base units. For example, the $newton$ and the $joule$. These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per (1) second per (1) second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per (1) second per (1) second, and the work done by 1 dyne acting over 1 centimetre. So $1\\,newton = 10^5 dyne$, $1 joule = 10^7 erg$, making each of the four compatible in a decimal sense within its respective other system, but not coherent therein.

"^^ns1:LatexString, + "

A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. In such a coherent system, no numerical factor other than the number 1 ever occurs in the expressions for the derived units in terms of the base units. For example, the \\(newton\\) and the \\(joule\\). These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per (1) second per (1) second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per (1) second per (1) second, and the work done by 1 dyne acting over 1 centimetre. So \\(1\\,newton = 10^5 dyne\\), \\(1 joule = 10^7 erg\\), making each of the four compatible in a decimal sense within its respective other system, but not coherent therein.

"^^ns1:LatexString ; ns1:informativeReference "https://en.wikipedia.org/wiki/Coherence_(units_of_measurement)"^^xsd:anyURI ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:hasUnitSystem . @@ -3332,22 +4810,10 @@ ns1:conversionCoefficient a rdf:Property ; rdfs:label "conversion coefficient"^^xsd:string ; rdfs:isDefinedBy . -ns1:currencyExponent a rdf:Property ; - rdfs:label "currency exponent"^^xsd:string ; - dcterms:description "The currency exponent indicates the number of decimal places between a major currency unit and its minor currency unit. For example, the US dollar is the major currency unit of the United States, and the US cent is the minor currency unit. Since one cent is 1/100 of a dollar, the US dollar has a currency exponent of 2. However, the Japanese Yen has no minor currency units, so the yen has a currency exponent of 0."^^rdf:HTML ; - rdfs:isDefinedBy . - ns1:denominatorDimensionVector a rdf:Property ; rdfs:label "denominator dimension vector"^^xsd:string ; rdfs:isDefinedBy . -ns1:derivedCoherentUnitOfSystem a rdf:Property ; - rdfs:label "is coherent derived unit of system"^^xsd:string ; - dcterms:description "This property relates a unit of measure to the unit system in which the unit is derived from the system's base units with a proportionality constant of one."^^rdf:HTML ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:coherentUnitOfSystem, - ns1:derivedUnitOfSystem . - ns1:derivedNonCoherentUnitOfSystem a rdf:Property ; rdfs:label "is non-coherent derived unit of system"^^xsd:string ; dcterms:description "This property relates a unit of measure to the unit system in which the unit is derived from the system's base units without proportionality constant of one."^^rdf:HTML ; @@ -3356,6 +4822,7 @@ ns1:derivedNonCoherentUnitOfSystem a rdf:Property ; ns1:derivedQuantityKindOfSystem a rdf:Property ; rdfs:label "derived quantity kind of system"^^xsd:string ; + ns1:deprecated true ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:isQuantityKindOf . @@ -3371,10 +4838,6 @@ ns1:elementKind a rdf:Property ; rdfs:label "element kind"^^xsd:string ; rdfs:isDefinedBy . -ns1:exactMatch a rdf:Property ; - rdfs:label "exact match"^^xsd:string ; - rdfs:isDefinedBy . - ns1:fieldCode a rdf:Property ; rdfs:label "field code"^^xsd:string ; ns1:plainTextDescription "A field code is a generic property for representing unique codes that make up other identifers. For example each QuantityKind class caries a domain code as its field code."^^xsd:string ; @@ -3391,6 +4854,9 @@ ns1:floatPercentage a rdfs:Datatype, rdfs:isDefinedBy ; rdfs:subClassOf xsd:float ; owl:equivalentClass [ a rdfs:Datatype ; + owl:onDatatype xsd:float ; + owl:withRestrictions ( [ xsd:minInclusive "0.0"^^xsd:float ] [ xsd:maxInclusive "100.0"^^xsd:float ] ) ], + [ a rdfs:Datatype ; owl:onDatatype xsd:float ; owl:withRestrictions ( [ xsd:minInclusive "0.0"^^xsd:float ] [ xsd:maxInclusive "100.0"^^xsd:float ] ) ] . @@ -3431,10 +4897,6 @@ ns1:hasQuantity a rdf:Property ; rdfs:label "has quantity"^^xsd:string ; rdfs:isDefinedBy . -ns1:hasReferenceQuantityKind a rdf:Property ; - rdfs:label "has reference quantity kind"^^xsd:string ; - rdfs:isDefinedBy . - ns1:hasVocabulary a rdf:Property ; rdfs:label "has vocabulary"^^xsd:string ; ns1:plainTextDescription "Used to relate a class to one or more graphs where vocabularies for the class are defined."^^xsd:string ; @@ -3446,12 +4908,17 @@ ns1:integerPercentage a rdfs:Datatype, rdfs:isDefinedBy ; rdfs:subClassOf xsd:integer ; owl:equivalentClass [ a rdfs:Datatype ; + rdfs:isDefinedBy ; + owl:onDatatype xsd:integer ; + owl:withRestrictions ( [ xsd:minInclusive 0 ] [ xsd:maxInclusive 100 ] ) ], + [ a rdfs:Datatype ; rdfs:isDefinedBy ; owl:onDatatype xsd:integer ; owl:withRestrictions ( [ xsd:minInclusive 0 ] [ xsd:maxInclusive 100 ] ) ] . ns1:isBaseQuantityKindOfSystem a rdf:Property ; rdfs:label "is base quantity kind of system"^^xsd:string ; + ns1:deprecated true ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:isQuantityKindOf . @@ -3489,11 +4956,6 @@ ns1:positiveDeltaLimit a rdf:Property ; dcterms:description "A positive change limit between consecutive sample values for a parameter. The Positive Delta may be the encoded value or engineering units value depending on whether or not a Calibrator is defined."^^rdf:HTML ; rdfs:isDefinedBy . -ns1:prefix a rdf:Property ; - rdfs:label "prefix"^^xsd:string ; - rdfs:comment "Associates a unit with the appropriate prefix, if any."^^xsd:string ; - rdfs:isDefinedBy . - ns1:quantity a rdf:Property ; rdfs:label "quantity"^^xsd:string ; dcterms:description "a property to relate an observable thing with a quantity (qud:Quantity)"^^rdf:HTML ; @@ -3518,18 +4980,15 @@ ns1:relevantUnit a rdf:Property ; ns1:specialization a rdf:Property ; rdfs:label "specialization"^^xsd:string ; - dcterms:description "This property relates a quantity kind to its specialization(s). For example, linear velocity and angular velocity are both specializations of velocity."^^rdf:HTML ; + dcterms:description "This deprecated property originally related a quantity kind to its specialization(s). For example, linear velocity and angular velocity are both specializations of velocity."^^rdf:HTML, + "This property relates a quantity kind to its specialization(s). For example, linear velocity and angular velocity are both specializations of velocity."^^rdf:HTML ; + ns1:deprecated true ; rdfs:isDefinedBy . ns1:systemDefinition a rdf:Property ; rdfs:label "system definition"^^xsd:string ; rdfs:isDefinedBy . -ns1:systemDerivedQuantityKind a rdf:Property ; - rdfs:label "system derived quantity kind"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:hasQuantityKind . - ns1:systemDimension a rdf:Property ; rdfs:label "system dimension"^^xsd:string ; rdfs:isDefinedBy . @@ -4888,6 +6347,10 @@ ns1:valueQuantity a rdf:Property ; a ns1:PhysicalConstant ; rdfs:label "Josephson Constant"@en ; dcterms:description """ + The constant $\\textit{Josephson Constant}$ is a proportionality factor between voltage and frequency of an + alternating current corresponding to the product of two elementary charges $e$ and Planck's action quantum $h$. + """^^ns1:LatexString, + """ The constant $\\{Josephson Constant} is a proportionality factor between voltage and frequency of an alternating current corresponding to the product of two elementary charges $e$ and Planck's action quantum $h$. """^^ns1:LatexString ; @@ -6296,7 +7759,8 @@ ns1:valueQuantity a rdf:Property ; rdfs:label "Faraday constant for conventional electric current"^^xsd:string ; ns1:hasUnit ; ns1:value 96485.33212 ; - ns1:valueSN 9.648533e+04 ; + ns1:valueSN 9.648533e+04, + 9.648533e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?f90#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -6318,7 +7782,8 @@ ns1:valueQuantity a rdf:Property ; ns1:standardUncertainty 0.0000044 ; ns1:standardUncertaintySN 4.4e-06 ; ns1:value -1.1648677 ; - ns1:valueSN -1.164868e+00 ; + ns1:valueSN -1.164868e+00, + -1.164868e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -6326,7 +7791,8 @@ ns1:valueQuantity a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 299792458.0 ; - ns1:valueSN 2.997925e+08 ; + ns1:valueSN 2.997925e+08, + 2.997925e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?c#mid"^^xsd:anyURI . a ns1:PhysicalConstant ; @@ -6361,6 +7827,84 @@ ns1:valueQuantity a rdf:Property ; rdfs:isDefinedBy ; skos:closeMatch . + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-1L-1I0M1H0T-4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -4 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-1 L^-1 M^1 T^-4 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-1L-2I0M1H-1T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-1 L^-2 M^1 Θ^-1 T^-3 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-1L-5I0M1H0T-4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength -5 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -4 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-1 L^-5 M^1 T^-4 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-2L2I0M1H-1T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -2 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-2 L^2 M^1 Θ^-1 T^-3 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-2L3I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -2 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-2 L^3 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-9L0I0M0H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -9 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E^-9 Θ^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS ; rdfs:label "A0E0L-0.5I0M0.5TE0TM-1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; @@ -6387,6 +7931,32 @@ ns1:valueQuantity a rdf:Property ; ns1:latexDefinition "\\(L^-0.5 M^0.5 T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L-0.5I0M0.5H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "-0.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-0.5 M^0.5 T^-1$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L-0.5I0M0.5H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "-0.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-0.5 M^0.5 T^-2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS ; rdfs:label "A0E0L-1.5I0M0.5TE0TM-1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; @@ -6414,6 +7984,21 @@ ns1:valueQuantity a rdf:Property ; ns2:todo "Suspicious. Electric Charge per Area would be ET/L**2"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-1I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$ L^-1 M^-1 T^2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -6426,7 +8011,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-1 M^-1 T^3 Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 M^-1 T^3 Θ$"^^ns1:LatexString, + "\\(L^-1 M^-1 T^3 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6442,10 +8028,90 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^{-1} T^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^{-1} T^2$"^^ns1:LatexString, + "\\(L^{-1} T^2\\)"^^ns1:LatexString ; ns2:todo "Should be M-1L-2T4E2"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-1I0M1H-1T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-1 M Θ^-1 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L-1.5I0M0.5H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "-1.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-1.5 M^0.5 T^-1$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L-1.5I0M0.5H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "-1.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-1.5 M^0.5$"^^ns1:LatexString ; + ns2:todo "Suspicious. Electric Charge per Area would be ET/L**2"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-2I0M0H0T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-2 T^-3 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-2I0M0H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-2 T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-2I0M1H-1T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-2 M Θ^-1 T^-3 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -6459,7 +8125,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M T^-3$"^^ns1:LatexString, + "\\(L^-2 M T^-3\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector ; @@ -6473,7 +8140,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^2 T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^2 T^-2$"^^ns1:LatexString, + "\\(L^-2 M^2 T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6488,7 +8156,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 1 ; - ns1:latexDefinition "\\(U L^-2 M^-1 T^3 J\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U L^-2 M^-1 T^3 J$"^^ns1:LatexString, + "\\(U L^-2 M^-1 T^3 J\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6503,7 +8172,47 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 1 ; - ns1:latexDefinition "\\(U L^-2 J\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U L^-2 J$"^^ns1:LatexString, + "\\(U L^-2 J\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-3I0M1H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-3 M Θ^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-4I0M0H0T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -4 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-4 T^-3 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L-6I0M1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -6 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-6 M T $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS ; @@ -6560,7 +8269,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 1 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(U T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U T^-1$"^^ns1:LatexString, + "\\(U T^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6577,7 +8287,21 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 1 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(U T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U T^-2$"^^ns1:LatexString, + "\\(U T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L0I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$$"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6595,6 +8319,35 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionlessExponent 1 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L0I0M1H-1T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$M^1 Θ^-1 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M1H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$M H^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -6608,7 +8361,24 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent -1 ; - ns1:latexDefinition "\\(U^-1 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U^-1 M T^-3$"^^ns1:LatexString, + "\\(U^-1 M T^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$M T^1$"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6623,7 +8393,48 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 1 ; - ns1:latexDefinition "\\(U J\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U J$"^^ns1:LatexString, + "\\(U J\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L0.5I0M0.5H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "0.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^0.5 M^0.5 T^-1$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L0.5I0M0.5H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "0.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^0.5 M^0.5 T^-2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L0.5I0M0.5H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "0.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^0.5 M^0.5$"^^ns1:LatexString ; + ns2:todo "Electric Charge should be ET"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS ; @@ -6653,6 +8464,111 @@ ns1:valueQuantity a rdf:Property ; ns1:latexDefinition "\\(L^1.5 M^0.5 T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L1I0M-1H1T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L M^-1 H T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L1I0M0H-1T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L H^-1 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L1.5I0M0.5H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "1.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^1.5 M^0.5 T^-1$"^^ns1:LatexString ; + ns2:todo "Suspicious"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS ; + rdfs:label "A0E0L1.5I0M0.5H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "1.5"^^xsd:float ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass "0.5"^^xsd:float ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^1.5 M^0.5 T^-2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L2I0M-1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^2 M^-1 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L2I0M-1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^2 M^-1 T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L2I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^2 M^-1 T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L2I0M0H-1T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^2 H^-1 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -6665,7 +8581,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature -1 ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^2 T^-3 Θ^-1 N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T^-3 Θ^-1 N^-1$"^^ns1:LatexString, + "\\(L^2 T^-3 Θ^-1 N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6681,7 +8598,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 1 ; - ns1:latexDefinition "\\(U L^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U L^2$"^^ns1:LatexString, + "\\(U L^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6697,7 +8615,47 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent -1 ; - ns1:latexDefinition "\\(U^-1 L^2 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U^-1 L^2 M T^-3$"^^ns1:LatexString, + "\\(U^-1 L^2 M T^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L2I0M1H0T-4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance "0"^^xsd:string ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength "2"^^xsd:string ; + ns1:dimensionExponentForLuminousIntensity "0"^^xsd:string ; + ns1:dimensionExponentForMass "1"^^xsd:string ; + ns1:dimensionExponentForThermodynamicTemperature "0"^^xsd:string ; + ns1:dimensionExponentForTime "-4"^^xsd:string ; + ns1:dimensionlessExponent "0"^^xsd:string ; + ns1:latexDefinition "$L^2 M T^-4 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L3I0M-1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^3 M^-1 T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L3I0M0H-1T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^3 H^-1 T^-1 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6713,7 +8671,47 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M T^-1$"^^ns1:LatexString, + "\\(L^3 M T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L3I0M1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^3 M T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L4I0M-1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 4 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^4 M^-1 T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E0L4I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 4 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^4 M^-1 T^2 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6728,7 +8726,47 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent -1 ; - ns1:latexDefinition "\\(U^-1 L^4 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U^-1 L^4 M T^-3$"^^ns1:LatexString, + "\\(U^-1 L^4 M T^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E1L-3I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E L^-3 M^-1 T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E1L-3I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E L^-3 T^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E1L0I0M0H-1T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E Θ^-1 T $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6743,7 +8781,8 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent -1 ; - ns1:latexDefinition "\\(U^-1 I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U^-1 I$"^^ns1:LatexString, + "\\(U^-1 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6758,7 +8797,64 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 1 ; - ns1:latexDefinition "\\(U I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U I$"^^ns1:LatexString, + "\\(U I\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L0I0M0H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$T^2 I$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E1L1I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E L M^-1 T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E1L2I0M-1H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$E L^2 M^-1 T $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E2L-1I0M-1H0T4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 2 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 4 ; + ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -6792,20 +8888,17 @@ ns1:valueQuantity a rdf:Property ; ns1:symbol "T I I^2"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E3L-1I0M-2H0T7D0"^^xsd:string ; + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E3L0I0M0H-1T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 3 ; - ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -2 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 7 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 M^-2 T^7 I^3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$E^3 Θ^-1 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -6820,14 +8913,68 @@ ns1:valueQuantity a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 10 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-5 M^-3 T^10 I^4\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-5 M^-3 T^10 I^4$"^^ns1:LatexString, + "\\(L^-5 M^-3 T^10 I^4\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A1E0L-2I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$N L^-2 M^-1 T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A1E0L-2I0M1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$N L^-2 M T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A1E0L-3I0M0H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$N L^-3 H^-1 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector ; + rdfs:label "A1E0L0I0M-1H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$N M^-1 Θ^-1 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:BinaryPrefix, ns1:Prefix ; rdfs:label "Yobi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^{8}$, or $2^{80}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.208926e+24 ; + ns1:prefixMultiplier 1.208926e+24, + 1.208926e+24 ; ns1:symbol "Yi"^^xsd:string ; rdfs:isDefinedBy . @@ -6835,19 +8982,62 @@ ns1:valueQuantity a rdf:Property ; ns1:Prefix ; rdfs:label "Zebi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^{7}$, or $2^{70}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.180592e+21 ; + ns1:prefixMultiplier 1.180592e+21, + 1.180592e+21 ; ns1:symbol "Zi"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "absolute typographic measurement"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD372"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Acceleration Of Gravity"@en ; - dcterms:description "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second."^^rdf:HTML ; + dcterms:description "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second."^^ns1:LatexString, + "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second."^^rdf:HTML ; ns1:applicableUnit , , , @@ -6866,15 +9056,18 @@ ns1:valueQuantity a rdf:Property ; ns1:hasDimensionVector ; ns1:plainTextDescription "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second."^^xsd:string ; ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Acceleration"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Acceptor Density"@en ; - dcterms:description "\"Acceptor Density\" is the number per volume of acceptor levels."^^rdf:HTML ; + dcterms:description "\"Acceptor Density\" is the number per volume of acceptor levels."^^ns1:LatexString, + "\"Acceptor Density\" is the number per volume of acceptor levels."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -6883,18 +9076,65 @@ ns1:valueQuantity a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Acceptor Density\" is the number per volume of acceptor levels."^^xsd:string ; ns1:symbol "n_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Action Time"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; - rdfs:comment "Action Time (sec) "^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Action Time (sec) "^^xsd:string, + "Applicable units are those of quantitykind:Time"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Active Energy"@en ; - dcterms:description "\"Active Energy\" is the electrical energy transformable into some other form of energy."^^rdf:HTML ; + dcterms:description """ + $\\textit{Active Energy}$ is the electrical energy transformable into some other form of energy. + """^^ns1:LatexString, + "\"Active Energy\" is the electrical energy transformable into some other form of energy."^^rdf:HTML ; ns1:abbreviation "active-energy"^^xsd:string ; ns1:applicableUnit , , @@ -6952,21 +9192,34 @@ ns1:valueQuantity a rdf:Property ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Active Energy\" is the electrical energy transformable into some other form of energy."^^xsd:string ; ns1:symbol "W"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "activity related by mass"@en-us ; - dcterms:description "quantitative data of the radioactivity of the amount of a radionuclide in a particular state of energy at a defined point in time, divided by the related mass of this quantity"@en ; + dcterms:description """ + $\\textit{Activity Related By Mass}$ is quantitative data of the radioactivity of the amount of a radionuclide in a particular state of energy at a defined point in time, + divided by the related mass of this quantity. + """^^ns1:LatexString, + "quantitative data of the radioactivity of the amount of a radionuclide in a particular state of energy at a defined point in time, divided by the related mass of this quantity"@en ; + ns1:applicableUnit , + , + , + ; ns1:hasDimensionVector ; - ns1:plainTextDescription "quantitative Angabe der Radioaktivität einer Menge eines Radionuklids in einem bestimmten Energiezustand zu einem gegebenen Zeitpunkt dividiert durch die zugehörige Masse dieser Menge"@de ; + ns1:plainTextDescription "quantitative Angabe der Radioaktivität einer Menge eines Radionuklids in einem bestimmten Energiezustand zu einem gegebenen Zeitpunkt dividiert durch die zugehörige Masse dieser Menge"@de, + "quantitative data of the radioactivity of the amount of a radionuclide in a particular state of energy at a defined point in time, divided by the related mass of this quantity"@en ; ns1:symbol "0173-1#Z4-BAJ342#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MassicActivity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Activity Thresholds"@en ; - dcterms:description "\"Activity Thresholds\" are thresholds of sensitivity for radioactivity."^^rdf:HTML ; + dcterms:description "\"Activity Thresholds\" are thresholds of sensitivity for radioactivity."^^ns1:LatexString, + "\"Activity Thresholds\" are thresholds of sensitivity for radioactivity."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_t}$"^^ns1:LatexString ; @@ -6975,12 +9228,56 @@ ns1:valueQuantity a rdf:Property ; a ns1:QuantityKind ; rdfs:label "Adaptation"@en ; - dcterms:description "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation), usually measured in units of time."^^rdf:HTML ; + dcterms:description "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation), usually measured in units of time."^^ns1:LatexString, + "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation), usually measured in units of time."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Neural_adaptation#Visual"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation)."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Alpha Disintegration Energy"@en ; @@ -7038,57 +9335,10 @@ ns1:valueQuantity a rdf:Property ; ns1:latexSymbol "$Q_a$"^^ns1:LatexString ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Alpha Disintegration Energy\" is the sum of the kinetic energy of the alpha-particle produced in the disintegration process and the recoil energy of the product atom in the reference frame in which the emitting nucleus is at rest before its disintegration."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Altitude"@en ; - dcterms:description "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Altitude"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Ambient Pressure"@en ; dcterms:description """The ambient pressure on an object is the pressure of the surrounding medium, such as a gas or liquid, which comes into contact with the object. @@ -7158,6 +9408,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:symbol "p_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -7167,36 +9418,31 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:iec61360Code "0112/2///62720#UAD370"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Amount of Substance of Concentration of B"@en ; - dcterms:description "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ; - dcterms:isReplacedBy ; - ns1:deprecated true ; + a ns1:QuantityKind ; + rdfs:label "Ion Concentration"@en ; + dcterms:description "\"Ion Concentration\" is the moles of ions per volume of solution."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD005"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$C_B = \\frac{n_B}{V}$, where $n_B$ is the amount of substance $B$ and $V$ is the volume."^^ns1:LatexString ; - ns1:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^xsd:string ; - ns1:symbol "C_B"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Amount of Substance of Fraction of B"@en ; - dcterms:description "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ; - dcterms:isReplacedBy ; - ns1:deprecated true ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_fraction"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$x_B = \\frac{n_B}{n}$, where $n_B$ is the amount of substance $B$ and $n$ is the total amount of substance."^^ns1:LatexString ; - ns1:plainTextDescription "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^xsd:string ; - ns1:symbol "X_B"^^xsd:string ; - rdfs:isDefinedBy . + ns1:plainTextDescription "\"Ion Concentration\" is the moles of ions per volume of solution."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Angle Of Attack"@en ; - dcterms:description "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing."^^rdf:HTML ; + dcterms:description "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing."^^ns1:LatexString, + "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7212,12 +9458,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Angle of Optical Rotation"@en ; - dcterms:description "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium."^^rdf:HTML ; + dcterms:description "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium."^^ns1:LatexString, + "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7235,12 +9483,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Angular Distance"@en ; - dcterms:description "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach."^^rdf:HTML ; + dcterms:description "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach."^^ns1:LatexString, + "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7256,12 +9506,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:latexSymbol "$\\theta$"^^ns1:LatexString ; ns1:plainTextDescription "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Apogee Radius"@en ; - dcterms:description "Apogee radius of an elliptical orbit"^^rdf:HTML ; + dcterms:description "Apogee radius of an elliptical orbit"^^ns1:LatexString, + "Apogee radius of an elliptical orbit"^^rdf:HTML ; ns1:applicableUnit , , , @@ -7304,6 +9556,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:plainTextDescription "Apogee radius of an elliptical orbit"^^xsd:string ; ns1:symbol "r_2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -7318,19 +9571,58 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD012"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AreaBitDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "areic charge density"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD013"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "areic mass"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD014"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MassPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Fläche pro Längeneinheit"@de, @@ -7341,6 +9633,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:plainTextDescription "Measure used to indicate the surface area of structural steel per unit length of the steel part."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:AreaPerLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -7350,6 +9643,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:plainTextDescription "The ratio of an area and the power required for maintaining room temperature at a given level"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AreaPerPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -7371,14 +9665,41 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative a ns1:QuantityKind ; rdfs:label "areic energy flow"@en-us ; dcterms:description "energy in a defined direction of propagation through a surface perpendicular to this, divided by its area"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Leistung in festgelegter Ausbreitungsrichtung durch ein dazu senkrechtes Oberflächenelement, dividiert durch dessen Fläche"@de ; ns1:symbol "0173-1#Z4-BAJ322#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Aeric Heat Flow Rate"@en ; - dcterms:description "Density of heat flow rate."^^rdf:HTML ; + dcterms:description "Density of heat flow rate."^^ns1:LatexString, + "Density of heat flow rate."^^rdf:HTML ; ns1:abbreviation "heat-flow-rate"^^xsd:string ; ns1:applicableUnit , , @@ -7410,6 +9731,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:plainTextDescription "Density of heat flow rate."^^xsd:string ; ns1:symbol "φ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . @@ -7417,10 +9739,36 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative a ns1:QuantityKind ; rdfs:label "areic mass"@en-us ; dcterms:description "mass divided by the related area"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Masse dividiert durch die zugehörige Fläche"@de ; ns1:symbol "0173-1#Z4-BAJ288#004"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MassPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "areic torque"@en-us ; @@ -7499,12 +9847,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:dbpediaMatch "http://dbpedia.org/resource/Atmospheric_pressure"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.oxfordreference.com/views/ENTRY.html?subview=Main&entry=t83.e178"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Atomic Attenuation Coefficient"@en ; - dcterms:description "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance."^^rdf:HTML ; + dcterms:description "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance."^^ns1:LatexString, + "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7531,13 +9881,15 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance."^^xsd:string ; ns1:symbol "μₐ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Atomic Charge"@en ; - dcterms:description "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron."^^rdf:HTML ; + dcterms:description "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron."^^ns1:LatexString, + "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7575,20 +9927,73 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:informativeReference "http://www.answers.com/topic/atomic-charge"^^xsd:anyURI ; ns1:plainTextDescription "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCharge"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "atomic energy"@en-us ; dcterms:description "scalar quantity of elementary particles which is retained within a system following any change and, as saved energy, constitutes the capability of a physical system to carry out work"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "skalare Größe von Elementarteilchen, die bei beliebiger Umwandlung innerhalb eines Systems erhalten bleibt und als gespeichertes Arbeitsvermögen die Fähigkeit eines physikalischen Systems darstellt, Arbeit zu verrichten"@de ; ns1:symbol "0173-1#Z4-BAJ291#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Atomic Mass"@en ; - dcterms:description "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units."^^rdf:HTML ; + dcterms:description "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units."^^ns1:LatexString, + "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7648,6 +10053,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units."^^xsd:string ; ns1:symbol "m_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -7661,7 +10067,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative a ns1:QuantityKind ; rdfs:label "Auditory Thresholds"@en ; - dcterms:description "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing."^^rdf:HTML ; + dcterms:description "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing."^^ns1:LatexString, + "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7672,12 +10079,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_a}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundPowerLevel"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Auxillary Magnetic Field"@en ; - dcterms:description "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium."^^rdf:HTML ; + dcterms:description "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium."^^ns1:LatexString, + "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7690,12 +10099,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:latexSymbol "H"^^ns1:LatexString ; ns1:plainTextDescription "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFieldStrength_H"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Average Energy Loss per Elementary Charge Produced"@en ; - dcterms:description "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed."^^rdf:HTML ; + dcterms:description "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed."^^ns1:LatexString, + "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7750,6 +10161,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed."^^xsd:string ; ns1:symbol "W_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -7820,6 +10232,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -7856,10 +10269,34 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "AVT"^^xsd:string ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Azimuth"@en ; + dcterms:description """The horizontal angle between an object's orientation frame and a cardinal direction, generally north. + In the context of architecture, this would refer to the direction a structure faces relative to the direction north."""^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription """The horizontal angle between an object and a cardinal direction, generally north. + In the context of architecture, this would refer to the direction a structure faces relative to the direction north."""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "bandwidth distance product"^^xsd:string ; ns1:hasDimensionVector ; @@ -7883,11 +10320,13 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:iec61360Code "0112/2///62720#UAD017"^^xsd:string ; ns1:plainTextDescription "Elektrizitätsmenge oder elektrische Ladung, die eine vollgeladenen Batterie unter festgelegten Bedingungen abgeben kann als Produkt aus Entladestrom und Entladezeit"@de ; ns1:symbol "0173-1#Z4-BAJ270#003"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BatteryCapacity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Bending Moment of Force"@en ; - dcterms:description "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft."^^rdf:HTML ; + dcterms:description "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft."^^ns1:LatexString, + "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7913,12 +10352,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:latexDefinition "$M_b = M \\cdot e_Q$, where $M$ is the momentof force and $e_Q$ is a unit vector directed along a $Q-axis$ with respect to which the torque is considered."^^ns1:LatexString ; ns1:plainTextDescription "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft."^^xsd:string ; ns1:symbol "M_b"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Torque"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Beta Disintegration Energy"@en ; - dcterms:description "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration."^^rdf:HTML ; + dcterms:description "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration."^^ns1:LatexString, + "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7973,12 +10414,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration."^^xsd:string ; ns1:symbol "Qᵦ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Bevel Gear Pitch Angle"@en ; - dcterms:description "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees."^^rdf:HTML ; + dcterms:description "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees."^^ns1:LatexString, + "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees."^^rdf:HTML ; ns1:applicableUnit , , , @@ -7994,6 +10437,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:latexSymbol "$\\theta$"^^ns1:LatexString ; ns1:plainTextDescription "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8005,24 +10449,21 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:symbol "0173-1#Z4-BAJ436#002"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "bit rate"^^xsd:string ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD018"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "bit transmission rate"@en-us ; dcterms:description "speed with which one bit will be transmitted per second"@en ; + ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Geschwindigkeit, mit der Binärzeichen übertragen werden"@de ; ns1:symbol "0173-1#Z4-BAJ295#003"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:BitRate"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Bragg Angle"@en ; - dcterms:description "\"Bragg Angle\" describes the condition for a plane wave to be diffracted from a family of lattice planes, the angle between the wavevector of the incident plane wave, and the lattice planes."^^rdf:HTML ; + dcterms:description "\"Bragg Angle\" describes the condition for a plane wave to be diffracted from a family of lattice planes, the angle between the wavevector of the incident plane wave, and the lattice planes."^^ns1:LatexString, + "\"Bragg Angle\" describes the condition for a plane wave to be diffracted from a family of lattice planes, the angle between the wavevector of the incident plane wave, and the lattice planes."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8041,6 +10482,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:latexDefinition "$2d\\sin{\\vartheta} = n\\lambda $"^^ns1:LatexString ; ns1:latexSymbol "$\\vartheta$"^^ns1:LatexString ; ns1:plainTextDescription "\"Bragg Angle\" describes the condition for a plane wave to be diffracted from a family of lattice planes, the angle between the wavevector of the incident plane wave, and the lattice planes."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8061,7 +10503,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative "širina"@sl, "genişliği"@tr, "寬度"@zh ; - dcterms:description "\"Breadth\" is the extent or measure of how broad or wide something is."^^rdf:HTML ; + dcterms:description "\"Breadth\" is the extent or measure of how broad or wide something is."^^ns1:LatexString, + "\"Breadth\" is the extent or measure of how broad or wide something is."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8107,12 +10550,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Breadth\" is the extent or measure of how broad or wide something is."^^xsd:string ; ns1:symbol "b"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Buckling Factor"@en ; ns1:applicableUnit , + , , , , @@ -8125,12 +10570,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:symbol "B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Burgers Vector"@en ; - dcterms:description "\"Burgers Vector\" is the vector characterizing a dislocation, i.e. the closing vector in a Burgers circuit encircling a dislocation line."^^rdf:HTML ; + dcterms:description "\"Burgers Vector\" is the vector characterizing a dislocation, i.e. the closing vector in a Burgers circuit encircling a dislocation line."^^ns1:LatexString, + "\"Burgers Vector\" is the vector characterizing a dislocation, i.e. the closing vector in a Burgers circuit encircling a dislocation line."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8175,6 +10622,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Burgers Vector\" is the vector characterizing a dislocation, i.e. the closing vector in a Burgers circuit encircling a dislocation line."^^xsd:string ; ns1:symbol "b"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8223,6 +10671,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:symbol "t"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8235,32 +10684,33 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:iec61360Code "0112/2///62720#UAD019"^^xsd:string ; ns1:plainTextDescription "Quotient Berstdruck dividiert durch die flächenbezogene Masse"@de ; ns1:symbol "0173-1#Z4-BAJ434#001"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BurstFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "byte data volume"@en-us ; dcterms:description "particular quantity of data based on a string consisting of 8 bits"@en ; + ns1:applicableUnit , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Anzahl von Daten auf Basis einer Zeichenfolge, die aus je 8 Bit besteht"@de ; ns1:symbol "0173-1#Z4-BAJ435#004"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "byte rate"^^xsd:string ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD020"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Count"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "byte transmission rate"@en-us ; dcterms:description "speed with which 8 bits are transmitted"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Geschwindigkeit, mit der 8 Binärzeichen übertragen werden"@de ; ns1:symbol "0173-1#Z4-BAJ297#003"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:ByteRate"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Center of Gravity in the X axis"@en ; @@ -8307,6 +10757,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8355,6 +10806,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8403,12 +10855,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Center of Mass (CoM)"@en ; - dcterms:description "The point at which the distributed mass of a composite body can be acted upon by a force without inducing any rotation of the composite body."^^rdf:HTML ; + dcterms:description "The point at which the distributed mass of a composite body can be acted upon by a force without inducing any rotation of the composite body."^^ns1:LatexString, + "The point at which the distributed mass of a composite body can be acted upon by a force without inducing any rotation of the composite body."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8452,6 +10906,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:informativeReference "http://en.wikipedia.org/wiki/Center_of_mass"^^xsd:anyURI ; ns1:plainTextDescription "The point at which the distributed mass of a composite body can be acted upon by a force without inducing any rotation of the composite body."^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "COM"^^xsd:string ; skos:broader . @@ -8465,12 +10920,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Global_warming_potential"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:CO2Equivalent"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Contract End Item (CEI) Specification Mass."@en ; - dcterms:description "Contractual mass requirement of a delivered item. Note that The term 'control mass' is sometimes utilized as a limit in lieu of CEI mass when a CEI mass does not exist. The term 'Interface Control Document Mass' is another alternative for specifying a contractual mass requirement."^^rdf:HTML ; + dcterms:description "Contractual mass requirement of a delivered item. Note that The term 'control mass' is sometimes utilized as a limit in lieu of CEI mass when a CEI mass does not exist. The term 'Interface Control Document Mass' is another alternative for specifying a contractual mass requirement."^^ns1:LatexString, + "Contractual mass requirement of a delivered item. Note that The term 'control mass' is sometimes utilized as a limit in lieu of CEI mass when a CEI mass does not exist. The term 'Interface Control Document Mass' is another alternative for specifying a contractual mass requirement."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8527,13 +10984,15 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:plainTextDescription "Contractual mass requirement of a delivered item. Note that The term 'control mass' is sometimes utilized as a limit in lieu of CEI mass when a CEI mass does not exist. The term 'Interface Control Document Mass' is another alternative for specifying a contractual mass requirement."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "CEI"^^xsd:string ; skos:broader . a ns1:QuantityKind ; rdfs:label "Control Mass."@en ; - dcterms:description "The upper design gross mass limit of a system at a specified mission event against which margins are calculated after accounting for basic masses of flight hardware, MGA, and uncertainties. It may include propellants, crew, and cargo."^^rdf:HTML ; + dcterms:description "The upper design gross mass limit of a system at a specified mission event against which margins are calculated after accounting for basic masses of flight hardware, MGA, and uncertainties. It may include propellants, crew, and cargo."^^ns1:LatexString, + "The upper design gross mass limit of a system at a specified mission event against which margins are calculated after accounting for basic masses of flight hardware, MGA, and uncertainties. It may include propellants, crew, and cargo."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8590,12 +11049,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ; ns1:hasDimensionVector ; ns1:plainTextDescription "The upper design gross mass limit of a system at a specified mission event against which margins are calculated after accounting for basic masses of flight hardware, MGA, and uncertainties. It may include propellants, crew, and cargo."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Capacity"@en ; - dcterms:description "In computer operations, (a) the largest quantity which can be stored, processed, or transferred; (b) the largest number of digits or characters which may regularly be processed; (c) the upper and lower limits of the quantities which may be processed. In other contexts, the amount of material that can be stored, such as fuel or food."^^rdf:HTML ; + dcterms:description "In computer operations, (a) the largest quantity which can be stored, processed, or transferred; (b) the largest number of digits or characters which may regularly be processed; (c) the upper and lower limits of the quantities which may be processed. In other contexts, the amount of material that can be stored, such as fuel or food."^^ns1:LatexString, + "In computer operations, (a) the largest quantity which can be stored, processed, or transferred; (b) the largest number of digits or characters which may regularly be processed; (c) the upper and lower limits of the quantities which may be processed. In other contexts, the amount of material that can be stored, such as fuel or food."^^rdf:HTML ; ns1:dbpediaMatch "http://dbpedia.org/resource/Capacity"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:plainTextDescription "In computer operations, (a) the largest quantity which can be stored, processed, or transferred; (b) the largest number of digits or characters which may regularly be processed; (c) the upper and lower limits of the quantities which may be processed. In other contexts, the amount of material that can be stored, such as fuel or food."^^xsd:string ; @@ -8604,7 +11065,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative a ns1:QuantityKind ; rdfs:label "Carrier LifetIme"@en ; - dcterms:description "\"Carrier LifetIme\" is a time constant for recombination or trapping of minority charge carriers in semiconductors."^^rdf:HTML ; + dcterms:description "\"Carrier LifetIme\" is a time constant for recombination or trapping of minority charge carriers in semiconductors."^^ns1:LatexString, + "\"Carrier LifetIme\" is a time constant for recombination or trapping of minority charge carriers in semiconductors."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8651,12 +11113,14 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\tau, \\tau_n, \\tau_p$"^^ns1:LatexString ; ns1:plainTextDescription "\"Carrier LifetIme\" is a time constant for recombination or trapping of minority charge carriers in semiconductors."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Cartesian Area"@en ; - dcterms:description "\"Area\" is a quantity that expresses the extent of a two-dimensional surface or shape, or planar lamina, in the plane."^^rdf:HTML ; + dcterms:description "\"Area\" is a quantity that expresses the extent of a two-dimensional surface or shape, or planar lamina, in the plane."^^ns1:LatexString, + "\"Area\" is a quantity that expresses the extent of a two-dimensional surface or shape, or planar lamina, in the plane."^^rdf:HTML ; ns1:abbreviation "area"^^xsd:string ; ns1:applicableUnit , , @@ -8684,6 +11148,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Area\" is a quantity that expresses the extent of a two-dimensional surface or shape, or planar lamina, in the plane."^^xsd:string ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . @@ -8699,7 +11164,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative "coordenadas cartesianas"@pt, "kartezyen koordinatları"@tr, "直角坐标系"@zh ; - dcterms:description "\"Cartesian Coordinates\" specify each point uniquely in a plane by a pair of numerical coordinates, which are the signed distances from the point to two fixed perpendicular directed lines, measured in the same unit of length. "^^rdf:HTML ; + dcterms:description "\"Cartesian Coordinates\" specify each point uniquely in a plane by a pair of numerical coordinates, which are the signed distances from the point to two fixed perpendicular directed lines, measured in the same unit of length. "^^ns1:LatexString, + "\"Cartesian Coordinates\" specify each point uniquely in a plane by a pair of numerical coordinates, which are the signed distances from the point to two fixed perpendicular directed lines, measured in the same unit of length. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -8744,6 +11210,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Cartesian Coordinates\" specify each point uniquely in a plane by a pair of numerical coordinates, which are the signed distances from the point to two fixed perpendicular directed lines, measured in the same unit of length. "^^xsd:string ; ns1:symbol "x, y, z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Kartézské souřadnice"@cs ; skos:broader . @@ -8770,7 +11237,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative "prostornina"@sl, "hacim"@tr, "体积"@zh ; - dcterms:description "\"Volume\" is the quantity of three-dimensional space enclosed by some closed boundary, for example, the space that a substance (solid, liquid, gas, or plasma) or shape occupies or contains."^^rdf:HTML ; + dcterms:description "\"Volume\" is the quantity of three-dimensional space enclosed by some closed boundary, for example, the space that a substance (solid, liquid, gas, or plasma) or shape occupies or contains."^^ns1:LatexString, + "\"Volume\" is the quantity of three-dimensional space enclosed by some closed boundary, for example, the space that a substance (solid, liquid, gas, or plasma) or shape occupies or contains."^^rdf:HTML ; ns1:applicableUnit , , , @@ -8826,6 +11294,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative ns1:latexDefinition "$V = \\int\\int\\int dxdydz$, where $x$, $y$, and $z$ are cartesian coordinates."^^ns1:LatexString ; ns1:plainTextDescription "\"Volume\" is the quantity of three-dimensional space enclosed by some closed boundary, for example, the space that a substance (solid, liquid, gas, or plasma) or shape occupies or contains."^^xsd:string ; ns1:symbol "V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Volume"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8849,7 +11318,8 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative "temperatura"@sl, "Celsius sıcaklık"@tr, "温度"@zh ; - dcterms:description "\"Celsius Temperature\", the thermodynamic temperature T_0, is exactly 0.01 kelvin below the thermodynamic temperature of the triple point of water."^^rdf:HTML ; + dcterms:description "\"Celsius Temperature\", the thermodynamic temperature T_0, is exactly 0.01 kelvin below the thermodynamic temperature of the triple point of water."^^ns1:LatexString, + "\"Celsius Temperature\", the thermodynamic temperature T_0, is exactly 0.01 kelvin below the thermodynamic temperature of the triple point of water."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -8860,6 +11330,7 @@ The SI unit of pressure is the pascal (Pa), which is a very small unit relative $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ns1:LatexString ; ns1:plainTextDescription "\"Celsius Temperature\", the thermodynamic temperature T_0, is exactly 0.01 kelvin below the thermodynamic temperature of the triple point of water."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ThermodynamicTemperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; prov:wasDerivedFrom . @@ -8873,23 +11344,74 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:latexDefinition "$Z_c = pc$, where $p$ is the sound pressure and $c$ is the phase speed of sound."^^ns1:LatexString ; ns1:symbol "Z"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AcousticImpedance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "characteristic number"@en-us ; dcterms:description "quantity of dimension one (as a result of measuring technology theory) which clarifies facts, states or developments and is used as a scale e.g. to represent causes and effects of events"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Größe der Dimension 1 (als Ergebnis der metrisierenden Messtheorie), die Sachverhalte, Zustände oder Entwicklungen verdeutlicht und als Maßstab dient, um z. B. Ursache und Wirkung von Vorgängen in kausalem Zusammenhang darzustellen"@de ; ns1:symbol "0173-1#Z4-BAJ279#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Characteristic Velocity"@en ; dcterms:description "Characteristic velocity or $c^{*}$ is a measure of the combustion performance of a rocket engine independent of nozzle performance, and is used to compare different propellants and propulsion systems."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:latexSymbol "$c^{*}$"^^ns1:LatexString ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Chemical Consumption per Mass"@en ; @@ -8906,6 +11428,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:plainTextDescription "In the context of a chemical durability test, this is measure of how much of a solution (often a corrosive or reactive one) is consumed or used up per unit mass of a material being tested. In other words, this the volume of solution needed to cause a certain level of chemical reaction or damage to a given mass of the material."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificVolume"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -8952,12 +11475,27 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:symbol "r_o"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "CoefficientOfPerformance"@en ; + dcterms:description "\"Coefficient of Performance\",is a measure of the efficiency of a heating or cooling system, defined as the ratio of useful heating or cooling output to the energy input required to achieve it."^^ns1:LatexString ; + ns1:applicableSIUnit ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Coefficient_of_performance#:~:text=The%20coefficient%20of%20performance%20or,and%20thus%20lower%20operating%20costs."^^xsd:anyURI ; + ns1:plainTextDescription "\"\"Coefficient of Performance\",is a measure of the efficiency of a heating or cooling system, defined as the ratio of useful heating or cooling output to the energy input required to achieve it."^^xsd:string ; + ns1:symbol "COP"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CoefficientOfPerformance"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Coherence Length"@en ; - dcterms:description "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable."^^rdf:HTML ; + dcterms:description "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable."^^ns1:LatexString, + "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9002,29 +11540,95 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable."^^xsd:string ; ns1:symbol "ξ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Cold Receptor Threshold"@en ; - dcterms:description "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending."^^rdf:HTML ; + dcterms:description "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending."^^ns1:LatexString, + "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_c}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Combustion Chamber Temperature"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; ns1:symbol "T_c"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:ThermodynamicTemperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "real part of complex frequency"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD199"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Frequency"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Compound Plane Angle"@en ; + dcterms:description "A \"Compound Plane Angle\" is a compound measure of plane angle in degrees, minutes, seconds, and optionally millionth-seconds of arc."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://standards.buildingsmart.org/IFC/DEV/IFC4_2/FINAL/HTML/link/ifccompoundplaneanglemeasure.htm"^^xsd:anyURI ; + ns1:plainTextDescription "A \"Compound Plane Angle\" is a compound measure of plane angle in degrees, minutes, seconds, and optionally millionth-seconds of arc."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PlaneAngle"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Compressibility Factor"@en ; @@ -9048,27 +11652,70 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Conductive Heat Transfer Rate"@en ; - dcterms:description "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact."^^rdf:HTML ; + dcterms:description "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact."^^ns1:LatexString, + "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\Phi_k$"^^ns1:LatexString ; ns1:plainTextDescription "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:HeatFlowRate"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Convective Heat Transfer"@en ; - dcterms:description "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. "^^rdf:HTML ; + dcterms:description "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. "^^ns1:LatexString, + "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. "^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_transfer#Convection"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\Phi_c$"^^ns1:LatexString ; ns1:plainTextDescription "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. "^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:HeatFlowRate"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Kosten pro Fläche"@de, @@ -9077,6 +11724,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:hasDimensionVector ; ns1:informativeReference "https://www.designingbuildings.co.uk/wiki/Cost_per_m2_of_gross_internal_floor_area"^^xsd:anyURI ; ns1:plainTextDescription "In the construction industry, cost per area is the unit rate which, when multiplied by the gross internal floor area (GIFA), gives the total building works estimate (i.e.works cost estimate less main contractor’s preliminaries and main contractor’s overheads and profit)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CostPerArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -9085,14 +11733,17 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Represents the cost associated with a unit mass of a substance or material. It is typically used in economic and engineering contexts to evaluate the expense incurred per kilogram, gram, or other units of mass. This measure helps in comparing the economic efficiency of different materials or substances based on their mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CostPerMass"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energiekosten"@de, "energy cost"@en ; + dcterms:isReplacedBy ; ns1:applicableUnit , , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Cost_of_electricity_by_source"^^xsd:anyURI ; ns1:plainTextDescription "The monetary cost of a unit of energy"^^xsd:string ; @@ -9101,13 +11752,30 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ a ns1:QuantityKind ; rdfs:label "Anschaffungskosten pro Watt"@de, "cost per power"@en ; + dcterms:isReplacedBy ; ns1:applicableUnit , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Photovoltaics"^^xsd:anyURI ; ns1:plainTextDescription "In photovoltaics, cost per power of electricity produced measures the cost of installing the hardware relative to the power produced."^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "CountRate"@en ; + dcterms:description "A measure of a number of items counted per time period."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://standards.buildingsmart.org/IFC/RELEASE/IFC4/ADD2/HTML/link/ifcintegercountratemeasure.htm"^^xsd:anyURI ; + ns1:plainTextDescription "This measure may be used for measuring integer units per second or per hour. For example, it may be used to measure the number of books per hour passing along a part of a mechanical book handling system, the number of people per hour travelling along a moving walkway or the number of vehicles per hour travelling along a section of road. "^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:CountRate"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Cross-sectional Area"@en ; ns1:applicableUnit , @@ -9132,6 +11800,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -9167,13 +11836,16 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:latexSymbol "$\\alpha_v$"^^ns1:LatexString ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ExpansionRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "current of the amount of subtance"@en-us ; dcterms:description "ratio of the amount of substance divided by the related time"@en ; + ns1:deprecated true ; ns1:hasDimensionVector ; + ns1:isReplacedBy ; ns1:plainTextDescription "Quotient Stoffmenge dividiert durch die zugehörige Zeit"@de ; ns1:symbol "0173-1#Z4-BAJ384#002"^^xsd:string ; rdfs:isDefinedBy . @@ -9188,7 +11860,8 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ a ns1:QuantityKind ; rdfs:label "Larmor Angular Frequency"@en ; - dcterms:description "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^rdf:HTML ; + dcterms:description "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^ns1:LatexString, + "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9205,12 +11878,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:latexDefinition "$\\omega_c = \\frac{\\left | q \\right |}{m}B$, where $q$ is the electric charge, $m$ is its mass, and $B$ is the magnetic flux density."^^ns1:LatexString ; ns1:latexSymbol "$\\omega_c$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularFrequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Delta-V"@en ; - dcterms:description "The change in translational velocity including all losses for a propulsive system or module. Delta-V losses include, but are not limited to, gravity losses and steering losses."^^rdf:HTML ; + dcterms:description "The change in translational velocity including all losses for a propulsive system or module. Delta-V losses include, but are not limited to, gravity losses and steering losses."^^ns1:LatexString, + "The change in translational velocity including all losses for a propulsive system or module. Delta-V losses include, but are not limited to, gravity losses and steering losses."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9250,12 +11925,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:informativeReference "http://en.wikipedia.org/wiki/Delta-v"^^xsd:anyURI ; ns1:latexSymbol "$\\bigtriangleup v$"^^ns1:LatexString ; ns1:plainTextDescription "The change in translational velocity including all losses for a propulsive system or module. Delta-V losses include, but are not limited to, gravity losses and steering losses."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Dry Mass"@en ; - dcterms:description "Mass of a system without the propellants, pressurants, reserve or residual fluids, personnel and personnel provisions, and cargo."^^rdf:HTML ; + dcterms:description "Mass of a system without the propellants, pressurants, reserve or residual fluids, personnel and personnel provisions, and cargo."^^ns1:LatexString, + "Mass of a system without the propellants, pressurants, reserve or residual fluids, personnel and personnel provisions, and cargo."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9312,6 +11989,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:plainTextDescription "Mass of a system without the propellants, pressurants, reserve or residual fluids, personnel and personnel provisions, and cargo."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -9333,6 +12011,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD027"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DatasetOfBits"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -9343,7 +12022,8 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ a ns1:QuantityKind ; rdfs:label "Debye Angular Frequency"@en ; - dcterms:description "\"Debye Angular Frequency\" is the cut-off angular frequency in the Debye model of the vibrational spectrum of a solid."^^rdf:HTML ; + dcterms:description "\"Debye Angular Frequency\" is the cut-off angular frequency in the Debye model of the vibrational spectrum of a solid."^^ns1:LatexString, + "\"Debye Angular Frequency\" is the cut-off angular frequency in the Debye model of the vibrational spectrum of a solid."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9359,25 +12039,95 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\omega_b$"^^ns1:LatexString ; ns1:plainTextDescription "\"Debye Angular Frequency\" is the cut-off angular frequency in the Debye model of the vibrational spectrum of a solid."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularFrequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Debye Temperature"@en ; - dcterms:description "\"Debye Temperature\" is the temperature at which the highest-frequency mode (and hence all modes) are excited."^^rdf:HTML ; + dcterms:description "\"Debye Temperature\" is the temperature at which the highest-frequency mode (and hence all modes) are excited."^^ns1:LatexString, + "\"Debye Temperature\" is the temperature at which the highest-frequency mode (and hence all modes) are excited."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Debye_model"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexDefinition "$\\Theta_D = \\frac{\\hbar\\omega_D}{k}$, where $k$ is the Boltzmann constant, $\\hbar$ is the reduced Planck constant, and $\\omega_D$ is the Debye angular frequency."^^ns1:LatexString ; ns1:latexSymbol "$\\Theta_D$"^^ns1:LatexString ; ns1:plainTextDescription "\"Debye Temperature\" is the temperature at which the highest-frequency mode (and hence all modes) are excited."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Density In Combustion Chamber"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\rho_c$"^^ns1:LatexString ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MassDensity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Density Of The Exhaust Gases"@en ; @@ -9441,12 +12191,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Density"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Depth"@en ; - dcterms:description "Depth typically refers to the vertical measure of length from the surface of a liquid."^^rdf:HTML ; + dcterms:description "Depth typically refers to the vertical measure of length from the surface of a liquid."^^ns1:LatexString, + "Depth typically refers to the vertical measure of length from the surface of a liquid."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9488,12 +12240,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:plainTextDescription "Depth typically refers to the vertical measure of length from the surface of a liquid."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Dew Point Temperature"@en ; - dcterms:description "\"Dew Point Temperature\" is the temperature at which vapour in air reaches saturation."^^rdf:HTML ; + dcterms:description "\"Dew Point Temperature\" is the temperature at which vapour in air reaches saturation."^^ns1:LatexString, + "\"Dew Point Temperature\" is the temperature at which vapour in air reaches saturation."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9504,6 +12258,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:plainTextDescription "\"Dew Point Temperature\" is the temperature at which vapour in air reaches saturation."^^xsd:string ; ns1:symbol "T_d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -9523,7 +12278,8 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ "premer"@sl, "çap"@tr, "直径"@zh ; - dcterms:description "In classical geometry, the \"Diameter\" of a circle is any straight line segment that passes through the center of the circle and whose endpoints lie on the circle. "^^rdf:HTML ; + dcterms:description "In classical geometry, the \"Diameter\" of a circle is any straight line segment that passes through the center of the circle and whose endpoints lie on the circle. "^^ns1:LatexString, + "In classical geometry, the \"Diameter\" of a circle is any straight line segment that passes through the center of the circle and whose endpoints lie on the circle. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -9570,12 +12326,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:latexDefinition "$d = 2r$, where $r$ is the radius of the circle."^^ns1:LatexString ; ns1:plainTextDescription "In classical geometry, the \"Diameter\" of a circle is any straight line segment that passes through the center of the circle and whose endpoints lie on the circle. "^^xsd:string ; ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Diffusion Area"@en ; - dcterms:description "\"Diffusion Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the point where a neutron enters a specified class and the point where it leaves that class."^^rdf:HTML ; + dcterms:description "\"Diffusion Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the point where a neutron enters a specified class and the point where it leaves that class."^^ns1:LatexString, + "\"Diffusion Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the point where a neutron enters a specified class and the point where it leaves that class."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9601,12 +12359,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Diffusion Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the point where a neutron enters a specified class and the point where it leaves that class."^^xsd:string ; ns1:symbol "L^2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Diffusion Coefficient for Fluence Rate"@en ; - dcterms:description "The \"Diffusion Coefficient for Fluence Rate\" is a proportionality constant between the ."^^rdf:HTML ; + dcterms:description "The \"Diffusion Coefficient for Fluence Rate\" is a proportionality constant between the ."^^ns1:LatexString, + "The \"Diffusion Coefficient for Fluence Rate\" is a proportionality constant between the ."^^rdf:HTML ; ns1:abbreviation "m"^^xsd:string ; ns1:applicableUnit , , @@ -9653,12 +12413,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Diffusion Coefficient for Fluence Rate\" is a proportionality constant between the ."^^xsd:string ; ns1:symbol "Dᵩ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Diffusion Length"@en ; - dcterms:description "\"Diffusion Length\" is the average distance traveled by a particle, or a thermal neutron in a nuclear reactor, from the point at which it is formed to the point at which it is absorbed."^^rdf:HTML ; + dcterms:description "\"Diffusion Length\" is the average distance traveled by a particle, or a thermal neutron in a nuclear reactor, from the point at which it is formed to the point at which it is absorbed."^^ns1:LatexString, + "\"Diffusion Length\" is the average distance traveled by a particle, or a thermal neutron in a nuclear reactor, from the point at which it is formed to the point at which it is absorbed."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9704,6 +12466,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Diffusion Length\" is the average distance traveled by a particle, or a thermal neutron in a nuclear reactor, from the point at which it is formed to the point at which it is absorbed."^^xsd:string ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -9715,11 +12478,13 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD032"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DigitRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Displacement"@en ; - dcterms:description "\"Displacement\" is the shortest distance from the initial to the final position of a point P."^^rdf:HTML ; + dcterms:description "\"Displacement\" is the shortest distance from the initial to the final position of a point P."^^ns1:LatexString, + "\"Displacement\" is the shortest distance from the initial to the final position of a point P."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9765,12 +12530,14 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:latexDefinition "$\\Delta r = R_f - R_i$, where $R_f$ is the final position and $R_i$ is the initial position."^^ns1:LatexString ; ns1:latexSymbol "$\\Delta r$"^^ns1:LatexString ; ns1:plainTextDescription "\"Displacement\" is the shortest distance from the initial to the final position of a point P."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Displacement Vector of Ion"@en ; - dcterms:description "\"Displacement Vector of Ion\" is the ."^^rdf:HTML ; + dcterms:description "\"Displacement Vector of Ion\" is the ."^^ns1:LatexString, + "\"Displacement Vector of Ion\" is the ."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9816,45 +12583,29 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Displacement Vector of Ion\" is the ."^^xsd:string ; ns1:symbol "u"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Vzdálenost"@cs, - "Entfernung"@de, - "distance"@en, - "distancia"@es, - "مسافت"@fa, - "distance"@fr, - "distanza"@it, - "Jarak"@ms, - "distância"@pt, - "uzaklık"@tr, - "距离"@zh ; - dcterms:description "\"Distance\" is a numerical description of how far apart objects are. "^^rdf:HTML ; + a ns1:QuantityKind ; + rdfs:label "Distance Traveled During a Burn"@en ; ns1:applicableUnit , , ; ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Distance"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:plainTextDescription "\"Distance\" is a numerical description of how far apart objects are. "^^xsd:string ; - ns1:symbol "d"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "Distance Traveled During a Burn"@en ; - ns1:hasDimensionVector ; ns1:symbol "s"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Distance"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Donor Density"@en ; - dcterms:description "\"Donor Density\" is the number per volume of donor levels."^^rdf:HTML ; + dcterms:description "\"Donor Density\" is the number per volume of donor levels."^^ns1:LatexString, + "\"Donor Density\" is the number per volume of donor levels."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -9863,6 +12614,7 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Donor Density\" is the number per volume of donor levels."^^xsd:string ; ns1:symbol "n_d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -9874,33 +12626,85 @@ $t = T - T_0$, where $T$ is Thermodynamic Temperature and $T_0 = 273.15 K$."""^^ a ns1:QuantityKind ; rdfs:label "dots per inch"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD255"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:InverseLength"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Drag Coefficient"@en ; - dcterms:description "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water."^^rdf:HTML ; + dcterms:description "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water."^^ns1:LatexString, + "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:symbol "C_D"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Drag Force"@en ; dcterms:description """In fluid dynamics, drag refers to forces which act on a solid object in the direction of the relative fluid flow velocity. Unlike other resistive forces such as dry friction, which is nearly independent of velocity, drag forces depend on velocity. Drag forces always decrease fluid velocity relative to the solid object in the fluid's path."""^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription """In fluid dynamics, drag refers to forces which act on a solid object in the direction of the relative fluid flow velocity. Unlike other resistive forces such as dry friction, which is nearly independent of velocity, drag forces depend on velocity. Drag forces always decrease fluid velocity relative to the solid object in the fluid's path."""^^xsd:string ; ns1:symbol "D or F_D"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Dynamic Friction"@en ; - dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ; + dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^ns1:LatexString, + "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -9929,12 +12733,14 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:informativeReference "http://en.wikipedia.org/wiki/Friction"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:plainTextDescription "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Dynamic Friction Coefficient"@en ; - dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ; + dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^ns1:LatexString, + "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ; ns1:applicableUnit , ; ns1:dbpediaMatch "http://dbpedia.org/resource/Friction"^^xsd:anyURI ; @@ -9946,6 +12752,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:plainTextDescription "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:FrictionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10018,6 +12825,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:dbpediaMatch "http://dbpedia.org/resource/Dynamic_pressure"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:symbol "q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10060,6 +12868,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ; ns1:hasDimensionVector ; ns1:symbol "V_o"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10068,27 +12877,83 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD365"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EarthquakeMagnitude"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Eccentricity Of Orbit"@en ; - dcterms:description "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape."^^rdf:HTML ; + dcterms:description "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape."^^ns1:LatexString, + "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\varepsilon$"^^ns1:LatexString ; ns1:plainTextDescription "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Effective Exhaustvelocity"@en ; - dcterms:description "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity."^^rdf:HTML ; + dcterms:description "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity."^^ns1:LatexString, + "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity."^^xsd:string ; ns1:symbol "v_{e}"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Effective Mass"@en ; - dcterms:description "\"Effective Mass\" is used in the motional equation for electrons in solid state bodies, depending on the wavenumber and corresponding to its velocity and energy level."^^rdf:HTML ; + dcterms:description "\"Effective Mass\" is used in the motional equation for electrons in solid state bodies, depending on the wavenumber and corresponding to its velocity and energy level."^^ns1:LatexString, + "\"Effective Mass\" is used in the motional equation for electrons in solid state bodies, depending on the wavenumber and corresponding to its velocity and energy level."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10149,6 +13014,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:latexDefinition "$m^* = \\hbar^2k(\\frac{d\\varepsilon}{dk})$, where $\\hbar$ is the reduced Planck constant, $k$ is the wavenumber, and $\\varepsilon$ is the energy of the electron."^^ns1:LatexString ; ns1:plainTextDescription "\"Effective Mass\" is used in the motional equation for electrons in solid state bodies, depending on the wavenumber and corresponding to its velocity and energy level."^^xsd:string ; ns1:symbol "m^*"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10164,7 +13030,8 @@ Drag forces always decrease fluid velocity relative to the solid object in the f "eficiência"@pt, "коэффициент полезного действия"@ru, "效率"@zh ; - dcterms:description "Efficiency is the ratio of output power to input power."^^rdf:HTML ; + dcterms:description "Efficiency is the ratio of output power to input power."^^ns1:LatexString, + "Efficiency is the ratio of output power to input power."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10185,6 +13052,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:latexDefinition "$\\eta = \\frac{P_{out}}{P_{in}}$, where $P_{out}$ is the output power and $P_{in}$ is the input power."^^ns1:LatexString ; ns1:latexSymbol "$\\eta$"^^ns1:LatexString ; ns1:plainTextDescription "Efficiency is the ratio of output power to input power."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "rendimento"@it ; skos:broader . @@ -10194,6 +13062,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD036"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EinsteinCoefficients"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -10218,6 +13087,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ; ns1:hasDimensionVector ; ns1:symbol "D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10279,6 +13149,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ; ns1:hasDimensionVector ; ns1:symbol "M_P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10292,13 +13163,45 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:plainTextDescription "Maß für die Fähigkeit eines Stoffes, den elektrischen Strom zu leiten, das wertmäßig definiert ist als Kehrwert des elektrischen Widerstandes"@de ; ns1:siExactMatch ; ns1:symbol "0173-1#Z4-BAJ223#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricalConductance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electrical Power To Mass Ratio"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\xi$"^^ns1:LatexString ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:SpecificPower"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "electrical resistance"@en-us ; @@ -10309,6 +13212,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:iec61360Code "0112/2///62720#UAD045"^^xsd:string ; ns1:siExactMatch ; ns1:symbol "0173-1#Z4-BAJ215#003"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricalResistance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -10330,7 +13234,12 @@ Drag forces always decrease fluid velocity relative to the solid object in the f "elektromotorna sila"@sl, "Elektromotor kuvvet"@tr, "電動勢"@zh ; - dcterms:description "In physics, electromotive force, or most commonly $emf$ (seldom capitalized), or (occasionally) electromotance is that which tends to cause current (actual electrons and ions) to flow. More formally, $emf$ is the external work expended per unit of charge to produce an electric potential difference across two open-circuited terminals. \"Electromotive Force\" is deprecated in the ISO System of Quantities."^^ns1:LatexString ; + dcterms:description """ + In physics, $\\textit{Electromotive Force}$, or most commonly $emf$ (seldom capitalized), or (occasionally) electromotance is that which tends to cause current (actual electrons and ions) to flow. + More formally, $emf$ is the external work expended per unit of charge to produce an electric potential difference across two open-circuited terminals. + $\\textit{Electromotive Force}$ is deprecated in the ISO System of Quantities. + """^^ns1:LatexString, + "In physics, electromotive force, or most commonly $emf$ (seldom capitalized), or (occasionally) electromotance is that which tends to cause current (actual electrons and ions) to flow. More formally, $emf$ is the external work expended per unit of charge to produce an electric potential difference across two open-circuited terminals. \"Electromotive Force\" is deprecated in the ISO System of Quantities."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -10347,12 +13256,17 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:dbpediaMatch "http://dbpedia.org/resource/Electromotive_force"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerElectricCharge"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Electron Affinity"@en ; - dcterms:description "\"Electron Affinity\" is the energy difference between an electron at rest at infinity and an electron at the lowest level of the conduction band in an insulator or semiconductor. The the amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electron Affinity}$ is the energy difference between an electron at rest at infinity and an electron at the lowest level of the conduction band in an insulator or semiconductor. + The amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion. + """^^ns1:LatexString, + "\"Electron Affinity\" is the energy difference between an electron at rest at infinity and an electron at the lowest level of the conduction band in an insulator or semiconductor. The the amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10407,15 +13321,21 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Electron Affinity\" is the energy difference between an electron at rest at infinity and an electron at the lowest level of the conduction band in an insulator or semiconductor. The the amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion."^^xsd:string ; ns1:symbol "χ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Electron Density"@en ; - dcterms:description "\"Electron Density\" is the number of electrons per volume in conduction bands. It is the measure of the probability of an electron being present at a specific location."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electron Density}$ is the number of electrons per volume in conduction bands. + It is the measure of the probability of an electron being present at a specific location. + """^^ns1:LatexString, + "\"Electron Density\" is the number of electrons per volume in conduction bands. It is the measure of the probability of an electron being present at a specific location."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -10425,12 +13345,16 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Electron Density\" is the number of electrons per volume in conduction bands. It is the measure of the probability of an electron being present at a specific location."^^xsd:string ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Electron Mean Free Path"@en ; - dcterms:description "\"Electron Mean Free Path\" is the mean free path of electrons."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electron Mean Free Path}$ is the mean free path of electrons. + """^^ns1:LatexString, + "\"Electron Mean Free Path\" is the mean free path of electrons."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10475,18 +13399,26 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Electron Mean Free Path\" is the mean free path of electrons."^^xsd:string ; ns1:symbol "l_e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "electron mobility"^^xsd:string ; + ns1:applicableUnit , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD119"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Mobility"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Electron Radius"@en ; - dcterms:description "\"Electron Radius\", also known as the Lorentz radius or the Thomson scattering length, is based on a classical (i.e., non-quantum) relativistic model of the electron."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electron Radius}$, also known as the Lorentz radius or the Thomson scattering length, is based on a classical (i.e., non-quantum) relativistic model of the electron. + """^^ns1:LatexString, + "\"Electron Radius\", also known as the Lorentz radius or the Thomson scattering length, is based on a classical (i.e., non-quantum) relativistic model of the electron."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10532,12 +13464,30 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Electron Radius\", also known as the Lorentz radius or the Thomson scattering length, is based on a classical (i.e., non-quantum) relativistic model of the electron."^^xsd:string ; ns1:symbol "r_e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Elevation relative to NAP"@en, + "Hoogte ten opzichte van NAP"@nl ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Height measurement relative to the Normaal Amsterdams Peil (NAP) (en: Amsterdam Ordnance System). Being a form of gravity related height"^^xsd:string ; + ns1:symbol "mNAP"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElevationRelativeToNAP"^^xsd:string, + "Height measurement relative to the Normaal Amsterdams Peil (NAP) (en: Amsterdam Ordnance System). Being a form of gravity related height"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader ; + skos:prefLabel "Elevation relative to NAP"@en, + "Hoogte ten opzichte van NAP"@nl ; + prov:wasDerivedFrom ; + prov:wasInfluencedBy . + a ns1:QuantityKind ; rdfs:label "Elliptical Orbit Apogee Velocity"@en ; - dcterms:description "Velocity at apogee for an elliptical orbit velocity"^^rdf:HTML ; + dcterms:description "Velocity at apogee for an elliptical orbit velocity"^^ns1:LatexString, + "Velocity at apogee for an elliptical orbit velocity"^^rdf:HTML ; ns1:applicableUnit , , , @@ -10576,12 +13526,14 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:hasDimensionVector ; ns1:plainTextDescription "Velocity at apogee for an elliptical orbit velocity"^^xsd:string ; ns1:symbol "V_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Elliptical Orbit Perigee Velocity"@en ; - dcterms:description "Velocity at apogee for an elliptical orbit velocity."^^rdf:HTML ; + dcterms:description "Velocity at apogee for an elliptical orbit velocity."^^ns1:LatexString, + "Velocity at apogee for an elliptical orbit velocity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10620,6 +13572,7 @@ Drag forces always decrease fluid velocity relative to the solid object in the f ns1:hasDimensionVector ; ns1:plainTextDescription "Velocity at apogee for an elliptical orbit velocity."^^xsd:string ; ns1:symbol "V_p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10627,59 +13580,6 @@ Drag forces always decrease fluid velocity relative to the solid object in the f rdfs:label "energy content"^^xsd:string, "energy content"@en-us ; dcterms:description "saved quantity of energy which can be used physically or chemically"@en ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD046"^^xsd:string ; - ns1:plainTextDescription "gespeicherte Energiemenge, die physikalisch oder chemisch nutzbar ist"@de ; - ns1:symbol "0173-1#Z4-BAJ319#002"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Energy Expenditure"@en ; - dcterms:description """Energy expenditure is dependent on a person's sex, metabolic rate, body-mass composition, the thermic effects of food, and activity level. The approximate energy expenditure of a man lying in bed is $1.0\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. For slow walking (just over two miles per hour), $3.0\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. For fast steady running (about 10 miles per hour), $16.3\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. -Females expend about 10 per cent less energy than males of the same size doing a comparable activity. For people weighing the same, individuals with a high percentage of body fat usually expend less energy than lean people, because fat is not as metabolically active as muscle."""^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198631477.001$.0001/acref-9780198631477-e-594"^^xsd:anyURI ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Energy Fluence Rate"@en ; - dcterms:description "\"Energy Fluence Rate\" can be used to describe the energy fluence delivered per unit time."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Fluence"^^xsd:anyURI ; - ns1:latexDefinition "$\\Psi = \\frac{d\\Psi}{dt}$, where $d\\Psi$ is the increment of the energy fluence during an infinitesimal time interval with duration $dt$."^^ns1:LatexString ; - ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:plainTextDescription "\"Energy Fluence Rate\" can be used to describe the energy fluence delivered per unit time."^^xsd:string ; - ns1:symbol "Ψ"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "Energy Imparted"@en ; - dcterms:description "The \"Energy Imparted\", is a physical quantity associated with the energy delivered to a particular volume of matter by all the directly and indirectly ionizing particles (i.e. charged and uncharged) entering that volume."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10730,33 +13630,142 @@ Females expend about 10 per cent less energy than males of the same size doing a , ; ns1:hasDimensionVector ; - ns1:informativeReference "http://www.answers.com/topic/energy-imparted"^^xsd:anyURI ; - ns1:latexDefinition "For ionizing radiation in the matter in a given 3D domain, $\\varepsilon = \\sum_i \\varepsilon_i$, where the energy deposit, $\\varepsilon_i$ is the energy deposited in a single interaction $i$, and is given by $\\varepsilon_i = \\varepsilon_{in} - \\varepsilon_{out} + Q$, where $\\varepsilon_{in}$ is the energy of the incident ionizing particle, excluding rest energy, $\\varepsilon_{out}$ is the sum of the energies of all ionizing particles leaving the interaction, excluding rest energy, and $Q$ is the change in the rest energies of the nucleus and of all particles involved in the interaction."^^ns1:LatexString ; - ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:plainTextDescription "The \"Energy Imparted\", is a physical quantity associated with the energy delivered to a particular volume of matter by all the directly and indirectly ionizing particles (i.e. charged and uncharged) entering that volume."^^xsd:string ; - ns1:symbol "ε"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAD046"^^xsd:string ; + ns1:plainTextDescription "gespeicherte Energiemenge, die physikalisch oder chemisch nutzbar ist"@de ; + ns1:symbol "0173-1#Z4-BAJ319#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "طاقة حركية"@ar, - "kinetická energie"@cs, - "kinetische Energie"@de, - "kinetic energy"@en, - "energía cinética"@es, - "انرژی جنبشی"@fa, - "énergie cinétique"@fr, - "गतिज ऊर्जा"@hi, - "energia cinetica"@it, - "運動エネルギー"@ja, - "Tenaga kinetik"@ms, - "energia kinetyczna"@pl, - "energia cinética"@pt, - "Energie cinetică"@ro, - "кинетическая энергия"@ru, - "Kinetik enerji"@tr, - "动能"@zh ; - dcterms:description "The kinetic energy of an object is the energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity."^^rdf:HTML ; + a ns1:QuantityKind ; + rdfs:label "Energy Expenditure"@en ; + dcterms:description """Energy expenditure is dependent on a person's sex, metabolic rate, body-mass composition, the thermic effects of food, and activity level. The approximate energy expenditure of a man lying in bed is $1.0\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. For slow walking (just over two miles per hour), $3.0\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. For fast steady running (about 10 miles per hour), $16.3\\,kilo\\,calorie\\,per\\,hour\\,per\\,kilogram$. +Females expend about 10 per cent less energy than males of the same size doing a comparable activity. For people weighing the same, individuals with a high percentage of body fat usually expend less energy than lean people, because fat is not as metabolically active as muscle."""^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198631477.001$.0001/acref-9780198631477-e-594"^^xsd:anyURI ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Energy Fluence Rate"@en ; + dcterms:description "\"Energy Fluence Rate\" can be used to describe the energy fluence delivered per unit time."^^ns1:LatexString, + "\"Energy Fluence Rate\" can be used to describe the energy fluence delivered per unit time."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Fluence"^^xsd:anyURI ; + ns1:latexDefinition "$\\Psi = \\frac{d\\Psi}{dt}$, where $d\\Psi$ is the increment of the energy fluence during an infinitesimal time interval with duration $dt$."^^ns1:LatexString ; + ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:plainTextDescription "\"Energy Fluence Rate\" can be used to describe the energy fluence delivered per unit time."^^xsd:string ; + ns1:symbol "Ψ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Energy Imparted"@en ; + dcterms:description "The \"Energy Imparted\", is a physical quantity associated with the energy delivered to a particular volume of matter by all the directly and indirectly ionizing particles (i.e. charged and uncharged) entering that volume."^^ns1:LatexString, + "The \"Energy Imparted\", is a physical quantity associated with the energy delivered to a particular volume of matter by all the directly and indirectly ionizing particles (i.e. charged and uncharged) entering that volume."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.answers.com/topic/energy-imparted"^^xsd:anyURI ; + ns1:latexDefinition "For ionizing radiation in the matter in a given 3D domain, $\\varepsilon = \\sum_i \\varepsilon_i$, where the energy deposit, $\\varepsilon_i$ is the energy deposited in a single interaction $i$, and is given by $\\varepsilon_i = \\varepsilon_{in} - \\varepsilon_{out} + Q$, where $\\varepsilon_{in}$ is the energy of the incident ionizing particle, excluding rest energy, $\\varepsilon_{out}$ is the sum of the energies of all ionizing particles leaving the interaction, excluding rest energy, and $Q$ is the change in the rest energies of the nucleus and of all particles involved in the interaction."^^ns1:LatexString ; + ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:plainTextDescription "The \"Energy Imparted\", is a physical quantity associated with the energy delivered to a particular volume of matter by all the directly and indirectly ionizing particles (i.e. charged and uncharged) entering that volume."^^xsd:string ; + ns1:symbol "ε"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "طاقة حركية"@ar, + "kinetická energie"@cs, + "kinetische Energie"@de, + "kinetic energy"@en, + "energía cinética"@es, + "انرژی جنبشی"@fa, + "énergie cinétique"@fr, + "गतिज ऊर्जा"@hi, + "energia cinetica"@it, + "運動エネルギー"@ja, + "Tenaga kinetik"@ms, + "energia kinetyczna"@pl, + "energia cinética"@pt, + "Energie cinetică"@ro, + "кинетическая энергия"@ru, + "Kinetik enerji"@tr, + "动能"@zh ; + dcterms:description "The kinetic energy of an object is the energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity."^^ns1:LatexString, + "The kinetic energy of an object is the energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10810,12 +13819,14 @@ Females expend about 10 per cent less energy than males of the same size doing a ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Kinetic_energy"^^xsd:anyURI ; ns1:plainTextDescription "The kinetic energy of an object is the energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Energy Level"@en ; - dcterms:description "\"Energy Level\" is the ionization energy for an electron at the Fermi energy in the interior of a substance."^^rdf:HTML ; + dcterms:description "\"Energy Level\" is the ionization energy for an electron at the Fermi energy in the interior of a substance."^^ns1:LatexString, + "\"Energy Level\" is the ionization energy for an electron at the Fermi energy in the interior of a substance."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10869,6 +13880,7 @@ Females expend about 10 per cent less energy than males of the same size doing a ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Energy Level\" is the ionization energy for an electron at the Fermi energy in the interior of a substance."^^xsd:string ; ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10890,7 +13902,8 @@ Females expend about 10 per cent less energy than males of the same size doing a a ns1:QuantityKind ; rdfs:label "Equilibrium Position Vector of Ion"@en ; - dcterms:description "\"Equilibrium Position Vector of Ion\" is the position vector of a particle in equilibrium."^^rdf:HTML ; + dcterms:description "\"Equilibrium Position Vector of Ion\" is the position vector of a particle in equilibrium."^^ns1:LatexString, + "\"Equilibrium Position Vector of Ion\" is the position vector of a particle in equilibrium."^^rdf:HTML ; ns1:applicableUnit , , , @@ -10935,6 +13948,7 @@ Females expend about 10 per cent less energy than males of the same size doing a ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Equilibrium Position Vector of Ion\" is the position vector of a particle in equilibrium."^^xsd:string ; ns1:symbol "R_0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10948,7 +13962,8 @@ Females expend about 10 per cent less energy than males of the same size doing a a ns1:QuantityKind ; rdfs:label "Equivalent absorption area"@en ; - dcterms:description "In a diffuse sound field, the Equivalent Absorption Area is that area of a surface having an absorption factor equal to 1, which, if diffraction effects are neglected, would, in the same diffuse sound field, absorb the same power."^^rdf:HTML ; + dcterms:description "In a diffuse sound field, the Equivalent Absorption Area is that area of a surface having an absorption factor equal to 1, which, if diffraction effects are neglected, would, in the same diffuse sound field, absorb the same power."^^ns1:LatexString, + "In a diffuse sound field, the Equivalent Absorption Area is that area of a surface having an absorption factor equal to 1, which, if diffraction effects are neglected, would, in the same diffuse sound field, absorb the same power."^^rdf:HTML ; ns1:abbreviation "m2"^^xsd:string ; ns1:applicableUnit , , @@ -10975,6 +13990,7 @@ Females expend about 10 per cent less energy than males of the same size doing a ns1:plainTextDescription "In a diffuse sound field, the Equivalent Absorption Area is that area of a surface having an absorption factor equal to 1, which, if diffraction effects are neglected, would, in the same diffuse sound field, absorb the same power."^^xsd:string ; ns1:symbol "A"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -10997,6 +14013,7 @@ another substance in a given chemical reaction, per volume."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Equivalent_(chemistry)"^^xsd:anyURI ; ns1:plainTextDescription "The amount of a substance that reacts with (or is equivalent to) an arbitrary amount (typically one mole) of another substance in a given chemical reaction, per volume."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11063,6 +14080,7 @@ another substance in a given chemical reaction, per volume."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Density"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11085,12 +14103,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Equivalent_(chemistry)"^^xsd:anyURI ; ns1:symbol "equiv"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Evaporative Heat Transfer"@en ; - dcterms:description "\"Evaporative Heat Transfer\" is "^^rdf:HTML ; + dcterms:description "\"Evaporative Heat Transfer\" is "^^ns1:LatexString, + "\"Evaporative Heat Transfer\" is "^^rdf:HTML ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\Phi_e$"^^ns1:LatexString ; @@ -11104,7 +14124,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "Exhaust Gases Specific Heat"@en ; - dcterms:description "Specific heat of exhaust gases at constant pressure."^^rdf:HTML ; + dcterms:description "Specific heat of exhaust gases at constant pressure."^^ns1:LatexString, + "Specific heat of exhaust gases at constant pressure."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11122,6 +14143,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "Specific heat of exhaust gases at constant pressure."^^xsd:string ; ns1:symbol "c_p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatCapacity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11194,12 +14216,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Exit Plane Cross-sectional Area"@en ; - dcterms:description "Cross-sectional area at exit plane of nozzle"^^rdf:HTML ; + dcterms:description "Cross-sectional area at exit plane of nozzle"^^ns1:LatexString, + "Cross-sectional area at exit plane of nozzle"^^rdf:HTML ; ns1:applicableUnit , , , @@ -11223,6 +14247,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "Cross-sectional area at exit plane of nozzle"^^xsd:string ; ns1:symbol "A_{e}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11293,6 +14318,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:symbol "p_{e}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11306,12 +14332,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:symbol "T_e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Exposure"@en ; - dcterms:description "\"Exposure\" reflects the extent of ionization events taking place when air is irradiated by ionizing photons (gamma radiation and/or x rays). In photography, exposure is the amount of light allowed to fall on each area unit of a photographic medium (photographic film or image sensor) during the process of taking a photograph. Exposure is measured in lux seconds, and can be computed from exposure value (EV) and scene luminance in a specified region."^^rdf:HTML ; + dcterms:description "\"Exposure\" reflects the extent of ionization events taking place when air is irradiated by ionizing photons (gamma radiation and/or x rays). In photography, exposure is the amount of light allowed to fall on each area unit of a photographic medium (photographic film or image sensor) during the process of taking a photograph. Exposure is measured in lux seconds, and can be computed from exposure value (EV) and scene luminance in a specified region."^^ns1:LatexString, + "\"Exposure\" reflects the extent of ionization events taking place when air is irradiated by ionizing photons (gamma radiation and/or x rays). In photography, exposure is the amount of light allowed to fall on each area unit of a photographic medium (photographic film or image sensor) during the process of taking a photograph. Exposure is measured in lux seconds, and can be computed from exposure value (EV) and scene luminance in a specified region."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11331,6 +14359,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:plainTextDescription "\"Exposure\" reflects the extent of ionization events taking place when air is irradiated by ionizing photons (gamma radiation and/or x rays). In photography, exposure is the amount of light allowed to fall on each area unit of a photographic medium (photographic film or image sensor) during the process of taking a photograph. Exposure is measured in lux seconds, and can be computed from exposure value (EV) and scene luminance in a specified region."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "X"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerMass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11352,7 +14381,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "Flight Performance Reserve Propellant Mass"@en ; - dcterms:description "A quantity of propellant, at a nominal mixture ratio, along with fuel bias that is set aside from total propellant loaded to cover for statistical variations of flight hardware characteristics and environment conditions on the day of launch. The launch vehicle is designed to accommodate the maximum FPR loading."^^rdf:HTML ; + dcterms:description "A quantity of propellant, at a nominal mixture ratio, along with fuel bias that is set aside from total propellant loaded to cover for statistical variations of flight hardware characteristics and environment conditions on the day of launch. The launch vehicle is designed to accommodate the maximum FPR loading."^^ns1:LatexString, + "A quantity of propellant, at a nominal mixture ratio, along with fuel bias that is set aside from total propellant loaded to cover for statistical variations of flight hardware characteristics and environment conditions on the day of launch. The launch vehicle is designed to accommodate the maximum FPR loading."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11409,14 +14439,17 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "A quantity of propellant, at a nominal mixture ratio, along with fuel bias that is set aside from total propellant loaded to cover for statistical variations of flight hardware characteristics and environment conditions on the day of launch. The launch vehicle is designed to accommodate the maximum FPR loading."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "FPR"^^xsd:string ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fuel Bias"@en ; - dcterms:description "An additional quantity of fuel to ensure depletion of high-weight oxidizer before fuel for systems with high-oxidizer mixing ratios (e.g., 6:1). This practice allows for more efficient propellant utilization. Denoted as a percentage."^^rdf:HTML ; + dcterms:description "An additional quantity of fuel to ensure depletion of high-weight oxidizer before fuel for systems with high-oxidizer mixing ratios (e.g., 6:1). This practice allows for more efficient propellant utilization. Denoted as a percentage."^^ns1:LatexString, + "An additional quantity of fuel to ensure depletion of high-weight oxidizer before fuel for systems with high-oxidizer mixing ratios (e.g., 6:1). This practice allows for more efficient propellant utilization. Denoted as a percentage."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -11429,6 +14462,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "An additional quantity of fuel to ensure depletion of high-weight oxidizer before fuel for systems with high-oxidizer mixing ratios (e.g., 6:1). This practice allows for more efficient propellant utilization. Denoted as a percentage."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11436,25 +14470,37 @@ another substance in a given chemical reaction."""^^rdf:HTML ; rdfs:label "Fahrenheit temperature"^^xsd:string, "Fahrenheit temperature"@en-us ; dcterms:description "quantity whose zero point is defined by the temperature of a mixture of ice, water and ammonium chloride (-17.8 °C) and its fixed points on the Fahrenheit scale are 32 °F (melting point of ice) and 212 °F (boiling point of water)"@en ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD263"^^xsd:string ; ns1:plainTextDescription "Größe, deren Nullpunkt durch die Mischungstemperatur von Eis, Wasser und Salmiak (Ammoniumchlorid) definiert ist (-17,8 °C) und deren Fixpunkte auf der Fahrenheit-Skala 32 °F (Schmelztemperatur von Eis) und 212 °F (Siedetemperatur des Wassers) sind"@de ; ns1:symbol "0173-1#Z4-BAJ278#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "failure rate"^^xsd:string, "failure rate"@en-us ; dcterms:description "limiting value - if it exists - of the ratio between the conditional probability that the fault time t of a resource will fall within a defined interval (t, t + Δt), and the duration of this interval if Δt approaches zero and the unit is in an operational state at the beginning of the interval"@en ; + ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD051"^^xsd:string ; ns1:plainTextDescription "Grenzwert - falls er existiert - des Quotienten aus der bedingten Wahrscheinlichkeit, dass der Ausfallzeitpunkt t eines Betriebsmittels in ein gegebenes Zeitintervall (t, t + Δt) fällt, und der Dauer dieses Zeitintervalls, wenn Δt gegen null geht und das Betriebsmittel sich zu Beginn des Zeitintervalls im betriebsfähigen Zustand befindet"@de ; ns1:symbol "0173-1#Z4-BAJ466#003"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Incidence"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Fermi Energy"@en ; - dcterms:description "\"Fermi Energy\" in a metal is the highest occupied energy level at zero thermodynamic temperature."^^rdf:HTML ; + dcterms:description "\"Fermi Energy\" in a metal is the highest occupied energy level at zero thermodynamic temperature."^^ns1:LatexString, + "\"Fermi Energy\" in a metal is the highest occupied energy level at zero thermodynamic temperature."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11509,19 +14555,29 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Fermi Energy\" in a metal is the highest occupied energy level at zero thermodynamic temperature."^^xsd:string ; ns1:symbol "E_F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fermi Temperature"@en ; - dcterms:description "\"Fermi Temperature\" is the temperature associated with the Fermi energy."^^rdf:HTML ; + dcterms:description "\"Fermi Temperature\" is the temperature associated with the Fermi energy."^^ns1:LatexString, + "\"Fermi Temperature\" is the temperature associated with the Fermi energy."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Fermi_energy"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexDefinition "$T_F = \\frac{E_F}{k}$, where $E_F$ is the Fermi energy and $k$ is the Boltzmann constant."^^ns1:LatexString ; ns1:plainTextDescription "\"Fermi Temperature\" is the temperature associated with the Fermi energy."^^xsd:string ; ns1:symbol "T_F"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Final Or Current Vehicle Mass"@en ; @@ -11581,12 +14637,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "First Moment of Area"@en ; - dcterms:description "The first moment of area is the summation of area times distance to an axis. It is a measure of the distribution of the area of a shape in relationship to an axis."^^rdf:HTML ; + dcterms:description "The first moment of area is the summation of area times distance to an axis. It is a measure of the distribution of the area of a shape in relationship to an axis."^^ns1:LatexString, + "The first moment of area is the summation of area times distance to an axis. It is a measure of the distribution of the area of a shape in relationship to an axis."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11638,12 +14696,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "The first moment of area is the summation of area times distance to an axis. It is a measure of the distribution of the area of a shape in relationship to an axis."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Volume"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "First Stage Mass Ratio"@en ; - dcterms:description "Mass ratio for the first stage of a multistage launcher."^^rdf:HTML ; + dcterms:description "Mass ratio for the first stage of a multistage launcher."^^ns1:LatexString, + "Mass ratio for the first stage of a multistage launcher."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11659,20 +14719,37 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "Mass ratio for the first stage of a multistage launcher."^^xsd:string ; ns1:symbol "R_1"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fission Core Radius To Height Ratio"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:symbol "R/H"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Fission Fuel Utilization Factor"@en ; ns1:applicableUnit , + , , , , @@ -11684,13 +14761,16 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fission Multiplication Factor"@en ; - dcterms:description "The number of fission neutrons produced per absorption in the fuel."^^rdf:HTML ; + dcterms:description "The number of fission neutrons produced per absorption in the fuel."^^ns1:LatexString, + "The number of fission neutrons produced per absorption in the fuel."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -11703,12 +14783,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "The number of fission neutrons produced per absorption in the fuel."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Flight Path Angle"@en ; - dcterms:description "Flight path angle is defined in two different ways. To the aerodynamicist, it is the angle between the flight path vector (where the airplane is going) and the local atmosphere. To the flight crew, it is normally known as the angle between the flight path vector and the horizon, also known as the climb (or descent) angle."^^rdf:HTML ; + dcterms:description "Flight path angle is defined in two different ways. To the aerodynamicist, it is the angle between the flight path vector (where the airplane is going) and the local atmosphere. To the flight crew, it is normally known as the angle between the flight path vector and the horizon, also known as the climb (or descent) angle."^^ns1:LatexString, + "Flight path angle is defined in two different ways. To the aerodynamicist, it is the angle between the flight path vector (where the airplane is going) and the local atmosphere. To the flight crew, it is normally known as the angle between the flight path vector and the horizon, also known as the climb (or descent) angle."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11724,6 +14806,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; ns1:plainTextDescription "Flight path angle is defined in two different ways. To the aerodynamicist, it is the angle between the flight path vector (where the airplane is going) and the local atmosphere. To the flight crew, it is normally known as the angle between the flight path vector and the horizon, also known as the climb (or descent) angle."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11735,6 +14818,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD363"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:FloatingPointCalculationCapability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -11748,6 +14832,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:iec61360Code "0112/2///62720#UAD264"^^xsd:string ; ns1:plainTextDescription "Fließvermögen eines Stoffes als Kehrwert der dynamischen Viskosität"@de ; ns1:symbol "0173-1#Z4-BAJ447#001"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Fluidity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -11758,7 +14843,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "Fundamental Lattice vector"@en ; - dcterms:description "\"Fundamental Lattice vector\" are fundamental translation vectors for the crystal lattice."^^rdf:HTML ; + dcterms:description "\"Fundamental Lattice vector\" are fundamental translation vectors for the crystal lattice."^^ns1:LatexString, + "\"Fundamental Lattice vector\" are fundamental translation vectors for the crystal lattice."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11803,12 +14889,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Fundamental Lattice vector\" are fundamental translation vectors for the crystal lattice."^^xsd:string ; ns1:symbol "a_1, a_2, a_3"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fundamental Reciprocal Lattice Vector"@en ; - dcterms:description "\"Fundamental Reciprocal Lattice Vector\" are fundamental, or primary, translation vectors the reciprocal lattice."^^rdf:HTML ; + dcterms:description "\"Fundamental Reciprocal Lattice Vector\" are fundamental, or primary, translation vectors the reciprocal lattice."^^ns1:LatexString, + "\"Fundamental Reciprocal Lattice Vector\" are fundamental, or primary, translation vectors the reciprocal lattice."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11820,12 +14908,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Fundamental Reciprocal Lattice Vector\" are fundamental, or primary, translation vectors the reciprocal lattice."^^xsd:string ; ns1:symbol "b_1, b_2, b_3"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularReciprocalLatticeVector"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Gross Lift-Off Weight"@en ; - dcterms:description "The sum of a rocket's inert mass and usable fluids and gases at sea level."^^rdf:HTML ; + dcterms:description "The sum of a rocket's inert mass and usable fluids and gases at sea level."^^ns1:LatexString, + "The sum of a rocket's inert mass and usable fluids and gases at sea level."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11883,12 +14973,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Maximum_Takeoff_Weight"^^xsd:anyURI ; ns1:plainTextDescription "The sum of a rocket's inert mass and usable fluids and gases at sea level."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Gain"@en ; - dcterms:description "A general term used to denote an increase in signal power or signal strength in transmission from one point to another. Gain is usually expressed in decibels and is widely used to denote transducer gain. An increase or amplification. In radar there are two general usages of the term: (a) antenna gain, or gain factor, is the ratio of the power transmitted along the beam axis to that of an isotropic radiator transmitting the same total power; (b) receiver gain, or video gain, is the amplification given a signal by the receiver."^^rdf:HTML ; + dcterms:description "A general term used to denote an increase in signal power or signal strength in transmission from one point to another. Gain is usually expressed in decibels and is widely used to denote transducer gain. An increase or amplification. In radar there are two general usages of the term: (a) antenna gain, or gain factor, is the ratio of the power transmitted along the beam axis to that of an isotropic radiator transmitting the same total power; (b) receiver gain, or video gain, is the amplification given a signal by the receiver."^^ns1:LatexString, + "A general term used to denote an increase in signal power or signal strength in transmission from one point to another. Gain is usually expressed in decibels and is widely used to denote transducer gain. An increase or amplification. In radar there are two general usages of the term: (a) antenna gain, or gain factor, is the ratio of the power transmitted along the beam axis to that of an isotropic radiator transmitting the same total power; (b) receiver gain, or video gain, is the amplification given a signal by the receiver."^^rdf:HTML ; ns1:applicableUnit , , , @@ -11908,6 +15000,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:plainTextDescription "A general term used to denote an increase in signal power or signal strength in transmission from one point to another. Gain is usually expressed in decibels and is widely used to denote transducer gain. An increase or amplification. In radar there are two general usages of the term: (a) antenna gain, or gain factor, is the ratio of the power transmitted along the beam axis to that of an isotropic radiator transmitting the same total power; (b) receiver gain, or video gain, is the amplification given a signal by the receiver."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -11927,11 +15020,13 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD058"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Gradient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Grand Canonical Partition Function"@en ; - dcterms:description "An \"Grand Canonical Partition Function\" for a grand canonical ensemble, a system that can exchange both heat and particles with the environment, which has a constant temperature and a chemical potential."^^rdf:HTML ; + dcterms:description "An \"Grand Canonical Partition Function\" for a grand canonical ensemble, a system that can exchange both heat and particles with the environment, which has a constant temperature and a chemical potential."^^ns1:LatexString, + "An \"Grand Canonical Partition Function\" for a grand canonical ensemble, a system that can exchange both heat and particles with the environment, which has a constant temperature and a chemical potential."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Partition_function_(statistical_mechanics)"^^xsd:anyURI ; @@ -11939,12 +15034,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$\\Xi = \\sum_{N_A, N_B, ...} Z(N_A, N_B, ...) \\cdot \\lambda_A^{N_A} \\cdot \\lambda_B^{N_B} \\cdot ...$, where $Z(N_A, N_B, ...)$ is the canonical partition function for the given number of particles $A, B, ...,$, and $\\lambda_A, \\lambda_B, ...$ are the absolute activities of particles $A, B, ...$."^^ns1:LatexString ; ns1:latexSymbol "$\\Xi$"^^ns1:LatexString ; ns1:plainTextDescription "An \"Grand Canonical Partition Function\" for a grand canonical ensemble, a system that can exchange both heat and particles with the environment, which has a constant temperature and a chemical potential."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CanonicalPartitionFunction"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Gustatory Threshold"@en ; - dcterms:description "\"Gustatory Threshold\" are thresholds for classes of taste that can be detected by the human mouth and thresholds of sensitivity to foods, drinks and other substances."^^rdf:HTML ; + dcterms:description "\"Gustatory Threshold\" are thresholds for classes of taste that can be detected by the human mouth and thresholds of sensitivity to foods, drinks and other substances."^^ns1:LatexString, + "\"Gustatory Threshold\" are thresholds for classes of taste that can be detected by the human mouth and thresholds of sensitivity to foods, drinks and other substances."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_g}$"^^ns1:LatexString ; @@ -11963,18 +15060,63 @@ another substance in a given chemical reaction."""^^rdf:HTML ; "meia-vida"@pt, "yarılanma süresi"@tr, "半衰期"@zh ; - dcterms:description "The \"Half-Life\" is the average duration required for the decay of one half of the atoms or nuclei."^^rdf:HTML ; + dcterms:description "The \"Half-Life\" is the average duration required for the decay of one half of the atoms or nuclei."^^ns1:LatexString, + "The \"Half-Life\" is the average duration required for the decay of one half of the atoms or nuclei."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Half-life"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Half-Life\" is the average duration required for the decay of one half of the atoms or nuclei."^^xsd:string ; ns1:symbol "T_{1/2}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; - skos:altLabel "semivita"@it . + skos:altLabel "semivita"@it ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Half-Value Thickness"@en ; - dcterms:description "The \"Half-Value Thickness\" is the thickness of the material at which the intensity of radiation entering it is reduced by one half."^^rdf:HTML ; + dcterms:description "The \"Half-Value Thickness\" is the thickness of the material at which the intensity of radiation entering it is reduced by one half."^^ns1:LatexString, + "The \"Half-Value Thickness\" is the thickness of the material at which the intensity of radiation entering it is reduced by one half."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12019,6 +15161,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Half-Value Thickness\" is the thickness of the material at which the intensity of radiation entering it is reduced by one half."^^xsd:string ; ns1:symbol "d_{1/2}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12042,7 +15185,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; "toplota"@sl, "ısı miktarı"@tr, "热量"@zh ; - dcterms:description "\"Heat\" is the energy transferred by a thermal process. Heat can be measured in terms of the dynamical units of energy, as the erg, joule, etc., or in terms of the amount of energy required to produce a definite thermal change in some substance, as, for example, the energy required per degree to raise the temperature of a unit mass of water at some temperature ( calorie, Btu)."^^rdf:HTML ; + dcterms:description "\"Heat\" is the energy transferred by a thermal process. Heat can be measured in terms of the dynamical units of energy, as the erg, joule, etc., or in terms of the amount of energy required to produce a definite thermal change in some substance, as, for example, the energy required per degree to raise the temperature of a unit mass of water at some temperature ( calorie, Btu)."^^ns1:LatexString, + "\"Heat\" is the energy transferred by a thermal process. Heat can be measured in terms of the dynamical units of energy, as the erg, joule, etc., or in terms of the amount of energy required to produce a definite thermal change in some substance, as, for example, the energy required per degree to raise the temperature of a unit mass of water at some temperature ( calorie, Btu)."^^rdf:HTML ; ns1:abbreviation "heat"^^xsd:string ; ns1:applicableUnit , , @@ -12077,6 +15221,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:plainTextDescription "\"Heat\" is the energy transferred by a thermal process. Heat can be measured in terms of the dynamical units of energy, as the erg, joule, etc., or in terms of the amount of energy required to produce a definite thermal change in some substance, as, for example, the energy required per degree to raise the temperature of a unit mass of water at some temperature ( calorie, Btu)."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Wärmemenge"@de, "amount of heat"@en, @@ -12108,12 +15253,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Heat Flow Rate per Unit Area"@en ; dcterms:description "$\\textit{Heat Flux}$ is the heat rate per unit area. In SI units, heat flux is measured in $W/m^2$. Heat rate is a scalar quantity, while heat flux is a vectorial quantity. To define the heat flux at a certain point in space, one takes the limiting case where the size of the surface becomes infinitesimally small."^^ns1:LatexString ; + dcterms:isReplacedBy ; ns1:applicableUnit , , , @@ -12138,9 +15285,11 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_flux"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12172,12 +15321,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Calorific Value"@en ; - dcterms:description "The heating value (or energy value or calorific value) of a substance, usually a fuel or food (see food energy), is the amount of heat released during the combustion of a specified amount of it. "^^rdf:HTML ; + dcterms:description "The heating value (or energy value or calorific value) of a substance, usually a fuel or food (see food energy), is the amount of heat released during the combustion of a specified amount of it. "^^ns1:LatexString, + "The heating value (or energy value or calorific value) of a substance, usually a fuel or food (see food energy), is the amount of heat released during the combustion of a specified amount of it. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -12197,6 +15348,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:informativeReference "https://en.wikipedia.org/wiki/Heat_of_combustion"^^xsd:anyURI, "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/link/ifcheatingvaluemeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The heating value (or energy value or calorific value) of a substance, usually a fuel or food (see food energy), is the amount of heat released during the combustion of a specified amount of it. "^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Energy Value"@en, "Heating Value"@en ; @@ -12216,7 +15368,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; "высота"@ru, "yükseklik"@tr, "高度"@zh ; - dcterms:description "\"Height\" is the measurement of vertical distance, but has two meanings in common use. It can either indicate how \"tall\" something is, or how \"high up\" it is."^^rdf:HTML ; + dcterms:description "\"Height\" is the measurement of vertical distance, but has two meanings in common use. It can either indicate how \"tall\" something is, or how \"high up\" it is."^^ns1:LatexString, + "\"Height\" is the measurement of vertical distance, but has two meanings in common use. It can either indicate how \"tall\" something is, or how \"high up\" it is."^^rdf:HTML ; ns1:abbreviation "height"^^xsd:string ; ns1:applicableUnit , , @@ -12263,15 +15416,18 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Height\" is the measurement of vertical distance, but has two meanings in common use. It can either indicate how \"tall\" something is, or how \"high up\" it is."^^xsd:string ; ns1:symbol "h"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Hole Density"@en ; - dcterms:description "\"Hole Density\" is the number of holes per volume in a valence band."^^rdf:HTML ; + dcterms:description "\"Hole Density\" is the number of holes per volume in a valence band."^^ns1:LatexString, + "\"Hole Density\" is the number of holes per volume in a valence band."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -12280,12 +15436,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Hole Density\" is the number of holes per volume in a valence band."^^xsd:string ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Horizontal Velocity"@en ; - dcterms:description "Component of a projectile's velocity, which acts parallel to the ground and does not lift the projectile in the air."^^rdf:HTML ; + dcterms:description "Component of a projectile's velocity, which acts parallel to the ground and does not lift the projectile in the air."^^ns1:LatexString, + "Component of a projectile's velocity, which acts parallel to the ground and does not lift the projectile in the air."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12324,12 +15482,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "Component of a projectile's velocity, which acts parallel to the ground and does not lift the projectile in the air."^^xsd:string ; ns1:symbol "V_{X}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Inert Mass"@en ; - dcterms:description "The sum of the vehicle dry mass, residual fluids and gasses, personnel and personnel provisions, and cargo."^^rdf:HTML ; + dcterms:description "The sum of the vehicle dry mass, residual fluids and gasses, personnel and personnel provisions, and cargo."^^ns1:LatexString, + "The sum of the vehicle dry mass, residual fluids and gasses, personnel and personnel provisions, and cargo."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12386,6 +15546,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "The sum of the vehicle dry mass, residual fluids and gasses, personnel and personnel provisions, and cargo."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12433,6 +15594,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12440,6 +15602,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; rdfs:label "impulse"^^xsd:string, "impulse"@en-us ; dcterms:description "product of force and time"@en ; + ns1:altSymbol "0173-1#Z4-BAJ262#002"^^xsd:string ; ns1:applicableUnit , , , @@ -12449,6 +15612,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:plainTextDescription "Produkt aus Kraft und Zeit"@de ; ns1:symbol "0173-1#Z4-BAJ241#002"^^xsd:string, "0173-1#Z4-BAJ262#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Impulse"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -12491,6 +15655,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ExpansionRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12536,6 +15701,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12597,12 +15763,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:symbol "M_{o}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Initial Velocity"@en ; - dcterms:description "The velocity of a moving body at starting; especially, the velocity of a projectile as it leaves the mouth of a firearm from which it is discharged."^^rdf:HTML ; + dcterms:description "The velocity of a moving body at starting; especially, the velocity of a projectile as it leaves the mouth of a firearm from which it is discharged."^^ns1:LatexString, + "The velocity of a moving body at starting; especially, the velocity of a projectile as it leaves the mouth of a firearm from which it is discharged."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12641,15 +15809,18 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The velocity of a moving body at starting; especially, the velocity of a projectile as it leaves the mouth of a firearm from which it is discharged."^^xsd:string ; ns1:symbol "V_{i}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Intinsic Carrier Density"@en ; - dcterms:description "\"Intinsic Carrier Density\" is proportional to electron and hole densities."^^rdf:HTML ; + dcterms:description "\"Intinsic Carrier Density\" is proportional to electron and hole densities."^^ns1:LatexString, + "\"Intinsic Carrier Density\" is proportional to electron and hole densities."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -12659,6 +15830,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Intinsic Carrier Density\" is proportional to electron and hole densities."^^xsd:string ; ns1:symbol "n_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12673,6 +15845,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD157"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:InverseMass"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -12684,7 +15857,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "Ion Current"@en ; - dcterms:description "An ion current is the influx and/or efflux of ions through an ion channel."^^rdf:HTML ; + dcterms:description "An ion current is the influx and/or efflux of ions through an ion channel."^^ns1:LatexString, + "An ion current is the influx and/or efflux of ions through an ion channel."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12704,12 +15878,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "An ion current is the influx and/or efflux of ions through an ion channel."^^xsd:string ; ns1:symbol "j"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrent"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Ionic Charge"@en ; - dcterms:description "The total charge of an ion. The charge of an electron; the charge of any ion is equal to this electron charge in magnitude, or is an integral multiple of it."^^rdf:HTML ; + dcterms:description "The total charge of an ion. The charge of an electron; the charge of any ion is equal to this electron charge in magnitude, or is an integral multiple of it."^^ns1:LatexString, + "The total charge of an ion. The charge of an electron; the charge of any ion is equal to this electron charge in magnitude, or is an integral multiple of it."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12747,6 +15923,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The total charge of an ion. The charge of an electron; the charge of any ion is equal to this electron charge in magnitude, or is an integral multiple of it."^^xsd:string ; ns1:symbol "q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCharge"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12765,7 +15942,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; "Поверхностная плотность потока энергии"@ru, "yoğunluk"@tr, "辐照度"@zh ; - dcterms:description "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^rdf:HTML ; + dcterms:description "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^ns1:LatexString, + "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^rdf:HTML ; ns1:abbreviation "W-PER-M2"^^xsd:string ; ns1:applicableUnit , , @@ -12797,6 +15975,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$E = \\frac{d\\Phi}{dA}$, where $d\\Phi$ is the radiant flux incident on an element of the surface with area $dA$."^^ns1:LatexString ; ns1:plainTextDescription "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^xsd:string ; ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "koyuluk"@tr ; skos:broader . @@ -12817,6 +15996,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:informativeReference "https://bigladdersoftware.com/epx/docs/8-4/engineering-reference/effective-moisture-penetration-depth-empd.html#empd-nomenclature"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:SpecificVolume"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -12831,6 +16011,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "Kinetic Energy"@en ; dcterms:description "$\\textit{Kinetic Energy}$ is the energy which a body possesses as a consequence of its motion, defined as one-half the product of its mass $m$ and the square of its speed $v$, $ \\frac{1}{2} mv^{2} $. The kinetic energy per unit volume of a fluid parcel is the $ \\frac{1}{2} p v^{2}$ , where $p$ is the density and $v$ the speed of the parcel. See potential energy. For relativistic speeds the kinetic energy is given by $E_k = mc^2 - m_0 c^2$, where $c$ is the velocity of light in a vacuum, $m_0$ is the rest mass, and $m$ is the moving mass."^^ns1:LatexString ; + ns1:altSymbol "K"^^xsd:string ; ns1:applicableUnit , , , @@ -12888,20 +16069,73 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:symbol "K"^^xsd:string, "KE"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "kinetic or thermal energy"@en-us ; dcterms:description "energy presented in the movement of a body, composed of translation and rotation energies, determined by the movement of this body compared to another system and by its mass (mass distribution) or energy in the terms of heat"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Energie, die in der Bewegung eines Körpers steckt und sich aus Translationsenergie und Rotationsenergie zusammen setzt, die durch die Bewegung dieses Körpers gegenüber einem anderen System und durch seine Masse (Massenverteilung) bestimmt wird oder Energie in Form von Wärme"@de ; ns1:symbol "0173-1#Z4-BAJ280#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Larmor Angular Frequency"@en ; - dcterms:description "The \"Larmor Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^rdf:HTML ; + dcterms:description "The \"Larmor Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^ns1:LatexString, + "The \"Larmor Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12918,12 +16152,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$\\omega_L = \\frac{e}{2m_e}B$, where $e$ is the elementary charge, $m_e$ is the rest mass of electron, and $B$ is the magnetic flux density."^^ns1:LatexString ; ns1:latexSymbol "$\\omega_L$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Larmor Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularFrequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Lattice Plane Spacing"@en ; - dcterms:description "\"Lattice Plane Spacing\" is the distance between successive lattice planes."^^rdf:HTML ; + dcterms:description "\"Lattice Plane Spacing\" is the distance between successive lattice planes."^^ns1:LatexString, + "\"Lattice Plane Spacing\" is the distance between successive lattice planes."^^rdf:HTML ; ns1:applicableUnit , , , @@ -12968,18 +16204,72 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Lattice Plane Spacing\" is the distance between successive lattice planes."^^xsd:string ; ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Length Force"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Lift Coefficient"@en ; - dcterms:description "The lift coefficient is a dimensionless coefficient that relates the lift generated by a lifting body, the dynamic pressure of the fluid flow around the body, and a reference area associated with the body."^^rdf:HTML ; + dcterms:description "The lift coefficient is a dimensionless coefficient that relates the lift generated by a lifting body, the dynamic pressure of the fluid flow around the body, and a reference area associated with the body."^^ns1:LatexString, + "The lift coefficient is a dimensionless coefficient that relates the lift generated by a lifting body, the dynamic pressure of the fluid flow around the body, and a reference area associated with the body."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -12993,12 +16283,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The lift coefficient is a dimensionless coefficient that relates the lift generated by a lifting body, the dynamic pressure of the fluid flow around the body, and a reference area associated with the body."^^xsd:string ; ns1:symbol "C_{L}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Lift Force"@en ; - dcterms:description "The lift force, lifting force or simply lift is the sum of all the forces on a body that force it to move perpendicular to the direction of flow."^^rdf:HTML ; + dcterms:description "The lift force, lifting force or simply lift is the sum of all the forces on a body that force it to move perpendicular to the direction of flow."^^ns1:LatexString, + "The lift force, lifting force or simply lift is the sum of all the forces on a body that force it to move perpendicular to the direction of flow."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13025,6 +16317,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The lift force, lifting force or simply lift is the sum of all the forces on a body that force it to move perpendicular to the direction of flow."^^xsd:string ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13041,6 +16334,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD074"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearBitDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -13072,13 +16366,15 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexSymbol "$\\alpha_l$"^^ns1:LatexString ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:LinearExpansionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Streckenlast"@de, "Linear Force"@en ; - dcterms:description "Another name for Force Per Length, used by the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; + dcterms:description "Another name for Force Per Length, used by the Industry Foundation Classes (IFC) standard."^^ns1:LatexString, + "Another name for Force Per Length, used by the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13103,6 +16399,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:iec61360Code "0112/2///62720#UAD077"^^xsd:string ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/schema/ifcmeasureresource/lexical/ifclinearforcemeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Another name for Force Per Length, used by the Industry Foundation Classes (IFC) standard."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerLength"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13113,6 +16410,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD078"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearLogarithmicRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -13121,6 +16419,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD079"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearMass"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -13141,12 +16440,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD081"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearResistance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Streckenlast"@de, "Linear Force"@en ; - dcterms:description "Stiffness is the extent to which an object resists deformation in response to an applied force. Linear Stiffness is the term used in the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; + dcterms:description "Stiffness is the extent to which an object resists deformation in response to an applied force. Linear Stiffness is the term used in the Industry Foundation Classes (IFC) standard."^^ns1:LatexString, + "Stiffness is the extent to which an object resists deformation in response to an applied force. Linear Stiffness is the term used in the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13170,6 +16471,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/schema/ifcmeasureresource/lexical/ifclinearstiffnessmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Stiffness is the extent to which an object resists deformation in response to an applied force. Linear Stiffness is the term used in the Industry Foundation Classes (IFC) standard."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerLength"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13179,6 +16481,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD082"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearTorque"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -13228,6 +16531,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "Leistung dividiert durch die zugehörige Länge"@de ; ns1:symbol "0173-1#Z4-BAJ418#003"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LineicPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -13246,10 +16550,24 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "lineic resolution"@en-us ; dcterms:description "graphic resolution capacity of output devices such as printers or of data acquisition such as scanners, as a number of pixels per length"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "grafisches Auflösungsvermögen von Ausgabegeräten wie Druckern oder von Datenerfassungsgeräten wie Scannern als Anzahl der Bildpunkte je Länge"@de ; ns1:symbol "0173-1#Z4-BAJ438#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:InverseLength"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "lineic torque"@en-us ; @@ -13279,6 +16597,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$\\Psi_m = \\int_C A \\cdot dr$, where $A$ is magnetic vector potential and $dr$ is the vector element of the curve $C$."^^ns1:LatexString ; ns1:latexSymbol "$\\Psi$"^^ns1:LatexString, "$\\Psi_m$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFlux"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13351,7 +16670,8 @@ another substance in a given chemical reaction."""^^rdf:HTML ; a ns1:QuantityKind ; rdfs:label "London Penetration Depth"@en ; - dcterms:description "\"London Penetration Depth\" characterizes the distance to which a magnetic field penetrates into a superconductor and becomes equal to 1/e times that of the magnetic field at the surface of the superconductor."^^rdf:HTML ; + dcterms:description "\"London Penetration Depth\" characterizes the distance to which a magnetic field penetrates into a superconductor and becomes equal to 1/e times that of the magnetic field at the surface of the superconductor."^^ns1:LatexString, + "\"London Penetration Depth\" characterizes the distance to which a magnetic field penetrates into a superconductor and becomes equal to 1/e times that of the magnetic field at the surface of the superconductor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13397,6 +16717,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"London Penetration Depth\" characterizes the distance to which a magnetic field penetrates into a superconductor and becomes equal to 1/e times that of the magnetic field at the surface of the superconductor."^^xsd:string ; ns1:symbol "λₗ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13418,6 +16739,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$\\delta = \\arctan d$, where $d$ is loss factor."^^ns1:LatexString ; ns1:latexSymbol "$\\delta$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13425,25 +16747,52 @@ another substance in a given chemical reaction."""^^rdf:HTML ; rdfs:label "loudness"^^xsd:string, "loudness"@en-us ; dcterms:description "measure of the subjective hearing sensation on a scale extending from soft to loud; a progressive mono-frequency (single-frequency) wave of frequency 1 kHz and sound pressure level 40 dB, directed head-on to hearers is assigned the loudness 1 sone, and a tone which is identified by the listeners as being n-times as loud as that identified by 1 sone is assigned the loudness n sone"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD088"^^xsd:string ; ns1:plainTextDescription "Maß für die Stärke der subjektiven Hörempfindung, welche auf einer Skala \"leise-laut\" in sone skaliert wird; einer frei fortschreitenden monofrequenten Welle mit der Frequenz 1 kHz und dem Schalldruckpegel 40 dB, die frontal auf die Zuhörer trifft, ist die Lautheit 1 sone zugeordnet und ein Laut, welcher von den Zuhörern als n-mal so laut wie derjenige mit 1 sone bezeichnet wird, erhält die Lautheit n sone zugeordnet"@de ; ns1:symbol "0173-1#Z4-BAJ334#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "loudness level"^^xsd:string, "loudness level"@en-us ; dcterms:description "value specified in phon as a measure of the level of the subjective perception of a sound which corresponds to the sound pressure level of a reference sound specified in dB which comprises a wave coming from the front with a frequency of 1000 Hz and assessed to be just as loud as the noise"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD089"^^xsd:string ; ns1:plainTextDescription "in phon angegebener Wert als Maß für die Stärke der subjektiven Wahrnehmung eines Schallvorgange, der zahlenmäßig dem in dB angegebenen Schalldruckpegel eines Referenzschalls entspricht, der aus einer frontal einfallenden ebenen Welle mit der Frequenz 1000 Hz besteht und als gleich laut wie das Geräusch empfunden wird"@de ; ns1:symbol "0173-1#Z4-BAJ361#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Luminous Emmitance"@en ; - dcterms:description "\"Luminous Emittance\" is the luminous flux per unit area emitted from a surface."^^rdf:HTML ; + dcterms:description "\"Luminous Emittance\" is the luminous flux per unit area emitted from a surface."^^ns1:LatexString, + "\"Luminous Emittance\" is the luminous flux per unit area emitted from a surface."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -13452,20 +16801,31 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Luminous Emittance\" is the luminous flux per unit area emitted from a surface."^^xsd:string ; ns1:symbol "M_v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousFluxPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "luminous exitance"@en-us ; - dcterms:description "ratio of the luminous flux dΦ, leaving an element of the surface containing the point, by the area dA of that element"@en ; + dcterms:description """ + $\\textit{Luminous Exitance}$ is the ratio of the luminous flux dΦ, leaving an element of the surface containing the point, by the area dA of that element. + """^^ns1:LatexString, + "ratio of the luminous flux dΦ, leaving an element of the surface containing the point, by the area dA of that element"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; - ns1:plainTextDescription "Quotient aus dem Lichtstrom dΦ, der ein den Punkt enthaltendes Element der Oberfläche verlässt, und der Fläche dA dieses Elementes"@de ; + ns1:plainTextDescription "Quotient aus dem Lichtstrom dΦ, der ein den Punkt enthaltendes Element der Oberfläche verlässt, und der Fläche dA dieses Elementes"@de, + "Luminous Exitance is the ratio of the luminous flux dΦ, leaving an element of the surface containing the point, by the area dA of that element."@en ; ns1:symbol "0173-1#Z4-BAJ382#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:LuminousFluxPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Delivered"@en ; - dcterms:description "The minimum mass a propulsive system can deliver to a specified target or location. Most mass- delivered requirements have associated Delta-V requirements, effectively specifying the path between the two points."^^rdf:HTML ; + dcterms:description "The minimum mass a propulsive system can deliver to a specified target or location. Most mass- delivered requirements have associated Delta-V requirements, effectively specifying the path between the two points."^^ns1:LatexString, + "The minimum mass a propulsive system can deliver to a specified target or location. Most mass- delivered requirements have associated Delta-V requirements, effectively specifying the path between the two points."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13522,12 +16882,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "The minimum mass a propulsive system can deliver to a specified target or location. Most mass- delivered requirements have associated Delta-V requirements, effectively specifying the path between the two points."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Growth Allowance"@en ; - dcterms:description "A factor applied to basic mass at the lowest level of design detail available based on type and maturity of hardware according to an approved MGA depletion schedule."^^rdf:HTML ; + dcterms:description "A factor applied to basic mass at the lowest level of design detail available based on type and maturity of hardware according to an approved MGA depletion schedule."^^ns1:LatexString, + "A factor applied to basic mass at the lowest level of design detail available based on type and maturity of hardware according to an approved MGA depletion schedule."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13584,13 +16946,15 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "A factor applied to basic mass at the lowest level of design detail available based on type and maturity of hardware according to an approved MGA depletion schedule."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MGA"^^xsd:string ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Margin"@en ; - dcterms:description "Requirement minus predicted value. Margin is used as a metric in risk management. Positive margin mitigates the risk of mass increases from requirements maturation and implementation, underestimated predicted system, or subsystem mass."^^rdf:HTML ; + dcterms:description "Requirement minus predicted value. Margin is used as a metric in risk management. Positive margin mitigates the risk of mass increases from requirements maturation and implementation, underestimated predicted system, or subsystem mass."^^ns1:LatexString, + "Requirement minus predicted value. Margin is used as a metric in risk management. Positive margin mitigates the risk of mass increases from requirements maturation and implementation, underestimated predicted system, or subsystem mass."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13647,19 +17011,78 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ; ns1:hasDimensionVector ; ns1:plainTextDescription "Requirement minus predicted value. Margin is used as a metric in risk management. Positive margin mitigates the risk of mass increases from requirements maturation and implementation, underestimated predicted system, or subsystem mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Property Uncertainty"@en ; - dcterms:description "Variation in predicted MP due to lack of definition, manufacturing variations, environment effects, or accuracy limitation of measuring devices."^^rdf:HTML ; + dcterms:description "Variation in predicted MP due to lack of definition, manufacturing variations, environment effects, or accuracy limitation of measuring devices."^^ns1:LatexString, + "Variation in predicted MP due to lack of definition, manufacturing variations, environment effects, or accuracy limitation of measuring devices."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Variation in predicted MP due to lack of definition, manufacturing variations, environment effects, or accuracy limitation of measuring devices."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Moment of Inertia in the Y axis"@en ; - dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; + dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^ns1:LatexString, + "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13668,13 +17091,15 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^xsd:string ; ns1:symbol "I_{y}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MomentOfInertia"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MOI"^^xsd:string ; skos:broader . a ns1:QuantityKind ; rdfs:label "Moment of Inertia in the Z axis"@en ; - dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; + dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^ns1:LatexString, + "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13683,13 +17108,15 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^xsd:string ; ns1:symbol "I_{z}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MomentOfInertia"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MOI"^^xsd:string ; skos:broader . a ns1:QuantityKind ; rdfs:label "Macroscopic Cross-section"@en ; - dcterms:description "\"Macroscopic Cross-section\" is the sum of the cross-sections for a reaction or process of a specified type over all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^rdf:HTML ; + dcterms:description "\"Macroscopic Cross-section\" is the sum of the cross-sections for a reaction or process of a specified type over all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^ns1:LatexString, + "\"Macroscopic Cross-section\" is the sum of the cross-sections for a reaction or process of a specified type over all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13716,12 +17143,14 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$\\sum = n_1\\sigma_1 + \\cdots + n_j\\sigma_j +$, where $n_j$ is the number density and $\\sigma_j$ the cross-section for entities of type $j$."^^ns1:LatexString ; ns1:latexSymbol "$\\sum$"^^ns1:LatexString ; ns1:plainTextDescription "\"Macroscopic Cross-section\" is the sum of the cross-sections for a reaction or process of a specified type over all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Macroscopic Total Cross-section"@en ; - dcterms:description "\"Macroscopic Total Cross-section\" is the total cross-sections for all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^rdf:HTML ; + dcterms:description "\"Macroscopic Total Cross-section\" is the total cross-sections for all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^ns1:LatexString, + "\"Macroscopic Total Cross-section\" is the total cross-sections for all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13748,6 +17177,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\sum_{tot}, \\sum_T$"^^ns1:LatexString ; ns1:plainTextDescription "\"Macroscopic Total Cross-section\" is the total cross-sections for all atoms or other entities in a given 3D domain, divided by the volume of that domain."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13785,16 +17215,26 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Magnetization Field"@en ; - dcterms:description "The Magnetization Field is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^rdf:HTML ; + dcterms:description "The Magnetization Field is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^ns1:LatexString, + "The Magnetization Field is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "The Magnetization Field is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^xsd:string ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearElectricCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader , + . a ns1:QuantityKind ; rdfs:label "Mass Excess"@en ; - dcterms:description "The \"Mass Excess\" of a nuclide is the difference between its actual mass and its mass number in atomic mass units. It is one of the predominant methods for tabulating nuclear mass."^^rdf:HTML ; + dcterms:description "The \"Mass Excess\" of a nuclide is the difference between its actual mass and its mass number in atomic mass units. It is one of the predominant methods for tabulating nuclear mass."^^ns1:LatexString, + "The \"Mass Excess\" of a nuclide is the difference between its actual mass and its mass number in atomic mass units. It is one of the predominant methods for tabulating nuclear mass."^^rdf:HTML ; ns1:applicableUnit , , , @@ -13855,6 +17295,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$\\Delta = m_a - Am_u$, where $m_a$ is the rest mass of the atom, $A$ is its nucleon number, and $m_u$ is the unified atomic mass constant."^^ns1:LatexString ; ns1:latexSymbol "$\\Delta$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Mass Excess\" of a nuclide is the difference between its actual mass and its mass number in atomic mass units. It is one of the predominant methods for tabulating nuclear mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13862,11 +17303,27 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the rdfs:label "mass flux density"^^xsd:string, "mass flux density"@en-us ; dcterms:description "product of flow velocity and density"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD108"^^xsd:string ; ns1:plainTextDescription "Produkt aus Strömungsgeschwindigkeit und Dichte"@de ; ns1:symbol "0173-1#Z4-BAJ264#003"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MassPerAreaTime"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Of Electrical Power Supply"@en ; @@ -13926,6 +17383,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "M_{E}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -13987,12 +17445,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "M_{SB}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Of The Earth"@en ; - dcterms:description "Earth mass is the unit of mass equal to that of the Earth. Earth mass is often used to describe masses of rocky terrestrial planets."^^rdf:HTML ; + dcterms:description "Earth mass is the unit of mass equal to that of the Earth. Earth mass is often used to describe masses of rocky terrestrial planets."^^ns1:LatexString, + "Earth mass is the unit of mass equal to that of the Earth. Earth mass is often used to describe masses of rocky terrestrial planets."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14050,6 +17510,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:latexSymbol "$M_{\\oplus}$"^^ns1:LatexString ; ns1:plainTextDescription "Earth mass is the unit of mass equal to that of the Earth. Earth mass is often used to describe masses of rocky terrestrial planets."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14067,6 +17528,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD130"^^xsd:string, "0112/2///62720#UAD290"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassStoppingPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -14074,6 +17536,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD111"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassicElectricCurrent"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -14086,17 +17549,49 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:iec61360Code "0112/2///62720#UAD112"^^xsd:string ; ns1:plainTextDescription "Quotient Wärmekapazität dividiert durch Masse"@de ; ns1:symbol "0173-1#Z4-BAJ345#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassicHeatCapacity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "massic power"^^xsd:string, "massic power"@en-us ; dcterms:description "ratio energy divided by time and related mass"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD113"^^xsd:string ; ns1:plainTextDescription "Quotient Energie durch Zeit und durch zugehöriger Masse"@de ; ns1:symbol "0173-1#Z4-BAJ343#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:SpecificPower"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "massic torque"^^xsd:string, @@ -14134,6 +17629,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MEOT"^^xsd:string ; skos:broader . @@ -14164,13 +17660,15 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the , ; ns1:hasDimensionVector ; - rdfs:comment "Max Sea Level thrust (Mlbf) "^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string, + "Max Sea Level thrust (Mlbf) "^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Maximum Beta-Particle Energy"@en ; - dcterms:description "\"Maximum Beta-Particle Energy\" is the maximum energy of the energy spectrum in a beta-particle disintegration process."^^rdf:HTML ; + dcterms:description "\"Maximum Beta-Particle Energy\" is the maximum energy of the energy spectrum in a beta-particle disintegration process."^^ns1:LatexString, + "\"Maximum Beta-Particle Energy\" is the maximum energy of the energy spectrum in a beta-particle disintegration process."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14224,6 +17722,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Maximum Beta-Particle Energy\" is the maximum energy of the energy spectrum in a beta-particle disintegration process."^^xsd:string ; ns1:symbol "Eᵦ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14293,6 +17792,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MEOP"^^xsd:string ; skos:broader . @@ -14364,12 +17864,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mean Energy Imparted"@en ; - dcterms:description "The \"Mean Energy Imparted\", is the average energy imparted to irradiated matter."^^rdf:HTML ; + dcterms:description "The \"Mean Energy Imparted\", is the average energy imparted to irradiated matter."^^ns1:LatexString, + "The \"Mean Energy Imparted\", is the average energy imparted to irradiated matter."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14425,12 +17927,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Mean Energy Imparted\", is the average energy imparted to irradiated matter."^^xsd:string ; ns1:symbol "ε̅"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mean Free Path"@en ; - dcterms:description "\"Mean Free Path\" is the average distance travelled by a moving particle (such as an atom, a molecule, a photon) between successive impacts (collisions) which modify its direction or energy or other particle properties."^^rdf:HTML ; + dcterms:description "\"Mean Free Path\" is the average distance travelled by a moving particle (such as an atom, a molecule, a photon) between successive impacts (collisions) which modify its direction or energy or other particle properties."^^ns1:LatexString, + "\"Mean Free Path\" is the average distance travelled by a moving particle (such as an atom, a molecule, a photon) between successive impacts (collisions) which modify its direction or energy or other particle properties."^^rdf:HTML ; ns1:abbreviation "m"^^xsd:string ; ns1:applicableUnit , , @@ -14477,6 +17981,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Mean Free Path\" is the average distance travelled by a moving particle (such as an atom, a molecule, a photon) between successive impacts (collisions) which modify its direction or energy or other particle properties."^^xsd:string ; ns1:symbol "λ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14529,12 +18034,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$\\tau = \\frac{1}{\\lambda}$, where $\\lambda$ is the decay constant."^^ns1:LatexString ; ns1:latexSymbol "$\\tau$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mean Linear Range"@en ; - dcterms:description "\"Mean Linear Range\" is, in a given material, for specified charged particles of a specified energy, the average displacement of the particles before they stop. That is, the mean totl rectified path length travelled by a particle in the course of slowing down to rest (or to some suitable cut-off energy) in a given substance under specified conditions averaged over a group of particles having the same initial energy."^^rdf:HTML ; + dcterms:description "\"Mean Linear Range\" is, in a given material, for specified charged particles of a specified energy, the average displacement of the particles before they stop. That is, the mean totl rectified path length travelled by a particle in the course of slowing down to rest (or to some suitable cut-off energy) in a given substance under specified conditions averaged over a group of particles having the same initial energy."^^ns1:LatexString, + "\"Mean Linear Range\" is, in a given material, for specified charged particles of a specified energy, the average displacement of the particles before they stop. That is, the mean totl rectified path length travelled by a particle in the course of slowing down to rest (or to some suitable cut-off energy) in a given substance under specified conditions averaged over a group of particles having the same initial energy."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14579,12 +18086,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Mean Linear Range\" is, in a given material, for specified charged particles of a specified energy, the average displacement of the particles before they stop. That is, the mean totl rectified path length travelled by a particle in the course of slowing down to rest (or to some suitable cut-off energy) in a given substance under specified conditions averaged over a group of particles having the same initial energy."^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mechanical Energy"@en ; - dcterms:description "Mechanical Energy is the sum of potential energy and kinetic energy. It is the energy associated with the motion and position of an object."^^rdf:HTML ; + dcterms:description "Mechanical Energy is the sum of potential energy and kinetic energy. It is the energy associated with the motion and position of an object."^^ns1:LatexString, + "Mechanical Energy is the sum of potential energy and kinetic energy. It is the energy associated with the motion and position of an object."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14641,6 +18150,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$E = T + V$, where $T$ is kinetic energy and $V$ is potential energy."^^ns1:LatexString ; ns1:plainTextDescription "Mechanical Energy is the sum of potential energy and kinetic energy. It is the energy associated with the motion and position of an object."^^xsd:string ; ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14652,7 +18162,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Mechanical surface impedance"@en ; - dcterms:description "Mechanical surface impedance at a surface, is the complex quotient of the total force on the surface by the component of the average sound particle velocity at the surface in the direction of the force"^^rdf:HTML ; + dcterms:description "Mechanical surface impedance at a surface, is the complex quotient of the total force on the surface by the component of the average sound particle velocity at the surface in the direction of the force"^^ns1:LatexString, + "Mechanical surface impedance at a surface, is the complex quotient of the total force on the surface by the component of the average sound particle velocity at the surface in the direction of the force"^^rdf:HTML ; ns1:hasDimensionVector ; ns1:latexDefinition "$Z_m = Z_a A^2$, where $A$ is the area of the surface considered and $Z_a$ is the acoustic impedance."^^ns1:LatexString ; ns1:plainTextDescription "Mechanical surface impedance at a surface, is the complex quotient of the total force on the surface by the component of the average sound particle velocity at the surface in the direction of the force"^^xsd:string ; @@ -14664,14 +18175,79 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "mechanical tension"@en-us ; dcterms:description "at a point of a body upon which a force acts which attempts to change the shape of the body, the limit value of the ratio between the force and area of a flat surface around this point when the dimensions approach zero"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "an einem Punkt eines Körpers, an dem eine Kraft angreift, welche die Form des Körpers zu verändern sucht, der Grenzwert des Quotienten Kraft durch Fläche einer ebenen Oberfläche um diesen Punkt, wenn deren Abmessungen gegen null gehen"@de ; ns1:symbol "0173-1#Z4-BAJ204#005"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Micro Canonical Partition Function"@en ; - dcterms:description "A \"Micro Canonical Partition Function\" applies to a micro canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and a fixed number of particles."^^rdf:HTML ; + dcterms:description "A \"Micro Canonical Partition Function\" applies to a micro canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and a fixed number of particles."^^ns1:LatexString, + "A \"Micro Canonical Partition Function\" applies to a micro canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and a fixed number of particles."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Microcanonical_ensemble"^^xsd:anyURI, @@ -14680,12 +18256,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$\\Omega = \\sum_r 1$, where the sum is over all quantum states consistent with given energy. volume, external fields, and content."^^ns1:LatexString ; ns1:latexSymbol "$\\Omega$"^^ns1:LatexString ; ns1:plainTextDescription "A \"Micro Canonical Partition Function\" applies to a micro canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and a fixed number of particles."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CanonicalPartitionFunction"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Migration Area"@en ; - dcterms:description "\"Migration Area\" is the sum of the slowing-down area from fission energy to thermal energy and the diffusion area for thermal neutrons."^^rdf:HTML ; + dcterms:description "\"Migration Area\" is the sum of the slowing-down area from fission energy to thermal energy and the diffusion area for thermal neutrons."^^ns1:LatexString, + "\"Migration Area\" is the sum of the slowing-down area from fission energy to thermal energy and the diffusion area for thermal neutrons."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14711,12 +18289,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Migration Area\" is the sum of the slowing-down area from fission energy to thermal energy and the diffusion area for thermal neutrons."^^xsd:string ; ns1:symbol "M^2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Migration Length"@en ; - dcterms:description "\"Migration Length\" is the square root of the migration area."^^rdf:HTML ; + dcterms:description "\"Migration Length\" is the square root of the migration area."^^ns1:LatexString, + "\"Migration Length\" is the square root of the migration area."^^rdf:HTML ; ns1:applicableUnit , , , @@ -14762,12 +18342,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Migration Length\" is the square root of the migration area."^^xsd:string ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Modulus Of Admittance"@en ; - dcterms:description "\"Modulus Of Admittance\" is the absolute value of the quantity \"admittance\"."^^rdf:HTML ; + dcterms:description "\"Modulus Of Admittance\" is the absolute value of the quantity \"admittance\"."^^ns1:LatexString, + "\"Modulus Of Admittance\" is the absolute value of the quantity \"admittance\"."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Absolute_value"^^xsd:anyURI, "http://en.wikipedia.org/wiki/Admittance"^^xsd:anyURI, @@ -14880,6 +18462,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "q_V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VolumeFlowRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14893,9 +18476,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "molar internal energy"^^xsd:string ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD124"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:MolarEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "molar optical rotational ability"@en-us ; @@ -14916,43 +18504,25 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "molar thermodynamic energy"@en-us ; dcterms:description "energy in relation to the amount of a substance"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "auf die Stoffmenge bezogene Energie"@de ; ns1:symbol "0173-1#Z4-BAJ353#002"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Mole Fraction"@en ; - dcterms:description "In chemistry, the mole fraction of a component in a mixture is the relative proportion of molecules belonging to the component to those in the mixture, by number of molecules. It is one way of measuring concentration."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Mole_fraction"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "In chemistry, the mole fraction of a component in a mixture is the relative proportion of molecules belonging to the component to those in the mixture, by number of molecules. It is one way of measuring concentration."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:MolarEnergy"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader . a ns1:QuantityKind ; rdfs:label "Molecular Concentration"@en ; - dcterms:description "The \"Molecular Concentration\" of substance B is defined as the number of molecules of B divided by the volume of the mixture "^^rdf:HTML ; + dcterms:description "The \"Molecular Concentration\" of substance B is defined as the number of molecules of B divided by the volume of the mixture "^^ns1:LatexString, + "The \"Molecular Concentration\" of substance B is defined as the number of molecules of B divided by the volume of the mixture "^^rdf:HTML ; ns1:abbreviation "m^{-3}"^^xsd:string ; ns1:applicableUnit , , , + , , , , @@ -14963,17 +18533,20 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The \"Molecular Concentration\" of substance B is defined as the number of molecules of B divided by the volume of the mixture "^^xsd:string ; ns1:symbol "C_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Morbidity Rate"@en ; - dcterms:description "Morbidity rate is a measure of the incidence of a disease in a particular population, scaled to the size of that population, per unit of time."^^rdf:HTML ; + dcterms:description "Morbidity rate is a measure of the incidence of a disease in a particular population, scaled to the size of that population, per unit of time."^^ns1:LatexString, + "Morbidity rate is a measure of the incidence of a disease in a particular population, scaled to the size of that population, per unit of time."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Morbidity rate is a measure of the incidence of a disease in a particular population, scaled to the size of that population, per unit of time."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Incidence"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -14989,7 +18562,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Nominal Ascent Propellant Mass"@en ; - dcterms:description "The amount of propellant mass within a stage that is available for impulse for use in nominal payload performance prediction. This mass excludes loaded propellant that has been set aside for off- nominal performance behavior (FPR and fuel bias)."^^rdf:HTML ; + dcterms:description "The amount of propellant mass within a stage that is available for impulse for use in nominal payload performance prediction. This mass excludes loaded propellant that has been set aside for off- nominal performance behavior (FPR and fuel bias)."^^ns1:LatexString, + "The amount of propellant mass within a stage that is available for impulse for use in nominal payload performance prediction. This mass excludes loaded propellant that has been set aside for off- nominal performance behavior (FPR and fuel bias)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15047,20 +18621,37 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:informativeReference "http://elib.dlr.de/68314/1/IAF10-D2.3.1.pdf"^^xsd:anyURI ; ns1:plainTextDescription "The amount of propellant mass within a stage that is available for impulse for use in nominal payload performance prediction. This mass excludes loaded propellant that has been set aside for off- nominal performance behavior (FPR and fuel bias)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "neutral ratio"@en-us ; dcterms:description "ratio between two physical variables of the same type, expressed as a number which describes the relationship between these variables where the units are cancelled against each other"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:plainTextDescription "Quotient aus zwei physikalischen Größen gleicher Art als Zahl, welche das Verhältnis dieser Größen zueinander ausdrückt, wobei die einheiten gegeneinander gekürzt sind"@de ; ns1:symbol "0173-1#Z4-BAJ359#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Neutron Diffusion Length"@en ; - dcterms:description "The neutron diffusion length is equivalent to the relaxation length, that is, to the distance, in which the neutron flux decreases by a factor e"^^rdf:HTML ; + dcterms:description "The neutron diffusion length is equivalent to the relaxation length, that is, to the distance, in which the neutron flux decreases by a factor e"^^ns1:LatexString, + "The neutron diffusion length is equivalent to the relaxation length, that is, to the distance, in which the neutron flux decreases by a factor e"^^rdf:HTML ; ns1:applicableUnit , , , @@ -15103,12 +18694,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "The neutron diffusion length is equivalent to the relaxation length, that is, to the distance, in which the neutron flux decreases by a factor e"^^xsd:string ; ns1:symbol "L_{r}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Normal Stress"@en ; - dcterms:description "Normal stress is defined as the stress resulting from a force acting normal to a body surface. Normal stress can be caused by several loading methods, the most common being axial tension and compression, bending, and hoop stress."^^rdf:HTML ; + dcterms:description "Normal stress is defined as the stress resulting from a force acting normal to a body surface. Normal stress can be caused by several loading methods, the most common being axial tension and compression, bending, and hoop stress."^^ns1:LatexString, + "Normal stress is defined as the stress resulting from a force acting normal to a body surface. Normal stress can be caused by several loading methods, the most common being axial tension and compression, bending, and hoop stress."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15178,12 +18771,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$\\sigma = \\frac{dF_n}{dA}$, where $dF_n$ is the normal component of force and $dA$ is the area of the surface element."^^ns1:LatexString ; ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; ns1:plainTextDescription "Normal stress is defined as the stress resulting from a force acting normal to a body surface. Normal stress can be caused by several loading methods, the most common being axial tension and compression, bending, and hoop stress."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Positive Dimensionless Ratio"@en ; - dcterms:description "A \"Normalized Dimensionless Ratio\" is a dimensionless ratio ranging from 0.0 to 1.0"^^rdf:HTML ; + dcterms:description "A \"Normalized Dimensionless Ratio\" is a dimensionless ratio ranging from 0.0 to 1.0"^^ns1:LatexString, + "A \"Normalized Dimensionless Ratio\" is a dimensionless ratio ranging from 0.0 to 1.0"^^rdf:HTML ; ns1:applicableUnit , , , @@ -15201,12 +18796,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifcnormalisedratiomeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "A \"Normalized Dimensionless Ratio\" is a dimensionless ratio ranging from 0.0 to 1.0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Nozzle Throat Cross-sectional Area"@en ; - dcterms:description "Cross-sectional area of the nozzle at the throat."^^rdf:HTML ; + dcterms:description "Cross-sectional area of the nozzle at the throat."^^ns1:LatexString, + "Cross-sectional area of the nozzle at the throat."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15230,6 +18827,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "Cross-sectional area of the nozzle at the throat."^^xsd:string ; ns1:symbol "A^*"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15300,6 +18898,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "p^*"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15330,18 +18929,71 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "F_R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "nuclear energy"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD131"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Nuclear Radius"@en ; - dcterms:description "\"Nuclear Radius\" is the conventional radius of sphere in which the nuclear matter is included"^^rdf:HTML ; + dcterms:description "\"Nuclear Radius\" is the conventional radius of sphere in which the nuclear matter is included"^^ns1:LatexString, + "\"Nuclear Radius\" is the conventional radius of sphere in which the nuclear matter is included"^^rdf:HTML ; ns1:applicableUnit , , , @@ -15387,12 +19039,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Nuclear Radius\" is the conventional radius of sphere in which the nuclear matter is included"^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Olfactory Threshold"@en ; - dcterms:description "\"Olfactory Threshold\" are thresholds for the concentrations of various classes of smell that can be detected."^^rdf:HTML ; + dcterms:description "\"Olfactory Threshold\" are thresholds for the concentrations of various classes of smell that can be detected."^^ns1:LatexString, + "\"Olfactory Threshold\" are thresholds for the concentrations of various classes of smell that can be detected."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15410,12 +19064,30 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_o}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Olfactory Threshold\" are thresholds for the concentrations of various classes of smell that can be detected."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Opening Ratio"@en ; + dcterms:description """In the context of mechanical systems, "opening ratio" might refer to the proportion of time + or the extent to which a valve or gate is open relative to its maximum capacity."""^^xsd:string ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription """In the context of mechanical systems, "opening ratio" might refer to the proportion of time + or the extent to which a valve or gate is open relative to its maximum capacity."""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:OpeningRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Orbital Angular Momentum per Unit Mass"@en ; - dcterms:description "Angular momentum of the orbit per unit mass of the vehicle"^^rdf:HTML ; + dcterms:description "Angular momentum of the orbit per unit mass of the vehicle"^^ns1:LatexString, + "Angular momentum of the orbit per unit mass of the vehicle"^^rdf:HTML ; + dcterms:isReplacedBy ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:plainTextDescription "Angular momentum of the orbit per unit mass of the vehicle"^^xsd:string ; ns1:symbol "h"^^xsd:string ; @@ -15464,6 +19136,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:symbol "r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15479,7 +19152,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "pressão osmótica"@pt, "ozmotik basıç"@tr, "渗透压"@zh ; - dcterms:description "The \"Osmotic Pressure\" is the pressure which needs to be applied to a solution to prevent the inward flow of water across a semipermeable membrane."^^rdf:HTML ; + dcterms:description "The \"Osmotic Pressure\" is the pressure which needs to be applied to a solution to prevent the inward flow of water across a semipermeable membrane."^^ns1:LatexString, + "The \"Osmotic Pressure\" is the pressure which needs to be applied to a solution to prevent the inward flow of water across a semipermeable membrane."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15549,12 +19223,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The \"Osmotic Pressure\" is the pressure which needs to be applied to a solution to prevent the inward flow of water across a semipermeable membrane."^^xsd:string ; ns1:symbol "Π"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Over-range distance"@en ; - dcterms:description "Additional distance traveled by a rocket because Of excessive initial velocity."^^rdf:HTML ; + dcterms:description "Additional distance traveled by a rocket because Of excessive initial velocity."^^ns1:LatexString, + "Additional distance traveled by a rocket because Of excessive initial velocity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15597,12 +19273,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "Additional distance traveled by a rocket because Of excessive initial velocity."^^xsd:string ; ns1:symbol "s_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Predicted Mass"@en ; - dcterms:description "Sum of the basic mass and the MGA. Current prediction of the final mass based on the current requirements and design."^^rdf:HTML ; + dcterms:description "Sum of the basic mass and the MGA. Current prediction of the final mass based on the current requirements and design."^^ns1:LatexString, + "Sum of the basic mass and the MGA. Current prediction of the final mass based on the current requirements and design."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15659,6 +19337,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:plainTextDescription "Sum of the basic mass and the MGA. Current prediction of the final mass based on the current requirements and design."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15778,6 +19457,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "\"Partial Pressure\" is the pressure that the gas would have if it alone occupied the volume of the mixture at the same temperature."^^xsd:string ; ns1:symbol "p_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15787,6 +19467,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the The quantity kind $\\textit{Particle Current}$ can be used to describe the net number of particles passing through a surface in an infinitesimal time interval. """^^ns1:LatexString ; + ns1:altSymbol "S"^^xsd:string ; ns1:applicableUnit , , , @@ -15820,6 +19501,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:plainTextDescription "\"Particle Current\" can be used to describe the net number of particles passing through a surface in an infinitesimal time interval."^^xsd:string ; ns1:symbol "J"^^xsd:string, "S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Frequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -15839,10 +19521,12 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Particle Number Density"@en ; - dcterms:description "The \"Particle Number Density\" is obtained by dividing the particle number of a system by its volume."^^rdf:HTML ; + dcterms:description "The \"Particle Number Density\" is obtained by dividing the particle number of a system by its volume."^^ns1:LatexString, + "The \"Particle Number Density\" is obtained by dividing the particle number of a system by its volume."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -15853,12 +19537,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Particle Number Density\" is obtained by dividing the particle number of a system by its volume."^^xsd:string ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Particle Position Vector"@en ; - dcterms:description "\"Particle Position Vector\" is the position vector of a particle."^^rdf:HTML ; + dcterms:description "\"Particle Position Vector\" is the position vector of a particle."^^ns1:LatexString, + "\"Particle Position Vector\" is the position vector of a particle."^^rdf:HTML ; ns1:applicableUnit , , , @@ -15903,12 +19589,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Particle Position Vector\" is the position vector of a particle."^^xsd:string ; ns1:symbol "r, R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Path Length"@en ; - dcterms:description "\"PathLength\" is "^^rdf:HTML ; + dcterms:description "\"PathLength\" is "^^ns1:LatexString, + "\"PathLength\" is "^^rdf:HTML ; ns1:applicableUnit , , , @@ -15953,12 +19641,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"PathLength\" is "^^xsd:string ; ns1:symbol "s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Payload Mass"@en ; - dcterms:description "Payload mass is the mass of the payload carried by the craft. In a multistage spacecraft the payload mass of the last stage is the mass of the payload and the payload masses of the other stages are considered to be the gross masses of the next stages."^^rdf:HTML ; + dcterms:description "Payload mass is the mass of the payload carried by the craft. In a multistage spacecraft the payload mass of the last stage is the mass of the payload and the payload masses of the other stages are considered to be the gross masses of the next stages."^^ns1:LatexString, + "Payload mass is the mass of the payload carried by the craft. In a multistage spacecraft the payload mass of the last stage is the mass of the payload and the payload masses of the other stages are considered to be the gross masses of the next stages."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16016,12 +19706,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "Payload mass is the mass of the payload carried by the craft. In a multistage spacecraft the payload mass of the last stage is the mass of the payload and the payload masses of the other stages are considered to be the gross masses of the next stages."^^xsd:string ; ns1:symbol "M_P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Payload Ratio"@en ; - dcterms:description "The payload ratio is defined as the mass of the payload divided by the empty mass of the structure. Because of the extra cost involved in staging rockets, given the choice, it's often more economic to use few stages with a small payload ratio rather than more stages each with a high payload ratio."^^rdf:HTML ; + dcterms:description "The payload ratio is defined as the mass of the payload divided by the empty mass of the structure. Because of the extra cost involved in staging rockets, given the choice, it's often more economic to use few stages with a small payload ratio rather than more stages each with a high payload ratio."^^ns1:LatexString, + "The payload ratio is defined as the mass of the payload divided by the empty mass of the structure. Because of the extra cost involved in staging rockets, given the choice, it's often more economic to use few stages with a small payload ratio rather than more stages each with a high payload ratio."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16039,12 +19731,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "The payload ratio is defined as the mass of the payload divided by the empty mass of the structure. Because of the extra cost involved in staging rockets, given the choice, it's often more economic to use few stages with a small payload ratio rather than more stages each with a high payload ratio."^^xsd:string ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Peltier Coefficient"@en ; - dcterms:description "\"Peltier Coefficient\" represents how much heat current is carried per unit charge through a given material. It is the heat power developed at a junction, divided by the electric current flowing from substance a to substance b."^^rdf:HTML ; + dcterms:description "\"Peltier Coefficient\" represents how much heat current is carried per unit charge through a given material. It is the heat power developed at a junction, divided by the electric current flowing from substance a to substance b."^^ns1:LatexString, + "\"Peltier Coefficient\" represents how much heat current is carried per unit charge through a given material. It is the heat power developed at a junction, divided by the electric current flowing from substance a to substance b."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Thermoelectric_effect"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; @@ -16062,7 +19756,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "位相差"@ja, "przesunięcie fazowe"@pl, "diferença de fase"@pt ; - dcterms:description "\"Phase Difference} is the difference, expressed in electrical degrees or time, between two waves having the same frequency and referenced to the same point in time. Two oscillators that have the same frequency and different phases have a phase difference, and the oscillators are said to be out of phase with each other. The amount by which such oscillators are out of step with each other can be expressed in degrees from $0^\\circ$ to $360^\\circ$, or in radians from 0 to ${2\\pi}$. If the phase difference is $180^\\circ$ ($\\pi$ radians), then the two oscillators are said to be in antiphase."^^ns1:LatexString ; + dcterms:description "\"Phase Difference\" is the difference, expressed in electrical degrees or time, between two waves having the same frequency and referenced to the same point in time. Two oscillators that have the same frequency and different phases have a phase difference, and the oscillators are said to be out of phase with each other. The amount by which such oscillators are out of step with each other can be expressed in degrees from $0^\\circ$ to $360^\\circ$, or in radians from 0 to ${2\\pi}$. If the phase difference is $180^\\circ$ ($\\pi$ radians), then the two oscillators are said to be in antiphase."^^ns1:LatexString, + "\"Phase Difference} is the difference, expressed in electrical degrees or time, between two waves having the same frequency and referenced to the same point in time. Two oscillators that have the same frequency and different phases have a phase difference, and the oscillators are said to be out of phase with each other. The amount by which such oscillators are out of step with each other can be expressed in degrees from $0^\\circ$ to $360^\\circ$, or in radians from 0 to ${2\\pi}$. If the phase difference is $180^\\circ$ ($\\pi$ radians), then the two oscillators are said to be in antiphase."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -16083,6 +19778,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexDefinition "$\\varphi = \\varphi_u - \\varphi_i$, where $\\varphi_u$ is the initial phase of the voltage and $\\varphi_i$ is the initial phase of the electric current."^^ns1:LatexString ; ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "déphasage"@fr, "desfasagem"@pt ; @@ -16090,7 +19786,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Phonon Mean Free Path"@en ; - dcterms:description "\"Phonon Mean Free Path\" is the mean free path of phonons."^^rdf:HTML ; + dcterms:description "\"Phonon Mean Free Path\" is the mean free path of phonons."^^ns1:LatexString, + "\"Phonon Mean Free Path\" is the mean free path of phonons."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16135,6 +19832,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Phonon Mean Free Path\" is the mean free path of phonons."^^xsd:string ; ns1:symbol "l_{ph}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16165,18 +19863,24 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:iec61360Code "0112/2///62720#UAD299"^^xsd:string ; ns1:plainTextDescription "kleinstes Element einer Darstellungsfläche (Zellgröße) einer digitalisierten zweidimensionalen Felddarstellung eines Bildes, die eine Adresse (x- und y-Koordinaten entsprechend seiner Position im Feld) und einen spezifischen Helligkeitswert besitzt"@de ; ns1:symbol "0173-1#Z4-BAJ437#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PictureElement"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "piece"^^xsd:string ; + ns1:applicableUnit , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD146"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:Count"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Flächenlast"@de, "Planar Force"@en ; - dcterms:description "Another name for Force Per Area, used by the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; + dcterms:description "Another name for Force Per Area, used by the Industry Foundation Classes (IFC) standard."^^ns1:LatexString, + "Another name for Force Per Area, used by the Industry Foundation Classes (IFC) standard."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16245,12 +19949,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/schema/ifcmeasureresource/lexical/ifcplanarforcemeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Another name for Force Per Area, used by the Industry Foundation Classes (IFC) standard."^^xsd:string ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Polar moment of inertia"@en ; - dcterms:description "The polar moment of inertia is a quantity used to predict an object's ability to resist torsion, in objects (or segments of objects) with an invariant circular cross-section and no significant warping or out-of-plane deformation. It is used to calculate the angular displacement of an object subjected to a torque. It is analogous to the area moment of inertia, which characterizes an object's ability to resist bending. "^^rdf:HTML ; + dcterms:description "The polar moment of inertia is a quantity used to predict an object's ability to resist torsion, in objects (or segments of objects) with an invariant circular cross-section and no significant warping or out-of-plane deformation. It is used to calculate the angular displacement of an object subjected to a torque. It is analogous to the area moment of inertia, which characterizes an object's ability to resist bending. "^^ns1:LatexString, + "The polar moment of inertia is a quantity used to predict an object's ability to resist torsion, in objects (or segments of objects) with an invariant circular cross-section and no significant warping or out-of-plane deformation. It is used to calculate the angular displacement of an object subjected to a torque. It is analogous to the area moment of inertia, which characterizes an object's ability to resist bending. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -16260,12 +19966,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:informativeReference "http://en.wikipedia.org/wiki/Second_moment_of_area"^^xsd:anyURI ; ns1:plainTextDescription "The polar moment of inertia is a quantity used to predict an object's ability to resist torsion, in objects (or segments of objects) with an invariant circular cross-section and no significant warping or out-of-plane deformation. It is used to calculate the angular displacement of an object subjected to a torque. It is analogous to the area moment of inertia, which characterizes an object's ability to resist bending. "^^xsd:string ; ns1:symbol "J_{zz}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MomentOfInertia"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Polarization Field"@en ; - dcterms:description "The Polarization Field is the vector field that expresses the density of permanent or induced electric dipole moments in a dielectric material. The polarization vector P is defined as the ratio of electric dipole moment per unit volume."^^rdf:HTML ; + dcterms:description "The Polarization Field is the vector field that expresses the density of permanent or induced electric dipole moments in a dielectric material. The polarization vector P is defined as the ratio of electric dipole moment per unit volume."^^ns1:LatexString, + "The Polarization Field is the vector field that expresses the density of permanent or induced electric dipole moments in a dielectric material. The polarization vector P is defined as the ratio of electric dipole moment per unit volume."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16279,12 +19987,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "The Polarization Field is the vector field that expresses the density of permanent or induced electric dipole moments in a dielectric material. The polarization vector P is defined as the ratio of electric dipole moment per unit volume."^^xsd:string ; ns1:symbol "P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Positive Dimensionless Ratio"@en ; - dcterms:description "A \"Positive Dimensionless Ratio\" is a dimensionless ratio that is greater than zero"^^rdf:HTML ; + dcterms:description "A \"Positive Dimensionless Ratio\" is a dimensionless ratio that is greater than zero"^^ns1:LatexString, + "A \"Positive Dimensionless Ratio\" is a dimensionless ratio that is greater than zero"^^rdf:HTML ; ns1:applicableUnit , , , @@ -16302,12 +20012,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifcpositiveratiomeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "A \"Positive Dimensionless Ratio\" is a dimensionless ratio that is greater than zero"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Positive Length"@en ; - dcterms:description "\"PositiveLength\" is a measure of length strictly greater than zero."^^rdf:HTML ; + dcterms:description "\"PositiveLength\" is a measure of length strictly greater than zero."^^ns1:LatexString, + "\"PositiveLength\" is a measure of length strictly greater than zero."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16349,12 +20061,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"PositiveLength\" is a measure of length strictly greater than zero."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Positive Plane Angle"@en ; - dcterms:description "A \"PositivePlaneAngle\" is a plane angle strictly greater than zero."^^rdf:HTML ; + dcterms:description "A \"PositivePlaneAngle\" is a plane angle strictly greater than zero."^^ns1:LatexString, + "A \"PositivePlaneAngle\" is a plane angle strictly greater than zero."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16370,6 +20084,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:informativeReference "http://www.thefreedictionary.com/plane+angle"^^xsd:anyURI ; ns1:plainTextDescription "A \"PositivePlaneAngle\" is a plane angle strictly greater than zero."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PlaneAngle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16391,7 +20106,9 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "потенциальная энергия"@ru, "Potansiyel enerji"@tr, "势能"@zh ; - dcterms:description "Energy possessed by a body by virtue of its position in a gravity field in contrast with kinetic energy, that possessed by virtue of its motion."^^rdf:HTML ; + dcterms:description "Energy possessed by a body by virtue of its position in a gravity field in contrast with kinetic energy, that possessed by virtue of its motion."^^ns1:LatexString, + "Energy possessed by a body by virtue of its position in a gravity field in contrast with kinetic energy, that possessed by virtue of its motion."^^rdf:HTML ; + ns1:altSymbol "U"^^xsd:string ; ns1:applicableUnit , , , @@ -16449,6 +20166,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:plainTextDescription "Energy possessed by a body by virtue of its position in a gravity field in contrast with kinetic energy, that possessed by virtue of its motion."^^xsd:string ; ns1:symbol "PE"^^xsd:string, "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16580,6 +20298,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Pressure Burning Rate Constant"@en ; ns1:applicableUnit , + , , , , @@ -16592,12 +20311,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Pressure Burning Rate Index"@en ; ns1:applicableUnit , + , , , , @@ -16610,6 +20331,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\beta$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16628,6 +20350,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:iec61360Code "0112/2///62720#UAD144"^^xsd:string ; ns1:plainTextDescription "Differenzdruck dividiert durch die zugehörige Länge"@de ; ns1:symbol "0173-1#Z4-BAJ313#003"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PressureGradient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -16645,6 +20368,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD145"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PressureInRelationToVolumeFlowRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -16656,6 +20380,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "PMBT"^^xsd:string ; skos:broader . @@ -16672,7 +20397,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Reserve Mass"@en ; - dcterms:description "A quantity of mass held by Program/project management to mitigate the risk of over-predicted performance estimates, under predicted mass estimates, and future operational and mission specific requirements (program mass reserve, manager's mass reserve, launch window reserve, performance reserve, etc.)."^^rdf:HTML ; + dcterms:description "A quantity of mass held by Program/project management to mitigate the risk of over-predicted performance estimates, under predicted mass estimates, and future operational and mission specific requirements (program mass reserve, manager's mass reserve, launch window reserve, performance reserve, etc.)."^^ns1:LatexString, + "A quantity of mass held by Program/project management to mitigate the risk of over-predicted performance estimates, under predicted mass estimates, and future operational and mission specific requirements (program mass reserve, manager's mass reserve, launch window reserve, performance reserve, etc.)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16731,12 +20457,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:informativeReference "http://eaton.math.rpi.edu/CSUMS/Papers/EcoEnergy/koojimanconserve.pdf"^^xsd:anyURI ; ns1:plainTextDescription "A quantity of mass held by Program/project management to mitigate the risk of over-predicted performance estimates, under predicted mass estimates, and future operational and mission specific requirements (program mass reserve, manager's mass reserve, launch window reserve, performance reserve, etc.)."^^xsd:string ; ns1:symbol "M_{E}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "RF-Power Level"@en ; - dcterms:description "Radio-Frequency Power. Power level of electromagnetic waves alternating at the frequency of radio waves (up to 10^10 Hz)."^^rdf:HTML ; + dcterms:description "Radio-Frequency Power. Power level of electromagnetic waves alternating at the frequency of radio waves (up to 10^10 Hz)."^^ns1:LatexString, + "Radio-Frequency Power. Power level of electromagnetic waves alternating at the frequency of radio waves (up to 10^10 Hz)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16750,6 +20478,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:informativeReference "https://www.analog.com/en/technical-articles/measurement-control-rf-power-parti.html"^^xsd:anyURI ; ns1:plainTextDescription "Radio-Frequency Power. Power level of electromagnetic waves alternating at the frequency of radio waves (up to 10^10 Hz)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricField"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16800,12 +20529,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexDefinition "$d = \\sqrt{r_1^2 + r_2^2 -2r_1r_2\\cos{(\\theta_1 - \\theta_2)}}$, where $P_1$ and $P_2$ are two points with polar coordinates $(r_1, \\theta_1)$ and $(r_2, \\theta_2)$, respectively, and $d$ is the distance."^^ns1:LatexString ; ns1:latexSymbol "$r_Q, \\rho$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Radiant Emmitance"@en ; - dcterms:description "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^rdf:HTML ; + dcterms:description "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^ns1:LatexString, + "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^rdf:HTML ; ns1:applicableUnit , , , @@ -16834,6 +20565,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:informativeReference "http://en.wikipedia.org/wiki/Irradiance"^^xsd:anyURI ; ns1:latexDefinition "$M = \\frac{d\\Phi}{dA}$, where $d\\Phi$ is the radiant flux leaving the element of the surface area $dA$."^^ns1:LatexString ; ns1:plainTextDescription "Irradiance and Radiant Emittance are radiometry terms for the power per unit area of electromagnetic radiation at a surface. \"Irradiance\" is used when the electromagnetic radiation is incident on the surface. \"Radiant emmitance\" (or \"radiant exitance\") is used when the radiation is emerging from the surface."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16845,7 +20577,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Radiant Exposure"@en ; - dcterms:description "Radiant exposure is a measure of the total radiant energy incident on a surface per unit area; equal to the integral over time of the radiant flux density. Also known as exposure."^^rdf:HTML ; + dcterms:description "Radiant exposure is a measure of the total radiant energy incident on a surface per unit area; equal to the integral over time of the radiant flux density. Also known as exposure."^^ns1:LatexString, + "Radiant exposure is a measure of the total radiant energy incident on a surface per unit area; equal to the integral over time of the radiant flux density. Also known as exposure."^^rdf:HTML ; ns1:abbreviation "J-PER-CM2"^^xsd:string ; ns1:applicableUnit , , @@ -16880,12 +20613,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$H = \\int_{0}^{\\Delta t}{E}{dt}$, where $E$ is the irradiance acting during the time interval with duration $\\Delta t$."^^ns1:LatexString ; ns1:plainTextDescription "Radiant exposure is a measure of the total radiant energy incident on a surface per unit area; equal to the integral over time of the radiant flux density. Also known as exposure."^^xsd:string ; ns1:symbol "H_e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Radiant Fluence Rate"@en ; - dcterms:description "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^rdf:HTML ; + dcterms:description "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^ns1:LatexString, + "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^rdf:HTML ; ns1:abbreviation "M-PER-T3"^^xsd:string ; ns1:applicableUnit , , @@ -16916,6 +20651,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$E_0 = \\int{L}{d\\Omega}$, where $d\\Omega$ is the solid angle of each elementary beam passing through the given point and $L$ its radiance at that point in the direction of the beam."^^ns1:LatexString ; ns1:plainTextDescription "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^xsd:string ; ns1:symbol "E_e,0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -16929,7 +20665,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the "放射パワー"@ja, "moc promieniowania"@pl, "potência radiante"@pt ; - dcterms:description "Radiant Flux, or radiant power, is the measure of the total power of electromagnetic radiation (including infrared, ultraviolet, and visible light). The power may be the total emitted from a source, or the total landing on a particular surface."^^rdf:HTML ; + dcterms:description "Radiant Flux, or radiant power, is the measure of the total power of electromagnetic radiation (including infrared, ultraviolet, and visible light). The power may be the total emitted from a source, or the total landing on a particular surface."^^ns1:LatexString, + "Radiant Flux, or radiant power, is the measure of the total power of electromagnetic radiation (including infrared, ultraviolet, and visible light). The power may be the total emitted from a source, or the total landing on a particular surface."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17000,6 +20737,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:latexDefinition "$\\Phi = \\frac{dQ}{dt}$, where $dQ$ is the radiant energy emitted, transferred, or received during a time interval of the duration $dt$."^^ns1:LatexString ; ns1:latexSymbol "$\\phi$"^^ns1:LatexString ; ns1:plainTextDescription "Radiant Flux, or radiant power, is the measure of the total power of electromagnetic radiation (including infrared, ultraviolet, and visible light). The power may be the total emitted from a source, or the total landing on a particular surface."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Strahlungsleistung"@de, "radiant power"@en, @@ -17035,6 +20773,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_transfer#Radiation"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\Phi_r$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:HeatFlowRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17042,7 +20781,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the rdfs:label "radioactive decay"^^xsd:string ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD152"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "radioactivity"@en-us ; @@ -17054,7 +20794,8 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the a ns1:QuantityKind ; rdfs:label "Radius of Curvature"@en ; - dcterms:description "In geometry, the \"Radius of Curvature\", R, of a curve at a point is a measure of the radius of the circular arc which best approximates the curve at that point."^^rdf:HTML ; + dcterms:description "In geometry, the \"Radius of Curvature\", R, of a curve at a point is a measure of the radius of the circular arc which best approximates the curve at that point."^^ns1:LatexString, + "In geometry, the \"Radius of Curvature\", R, of a curve at a point is a measure of the radius of the circular arc which best approximates the curve at that point."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17099,6 +20840,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "In geometry, the \"Radius of Curvature\", R, of a curve at a point is a measure of the radius of the circular arc which best approximates the curve at that point."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17106,11 +20848,16 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the rdfs:label "Rankine temperature"^^xsd:string, "Rankine temperature"@en-us ; dcterms:description "quantity which uses a temperature scale with a zero value at the absolute temperature zero (0 K) like the Kelvin scale, but, in contrast with it, uses the scale intervals of the Fahrenheit scale"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD308"^^xsd:string ; ns1:plainTextDescription "Größe, die eine Temperaturskala benutzt, die wie die Kelvin-Skala beim absoluten Temperatur-Nullpunkt (0 K) ihren Nullwert hat, jedoch im Gegensatz zu dieser den Skalenabstand der Fahrenheit-Skala verwendet"@de ; ns1:symbol "0173-1#Z4-BAJ367#002"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:ThermodynamicTemperature"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "rate of rise of voltage"^^xsd:string ; @@ -17124,11 +20871,13 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD154"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Ratio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reaction Energy"@en ; - dcterms:description "\"Reaction Energy\" in a nuclear reaction, is the sum of the kinetic energies and photon energies of the reaction products minus the sum of the kinetic and photon energies of the reactants."^^rdf:HTML ; + dcterms:description "\"Reaction Energy\" in a nuclear reaction, is the sum of the kinetic energies and photon energies of the reaction products minus the sum of the kinetic and photon energies of the reactants."^^ns1:LatexString, + "\"Reaction Energy\" in a nuclear reaction, is the sum of the kinetic energies and photon energies of the reaction products minus the sum of the kinetic and photon energies of the reactants."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17183,12 +20932,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Reaction Energy\" in a nuclear reaction, is the sum of the kinetic energies and photon energies of the reaction products minus the sum of the kinetic and photon energies of the reactants."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Reactor Time Constant"@en ; - dcterms:description "The \"Reactor Time Constant\", also called the reactor period, is the time during which the neutron flux density in a reactor changes by the factor e = 2.718 (e: basis of natural logarithms), when the neutron flux density increases or decreases exponentially."^^rdf:HTML ; + dcterms:description "The \"Reactor Time Constant\", also called the reactor period, is the time during which the neutron flux density in a reactor changes by the factor e = 2.718 (e: basis of natural logarithms), when the neutron flux density increases or decreases exponentially."^^ns1:LatexString, + "The \"Reactor Time Constant\", also called the reactor period, is the time during which the neutron flux density in a reactor changes by the factor e = 2.718 (e: basis of natural logarithms), when the neutron flux density increases or decreases exponentially."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17235,6 +20986,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Reactor Time Constant\", also called the reactor period, is the time during which the neutron flux density in a reactor changes by the factor e = 2.718 (e: basis of natural logarithms), when the neutron flux density increases or decreases exponentially."^^xsd:string ; ns1:symbol "T"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17269,6 +21021,7 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:hasDimensionVector ; ns1:plainTextDescription "Größe, deren Wert sich umgekehrt proportional zum Spannungswert verhält"@de ; ns1:symbol "0173-1#Z4-BAJ371#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ReciprocalVoltage"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -17285,12 +21038,14 @@ $\\text{Magnetic Polarization}$ is a vector quantity equal to the product of the ns1:plainTextDescription """For homogeneous and semi-infinite materials, reflectivity is the same as reflectance. Reflectivity is the square of the magnitude of the Fresnel reflection coefficient, which is the ratio of the reflected to incident electric field; as such the reflection coefficient can be expressed as a complex number as determined by the Fresnel equations for a single layer, whereas the reflectance is always a positive real number. For layered and finite media, according to the CIE, reflectivity is distinguished from reflectance by the fact that reflectivity is a value that applies to thick reflecting objects. When reflection occurs from thin layers of material, internal reflection effects can cause the reflectance to vary with surface thickness. Reflectivity is the limit value of reflectance as the sample becomes thick; it is the intrinsic reflectance of the surface, hence irrespective of other parameters such as the reflectance of the rear surface. Another way to interpret this is that the reflectance is the fraction of electromagnetic power reflected from a specific sample, while reflectivity is a property of the material itself, which would be measured on a perfect machine if the material filled half of all space."""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Reflectance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Relative Atomic Mass"@en ; - dcterms:description "\"Relative Atomic Mass \" is a dimensionless physical quantity, the ratio of the average mass of atoms of an element (from a given source) to 1/12 of the mass of an atom of carbon-12 (known as the unified atomic mass unit)"^^rdf:HTML ; + dcterms:description "\"Relative Atomic Mass \" is a dimensionless physical quantity, the ratio of the average mass of atoms of an element (from a given source) to 1/12 of the mass of an atom of carbon-12 (known as the unified atomic mass unit)"^^ns1:LatexString, + "\"Relative Atomic Mass \" is a dimensionless physical quantity, the ratio of the average mass of atoms of an element (from a given source) to 1/12 of the mass of an atom of carbon-12 (known as the unified atomic mass unit)"^^rdf:HTML ; ns1:applicableUnit , , , @@ -17310,12 +21065,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "\"Relative Atomic Mass \" is a dimensionless physical quantity, the ratio of the average mass of atoms of an element (from a given source) to 1/12 of the mass of an atom of carbon-12 (known as the unified atomic mass unit)"^^xsd:string ; ns1:symbol "A_r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Relative Mass Defect"@en ; - dcterms:description "The \"Relative Mass Defect\" is the mass defect between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster."^^rdf:HTML ; + dcterms:description "The \"Relative Mass Defect\" is the mass defect between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster."^^ns1:LatexString, + "The \"Relative Mass Defect\" is the mass defect between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17338,13 +21095,15 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:symbol "B_r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "Relative Molecular Mass"@en ; - dcterms:description "\"Relative Molecular Mass \" is equivalent to the numerical value of the molecular mass expressed in unified atomic mass units. The molecular mass (m) is the mass of a molecule."^^rdf:HTML ; + dcterms:description "\"Relative Molecular Mass \" is equivalent to the numerical value of the molecular mass expressed in unified atomic mass units. The molecular mass (m) is the mass of a molecule."^^ns1:LatexString, + "\"Relative Molecular Mass \" is equivalent to the numerical value of the molecular mass expressed in unified atomic mass units. The molecular mass (m) is the mass of a molecule."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17364,12 +21123,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "\"Relative Molecular Mass \" is equivalent to the numerical value of the molecular mass expressed in unified atomic mass units. The molecular mass (m) is the mass of a molecule."^^xsd:string ; ns1:symbol "M_r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Relaxation TIme"@en ; - dcterms:description "\"Relaxation TIme\" is a time constant for exponential decay towards equilibrium."^^rdf:HTML ; + dcterms:description "\"Relaxation TIme\" is a time constant for exponential decay towards equilibrium."^^ns1:LatexString, + "\"Relaxation TIme\" is a time constant for exponential decay towards equilibrium."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17416,6 +21177,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\tau$"^^ns1:LatexString ; ns1:plainTextDescription "\"Relaxation TIme\" is a time constant for exponential decay towards equilibrium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17430,6 +21192,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:iec61360Code "0112/2///62720#UAD160"^^xsd:string ; ns1:plainTextDescription "Größe, deren Wert sich umgekehrt proportional zum Längenwert verhält"@de ; ns1:symbol "0173-1#Z4-BAJ370#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Repetency"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -17442,7 +21205,8 @@ For layered and finite media, according to the CIE, reflectivity is distinguish a ns1:QuantityKind ; rdfs:label "Resonance Energy"@en ; - dcterms:description "\"Resonance Energy\" in a nuclear reaction, is the kinetic energy of an incident particle, in the reference frame of the target, corresponding to a resonance in a nuclear reaction."^^rdf:HTML ; + dcterms:description "\"Resonance Energy\" in a nuclear reaction, is the kinetic energy of an incident particle, in the reference frame of the target, corresponding to a resonance in a nuclear reaction."^^ns1:LatexString, + "\"Resonance Energy\" in a nuclear reaction, is the kinetic energy of an incident particle, in the reference frame of the target, corresponding to a resonance in a nuclear reaction."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17497,13 +21261,16 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Resonance Energy\" in a nuclear reaction, is the kinetic energy of an incident particle, in the reference frame of the target, corresponding to a resonance in a nuclear reaction."^^xsd:string ; ns1:symbol "E_r, E_{res}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Resonance Escape Probability For Fission"@en ; - dcterms:description "Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed."^^rdf:HTML ; + dcterms:description "Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed."^^ns1:LatexString, + "Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -17517,12 +21284,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:hasDimensionVector ; ns1:plainTextDescription "Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed."^^xsd:string ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Rest Energy"@en ; - dcterms:description "\"Rest Energy\" is the energy equivalent of the rest mass of a body, equal to the rest mass multiplied by the speed of light squared."^^rdf:HTML ; + dcterms:description "\"Rest Energy\" is the energy equivalent of the rest mass of a body, equal to the rest mass multiplied by the speed of light squared."^^ns1:LatexString, + "\"Rest Energy\" is the energy equivalent of the rest mass of a body, equal to the rest mass multiplied by the speed of light squared."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17579,6 +21348,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Rest Energy\" is the energy equivalent of the rest mass of a body, equal to the rest mass multiplied by the speed of light squared."^^xsd:string ; ns1:symbol "E_0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17661,6 +21431,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31895"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:symbol "m_X"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Proper Mass"^^xsd:string, "träge Masse"@de, @@ -17674,7 +21445,8 @@ For layered and finite media, according to the CIE, reflectivity is distinguish a ns1:QuantityKind ; rdfs:label "Reverberation Time"@en ; - dcterms:description "Reverberation Time is the time required for reflections of a direct sound to decay by 60 dB below the level of the direct sound."^^rdf:HTML ; + dcterms:description "Reverberation Time is the time required for reflections of a direct sound to decay by 60 dB below the level of the direct sound."^^ns1:LatexString, + "Reverberation Time is the time required for reflections of a direct sound to decay by 60 dB below the level of the direct sound."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17721,6 +21493,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:plainTextDescription "Reverberation Time is the time required for reflections of a direct sound to decay by 60 dB below the level of the direct sound."^^xsd:string ; ns1:symbol "T"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17734,7 +21507,8 @@ For layered and finite media, according to the CIE, reflectivity is distinguish a ns1:QuantityKind ; rdfs:label "Rocket Atmospheric Transverse Force"@en ; - dcterms:description "Transverse force on rocket due to an atmosphere"^^rdf:HTML ; + dcterms:description "Transverse force on rocket due to an atmosphere"^^ns1:LatexString, + "Transverse force on rocket due to an atmosphere"^^rdf:HTML ; ns1:applicableUnit , , , @@ -17761,6 +21535,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:hasDimensionVector ; ns1:plainTextDescription "Transverse force on rocket due to an atmosphere"^^xsd:string ; ns1:symbol "T"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17770,6 +21545,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD163"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Rotary-TranslatoryMotionConversion"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -17782,13 +21558,15 @@ For layered and finite media, according to the CIE, reflectivity is distinguish a ns1:QuantityKind ; rdfs:label "Rotational Stiffness"@en ; - dcterms:description "Rotational Stiffness is the extent to which an object resists deformation in response to an applied torque."^^rdf:HTML ; + dcterms:description "Rotational Stiffness is the extent to which an object resists deformation in response to an applied torque."^^ns1:LatexString, + "Rotational Stiffness is the extent to which an object resists deformation in response to an applied torque."^^rdf:HTML ; ns1:applicableUnit , , , ; ns1:hasDimensionVector ; ns1:plainTextDescription "Rotational Stiffness is the extent to which an object resists deformation in response to an applied torque."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TorquePerAngle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17804,7 +21582,8 @@ For layered and finite media, according to the CIE, reflectivity is distinguish "Geometryczny moment bezwładności"@pl, "Segundo momento de área"@pt, "截面二次轴矩"@zh ; - dcterms:description "The second moment of area is a property of a physical object that can be used to predict its resistance to bending and deflection. The deflection of an object under load depends not only on the load, but also on the geometry of the object's cross-section."^^rdf:HTML ; + dcterms:description "The second moment of area is a property of a physical object that can be used to predict its resistance to bending and deflection. The deflection of an object under load depends not only on the load, but also on the geometry of the object's cross-section."^^ns1:LatexString, + "The second moment of area is a property of a physical object that can be used to predict its resistance to bending and deflection. The deflection of an object under load depends not only on the load, but also on the geometry of the object's cross-section."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17814,6 +21593,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:informativeReference "http://en.wikipedia.org/wiki/Second_moment_of_area"^^xsd:anyURI ; ns1:plainTextDescription "The second moment of area is a property of a physical object that can be used to predict its resistance to bending and deflection. The deflection of an object under load depends not only on the load, but also on the geometry of the object's cross-section."^^xsd:string ; ns1:symbol "J"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SecondMomentOfArea"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "momento de inércia de área"@pt . @@ -17827,7 +21607,8 @@ For layered and finite media, according to the CIE, reflectivity is distinguish a ns1:QuantityKind ; rdfs:label "Second Stage Mass Ratio"@en ; - dcterms:description "Mass ratio for the second stage of a multistage launcher."^^rdf:HTML ; + dcterms:description "Mass ratio for the second stage of a multistage launcher."^^ns1:LatexString, + "Mass ratio for the second stage of a multistage launcher."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17843,12 +21624,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:hasDimensionVector ; ns1:plainTextDescription "Mass ratio for the second stage of a multistage launcher."^^xsd:string ; ns1:symbol "R_2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Shannon Diversity Index"@en ; - dcterms:description "Information entropy applied to a collection of indiviual organisms [of selected species] in a sample area. A measure of biodiversity."^^rdf:HTML ; + dcterms:description "Information entropy applied to a collection of indiviual organisms [of selected species] in a sample area. A measure of biodiversity."^^ns1:LatexString, + "Information entropy applied to a collection of indiviual organisms [of selected species] in a sample area. A measure of biodiversity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17870,12 +21653,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ; ns1:hasDimensionVector ; ns1:plainTextDescription "Information entropy applied to a collection of indiviual organisms [of selected species] in a sample area. A measure of biodiversity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:InformationEntropy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Shear Strain"@en ; - dcterms:description "Shear Strain is the amount of deformation perpendicular to a given line rather than parallel to it. "^^rdf:HTML ; + dcterms:description "Shear Strain is the amount of deformation perpendicular to a given line rather than parallel to it. "^^ns1:LatexString, + "Shear Strain is the amount of deformation perpendicular to a given line rather than parallel to it. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -17896,12 +21681,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:latexDefinition "$\\gamma = \\frac{\\Delta x}{d}$, where $\\Delta x$ is the parallel displacement between two surfaces of a layer of thickness $d$."^^ns1:LatexString ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; ns1:plainTextDescription "Shear Strain is the amount of deformation perpendicular to a given line rather than parallel to it. "^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Shear Stress"@en ; - dcterms:description "Shear stress occurs when the force occurs in shear, or perpendicular to the normal."^^rdf:HTML ; + dcterms:description "Shear stress occurs when the force occurs in shear, or perpendicular to the normal."^^ns1:LatexString, + "Shear stress occurs when the force occurs in shear, or perpendicular to the normal."^^rdf:HTML ; ns1:applicableUnit , , , @@ -17971,6 +21758,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:latexDefinition "$\\tau = \\frac{dF_t}{dA}$, where $dF_t$ is the tangential component of force and $dA$ is the area of the surface element."^^ns1:LatexString ; ns1:latexSymbol "$\\tau$"^^ns1:LatexString ; ns1:plainTextDescription "Shear stress occurs when the force occurs in shear, or perpendicular to the normal."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -17990,12 +21778,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ; ns1:hasDimensionVector ; ns1:symbol "R_o"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Slowing-Down Area"@en ; - dcterms:description "\"Slowing-Down Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the neutron source and the point where a neutron reaches a given energy."^^rdf:HTML ; + dcterms:description "\"Slowing-Down Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the neutron source and the point where a neutron reaches a given energy."^^ns1:LatexString, + "\"Slowing-Down Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the neutron source and the point where a neutron reaches a given energy."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18020,12 +21810,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Slowing-Down Area\" in an infinite homogenous medium, is one-sixth of the mean square distance between the neutron source and the point where a neutron reaches a given energy."^^xsd:string ; ns1:symbol "L_s^2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Slowing-Down Length"@en ; - dcterms:description "\"Slowing-Down Length\" is the average straight-line distance that a fast neutron will travel between its introduction into the slowing-downmedium (moderator) and thermalization."^^rdf:HTML ; + dcterms:description "\"Slowing-Down Length\" is the average straight-line distance that a fast neutron will travel between its introduction into the slowing-downmedium (moderator) and thermalization."^^ns1:LatexString, + "\"Slowing-Down Length\" is the average straight-line distance that a fast neutron will travel between its introduction into the slowing-downmedium (moderator) and thermalization."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18070,12 +21862,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Slowing-Down Length\" is the average straight-line distance that a fast neutron will travel between its introduction into the slowing-downmedium (moderator) and thermalization."^^xsd:string ; ns1:symbol "L_s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Diffusion Length (Solid State Physics)"@en ; - dcterms:description "\"Solid State Diffusion Length\" is the average distance traveled by a particle, such as a minority carrier in a semiconductor "^^rdf:HTML ; + dcterms:description "\"Solid State Diffusion Length\" is the average distance traveled by a particle, such as a minority carrier in a semiconductor "^^ns1:LatexString, + "\"Solid State Diffusion Length\" is the average distance traveled by a particle, such as a minority carrier in a semiconductor "^^rdf:HTML ; ns1:applicableUnit , , , @@ -18121,6 +21915,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Solid State Diffusion Length\" is the average distance traveled by a particle, such as a minority carrier in a semiconductor "^^xsd:string ; ns1:symbol "L, L_n, L_p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18138,6 +21933,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:latexDefinition "$E = \\frac{I}{c}$, where $I$ is the sound intensity in $\\frac{W}{m^2}$ and $c$ is the sound speed in $\\frac{m}{s}$."^^ns1:LatexString ; ns1:symbol "E"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18164,12 +21960,14 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:latexDefinition "$a = \\frac{\\partial v}{\\partial t}$, where $v$ is sound particle velocity and $t$ is time."^^ns1:LatexString ; ns1:symbol "a"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Acceleration"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Sound Particle Displacement"@en ; - dcterms:description "Sound Particle Displacement is the nstantaneous displacement of a particle in a medium from what would be its position in the absence of sound waves."^^rdf:HTML ; + dcterms:description "Sound Particle Displacement is the nstantaneous displacement of a particle in a medium from what would be its position in the absence of sound waves."^^ns1:LatexString, + "Sound Particle Displacement is the nstantaneous displacement of a particle in a medium from what would be its position in the absence of sound waves."^^rdf:HTML ; ns1:abbreviation "l"^^xsd:string ; ns1:applicableUnit , , @@ -18215,6 +22013,7 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:plainTextDescription "Sound Particle Displacement is the nstantaneous displacement of a particle in a medium from what would be its position in the absence of sound waves."^^xsd:string ; ns1:symbol "ξ"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18300,13 +22099,15 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:latexDefinition "$P_a = IA$, where $I$ is the sound intensity in $\\frac{W}{m^2}$ and $A$ is the area in $m^2$."^^ns1:LatexString ; ns1:symbol "P"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "potência sonora"@pt ; skos:broader . a ns1:QuantityKind ; rdfs:label "Sound pressure"@en ; - dcterms:description "Sound Pressure is the difference between instantaneous total pressure and static pressure."^^rdf:HTML ; + dcterms:description "Sound Pressure is the difference between instantaneous total pressure and static pressure."^^ns1:LatexString, + "Sound Pressure is the difference between instantaneous total pressure and static pressure."^^rdf:HTML ; ns1:abbreviation "p"^^xsd:string ; ns1:applicableUnit , , @@ -18376,12 +22177,18 @@ For layered and finite media, according to the CIE, reflectivity is distinguish ns1:plainTextDescription "Sound Pressure is the difference between instantaneous total pressure and static pressure."^^xsd:string ; ns1:symbol "p"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Source Voltage"@en ; - dcterms:description """"Source Voltage}, also referred to as \\textit{Source Tension" is the voltage between the two terminals of a voltage source when there is no + dcterms:description """ + The quantity kind $\\textit{Source Voltage}$, also referred to as $\\textit{Source Tension}$ + is the voltage between the two terminals of a voltage source when there is no electric current through the source. + The name $\\text{electromotive force}$ with the abbreviation $\\textit{EMF}$ and the symbol $E$ is deprecated. + """^^ns1:LatexString, + """"Source Voltage}, also referred to as \\textit{Source Tension" is the voltage between the two terminals of a voltage source when there is no electric current through the source. The name "electromotive force} with the abbreviation \\textit{EMF" and the symbol $E$ is deprecated."""^^ns1:LatexString ; ns1:applicableUnit , @@ -18400,12 +22207,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:symbol "U_s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Voltage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Source Voltage Between Substances"@en ; - dcterms:description "\"Source Voltage Between Substances\" is the source voltage between substance a and b."^^rdf:HTML ; + dcterms:description "\"Source Voltage Between Substances\" is the source voltage between substance a and b."^^ns1:LatexString, + "\"Source Voltage Between Substances\" is the source voltage between substance a and b."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18423,12 +22232,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Source Voltage Between Substances\" is the source voltage between substance a and b."^^xsd:string ; ns1:symbol "E_{ab}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Voltage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Spatial Summation Function"@en ; - dcterms:description "\"Spatial Summation Function\" is he ability to produce a composite signal from the signals coming into the eyes from different directions."^^rdf:HTML ; + dcterms:description "\"Spatial Summation Function\" is he ability to produce a composite signal from the signals coming into the eyes from different directions."^^ns1:LatexString, + "\"Spatial Summation Function\" is he ability to produce a composite signal from the signals coming into the eyes from different directions."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18472,12 +22283,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "http://en.wikipedia.org/wiki/Summation_(neurophysiology)#Spatial_summation"^^xsd:anyURI ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Spatial Summation Function\" is he ability to produce a composite signal from the signals coming into the eyes from different directions."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Specific Energy Imparted"@en ; - dcterms:description "The \"Specific Energy Imparted\", is the energy imparted to an element of irradiated matter divided by the mass, dm, of that element."^^rdf:HTML ; + dcterms:description "The \"Specific Energy Imparted\", is the energy imparted to an element of irradiated matter divided by the mass, dm, of that element."^^ns1:LatexString, + "The \"Specific Energy Imparted\", is the energy imparted to an element of irradiated matter divided by the mass, dm, of that element."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18498,6 +22311,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexDefinition "For ionizing radiation, $z = \\frac{\\varepsilon}{m}$, where $\\varepsilon$ is the energy imparted to irradiated matter and $m$ is the mass of that matter."^^ns1:LatexString ; ns1:plainTextDescription "The \"Specific Energy Imparted\", is the energy imparted to an element of irradiated matter divided by the mass, dm, of that element."^^xsd:string ; ns1:symbol "z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18520,6 +22334,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18561,6 +22376,7 @@ electric current through the source. The name "electromotive force} with the abb , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18608,13 +22424,15 @@ electric current through the source. The name "electromotive force} with the abb , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader , . a ns1:QuantityKind ; rdfs:label "Specific Modulus"@en ; - dcterms:description "

Specific modulus is a materials property consisting of the elastic modulus per mass density of a material. It is also known as the stiffness to weight ratio or specific stiffness. High specific modulus materials find wide application in aerospace applications where minimum structural weight is required. The dimensional analysis yields units of distance squared per time squared."^^rdf:HTML ; + dcterms:description "

Specific modulus is a materials property consisting of the elastic modulus per mass density of a material. It is also known as the stiffness to weight ratio or specific stiffness. High specific modulus materials find wide application in aerospace applications where minimum structural weight is required. The dimensional analysis yields units of distance squared per time squared.

"^^ns1:LatexString, + "

Specific modulus is a materials property consisting of the elastic modulus per mass density of a material. It is also known as the stiffness to weight ratio or specific stiffness. High specific modulus materials find wide application in aerospace applications where minimum structural weight is required. The dimensional analysis yields units of distance squared per time squared."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -18622,6 +22440,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Specific_modulus"^^xsd:anyURI ; ns1:latexDefinition "$specific modulus = E/\\rho$, where $E$ is elastic modulus and $\\rho$ is density."^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:SpecificModulus"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Specific Stiffness"@en, "Stiffness to Weight Ratio"@en . @@ -18638,7 +22457,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Specific thrust"@en ; - dcterms:description "Specific impulse (usually abbreviated Isp) is a way to describe the efficiency of rocket and jet engines. It represents the force with respect to the amount of propellant used per unit time.[1] If the \"amount\" of propellant is given in terms of mass (such as kilograms), then specific impulse has units of velocity. If it is given in terms of Earth-weight (such as kiloponds), then specific impulse has units of time. The conversion constant between the two versions of specific impulse is g. The higher the specific impulse, the lower the propellant flow rate required for a given thrust, and in the case of a rocket the less propellant is needed for a given delta-v per the Tsiolkovsky rocket equation."^^rdf:HTML ; + dcterms:description "Specific impulse (usually abbreviated Isp) is a way to describe the efficiency of rocket and jet engines. It represents the force with respect to the amount of propellant used per unit time.[1] If the \"amount\" of propellant is given in terms of mass (such as kilograms), then specific impulse has units of velocity. If it is given in terms of Earth-weight (such as kiloponds), then specific impulse has units of time. The conversion constant between the two versions of specific impulse is g. The higher the specific impulse, the lower the propellant flow rate required for a given thrust, and in the case of a rocket the less propellant is needed for a given delta-v per the Tsiolkovsky rocket equation."^^ns1:LatexString, + "Specific impulse (usually abbreviated Isp) is a way to describe the efficiency of rocket and jet engines. It represents the force with respect to the amount of propellant used per unit time.[1] If the \"amount\" of propellant is given in terms of mass (such as kilograms), then specific impulse has units of velocity. If it is given in terms of Earth-weight (such as kiloponds), then specific impulse has units of time. The conversion constant between the two versions of specific impulse is g. The higher the specific impulse, the lower the propellant flow rate required for a given thrust, and in the case of a rocket the less propellant is needed for a given delta-v per the Tsiolkovsky rocket equation."^^rdf:HTML ; ns1:dbpediaMatch "http://dbpedia.org/resource/Specific_thrust"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:id "Q-160-100"^^xsd:string ; @@ -18655,6 +22475,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "https://en.wikipedia.org/wiki/Specific_weight"^^xsd:anyURI ; ns1:plainTextDescription "The specific weight, also known as the unit weight is a volume-specific quantity defined as the weight per unit volume of a material. Note that weight is defined as a force, distinct from mass."^^xsd:string ; ns1:symbol "γ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificWeight"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -18678,11 +22499,13 @@ electric current through the source. The name "electromotive force} with the abb ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD178"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpectralDensityOfVibrationalModes"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Spectral Luminous Efficiency"@en ; - dcterms:description "The Spectral Luminous Efficiency is a measure of how well a light source produces visible light. It is the ratio of luminous flux to power. A common choice is to choose units such that the maximum possible efficacy, 683 lm/W, corresponds to an efficiency of 100%."^^rdf:HTML ; + dcterms:description "The Spectral Luminous Efficiency is a measure of how well a light source produces visible light. It is the ratio of luminous flux to power. A common choice is to choose units such that the maximum possible efficacy, 683 lm/W, corresponds to an efficiency of 100%."^^ns1:LatexString, + "The Spectral Luminous Efficiency is a measure of how well a light source produces visible light. It is the ratio of luminous flux to power. A common choice is to choose units such that the maximum possible efficacy, 683 lm/W, corresponds to an efficiency of 100%."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Luminous_efficacy"^^xsd:anyURI ; ns1:latexDefinition "$V(\\lambda) = \\frac{\\Phi_\\lambda(\\lambda_m)}{\\Phi_\\lambda(\\lambda)}$, where $\\Phi_\\lambda(\\lambda_m)$ is the spectral radiant flux at wavelength $\\lambda_m$ and $\\Phi_\\lambda(\\lambda)$ is the spectral radiant flux at wavelength $\\lambda$, such that both radiations produce equal luminous sensations under specified photometric conditions and $\\lambda_m$ is chosen so that the maximum value of this ratio is equal to 1."^^ns1:LatexString ; @@ -18715,7 +22538,10 @@ electric current through the source. The name "electromotive force} with the abb "Hitrost svetlobe"@sl, "Işık hızı"@tr, "光速"@zh ; - dcterms:description "The quantity kind \\text{Speed of Light} is the speed of electomagnetic waves in a given medium."^^ns1:LatexString ; + dcterms:description """ + The quantity kind $\\text{Speed of Light}$ is the speed of electomagnetic waves in a given medium. + """^^ns1:LatexString, + "The quantity kind \\text{Speed of Light} is the speed of electomagnetic waves in a given medium."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -18732,12 +22558,36 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=113-01-34"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:Speed"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Speed Ratio"@en ; + dcterms:description "Speed ratio generally refers to the ratio of the rotational speeds of two interconnected rotating components, but it sometimes relates linear speeds."^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://sciencing.com/calculate-speed-ratio-7598425.html"^^xsd:anyURI ; + ns1:plainTextDescription "Speed ratio generally refers to the ratio of the rotational speeds of two interconnected rotating components, but it sometimes relates linear speeds."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Illuminance"@en ; dcterms:description "Spherical illuminance is equal to quotient of the total luminous flux $\\Phi_v$ incident on a small sphere by the cross section area of that sphere."^^ns1:LatexString ; @@ -18747,6 +22597,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "http://eilv.cie.co.at/term/1245"^^xsd:anyURI ; ns1:latexDefinition "$E_v,0 = \\int_{4\\pi sr}{L_v}{d\\Omega}$, where $d\\Omega$ is the solid angle of each elementary beam passing through the given point and $L_v$ is its luminance at that point in the direction of the beam."^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:LuminousFluxPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18768,7 +22619,8 @@ electric current through the source. The name "electromotive force} with the abb "spin"@sl, "Spin"@tr, "自旋"@zh ; - dcterms:description "In quantum mechanics and particle physics \"Spin\" is an intrinsic form of angular momentum carried by elementary particles, composite particles (hadrons), and atomic nuclei."^^rdf:HTML ; + dcterms:description "In quantum mechanics and particle physics \"Spin\" is an intrinsic form of angular momentum carried by elementary particles, composite particles (hadrons), and atomic nuclei."^^ns1:LatexString, + "In quantum mechanics and particle physics \"Spin\" is an intrinsic form of angular momentum carried by elementary particles, composite particles (hadrons), and atomic nuclei."^^rdf:HTML ; ns1:applicableUnit , , , @@ -18780,6 +22632,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "In quantum mechanics and particle physics \"Spin\" is an intrinsic form of angular momentum carried by elementary particles, composite particles (hadrons), and atomic nuclei."^^xsd:string ; ns1:symbol "s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularMomentum"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18841,6 +22694,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:symbol "M_F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18902,12 +22756,14 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:symbol "M_S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Standard Chemical Potential"@en ; - dcterms:description "\"Standard Chemical Potential\" is the value of the chemical potential at standard conditions"^^rdf:HTML ; + dcterms:description "\"Standard Chemical Potential\" is the value of the chemical potential at standard conditions"^^ns1:LatexString, + "\"Standard Chemical Potential\" is the value of the chemical potential at standard conditions"^^rdf:HTML ; ns1:applicableUnit , , ; @@ -18917,6 +22773,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexSymbol "$\\mu_B^\\Theta$"^^ns1:LatexString ; ns1:plainTextDescription "\"Standard Chemical Potential\" is the value of the chemical potential at standard conditions"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -18940,7 +22797,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Static Friction"@en ; - dcterms:description "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^rdf:HTML ; + dcterms:description "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^ns1:LatexString, + "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -18969,12 +22827,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "http://en.wikipedia.org/wiki/Friction"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:plainTextDescription "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Static Friction Coefficient"@en ; - dcterms:description "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^rdf:HTML ; + dcterms:description "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^ns1:LatexString, + "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^rdf:HTML ; ns1:applicableUnit , ; ns1:dbpediaMatch "http://dbpedia.org/resource/Friction"^^xsd:anyURI ; @@ -18986,6 +22846,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:plainTextDescription "Static friction is friction between two or more solid objects that are not moving relative to each other. For example, static friction can prevent an object from sliding down a sloped surface. "^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:FrictionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19060,12 +22921,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "http://en.wikipedia.org/wiki/Static_pressure"^^xsd:anyURI ; ns1:symbol "p"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Strain Energy Density"@en ; - dcterms:description "Defined as the 'work done' for a given strain, that is the area under the stress-strain curve after a specified eation. Source(s): http://www.prepol.com/product-range/product-subpages/terminology"^^rdf:HTML ; + dcterms:description "Defined as the 'work done' for a given strain, that is the area under the stress-strain curve after a specified eation. Source(s): http://www.prepol.com/product-range/product-subpages/terminology"^^ns1:LatexString, + "Defined as the 'work done' for a given strain, that is the area under the stress-strain curve after a specified eation. Source(s): http://www.prepol.com/product-range/product-subpages/terminology"^^rdf:HTML ; ns1:applicableUnit , , , @@ -19075,12 +22938,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:plainTextDescription "Defined as the 'work done' for a given strain, that is the area under the stress-strain curve after a specified eation. Source(s): http://www.prepol.com/product-range/product-subpages/terminology"^^xsd:string ; ns1:symbol "u"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Strain Energy Release Rate"@en ; - dcterms:description "In fracture mechanics, the energy release rate, G, is the rate at which energy is transformed as a material undergoes fracture. Mathematically, the energy release rate is expressed as the decrease in total potential energy per increase in fracture surface area, and is thus expressed in terms of energy per unit area."^^rdf:HTML ; + dcterms:description "In fracture mechanics, the energy release rate, G, is the rate at which energy is transformed as a material undergoes fracture. Mathematically, the energy release rate is expressed as the decrease in total potential energy per increase in fracture surface area, and is thus expressed in terms of energy per unit area."^^ns1:LatexString, + "In fracture mechanics, the energy release rate, G, is the rate at which energy is transformed as a material undergoes fracture. Mathematically, the energy release rate is expressed as the decrease in total potential energy per increase in fracture surface area, and is thus expressed in terms of energy per unit area."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19092,13 +22957,16 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexSymbol "$\\G$"^^ns1:LatexString ; ns1:plainTextDescription "In fracture mechanics, the energy release rate, G, is the rate at which energy is transformed as a material undergoes fracture. Mathematically, the energy release rate is expressed as the decrease in total potential energy per increase in fracture surface area, and is thus expressed in terms of energy per unit area."^^xsd:string ; ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:StrainEnergyReleaseRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Structural Efficiency"@en ; - dcterms:description "Structural efficiency is a function of the weight of structure to the afforded vehicle's strength."^^rdf:HTML ; + dcterms:description "Structural efficiency is a function of the weight of structure to the afforded vehicle's strength."^^ns1:LatexString, + "Structural efficiency is a function of the weight of structure to the afforded vehicle's strength."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -19112,6 +22980,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; ns1:plainTextDescription "Structural efficiency is a function of the weight of structure to the afforded vehicle's strength."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19120,11 +22989,13 @@ electric current through the source. The name "electromotive force} with the abb ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD366"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SunProtectionFactorOfAProduct"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Superconductor Energy Gap"@en ; - dcterms:description "\"Superconductor Energy Gap\" is the width of the forbidden energy band in a superconductor."^^rdf:HTML ; + dcterms:description "\"Superconductor Energy Gap\" is the width of the forbidden energy band in a superconductor."^^ns1:LatexString, + "\"Superconductor Energy Gap\" is the width of the forbidden energy band in a superconductor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19179,6 +23050,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Superconductor Energy Gap\" is the width of the forbidden energy band in a superconductor."^^xsd:string ; ns1:symbol "Δ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19189,6 +23061,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:plainTextDescription "Quotient aus dem Volumen eines Stoffes, das durch eine vorgegebene Oberfläche hindurchgeht, und der dazu benötigten Zeit dividiert durch diese vorgegebene Fläche"@de ; ns1:symbol "0173-1#Z4-BAJ421#003"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SurfaceRelatedVolumeFlow"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -19210,7 +23083,8 @@ electric current through the source. The name "electromotive force} with the abb "površinska napetost"@sl, "Yüzey gerilimi"@tr, "表面张力"@zh ; - dcterms:description "\"Surface Tension\" is a contractive tendency of the surface of a liquid that allows it to resist an external force."^^rdf:HTML ; + dcterms:description "\"Surface Tension\" is a contractive tendency of the surface of a liquid that allows it to resist an external force."^^ns1:LatexString, + "\"Surface Tension\" is a contractive tendency of the surface of a liquid that allows it to resist an external force."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19246,6 +23120,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:plainTextDescription "\"Surface Tension\" is a contractive tendency of the surface of a liquid that allows it to resist an external force."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "γ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "tension de surface"@fr ; skos:broader . @@ -19262,7 +23137,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Susceptance"@en ; - dcterms:description "\"Susceptance\" is the imaginary part of admittance. The inverse of admittance is impedance and the real part of admittance is conductance. "^^rdf:HTML ; + dcterms:description "\"Susceptance\" is the imaginary part of admittance. The inverse of admittance is impedance and the real part of admittance is conductance. "^^ns1:LatexString, + "\"Susceptance\" is the imaginary part of admittance. The inverse of admittance is impedance and the real part of admittance is conductance. "^^rdf:HTML ; ns1:dbpediaMatch "http://dbpedia.org/resource/Susceptance"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Susceptance?oldid=430151986"^^xsd:anyURI, @@ -19285,7 +23161,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Target Bogie Mass"@en ; - dcterms:description "An informal mass limit established by a Project Office (at the Element Integrated Product Team (IPT) level or below) to control mass."^^rdf:HTML ; + dcterms:description "An informal mass limit established by a Project Office (at the Element Integrated Product Team (IPT) level or below) to control mass."^^ns1:LatexString, + "An informal mass limit established by a Project Office (at the Element Integrated Product Team (IPT) level or below) to control mass."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19342,6 +23219,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:plainTextDescription "An informal mass limit established by a Project Office (at the Element Integrated Product Team (IPT) level or below) to control mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19435,12 +23313,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "https://www.merusonline.com/delta-t-temperature/"^^xsd:anyURI ; ns1:plainTextDescription "Temperature difference (Delta T) is the difference of temperatures between two measuring points"^^xsd:string ; ns1:symbol "ΔT"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Temperature Rate of Change"@en ; - dcterms:description "The \"Temperature Rate of Change\" measures the difference of a temperature per time (positive: rise, negative: fall), as for instance used with heat sensors. It is for example measured in K/s."^^rdf:HTML ; + dcterms:description "The \"Temperature Rate of Change\" measures the difference of a temperature per time (positive: rise, negative: fall), as for instance used with heat sensors. It is for example measured in K/s."^^ns1:LatexString, + "The \"Temperature Rate of Change\" measures the difference of a temperature per time (positive: rise, negative: fall), as for instance used with heat sensors. It is for example measured in K/s."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19459,6 +23339,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifctemperaturerateofchangemeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The \"Temperature Rate of Change\" measures the difference of a temperature per time (positive: rise, negative: fall), as for instance used with heat sensors. It is for example measured in K/s."^^xsd:string ; ns1:symbol "0173-1#Z4-BAJ416#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TemperaturePerTime"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19505,12 +23386,14 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tension"^^xsd:anyURI ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thermal Admittance"@en ; - dcterms:description "The heat transfer coefficient is also known as thermal admittance in the sense that the material may be seen as admitting heat to flow."^^rdf:HTML ; + dcterms:description "The heat transfer coefficient is also known as thermal admittance in the sense that the material may be seen as admitting heat to flow."^^ns1:LatexString, + "The heat transfer coefficient is also known as thermal admittance in the sense that the material may be seen as admitting heat to flow."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19527,6 +23410,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Thermal_conductivity"^^xsd:anyURI ; ns1:plainTextDescription "The heat transfer coefficient is also known as thermal admittance in the sense that the material may be seen as admitting heat to flow."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CoefficientOfHeatTransfer"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19540,6 +23424,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:iec61360Code "0112/2///62720#UAD187"^^xsd:string ; ns1:plainTextDescription "Quotient aus der zugeführten Wärmemenge und der Temperaturänderungen, die durch diese zugeführte Wärmemenge verursacht wird"@de ; ns1:symbol "0173-1#Z4-BAJ406#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalCapacitance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -19566,12 +23451,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexDefinition "$a = \\frac{\\lambda}{\\rho c_\\rho}$, where $\\lambda$ is thermal conductivity, $\\rho$ is mass density and $c_\\rho$ is specific heat capacity at constant pressure."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AreaPerTime"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thermal Efficiency"@en ; - dcterms:description "Thermal efficiency is a dimensionless performance measure of a thermal device such as an internal combustion engine, a boiler, or a furnace. The input to the device is heat, or the heat-content of a fuel that is consumed. The desired output is mechanical work, or heat, or possibly both."^^rdf:HTML ; + dcterms:description "Thermal efficiency is a dimensionless performance measure of a thermal device such as an internal combustion engine, a boiler, or a furnace. The input to the device is heat, or the heat-content of a fuel that is consumed. The desired output is mechanical work, or heat, or possibly both."^^ns1:LatexString, + "Thermal efficiency is a dimensionless performance measure of a thermal device such as an internal combustion engine, a boiler, or a furnace. The input to the device is heat, or the heat-content of a fuel that is consumed. The desired output is mechanical work, or heat, or possibly both."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19592,6 +23479,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:plainTextDescription "Thermal efficiency is a dimensionless performance measure of a thermal device such as an internal combustion engine, a boiler, or a furnace. The input to the device is heat, or the heat-content of a fuel that is consumed. The desired output is mechanical work, or heat, or possibly both."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19605,7 +23493,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Thermal Transmittance"@en ; - dcterms:description "Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material (such as insulation or concrete) or an assembly (such as a wall or window) is expressed as a U-value. The concept of thermal transmittance is closely related to that of thermal resistance. The thermal resistance of a structure is the reciprocal of its thermal transmittance."^^rdf:HTML ; + dcterms:description "Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material (such as insulation or concrete) or an assembly (such as a wall or window) is expressed as a U-value. The concept of thermal transmittance is closely related to that of thermal resistance. The thermal resistance of a structure is the reciprocal of its thermal transmittance."^^ns1:LatexString, + "Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material (such as insulation or concrete) or an assembly (such as a wall or window) is expressed as a U-value. The concept of thermal transmittance is closely related to that of thermal resistance. The thermal resistance of a structure is the reciprocal of its thermal transmittance."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19623,13 +23512,16 @@ electric current through the source. The name "electromotive force} with the abb ns1:iec61360Code "0112/2///62720#UAD195"^^xsd:string ; ns1:informativeReference "https://en.wikipedia.org/wiki/Thermal_transmittance"^^xsd:anyURI ; ns1:plainTextDescription "Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material (such as insulation or concrete) or an assembly (such as a wall or window) is expressed as a U-value. The concept of thermal transmittance is closely related to that of thermal resistance. The thermal resistance of a structure is the reciprocal of its thermal transmittance."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CoefficientOfHeatTransfer"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thermal Utilization Factor For Fission"@en ; - dcterms:description "Probability that a neutron that gets absorbed does so in the fuel material."^^rdf:HTML ; + dcterms:description "Probability that a neutron that gets absorbed does so in the fuel material."^^ns1:LatexString, + "Probability that a neutron that gets absorbed does so in the fuel material."^^rdf:HTML ; ns1:applicableUnit , + , , , , @@ -19643,12 +23535,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:plainTextDescription "Probability that a neutron that gets absorbed does so in the fuel material."^^xsd:string ; ns1:symbol "f"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thermodynamic Critical Magnetic Flux Density"@en ; - dcterms:description "\"Thermodynamic Critical Magnetic Flux Density\" is the maximum magnetic field strength below which a material remains superconducting."^^rdf:HTML ; + dcterms:description "\"Thermodynamic Critical Magnetic Flux Density\" is the maximum magnetic field strength below which a material remains superconducting."^^ns1:LatexString, + "\"Thermodynamic Critical Magnetic Flux Density\" is the maximum magnetic field strength below which a material remains superconducting."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19664,6 +23558,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexDefinition "$G_n - G_s = \\frac{1}{2}\\frac{B_c^2 \\cdot V}{\\mu_0}$, where $G_n$ and $G_s$ are the Gibbs energies at zero magnetic flux density in a normal conductor and superconductor, respectively, $\\mu_0$ is the magnetic constant, and $V$ is volume."^^ns1:LatexString ; ns1:plainTextDescription "\"Thermodynamic Critical Magnetic Flux Density\" is the maximum magnetic field strength below which a material remains superconducting."^^xsd:string ; ns1:symbol "B_c"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFluxDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19673,12 +23568,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerTemperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thickness"@en ; - dcterms:description "\"Thickness\" is the the smallest of three dimensions: length, width, thickness."^^rdf:HTML ; + dcterms:description "\"Thickness\" is the the smallest of three dimensions: length, width, thickness."^^ns1:LatexString, + "\"Thickness\" is the the smallest of three dimensions: length, width, thickness."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19724,12 +23621,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Thickness\" is the the smallest of three dimensions: length, width, thickness."^^xsd:string ; ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Thrust Coefficient"@en ; - dcterms:description "The thrust force of a jet-propulsion engine per unit of frontal area per unit of incompressible dynamic pressure "^^rdf:HTML ; + dcterms:description "The thrust force of a jet-propulsion engine per unit of frontal area per unit of incompressible dynamic pressure "^^ns1:LatexString, + "The thrust force of a jet-propulsion engine per unit of frontal area per unit of incompressible dynamic pressure "^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "The thrust force of a jet-propulsion engine per unit of frontal area per unit of incompressible dynamic pressure "^^xsd:string ; ns1:symbol "C_{F}"^^xsd:string ; @@ -19737,7 +23636,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Thrust To Weight Ratio"@en ; - dcterms:description "Thrust-to-weight ratio is a ratio of thrust to weight of a rocket, jet engine, propeller engine, or a vehicle propelled by such an engine. It is a dimensionless quantity and is an indicator of the performance of the engine or vehicle."^^rdf:HTML ; + dcterms:description "Thrust-to-weight ratio is a ratio of thrust to weight of a rocket, jet engine, propeller engine, or a vehicle propelled by such an engine. It is a dimensionless quantity and is an indicator of the performance of the engine or vehicle."^^ns1:LatexString, + "Thrust-to-weight ratio is a ratio of thrust to weight of a rocket, jet engine, propeller engine, or a vehicle propelled by such an engine. It is a dimensionless quantity and is an indicator of the performance of the engine or vehicle."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19755,6 +23655,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:latexSymbol "$\\psi$"^^ns1:LatexString ; ns1:plainTextDescription "Thrust-to-weight ratio is a ratio of thrust to weight of a rocket, jet engine, propeller engine, or a vehicle propelled by such an engine. It is a dimensionless quantity and is an indicator of the performance of the engine or vehicle."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19765,11 +23666,36 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:latexSymbol "$\\eta$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ThrusterPowerToThrustEfficiency"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Tilt"@en ; + dcterms:description """The angle between an object's orientation vector relative to a reference frame. + In the context of architecture, this would refer to the angle between the ground and the face of a surface."""^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription """The angle between an object's orientation vector relative to a reference frame. + In the context of architecture, this would refer to the angle between the ground and the face of a surface."""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Time averaged sound intensity"@en ; - dcterms:description "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^rdf:HTML ; + dcterms:description "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^ns1:LatexString, + "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^rdf:HTML ; ns1:abbreviation "w/m2"^^xsd:string ; ns1:applicableUnit , , @@ -19801,6 +23727,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:plainTextDescription "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^xsd:string ; ns1:symbol "I"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19848,6 +23775,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:plainTextDescription "A torsional spring constant is a measure of the stiffness of a torsional spring, which is a type of spring that experiences twisting or torque rather than compression or extension. It is typically measured in newton-meters per radian (N·m/rad) and is used to calculate the amount of torque required to twist a spring a certain amount. It is related to the spring's geometry, material properties, and manufacturing process."^^xsd:string, "Quotient Drehmoment zur elastischen Verformung einer Drehfeder durch den zugehörigen Drehwinkel"@de ; ns1:symbol "0173-1#Z4-BAJ448#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TorsionalSpringConstant"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -19863,12 +23791,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:informativeReference "http://en.wikipedia.org/wiki/Angular_momentum#Spin.2C_orbital.2C_and_total_angular_momentum"^^xsd:anyURI ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:symbol "J"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularMomentum"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Total Cross-section"@en ; - dcterms:description "\"Total Cross-section\" is related to the absorbance of the light intensity through Beer-Lambert's law. It is the sum of all cross-sections corresponding to the various reactions or processes between an incident particle of specified type and energy and a target particle."^^rdf:HTML ; + dcterms:description "\"Total Cross-section\" is related to the absorbance of the light intensity through Beer-Lambert's law. It is the sum of all cross-sections corresponding to the various reactions or processes between an incident particle of specified type and energy and a target particle."^^ns1:LatexString, + "\"Total Cross-section\" is related to the absorbance of the light intensity through Beer-Lambert's law. It is the sum of all cross-sections corresponding to the various reactions or processes between an incident particle of specified type and energy and a target particle."^^rdf:HTML ; ns1:applicableUnit , , , @@ -19894,6 +23824,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Total Cross-section\" is related to the absorbance of the light intensity through Beer-Lambert's law. It is the sum of all cross-sections corresponding to the various reactions or processes between an incident particle of specified type and energy and a target particle."^^xsd:string ; ns1:symbol "σₜ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19965,6 +23896,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:symbol "P_0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -19978,7 +23910,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Touch Thresholds"@en ; - dcterms:description "\"Touch Thresholds\" are thresholds for touch, vibration and other stimuli to the skin."^^rdf:HTML ; + dcterms:description "\"Touch Thresholds\" are thresholds for touch, vibration and other stimuli to the skin."^^ns1:LatexString, + "\"Touch Thresholds\" are thresholds for touch, vibration and other stimuli to the skin."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_t}$"^^ns1:LatexString ; @@ -20003,32 +23936,6 @@ electric current through the source. The name "electromotive force} with the abb ns1:symbol "0173-1#Z4-BAJ400#003"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Transmittance"@en ; - dcterms:description "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Transmittance"^^xsd:anyURI ; - ns1:latexDefinition "$\\tau = \\frac{\\Phi_t}{\\Phi_m}$, where $\\Phi_t$ is the transmitted radiant flux or the transmitted luminous flux, and $\\Phi_m$ is the radiant flux or luminous flux of the incident radiation."^^ns1:LatexString ; - ns1:latexSymbol "$\\tau, T$"^^ns1:LatexString ; - ns1:plainTextDescription "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^xsd:string ; - ns2:todo "belongs to SOQ-ISO"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "True Exhaust Velocity"@en ; ns1:applicableUnit , @@ -20068,6 +23975,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:symbol "u_{e}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20080,11 +23988,29 @@ electric current through the source. The name "electromotive force} with the abb ns1:iec61360Code "0112/2///62720#UAD206"^^xsd:string ; ns1:plainTextDescription "durch ungleichmäßige Masseverteilung bedingter, unruhiger Lauf rotierender Körper, ausgedrückt als Produkt aus dem Radius und einer zugehörigen Masse"@de ; ns1:symbol "0173-1#Z4-BAJ432#001"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Unbalance"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Vapor Permeability"@en ; + dcterms:description "A material's \"permeance\", is dependent on thickness much like the R-value in heat transmission. Dividing the permeability of a material by its thickness gives the material's permeance. Permeance is the number that should be used to compare various products in regard to moisture transmission resistance."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://users.encs.concordia.ca/~raojw/crd/essay/essay000287.html"^^xsd:anyURI, + "https://www.designingbuildings.co.uk/wiki/Vapour_Permeability"^^xsd:anyURI ; + ns1:plainTextDescription "A material's \"permeance\", is dependent on thickness much like the R-value in heat transmission. Dividing the permeability of a material by its thickness gives the material's permeance. Permeance is the number that should be used to compare various products in regard to moisture transmission resistance."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VaporPermeance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Vertical Velocity"@en ; - dcterms:description "The rate at which a body moves upwards at an angle of 90 degrees to the ground. It is the component of a projectile's velocity which is concerned with lifting the projectile."^^rdf:HTML ; + dcterms:description "The rate at which a body moves upwards at an angle of 90 degrees to the ground. It is the component of a projectile's velocity which is concerned with lifting the projectile."^^ns1:LatexString, + "The rate at which a body moves upwards at an angle of 90 degrees to the ground. It is the component of a projectile's velocity which is concerned with lifting the projectile."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20123,12 +24049,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:plainTextDescription "The rate at which a body moves upwards at an angle of 90 degrees to the ground. It is the component of a projectile's velocity which is concerned with lifting the projectile."^^xsd:string ; ns1:symbol "V_{Z}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Visible Radiant Energy"@en ; - dcterms:description "\"Visible Radiant Energy\", also known as luminous energy, is the energy of electromagnetic waves. It is energy of the particles that are emitted, transferred, or received as radiation."^^rdf:HTML ; + dcterms:description "\"Visible Radiant Energy\", also known as luminous energy, is the energy of electromagnetic waves. It is energy of the particles that are emitted, transferred, or received as radiation."^^ns1:LatexString, + "\"Visible Radiant Energy\", also known as luminous energy, is the energy of electromagnetic waves. It is energy of the particles that are emitted, transferred, or received as radiation."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20184,13 +24112,15 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexDefinition "Q"^^ns1:LatexString ; ns1:plainTextDescription "\"Visible Radiant Energy\", also known as luminous energy, is the energy of electromagnetic waves. It is energy of the particles that are emitted, transferred, or received as radiation."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Vision Thresholds"@en ; - dcterms:description "\"Vision Thresholds\" is an abstract term to refer to a variety of measures for the thresholds of sensitivity of the eye."^^rdf:HTML ; + dcterms:description "\"Vision Thresholds\" is an abstract term to refer to a variety of measures for the thresholds of sensitivity of the eye."^^ns1:LatexString, + "\"Vision Thresholds\" is an abstract term to refer to a variety of measures for the thresholds of sensitivity of the eye."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Absolute_threshold#Vision"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; @@ -20211,8 +24141,37 @@ electric current through the source. The name "electromotive force} with the abb ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD183"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VolumeFlowRate_SurfaceRelated"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Volume Flow Ratio"@en ; + dcterms:description """Volume flow ratio is commonly used in fluid dynamics and engineering, + referring to the ratio of the flow rates of two or more fluid streams within a system. In HVAC systems, + the flow ratio could compare the amount of fresh air introduced to the amount of recirculated air."""^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription """Volume flow ratio is commonly used in fluid dynamics and engineering, + referring to the ratio of the flow rates of two or more fluid streams within a system. In HVAC systems, + the flow ratio could compare the amount of fresh air introduced to the amount of recirculated air."""^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "volume or section modulus"@en-us ; dcterms:description "domain completely enclosed by a surface, which can be determined for Cartesian coordinates by integration according to the following equation: V = ∫∫∫ dx dy dz or for a homogeneous material, it is the ratio of the moment of inertia and the distance to any point on the neutral axis at which the stress is to be calculated"@en ; @@ -20243,6 +24202,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:latexDefinition "$\\vartheta = \\frac{\\Delta V}{V_0}$, where $\\Delta V$ is the increase in volume and $V_0$ is the volume in a reference state to be specified."^^ns1:LatexString ; ns1:latexSymbol "$\\vartheta$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20257,6 +24217,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD241"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VolumetricBitDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -20305,7 +24266,8 @@ electric current through the source. The name "electromotive force} with the abb a ns1:QuantityKind ; rdfs:label "Vorticity"@en ; - dcterms:description "In the simplest sense, vorticity is the tendency for elements of a fluid to \"spin.\" More formally, vorticity can be related to the amount of \"circulation\" or \"rotation\" (or more strictly, the local angular rate of rotation) in a fluid. The average vorticity in a small region of fluid flow is equal to the circulation C around the boundary of the small region, divided by the area A of the small region. Mathematically, vorticity is a vector field and is defined as the curl of the velocity field."^^rdf:HTML ; + dcterms:description "In the simplest sense, vorticity is the tendency for elements of a fluid to \"spin.\" More formally, vorticity can be related to the amount of \"circulation\" or \"rotation\" (or more strictly, the local angular rate of rotation) in a fluid. The average vorticity in a small region of fluid flow is equal to the circulation C around the boundary of the small region, divided by the area A of the small region. Mathematically, vorticity is a vector field and is defined as the curl of the velocity field."^^ns1:LatexString, + "In the simplest sense, vorticity is the tendency for elements of a fluid to \"spin.\" More formally, vorticity can be related to the amount of \"circulation\" or \"rotation\" (or more strictly, the local angular rate of rotation) in a fluid. The average vorticity in a small region of fluid flow is equal to the circulation C around the boundary of the small region, divided by the area A of the small region. Mathematically, vorticity is a vector field and is defined as the curl of the velocity field."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20319,12 +24281,14 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:latexSymbol "$\\omega$"^^ns1:LatexString ; ns1:plainTextDescription "In the simplest sense, vorticity is the tendency for elements of a fluid to \"spin.\" More formally, vorticity can be related to the amount of \"circulation\" or \"rotation\" (or more strictly, the local angular rate of rotation) in a fluid. The average vorticity in a small region of fluid flow is equal to the circulation C around the boundary of the small region, divided by the area A of the small region. Mathematically, vorticity is a vector field and is defined as the curl of the velocity field."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularVelocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Warm Receptor Threshold"@en ; - dcterms:description "\"Warm Receptor Threshold\" is the threshold of warm-sensitive free nerve-ending."^^rdf:HTML ; + dcterms:description "\"Warm Receptor Threshold\" is the threshold of warm-sensitive free nerve-ending."^^ns1:LatexString, + "\"Warm Receptor Threshold\" is the threshold of warm-sensitive free nerve-ending."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:latexSymbol "$\\overline{T_w}$"^^ns1:LatexString ; @@ -20401,6 +24365,7 @@ electric current through the source. The name "electromotive force} with the abb ; ns1:hasDimensionVector ; ns1:informativeReference "https://www.uaex.edu/environment-nature/water/docs/IrrigSmart-3241-A-Understanding-water-horsepower.pdf"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20411,6 +24376,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:hasDimensionVector ; ns1:informativeReference "https://www.wufi-wiki.com/mediawiki/index.php/Details:WaterVaporDiffusion"^^xsd:anyURI ; ns1:plainTextDescription "The Water vapour diffusion coefficient describes how easy vapor diffusion happens in a given material."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:WaterVaporDiffusionCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -20423,6 +24389,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:iec61360Code "0112/2///62720#UAD244"^^xsd:string ; ns1:plainTextDescription "Masse des durch eine Fläche hindurchtretenden Wasserdampfes, dividiert durch den Flächeninhalt dieser Fläche, die Druckdifferenz und die dazugehörige Zeit"@de ; ns1:symbol "0173-1#Z4-BAJ446#001"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:WaterVapourPermeability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -20483,6 +24450,7 @@ electric current through the source. The name "electromotive force} with the abb ns1:latexDefinition "$\\lambda = \\frac{c}{\\nu}$, where $\\lambda$ is the wave length, $\\nu$ is the frequency, and $c$ is the speed of light in the medium."^^ns1:LatexString ; ns1:symbol "λ"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20503,7 +24471,8 @@ electric current through the source. The name "electromotive force} with the abb "valovno število"@sl, "dalga sayısı"@tr, "波数"@zh ; - dcterms:description "\"Wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector. Light passing through different media keeps its frequency, but not its wavelength or wavenumber. The unit for wavenumber commonly used in spectroscopy is centimetre to power minus one, PER-CM, rather than metre to power minus one, PER-M."^^rdf:HTML ; + dcterms:description "\"Wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector. Light passing through different media keeps its frequency, but not its wavelength or wavenumber. The unit for wavenumber commonly used in spectroscopy is centimetre to power minus one, PER-CM, rather than metre to power minus one, PER-M."^^ns1:LatexString, + "\"Wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector. Light passing through different media keeps its frequency, but not its wavelength or wavenumber. The unit for wavenumber commonly used in spectroscopy is centimetre to power minus one, PER-CM, rather than metre to power minus one, PER-M."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20526,6 +24495,7 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; ns1:plainTextDescription "\"Wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector. Light passing through different media keeps its frequency, but not its wavelength or wavenumber. The unit for wavenumber commonly used in spectroscopy is centimetre to power minus one, PER-CM, rather than metre to power minus one, PER-M."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:InverseLength"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:altLabel "Wellenzahl"@de ; @@ -20575,7 +24545,8 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega , ; ns1:hasDimensionVector ; - rdfs:comment "Web Time"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string, + "Web Time"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20645,6 +24616,7 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20674,7 +24646,8 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega , ; ns1:hasDimensionVector ; - rdfs:comment "Web Time Avg Thrust (Mlbf)"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string, + "Web Time Avg Thrust (Mlbf)"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20695,7 +24668,8 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega "Вес"@ru, "Ağırlık"@tr, "重量"@zh ; - dcterms:description "The force with which a body is attracted toward an astronomical body. Or, the product of the mass of a body and the acceleration acting on a body. In a dynamic situation, the weight can be a multiple of that under resting conditions. Weight also varies on other planets in accordance with their gravity."^^rdf:HTML ; + dcterms:description "The force with which a body is attracted toward an astronomical body. Or, the product of the mass of a body and the acceleration acting on a body. In a dynamic situation, the weight can be a multiple of that under resting conditions. Weight also varies on other planets in accordance with their gravity."^^ns1:LatexString, + "The force with which a body is attracted toward an astronomical body. Or, the product of the mass of a body and the acceleration acting on a body. In a dynamic situation, the weight can be a multiple of that under resting conditions. Weight also varies on other planets in accordance with their gravity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20724,12 +24698,14 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega ns1:informativeReference "http://en.wikipedia.org/wiki/Weight"^^xsd:anyURI ; ns1:plainTextDescription "The force with which a body is attracted toward an astronomical body. Or, the product of the mass of a body and the acceleration acting on a body. In a dynamic situation, the weight can be a multiple of that under resting conditions. Weight also varies on other planets in accordance with their gravity."^^xsd:string ; ns1:symbol "bold letter W"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Width"@en ; - dcterms:description "\"Width\" is the middle of three dimensions: length, width, thickness."^^rdf:HTML ; + dcterms:description "\"Width\" is the middle of three dimensions: length, width, thickness."^^ns1:LatexString, + "\"Width\" is the middle of three dimensions: length, width, thickness."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20771,12 +24747,14 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Width\" is the middle of three dimensions: length, width, thickness."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Work Function"@en ; - dcterms:description "\"Work Function\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The minimum energy (usually measured in electronvolts) needed to remove an electron from a solid to a point immediately outside the solid surface (or energy needed to move an electron from the Fermi level into vacuum)."^^rdf:HTML ; + dcterms:description "\"Work Function\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The minimum energy (usually measured in electronvolts) needed to remove an electron from a solid to a point immediately outside the solid surface (or energy needed to move an electron from the Fermi level into vacuum)."^^ns1:LatexString, + "\"Work Function\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The minimum energy (usually measured in electronvolts) needed to remove an electron from a solid to a point immediately outside the solid surface (or energy needed to move an electron from the Fermi level into vacuum)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -20831,6 +24809,7 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\Phi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Work Function\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The minimum energy (usually measured in electronvolts) needed to remove an electron from a solid to a point immediately outside the solid surface (or energy needed to move an electron from the Fermi level into vacuum)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -20913,6 +24892,24 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega "[Btu_IT]/(mol.[degF])"^^ns1:UCUMcs ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Square Coulomb Metre per Joule"@en, + "Square Coulomb Meter per Joule"@en-us ; + dcterms:description "\"Square Coulomb Meter per Joule\" is a unit for 'Polarizability' expressed as \\(C^{2} m^{2} J^{-1}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(C^{2} m^{2} J^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "C²⋅m²/J"^^xsd:string ; + ns1:ucumCode "C2.m.J-1"^^ns1:UCUMcs, + "C2.m/J"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "calorie (thermochemical) per gram (calTH/g)"@en ; dcterms:description "\\(Thermochemical Calorie. Calories produced per gram of substance.\\)"^^ns1:LatexString ; @@ -20964,7 +24961,8 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega rdfs:label "Deaths per Million individuals per year"@en ; dcterms:description "The expression of mortality rate, expressed as deaths per 1,000,000 individuals, per year."^^rdf:HTML ; dcterms:isReplacedBy ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:deprecated true ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -21099,8 +25097,10 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega a ns1:Unit ; rdfs:label "Microgram per square centimetre"@en ; dcterms:description "A unit of mass per area, equivalent to 0.01 grammes per square metre"^^rdf:HTML ; - ns1:conversionMultiplier 0.01 ; - ns1:conversionOffset 0.0 ; + ns1:conversionMultiplier 0.01, + 1e-02 ; + ns1:conversionOffset 0.0, + 0e+00 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "A unit of mass per area, equivalent to 0.01 grammes per square metre"^^xsd:string ; @@ -21124,7 +25124,8 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega a ns1:Unit ; rdfs:label "Reciprocal Mille Per Psi"@en ; dcterms:description "thousandth divided by the composed unit for pressure (pound-force per square inch)"^^rdf:HTML ; - ns1:conversionMultiplier 1.450377e-07 ; + ns1:conversionMultiplier 0.0000001450377, + 1.450377e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -21155,15 +25156,17 @@ $k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega rdfs:label "superseded by"^^xsd:string ; rdfs:isDefinedBy . -ns4:dateUnion a rdfs:Datatype ; +ns3:dateUnion a rdfs:Datatype ; rdfs:label "date union"^^xsd:string ; dcterms:description "A datatype that is the union of date datatypes."^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf rdfs:Resource ; owl:equivalentClass [ a owl:Class ; + owl:unionOf ( xsd:date xsd:dateTime xsd:gYear xsd:gMonth xsd:gMonthDay xsd:gYearMonth xsd:gDay ) ], + [ a owl:Class ; owl:unionOf ( xsd:date xsd:dateTime xsd:gYear xsd:gMonth xsd:gMonthDay xsd:gYearMonth xsd:gDay ) ] . -ns4:defaultValue a owl:DatatypeProperty ; +ns3:defaultValue a owl:DatatypeProperty ; rdfs:label "default value"^^xsd:string ; dcterms:description """ The property "dtype:defaultValue" is a general property for specifying a literal value in situations where @@ -21171,13 +25174,13 @@ none is specified. """^^xsd:string ; rdfs:isDefinedBy . -ns4:isInvalid a owl:DatatypeProperty ; +ns3:isInvalid a owl:DatatypeProperty ; rdfs:label "is invalid"^^xsd:string ; dcterms:description "A boolean flag to state that a value is invalid with respect to its type."^^xsd:string ; rdfs:isDefinedBy ; rdfs:range xsd:boolean . -ns4:numericUnion a rdfs:Datatype ; +ns3:numericUnion a rdfs:Datatype ; rdfs:label "numeric union"^^xsd:string ; dcterms:description """ A datatype that is the union of numeric xsd data types. @@ -21187,9 +25190,11 @@ memberTypes="xsd:decimal xsd:double xsd:float xsd:integer". rdfs:isDefinedBy ; rdfs:subClassOf rdfs:Resource ; owl:equivalentClass [ a rdfs:Datatype ; + owl:unionOf ( xsd:float xsd:decimal xsd:integer xsd:double ) ], + [ a rdfs:Datatype ; owl:unionOf ( xsd:float xsd:decimal xsd:integer xsd:double ) ] . -ns4:type a owl:ObjectProperty ; +ns3:type a owl:ObjectProperty ; rdfs:label "datatype"^^xsd:string ; rdfs:isDefinedBy . @@ -21426,6 +25431,8 @@ skos:member a rdf:Property, rdfs:domain skos:Collection ; rdfs:isDefinedBy ; rdfs:range [ a owl:Class ; + owl:unionOf ( skos:Concept skos:Collection ) ], + [ a owl:Class ; owl:unionOf ( skos:Concept skos:Collection ) ] ; skos:definition "Relates a collection to one of its members."@en . @@ -22097,39 +26104,6 @@ sh:zeroOrOnePath a rdf:Property ; rdfs:isDefinedBy sh: ; rdfs:range rdfs:Resource . - a rdf:Property ; - rdfs:label "Device Identifier"^^xsd:string ; - rdfs:comment "The Object_Identifier property of the device object within the BACnet device. See ASHRAE 135-2020 Clause 12.11.1."^^xsd:string . - - a rdf:Property ; - rdfs:label "Device Name"^^xsd:string ; - rdfs:comment "The name of the BACnet device being referenced, more formally the Object_Name property of the device object within the BACnet device. See ASHRAE 135-2020 Clause 12.11.2."^^xsd:string . - - a rdf:Property ; - rdfs:label "object-identifier"^^xsd:string ; - rdfs:comment "The Object_Identifier property of the object being referenced. For example, for the object identifier of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.1."^^xsd:string . - - a rdf:Property ; - rdfs:label "Object Name"^^xsd:string ; - rdfs:comment "The Object_Name property of the object being referenced. For example, for the object name of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.2."^^xsd:string . - - a rdf:Property ; - rdfs:label "Priority for Writing"^^xsd:string ; - rdfs:comment """This parameter shall be an integer in the range 1..16, which indicates the priority assigned to the WriteProperty service. If an attempt -is made to write to a commandable property without specifying the bacnet:priority-for-writing, a default priority of 16 (the lowest priority) shall -be assumed. If an attempt is made to write to a property that is not commandable with a specified priority, the priority shall be -ignored. See ASHRAE 135-2020 Clause 15.9.1.1.5."""^^xsd:string . - - a rdf:Property ; - rdfs:label "Property Array Index"^^xsd:string ; - rdfs:comment """If the property identified is of datatype array, this optional property of type Unsigned shall indicate the array index of -the element of the property referenced by the ReadProperty service or the Read Access Specification of the ReadPropertyMultiple service. If the bacnet:property-array-index is omitted, this shall mean that the entire -array shall be referenced. See ASHRAE 135-2020 Clause 15.5.1.1.3 and Clause 15.7.1.1.1."""^^xsd:string . - - a rdf:Property ; - rdfs:label "Property Identifier"^^xsd:string ; - rdfs:comment "The Object_Identifier property of the object being referenced. For example, for the object identifier of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.1."^^xsd:string . - s223:12V-12V-Neg a s223:12V-12V-Neg, s223:Class, sh:NodeShape ; @@ -23164,37 +27138,63 @@ s223:AirHeatExchanger a s223:Class, AirHeatExchanger class does not represent the physical characteristics of a heat exchanger design. It represents only the heat transfer functionality."""^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; - sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:property [ rdfs:comment "An AirHeatExchanger shall have at least two air inlets, each paired with an outlet."^^xsd:string ; + sh:message "s223: An AirHeatExchanger shall have at least two air inlets, each paired with an outlet."^^xsd:string ; sh:path s223:hasConnectionPoint ; - sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; - sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; - sh:qualifiedMaxCount 0 ] ], + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:OutletConnectionPoint ; + sh:minCount 1 ; + sh:path s223:pairedConnectionPoint ], + [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An AirHeatExchanger shall have at least two air outlets, each paired with an inlet."^^xsd:string ; + sh:message "s223: An AirHeatExchanger shall have at least two air outlets, each paired with an inlet."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:InletConnectionPoint ; + sh:minCount 1 ; + sh:path s223:pairedConnectionPoint ], + [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "An AirHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; sh:message "s223: An AirHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; sh:path s223:hasRole ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:Role-HeatTransfer ] ], + [ rdfs:comment "An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:qualifiedMaxCount 0 ] ], + [ rdfs:comment "An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: An AirHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:qualifiedMaxCount 0 ] ], [ rdfs:comment "An AirHeatExchanger shall have at least two air inlets, each paired with an outlet."^^xsd:string ; sh:message "s223: An AirHeatExchanger shall have at least two air inlets, each paired with an outlet."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ], + [ sh:class s223:OutletConnectionPoint ; sh:minCount 1 ; - sh:path s223:pairedConnectionPoint ], - [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], + sh:path s223:pairedConnectionPoint ] ] ] ], [ rdfs:comment "An AirHeatExchanger shall have at least two air outlets, each paired with an inlet."^^xsd:string ; sh:message "s223: An AirHeatExchanger shall have at least two air outlets, each paired with an inlet."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ], - [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:InletConnectionPoint ; sh:minCount 1 ; - sh:path s223:pairedConnectionPoint ] ] ] ] . + sh:path s223:pairedConnectionPoint ], + [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . s223:Aspect-Alarm a s223:Aspect-Alarm, s223:Class, @@ -23217,6 +27217,13 @@ s223:Aspect-Command a s223:Aspect-Command, rdfs:comment "Aspect-Command"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Aspect . +s223:Aspect-Date a s223:Aspect-Date, + s223:Class, + sh:NodeShape ; + rdfs:label "Day of Week"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of Monday, Tuesday, Wednesday, Thursday, Friday, Saturday and Sunday. The Weekend and Weekday EnumerationKinds define subsets of this EnumerationKind for Mon-Fri and Sat,Sun, respectively"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + s223:Aspect-Deadband a s223:Aspect-Deadband, s223:Class, sh:NodeShape ; @@ -23329,6 +27336,20 @@ s223:Aspect-NominalFrequency a s223:Aspect-NominalFrequency, rdfs:comment "The value of the associated Property identifies the nominal frequency of the medium"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Aspect . +s223:Aspect-OperatingMode a s223:Aspect-OperatingMode, + s223:Class, + sh:NodeShape ; + rdfs:label "Aspect-OperatingMode"^^xsd:string ; + rdfs:comment "The value of the associated Property identifies the mode of operation."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + +s223:Aspect-OperatingStatus a s223:Aspect-OperatingStatus, + s223:Class, + sh:NodeShape ; + rdfs:label "Aspect-OperatingStatus"^^xsd:string ; + rdfs:comment "The value of the associated Property identifies the status of operation."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + s223:Aspect-PhaseAngle a s223:Aspect-PhaseAngle, s223:Class, sh:NodeShape ; @@ -23378,6 +27399,13 @@ s223:Aspect-Setpoint a s223:Aspect-Setpoint, rdfs:comment "Aspect-Setpoint"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Aspect . +s223:Aspect-Speed a s223:Aspect-Speed, + s223:Class, + sh:NodeShape ; + rdfs:label "Speed"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of speed settings of High, Medium, Low (plus Off)."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + s223:Aspect-StandardConditions a s223:Aspect-StandardConditions, s223:Class, sh:NodeShape ; @@ -23459,7 +27487,15 @@ s223:ChilledBeam a s223:Class, rdfs:label "Chilled beam"^^xsd:string ; rdfs:comment "A structure with a colder surface temperature where air passes through, and air movement is induced in the room to achieve cooling. Cooling medium is generally water."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A ChilledBeam shall have at least one inlet using the medium Water."^^xsd:string ; + sh:property [ rdfs:comment "A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:message "s223: A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A ChilledBeam shall have at least one inlet using the medium Water."^^xsd:string ; sh:message "s223: A ChilledBeam shall have at least one inlet using the medium Water."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; @@ -23467,6 +27503,28 @@ s223:ChilledBeam a s223:Class, sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A ChilledBeam shall have at least one inlet using the medium Water."^^xsd:string ; + sh:message "s223: A ChilledBeam shall have at least one inlet using the medium Water."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:message "s223: A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A ChilledBeam must be associated with the Role-Cooling using the relation hasRole"^^xsd:string ; + sh:message "s223: A ChilledBeam must be associated with the Role-Cooling using the relation hasRole"^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-Cooling ] ], [ rdfs:comment "A ChilledBeam must be associated with the Role-Cooling using the relation hasRole"^^xsd:string ; sh:message "s223: A ChilledBeam must be associated with the Role-Cooling using the relation hasRole"^^xsd:string ; sh:minCount 1 ; @@ -23481,15 +27539,20 @@ s223:ChilledBeam a s223:Class, sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; - sh:message "s223: A ChilledBeam shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + [ rdfs:comment "A ChilledBeam shall have at least one outlet using the medium Water."^^xsd:string ; + sh:message "s223: A ChilledBeam shall have at least one outlet using the medium Water."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Water ; sh:path s223:hasMedium ] ] ] ] ; sh:rule [ a sh:TripleRule ; + rdfs:comment "A Chilled Beam will always have the role Role-Cooling"^^xsd:string ; + sh:object s223:Role-Cooling ; + sh:predicate s223:hasRole ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "A Chilled Beam will always have the role Role-Cooling"^^xsd:string ; sh:object s223:Role-Cooling ; sh:predicate s223:hasRole ; @@ -23545,6 +27608,13 @@ s223:Domain-Fire a s223:Class, rdfs:comment "The domain Fire represents equipment used to provide fire detection and protection within a building. Example equipment that might be fall within a Fire domain include smoke detectors, alarm annunciators, and emergency public address systems. "^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Domain . +s223:Domain-FireProtection a s223:Class, + s223:Domain-FireProtection, + sh:NodeShape ; + rdfs:label "Domain-Fire"^^xsd:string ; + rdfs:comment "The domain FireProtection represents equipment used to provide fire detection and protection within a building. Example equipment that might be fall within a Fire domain include smoke detectors, alarm annunciators, and emergency public address systems. "^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Domain . + s223:Domain-Lighting a s223:Class, s223:Domain-Lighting, sh:NodeShape ; @@ -23613,49 +27683,56 @@ s223:ElectricalPhaseIdentifier-A a s223:Class, sh:NodeShape ; rdfs:label "Electrical Phase Identifier A"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase A of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-AB a s223:Class, s223:ElectricalPhaseIdentifier-AB, sh:NodeShape ; rdfs:label "Electrical Phase Identifier AB"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase AB of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-ABC a s223:Class, s223:ElectricalPhaseIdentifier-ABC, sh:NodeShape ; rdfs:label "Electrical Phase Identifier ABC"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase ABC of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-B a s223:Class, s223:ElectricalPhaseIdentifier-B, sh:NodeShape ; rdfs:label "Electrical Phase Identifier B"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase B of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-BC a s223:Class, s223:ElectricalPhaseIdentifier-BC, sh:NodeShape ; rdfs:label "Electrical Phase Identifier BC"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase BC of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-C a s223:Class, s223:ElectricalPhaseIdentifier-C, sh:NodeShape ; rdfs:label "Electrical Phase Identifier C"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase C of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalPhaseIdentifier-CA a s223:Class, s223:ElectricalPhaseIdentifier-CA, sh:NodeShape ; rdfs:label "Electrical Phase Identifier CA"^^xsd:string ; rdfs:comment "The value of the associated Property identifies the electrical phase CA of the Connection."^^xsd:string ; - rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier . + rdfs:subClassOf s223:Aspect-ElectricalPhaseIdentifier, + s223:EnumerationKind-ElectricalPhaseIdentifier . s223:ElectricalVoltagePhases-ABLineLineVoltage a s223:Class, s223:ElectricalVoltagePhases-ABLineLineVoltage, @@ -23718,12 +27795,12 @@ s223:EthernetSwitch a s223:Class, rdfs:label "Ethernet switch"^^xsd:string ; rdfs:comment "A type of network hardware that connects cabled devices, such as computers and Wi-Fi access points, in an Ethernet LAN so they can communicate with each other and to the internet."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; - sh:message "s223: An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; + sh:property [ rdfs:comment "An EthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An EthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 2 ; - sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Signal-Ethernet ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "An EthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; sh:message "s223: An EthernetSwitch shall have at least one inlet using the medium Electricity."^^xsd:string ; @@ -23731,6 +27808,20 @@ s223:EthernetSwitch a s223:Class, sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; + sh:message "s223: An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Signal-Ethernet ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; + sh:message "s223: An EthernetSwitch shall have at least two BidirectionalConnectionPoints using the medium Signal-Ethernet."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Signal-Ethernet ; sh:path s223:hasMedium ] ] ] ] . s223:Gas-SuperHeated a s223:Class, @@ -23738,7 +27829,8 @@ s223:Gas-SuperHeated a s223:Class, sh:NodeShape ; rdfs:label "Gas-Super heated"^^xsd:string ; rdfs:comment "Gas-Super heated"^^xsd:string ; - rdfs:subClassOf s223:Phase-Gas . + rdfs:subClassOf s223:Phase-Gas, + s223:ThermodynamicPhase-Gas . s223:GlycolSolution-15Percent a s223:Class, s223:GlycolSolution-15Percent, @@ -23755,8 +27847,23 @@ s223:GlycolSolution-15Percent a s223:Class, s223:hasValue 85.0 ; s223:ofConstituent s223:Constituent-H2O ; ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:hasValue 85.0 ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Glycol conc"^^xsd:string ; + s223:hasValue 15.0 ; + s223:ofConstituent s223:Constituent-Glycol ; + ns1:hasQuantityKind ; ns1:hasUnit ] ; s223:hasFreezingPoint [ a s223:QuantifiableProperty ; + rdfs:label "Freezing point"^^xsd:string ; + ns1:hasQuantityKind ], + [ a s223:QuantifiableProperty ; rdfs:label "Freezing point"^^xsd:string ; ns1:hasQuantityKind ] ; rdfs:comment "GlycolSolution-15Percent"^^xsd:string ; @@ -23777,8 +27884,23 @@ s223:GlycolSolution-30Percent a s223:Class, s223:hasValue 30.0 ; s223:ofConstituent s223:Constituent-Glycol ; ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Glycol conc"^^xsd:string ; + s223:hasValue 30.0 ; + s223:ofConstituent s223:Constituent-Glycol ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:hasValue 70.0 ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; ns1:hasUnit ] ; s223:hasFreezingPoint [ a s223:QuantifiableProperty ; + rdfs:label "Freezing point"^^xsd:string ; + ns1:hasQuantityKind ], + [ a s223:QuantifiableProperty ; rdfs:label "Freezing point"^^xsd:string ; ns1:hasQuantityKind ] ; rdfs:comment "GlycolSolution-30Percent"^^xsd:string ; @@ -23866,26 +27988,37 @@ s223:HydronicHeatExchanger a s223:Class, sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ], + [ sh:class s223:OutletConnectionPoint ; sh:minCount 1 ; - sh:path s223:pairedConnectionPoint ], - [ sh:class s223:Mix-Fluid ; - sh:path s223:hasMedium ] ] ] ], + sh:path s223:pairedConnectionPoint ] ] ] ], + [ rdfs:comment "A HydronicHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:message "s223: A HydronicHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: A HydronicHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; + sh:qualifiedMaxCount 0 ] ], [ rdfs:comment "A HydronicHeatExchanger shall have at least two liquid outlets, each paired with an inlet."^^xsd:string ; sh:message "s223: A HydronicHeatExchanger shall have at least two liquid outlets, each paired with an inlet."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 2 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:InletConnectionPoint ; + sh:minCount 1 ; + sh:path s223:pairedConnectionPoint ], + [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A HydronicHeatExchanger shall have at least two liquid inlets, each paired with an outlet."^^xsd:string ; + sh:message "s223: A HydronicHeatExchanger shall have at least two liquid inlets, each paired with an outlet."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Mix-Fluid ; sh:path s223:hasMedium ], - [ sh:class s223:InletConnectionPoint ; + [ sh:class s223:OutletConnectionPoint ; sh:minCount 1 ; sh:path s223:pairedConnectionPoint ] ] ] ], - [ rdfs:comment "A HydronicHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; - sh:message "s223: A HydronicHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; - sh:path s223:hasRole ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Role-HeatTransfer ] ], [ rdfs:comment "A HydronicHeatExchanger shall have no ConnectionPoints using the medium Air."^^xsd:string ; sh:class s223:ConnectionPoint ; sh:message "s223: A HydronicHeatExchanger shall have no ConnectionPoints using the medium Air."^^xsd:string ; @@ -23898,7 +28031,29 @@ s223:HydronicHeatExchanger a s223:Class, sh:path s223:hasConnectionPoint ; sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; sh:message "s223: A HydronicHeatExchanger shall have no BidirectionalConnectionPoints."^^xsd:string ; - sh:qualifiedMaxCount 0 ] ] . + sh:qualifiedMaxCount 0 ] ], + [ rdfs:comment "A HydronicHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; + sh:message "s223: A HydronicHeatExchanger shall have a role of Role-HeatTransfer."^^xsd:string ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-HeatTransfer ] ], + [ rdfs:comment "A HydronicHeatExchanger shall have at least two liquid outlets, each paired with an inlet."^^xsd:string ; + sh:message "s223: A HydronicHeatExchanger shall have at least two liquid outlets, each paired with an inlet."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:InletConnectionPoint ; + sh:minCount 1 ; + sh:path s223:pairedConnectionPoint ], + [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A HydronicHeatExchanger shall have no ConnectionPoints using the medium Air."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A HydronicHeatExchanger shall have no ConnectionPoints using the medium Air."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 0 ; + sh:qualifiedValueShape [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] . s223:Light-Ultraviolet a s223:Class, s223:Light-Ultraviolet, @@ -23919,7 +28074,22 @@ s223:Liquid-SubCooled a s223:Class, sh:NodeShape ; rdfs:label "Liquid-Sub cooled"^^xsd:string ; rdfs:comment "Liquid-Sub cooled"^^xsd:string ; - rdfs:subClassOf s223:Phase-Liquid . + rdfs:subClassOf s223:Phase-Liquid, + s223:ThermodynamicPhase-Liquid . + +s223:Logical-False a s223:Class, + s223:Logical-False, + sh:NodeShape ; + rdfs:label "Logical False"^^xsd:string ; + rdfs:comment "Logical False"^^xsd:string ; + rdfs:subClassOf s223:Binary-Logical . + +s223:Logical-True a s223:Class, + s223:Logical-True, + sh:NodeShape ; + rdfs:label "Logical True"^^xsd:string ; + rdfs:comment "Logical True"^^xsd:string ; + rdfs:subClassOf s223:Binary-Logical . s223:Modulated-0-10V a s223:Class, s223:Modulated-0-10V, @@ -23975,14 +28145,16 @@ s223:OnOff-Off a s223:Class, sh:NodeShape ; rdfs:label "Off"^^xsd:string ; rdfs:comment "Off"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-OnOff . + rdfs:subClassOf s223:Binary-OnOff, + s223:EnumerationKind-OnOff . s223:OnOff-On a s223:Class, s223:OnOff-On, sh:NodeShape ; rdfs:label "On"^^xsd:string ; rdfs:comment "On"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-OnOff . + rdfs:subClassOf s223:Binary-OnOff, + s223:EnumerationKind-OnOff . s223:OnOff-Unknown a s223:Class, s223:OnOff-Unknown, @@ -24031,14 +28203,16 @@ s223:Position-Closed a s223:Class, sh:NodeShape ; rdfs:label "Closed"^^xsd:string ; rdfs:comment "Closed"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Position . + rdfs:subClassOf s223:Binary-Position, + s223:EnumerationKind-Position . s223:Position-Open a s223:Class, s223:Position-Open, sh:NodeShape ; rdfs:label "Open"^^xsd:string ; rdfs:comment "Open"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Position . + rdfs:subClassOf s223:Binary-Position, + s223:EnumerationKind-Position . s223:Position-Unknown a s223:Class, s223:Position-Unknown, @@ -24120,6 +28294,13 @@ s223:Role-Condenser a s223:Class, rdfs:comment "Role-Condenser"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Role . +s223:Role-Dehumidifying a s223:Class, + s223:Role-Dehumidifying, + sh:NodeShape ; + rdfs:label "Role-Dehumidifying"^^xsd:string ; + rdfs:comment "Role-Dehumidifying"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Role . + s223:Role-Discharge a s223:Class, s223:Role-Discharge, sh:NodeShape ; @@ -24198,6 +28379,23 @@ WHERE { ?outdoorAir s223:hasDomain s223:Domain-HVAC . FILTER NOT EXISTS {?entity s223:connectedFrom ?outdoorAir} . } +"""^^xsd:string ] ], + [ rdfs:comment "Role-OutdoorAirIntake should only be associated with a Connectable directly connecting to Outdoor Air, or properties of this Connectable."^^xsd:string ; + sh:path s223:hasMedium ; + sh:severity sh:Warning ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that Role-OutdoorAirIntake is associated with a Connectable directly connecting to Outdoor Air, or properties of this Connectable."^^xsd:string ; + sh:message "{?this} is associated with {$entity}, which does not directly connect to outdoor air."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?entity +WHERE { +?entity (s223:hasRole | (s223:hasProperty/s223:hasAspect)) $this . +?outdoorSpace a/rdfs:subClassOf* s223:OutdoorPhysicalSpace . +?outdoorSpace s223:encloses ?outdoorAir . +?outdoorAir s223:hasDomain s223:Domain-HVAC . +FILTER NOT EXISTS {?entity s223:connectedFrom ?outdoorAir} . +} """^^xsd:string ] ] . s223:Role-Primary a s223:Class, @@ -24242,6 +28440,13 @@ s223:Role-Supply a s223:Class, rdfs:comment "Role-Supply"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Role . +s223:Role-Ventilating a s223:Class, + s223:Role-Ventilating, + sh:NodeShape ; + rdfs:label "Role-Ventilating"^^xsd:string ; + rdfs:comment "Role-Ventilating"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Role . + s223:RunStatus-Off a s223:Class, s223:RunStatus-Off, sh:NodeShape ; @@ -24319,54 +28524,30 @@ s223:Substance-Soot a s223:Class, rdfs:comment "Substance-Soot"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Substance . -s223:System a s223:Class, +s223:ThermodynamicPhase-Solid a s223:Class, + s223:ThermodynamicPhase-Solid, sh:NodeShape ; - rdfs:label "System"^^xsd:string ; - rdfs:comment "A System is a logical grouping of one or more Equipment or other Systems for some functional purpose."^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; - sh:class s223:EnumerationKind-Role ; - sh:message "s223: If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; - sh:path s223:hasRole ], - [ a sh:PropertyShape ; - rdfs:comment "A System should be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; - sh:message "s223: A System must be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; - sh:minCount 1 ; - sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:System ] ) ; - sh:path s223:hasMember ; - sh:severity sh:Warning ], - [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; - sh:path s223:hasBoundaryConnectionPoint ], - [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; - sh:path s223:hasOptionalConnectionPoint ] ; - sh:rule [ a sh:TripleRule ; - rdfs:comment "Infer the hasBoundaryConnectionPoint relation using hasOptionalConnectionPoint."^^xsd:string ; - sh:name "InferredSystemToBoundaryConnectionPointFromOptional"^^xsd:string ; - sh:object [ sh:path s223:hasOptionalConnectionPoint ] ; - sh:predicate s223:hasBoundaryConnectionPoint ; - sh:subject sh:this ] ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Ensure that the Boundary CPs of a System belong to only members of that System"^^xsd:string ; - sh:message "s223: System {$this} hasBoundaryConnectionPoint {?cp}, belonging to {?con} that is not a member of {?this}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp ?con -WHERE { -$this s223:hasBoundaryConnectionPoint ?cp . -?cp s223:isConnectionPointOf ?con . -FILTER NOT EXISTS {$this s223:hasMember+ ?con} -} -"""^^xsd:string ] . + rdfs:label "ThermodynamicPhase-Solid"^^xsd:string ; + rdfs:comment "ThermodynamicPhase-Solid"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-ThermodynamicPhase . + +s223:ThermodynamicPhase-Vapor a s223:Class, + s223:ThermodynamicPhase-Vapor, + sh:NodeShape ; + rdfs:label "ThermodynamicPhase-Vapor"^^xsd:string ; + rdfs:comment "ThermodynamicPhase-Vapor"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-ThermodynamicPhase . s223:Water-ChilledWater a s223:Class, s223:Water-ChilledWater, sh:NodeShape ; rdfs:label "Water-Chilled water"^^xsd:string ; s223:composedOf [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; rdfs:label "Water conc"^^xsd:string ; s223:ofConstituent s223:Constituent-H2O ; ns1:hasQuantityKind ; @@ -24379,6 +28560,11 @@ s223:Water-HotWater a s223:Class, sh:NodeShape ; rdfs:label "Water-Hot water"^^xsd:string ; s223:composedOf [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; rdfs:label "Water conc"^^xsd:string ; s223:ofConstituent s223:Constituent-H2O ; ns1:hasQuantityKind ; @@ -24391,6 +28577,11 @@ s223:Water-Steam a s223:Class, sh:NodeShape ; rdfs:label "Steam"^^xsd:string ; s223:composedOf [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; rdfs:label "Water conc"^^xsd:string ; s223:ofConstituent s223:Constituent-H2O ; ns1:hasQuantityKind ; @@ -24447,85 +28638,6 @@ s223:Weekend-Sunday a s223:Class, rdfs:comment "Sunday"^^xsd:string ; rdfs:subClassOf s223:DayOfWeek-Weekend . -s223:Window a s223:Class, - sh:NodeShape ; - rdfs:label "Window"^^xsd:string ; - rdfs:comment "A daylight opening on a vertical or nearly vertical area of a room envelope."^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Window shall have at least one outlet using the medium Light."^^xsd:string ; - sh:message "s223: A Window shall have at least one outlet using the medium Light."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:EM-Light ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A Window shall have at least one inlet using the medium Light."^^xsd:string ; - sh:message "s223: A Window shall have at least one inlet using the medium Light."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:EM-Light ; - sh:path s223:hasMedium ] ] ] ] . - -s223:abstract a rdf:Property ; - rdfs:label "abstract"^^xsd:string ; - rdfs:comment "If the relation abstract has a value of true, the associated class cannot be instantiated. "^^xsd:string ; - rdfs:range xsd:boolean . - -s223:actuates a rdf:Property ; - rdfs:label "actuates"^^xsd:string ; - rdfs:comment "The relation actuates binds an Actuator to the Equipment that it actuates."^^xsd:string . - -s223:connectsFrom a rdf:Property ; - rdfs:label "connects from"^^xsd:string ; - rdfs:comment "The relation connectsFrom binds a Connectable thing to a Connection with an implied directionality. B connectsFrom A indicates a flow from A to B."^^xsd:string . - -s223:connectsTo a rdf:Property ; - rdfs:label "connects to"^^xsd:string ; - rdfs:comment "The relation connectsTo binds a Connection to a Connectable thing with an implied directionality. A connectsTo B indicates a flow from A to B."^^xsd:string . - -s223:hasExternalReference a rdf:Property ; - rdfs:label "has external reference"^^xsd:string ; - rdfs:comment "The relation hasExternalReference is used to relate a Property to an external telemetry source."^^xsd:string . - -s223:hasFreezingPoint a rdf:Property ; - rdfs:label "has freezing point"^^xsd:string ; - rdfs:comment "The relation hasFreezingPoint is used to associate a freezing point with a glycol solution, but could be used with other Mediums as appropriate. "^^xsd:string . - -s223:hasFrequency a rdf:Property ; - rdfs:label "has frequency"^^xsd:string ; - rdfs:comment "The relation hasFrequency is used to identify the frequency of an AC electricity enumeration kind. "^^xsd:string . - -s223:hasMeasurementResolution a rdf:Property ; - rdfs:label "has measurement resolution"^^xsd:string ; - rdfs:comment "The hasMeasurementResolution relation is used to link to a numerical property whose value indicates the smallest recognizable change in engineering units that the sensor is able to indicate. "^^xsd:string . - -s223:hasMember a rdf:Property ; - rdfs:label "has member"^^xsd:string ; - rdfs:comment "The relation hasMember is used to associate a System with its component Equipment and/or Systems."^^xsd:string . - -s223:hasNumberOfElectricalPhases a rdf:Property ; - rdfs:label "has number of electrical phases"^^xsd:string ; - rdfs:comment "The relation hasNumberOfElectricalPhases is used to identify the number of electrical phases in an AC electricity enumeration kind. "^^xsd:string . - -s223:hasPhysicalLocation a rdf:Property ; - rdfs:label "has Physical Location"^^xsd:string ; - rdfs:comment "The relation hasPhysicalLocation is used to indicate the PhysicalSpace (see `s223:PhysicalSpace`) where a piece of Equipment (see `s223:Equipment`) is located. The physical location of a piece of equipment is not necessarily the same as the location affected by the operation of the equipment. For example, an air handler may physically be on the roof, but its effect is to provide conditioned air to a Zone or DomainSpace within the building. By following the path of Connections, it can be determined what other equipment or spaces are possibly impacted by the equipment."^^xsd:string . - -s223:hasSetpoint a rdf:Property ; - rdfs:label "has setpoint"^^xsd:string ; - rdfs:comment "This relation binds a control setpoint to the quantifiable property indicating the desired value which the control process is trying to maintain."^^xsd:string . - -s223:hasThermodynamicPhase a rdf:Property ; - rdfs:label "has thermodynamic phase"^^xsd:string ; - rdfs:comment "The relation hasThermodynamicPhase is used to indicate the thermodynamic phase of the Medium inside a Connection."^^xsd:string . - -s223:ofMedium a rdf:Property ; - rdfs:label "of medium"^^xsd:string ; - rdfs:comment "The relation ofMedium is used to associate a Property with the specific Medium it describes. A property corresponding to the temperature of a medium would be associated with this medium using the relation ofMedium."^^xsd:string . - rdfs:comment """This file can be used to control which extensions are to be loaded with the 223 ontology by importing the appropriate graph(s). Options include: For validation of the schema, model, or data - http://data.ashrae.org/standard223/1.0/validation/schema (or model or data). For inferred properties - http://data.ashrae.org/standard223/1.0/inference/model-rules (and/or schema-rules, data-rules). @@ -24541,10 +28653,6 @@ For G36 extensions - http://data.ashrae.org/standard223/1.0/extensions/g36/core dcterms:isReplacedBy a rdf:Property ; rdfs:label "is replaced by"^^xsd:string . -dcterms:source a rdf:Property ; - rdfs:label "source"^^xsd:string ; - rdfs:isDefinedBy . - ns1:AbstractQuantityKind-broader a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; @@ -24586,30 +28694,18 @@ ns1:BaseDimensionMagnitude-vectorMagnitude a sh:PropertyShape ; sh:minCount 1 ; sh:path ns1:vectorMagnitude . -ns1:BooleanEncoding a ns1:BooleanEncodingType ; - rdfs:label "Boolean Encoding"^^xsd:string ; - ns1:bits 1 ; - rdfs:isDefinedBy . - -ns1:CT_COUNTABLY-INFINITE a ns1:CardinalityType ; - rdfs:label "Countably Infinite Cardinality Type"^^xsd:string ; - dcterms:description "A set of numbers is called countably infinite if there is a way to enumerate them. Formally this is done with a bijection function that associates each number in the set with exactly one of the positive integers. The set of all fractions is also countably infinite. In other words, any set \\(X\\) that has the same cardinality as the set of the natural numbers, or \\(| X | \\; = \\; | \\mathbb N | \\; = \\; \\aleph0\\), is said to be a countably infinite set."^^ns1:LatexString ; - ns1:informativeReference "http://www.math.vanderbilt.edu/~schectex/courses/infinity.pdf"^^xsd:anyURI ; - ns1:literal "countable"^^xsd:string ; - rdfs:isDefinedBy . - -ns1:CT_FINITE a ns1:CardinalityType ; - rdfs:label "Finite Cardinality Type"^^xsd:string ; - dcterms:description "Any set \\(X\\) with cardinality less than that of the natural numbers, or \\(| X | \\\\; < \\; | \\\\mathbb N | \\), is said to be a finite set."^^ns1:LatexString ; - ns1:literal "finite"^^xsd:string ; +ns1:CT_UNCOUNTABLE a ns1:CardinalityType ; + rdfs:label "Uncountable Cardinality Type"^^xsd:string ; + dcterms:description "Any set with cardinality greater than that of the natural numbers, or $| X | \\; > \\; | \\mathbb N | $, for example $| R| \\; = \\; c \\; > |\\mathbb N |$, is said to be uncountable."^^ns1:LatexString, + "Any set with cardinality greater than that of the natural numbers, or \\(| X | \\; > \\; | \\mathbb N | \\), for example \\(| R| \\; = \\; c \\; > |\\mathbb N |\\), is said to be uncountable."^^ns1:LatexString ; + ns1:literal "uncountable"^^xsd:string ; rdfs:isDefinedBy . -ns1:CharEncoding a ns1:BooleanEncodingType, - ns1:CharEncodingType ; - rdfs:label "Char Encoding"^^xsd:string ; - dc:description "7 bits of 1 octet"^^xsd:string ; - ns1:bytes 1 ; - rdfs:isDefinedBy . +ns1:CardinalityType-literal a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:path ns1:literal . ns1:Citation-description a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -24701,7 +28797,8 @@ ns1:Concept-rdfs_label a sh:PropertyShape ; sh:group ns1:IdentifiersAndDescriptionsPropertyGroup ; sh:minCount 1 ; sh:order 10.0 ; - sh:path rdfs:label . + sh:path rdfs:label ; + sh:severity sh:Warning . ns1:Concept-rdfs_seeAlso a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -24721,6 +28818,26 @@ ns1:ConstantValue-exactConstant a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:exactConstant . +ns1:ConstantValue-informativeReference a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:anyURI ; + sh:path ns1:informativeReference . + +ns1:CurrencyUnit-currencyCode a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:string ; + sh:path ns1:currencyCode . + +ns1:CurrencyUnit-currencyExponent a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:integer ; + sh:path ns1:currencyExponent . + +ns1:CurrencyUnit-currencyNumber a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:integer ; + sh:path ns1:currencyNumber . + ns1:DataEncoding-bitOrder a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:EndianType ; @@ -24850,11 +28967,6 @@ ns1:DateTimeStringEncodingType-allowedPattern a sh:PropertyShape ; sh:minCount 1 ; sh:path ns1:allowedPattern . -ns1:DoublePrecisionEncoding a ns1:FloatingPointEncodingType ; - rdfs:label "Single Precision Real Encoding"^^xsd:string ; - ns1:bytes 64 ; - rdfs:isDefinedBy . - ns1:Encoding-bits a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype xsd:integer ; @@ -24956,16 +29068,6 @@ ns1:Figure-width a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:width . -ns1:IEEE754_1985RealEncoding a ns1:FloatingPointEncodingType ; - rdfs:label "IEEE 754 1985 Real Encoding"^^xsd:string ; - ns1:bytes 32 ; - rdfs:isDefinedBy . - -ns1:LongUnsignedIntegerEncoding a ns1:IntegerEncodingType ; - rdfs:label "Long Unsigned Integer Encoding"^^xsd:string ; - ns1:bytes 8 ; - rdfs:isDefinedBy . - ns1:Narratable a ns1:AspectClass, sh:NodeShape ; rdfs:label "Narratable"^^xsd:string ; @@ -24973,11 +29075,11 @@ ns1:Narratable a ns1:AspectClass, rdfs:isDefinedBy ; rdfs:subClassOf ns1:Aspect . -ns1:OctetEncoding a ns1:BooleanEncodingType, - ns1:ByteEncodingType ; - rdfs:label "OCTET Encoding"^^xsd:string ; - ns1:bytes 1 ; - rdfs:isDefinedBy . +ns1:OrderedType-literal a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:string ; + sh:maxCount 1 ; + sh:path ns1:literal . ns1:OrdinalScale-order a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -24992,11 +29094,52 @@ ns1:Organization-url a sh:PropertyShape ; sh:minCount 0 ; sh:path ns1:url . -ns1:PartiallyOrdered a ns1:OrderedType ; - rdfs:label "Partially Ordered"^^xsd:string ; - ns1:literal "partial"^^xsd:string ; - ns1:plainTextDescription "Partial ordered structure."^^xsd:string ; - rdfs:isDefinedBy . +ns1:PhysicalConstant-applicableSystem a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:SystemOfUnits ; + sh:path ns1:applicableSystem . + +ns1:PhysicalConstant-applicableUnit a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:Unit ; + sh:path ns1:applicableUnit . + +ns1:PhysicalConstant-dbpediaMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:anyURI ; + sh:minCount 0 ; + sh:path ns1:dbpediaMatch . + +ns1:PhysicalConstant-exactConstant a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:boolean ; + sh:path ns1:exactConstant . + +ns1:PhysicalConstant-exactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:PhysicalConstant ; + sh:path ns1:exactMatch . + +ns1:PhysicalConstant-hasDimensionVector a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:QuantityKindDimensionVector ; + sh:path ns1:hasDimensionVector . + +ns1:PhysicalConstant-iec61360Code a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:string ; + sh:minCount 0 ; + sh:path ns1:iec61360Code . + +ns1:PhysicalConstant-informativeReference a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:anyURI ; + sh:path ns1:informativeReference . + +ns1:PhysicalConstant-isoNormativeReference a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:anyURI ; + sh:path ns1:isoNormativeReference . ns1:PhysicalConstant-latexDefinition a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -25008,6 +29151,7 @@ ns1:PhysicalConstant-latexSymbol a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype ns1:LatexString ; sh:maxCount 1 ; + sh:minCount 0 ; sh:path ns1:latexSymbol . ns1:PhysicalConstant-mathMLdefinition a sh:PropertyShape ; @@ -25016,6 +29160,30 @@ ns1:PhysicalConstant-mathMLdefinition a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:mathMLdefinition . +ns1:PhysicalConstant-normativeReference a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:anyURI ; + sh:path ns1:normativeReference . + +ns1:PhysicalConstant-siExactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:maxCount 1 ; + sh:path ns1:siExactMatch . + +ns1:PhysicalConstant-symbol a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:path ns1:symbol . + +ns1:PhysicalConstant-ucumCode a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype ns1:UCUMcs ; + sh:path ns1:ucumCode . + +ns1:Prefix-exactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:Prefix ; + sh:path ns1:exactMatch . + ns1:Prefix-latexSymbol a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype ns1:LatexString ; @@ -25028,6 +29196,11 @@ ns1:Prefix-prefixMultiplier a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:prefixMultiplier . +ns1:Prefix-siExactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:maxCount 1 ; + sh:path ns1:siExactMatch . + ns1:Prefix-symbol a sh:PropertyShape ; rdfs:isDefinedBy ; sh:minCount 0 ; @@ -25065,10 +29238,17 @@ ns1:Quantifiable-relativeStandardUncertainty a sh:PropertyShape ; ns1:Quantifiable-standardUncertainty a sh:PropertyShape ; rdfs:isDefinedBy ; - sh:datatype xsd:double ; + sh:datatype xsd:decimal, + xsd:double ; sh:maxCount 1 ; sh:path ns1:standardUncertainty . +ns1:Quantifiable-standardUncertaintySN a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:double ; + sh:maxCount 1 ; + sh:path ns1:standardUncertaintySN . + ns1:Quantifiable-unit a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:Unit ; @@ -25080,6 +29260,11 @@ ns1:Quantifiable-value a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:value . +ns1:Quantifiable-valueSN a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:maxCount 1 ; + sh:path ns1:valueSN . + ns1:Quantity-hasQuantityKind a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; @@ -25168,6 +29353,11 @@ ns1:QuantityKind-dimensionVectorForSI a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:dimensionVectorForSI . +ns1:QuantityKind-exactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:QuantityKind ; + sh:path ns1:exactMatch . + ns1:QuantityKind-expression a sh:PropertyShape ; rdfs:isDefinedBy ; sh:minCount 0 ; @@ -25182,7 +29372,15 @@ ns1:QuantityKind-generalization a sh:PropertyShape ; ns1:QuantityKind-hasDimensionVector a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKindDimensionVector ; - sh:path ns1:hasDimensionVector . + sh:maxCount 1 ; + sh:minCount 1 ; + sh:path ns1:hasDimensionVector ; + sh:severity sh:Info . + +ns1:QuantityKind-iec61360Code a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:string ; + sh:path ns1:iec61360Code . ns1:QuantityKind-isQuantityKindOf a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -25213,6 +29411,11 @@ ns1:QuantityKind-qkdvNumerator a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:qkdvNumerator . +ns1:QuantityKind-siExactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:maxCount 1 ; + sh:path ns1:siExactMatch . + ns1:QuantityKindDimensionVector-dimensionExponentForAmountOfSubstance a sh:PropertyShape ; rdfs:isDefinedBy , ; @@ -25276,16 +29479,27 @@ ns1:QuantityKindDimensionVector-dimensionlessExponent a sh:PropertyShape ; sh:or ns1:NumericUnionList ; sh:path ns1:dimensionlessExponent . +ns1:QuantityKindDimensionVector-hasReferenceQuantityKind a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:QuantityKind ; + sh:path ns1:hasReferenceQuantityKind . + ns1:QuantityKindDimensionVector-latexDefinition a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype ns1:LatexString ; sh:maxCount 1 ; sh:path ns1:latexDefinition . +ns1:QuantityKindDimensionVector-latexSymbol a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype ns1:LatexString ; + sh:minCount 0 ; + sh:path ns1:latexSymbol . + ns1:QuantityType-value a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; - sh:path ns4:value . + sh:path ns3:value . ns1:QuantityValue-hasUnit a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -25317,11 +29531,6 @@ ns1:Rule-ruleType a sh:PropertyShape ; sh:class ns1:RuleType ; sh:path ns1:ruleType . -ns1:SIGNED a ns1:SignednessType ; - rdfs:label "Signed"^^xsd:string ; - ns4:literal "signed"^^xsd:string ; - rdfs:isDefinedBy . - ns1:ScalarDatatype-bits a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype xsd:integer ; @@ -25405,16 +29614,6 @@ ns1:ScaleType-permissibleTransformation a sh:PropertyShape ; sh:class ns1:TransformType ; sh:path ns1:permissibleTransformation . -ns1:SignedIntegerEncoding a ns1:IntegerEncodingType ; - rdfs:label "Signed Integer Encoding"^^xsd:string ; - ns1:bytes 4 ; - rdfs:isDefinedBy . - -ns1:SinglePrecisionRealEncoding a ns1:FloatingPointEncodingType ; - rdfs:label "Single Precision Real Encoding"^^xsd:string ; - ns1:bytes 32 ; - rdfs:isDefinedBy . - ns1:StructuredDatatype-elementType a sh:PropertyShape ; rdfs:isDefinedBy ; sh:maxCount 1 ; @@ -25426,6 +29625,12 @@ ns1:SystemOfQuantityKinds-baseDimensionEnumeration a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:baseDimensionEnumeration . +ns1:SystemOfQuantityKinds-hasBaseQuantityKind a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:QuantityKind ; + sh:minCount 0 ; + sh:path ns1:hasBaseQuantityKind . + ns1:SystemOfQuantityKinds-hasQuantityKind a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; @@ -25438,6 +29643,12 @@ ns1:SystemOfQuantityKinds-hasUnitSystem a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:hasUnitSystem . +ns1:SystemOfQuantityKinds-systemDerivedQuantityKind a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:QuantityKind ; + sh:minCount 0 ; + sh:path ns1:systemDerivedQuantityKind . + ns1:SystemOfUnits-applicablePhysicalConstant a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:PhysicalConstant ; @@ -25478,25 +29689,10 @@ ns1:SystemOfUnits-hasUnit a sh:PropertyShape ; sh:class ns1:Unit ; sh:path ns1:hasUnit . -ns1:TotallyOrdered a ns1:OrderedType ; - rdfs:label "Totally Ordered"^^xsd:string ; - ns1:literal "total"^^xsd:string ; - ns1:plainTextDescription "Totally ordered structure."^^xsd:string ; - rdfs:isDefinedBy . - -ns1:UCUMcs a rdfs:Datatype, - sh:NodeShape ; - rdfs:label "case-sensitive UCUM code"^^xsd:string ; - dcterms:source ; - rdfs:comment "Lexical pattern for the case-sensitive version of UCUM code"^^xsd:string ; +ns1:SystemOfUnits-prefix a sh:PropertyShape ; rdfs:isDefinedBy ; - rdfs:seeAlso ; - rdfs:subClassOf xsd:string . - -ns1:UNSIGNED a ns1:SignednessType ; - rdfs:label "Unsigned"^^xsd:string ; - ns4:literal "unsigned"^^xsd:string ; - rdfs:isDefinedBy . + sh:class ns1:Prefix ; + sh:path ns1:prefix . ns1:Unit-applicableSystem a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -25505,16 +29701,50 @@ ns1:Unit-applicableSystem a sh:PropertyShape ; ns1:Unit-conversionMultiplier a sh:PropertyShape ; rdfs:isDefinedBy ; + sh:datatype xsd:decimal ; sh:maxCount 1 ; sh:or ( [ sh:datatype xsd:decimal ] [ sh:datatype xsd:double ] [ sh:datatype xsd:float ] ) ; sh:path ns1:conversionMultiplier . +ns1:Unit-conversionMultiplierSN a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:double ; + sh:maxCount 1 ; + sh:path ns1:conversionMultiplierSN . + ns1:Unit-conversionOffset a sh:PropertyShape ; rdfs:isDefinedBy ; + sh:datatype xsd:decimal ; sh:maxCount 1 ; sh:or ( [ sh:datatype xsd:decimal ] [ sh:datatype xsd:double ] [ sh:datatype xsd:float ] ) ; sh:path ns1:conversionOffset . +ns1:Unit-conversionOffsetSN a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:datatype xsd:double ; + sh:maxCount 1 ; + sh:path ns1:conversionOffsetSN . + +ns1:Unit-definedUnitOfSystem a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:SystemOfUnits ; + sh:path ns1:definedUnitOfSystem . + +ns1:Unit-derivedCoherentUnitOfSystem a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:SystemOfUnits ; + sh:path ns1:derivedCoherentUnitOfSystem . + +ns1:Unit-derivedUnitOfSystem a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:SystemOfUnits ; + sh:path ns1:derivedUnitOfSystem . + +ns1:Unit-exactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:Unit ; + sh:path ns1:exactMatch . + ns1:Unit-expression a sh:PropertyShape ; rdfs:isDefinedBy ; sh:minCount 0 ; @@ -25530,7 +29760,9 @@ ns1:Unit-hasDimensionVector a sh:PropertyShape ; ns1:Unit-hasQuantityKind a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; - sh:path ns1:hasQuantityKind . + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ; + sh:severity sh:Info . ns1:Unit-iec61360Code a sh:PropertyShape ; rdfs:isDefinedBy ; @@ -25559,6 +29791,12 @@ ns1:Unit-omUnit a sh:PropertyShape ; rdfs:isDefinedBy ; sh:path ns1:omUnit . +ns1:Unit-prefix a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:class ns1:Prefix ; + sh:maxCount 1 ; + sh:path ns1:prefix . + ns1:Unit-qkdvDenominator a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKindDimensionVector ; @@ -25571,6 +29809,11 @@ ns1:Unit-qkdvNumerator a sh:PropertyShape ; sh:maxCount 1 ; sh:path ns1:qkdvNumerator . +ns1:Unit-siExactMatch a sh:PropertyShape ; + rdfs:isDefinedBy ; + sh:maxCount 1 ; + sh:path ns1:siExactMatch . + ns1:Unit-siUnitsExpression a sh:PropertyShape ; rdfs:isDefinedBy ; sh:datatype xsd:string ; @@ -25603,17 +29846,6 @@ ns1:Unit-unitOfSystem a sh:PropertyShape ; sh:class ns1:SystemOfUnits ; sh:path ns1:isUnitOfSystem . -ns1:Unordered a ns1:OrderedType ; - rdfs:label "Unordered"^^xsd:string ; - ns1:literal "unordered"^^xsd:string ; - ns1:plainTextDescription "Unordered structure."^^xsd:string ; - rdfs:isDefinedBy . - -ns1:UnsignedIntegerEncoding a ns1:IntegerEncodingType ; - rdfs:label "Unsigned Integer Encoding"^^xsd:string ; - ns1:bytes 4 ; - rdfs:isDefinedBy . - ns1:UserQuantityKind-hasQuantityKind a sh:PropertyShape ; rdfs:isDefinedBy ; sh:class ns1:QuantityKind ; @@ -25727,10 +29959,33 @@ ns1:conversionMultiplier a rdf:Property ; rdfs:label "conversion multiplier"^^xsd:string ; rdfs:isDefinedBy . +ns1:conversionMultiplierSN a rdf:Property ; + rdfs:label "conversion multiplier scientific"^^xsd:string ; + rdfs:isDefinedBy . + ns1:conversionOffset a rdf:Property ; rdfs:label "conversion offset"^^xsd:string ; rdfs:isDefinedBy . +ns1:conversionOffsetSN a rdf:Property ; + rdfs:label "conversion offset scientific"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:currencyCode a rdf:Property ; + rdfs:label "currency code"^^xsd:string ; + dcterms:description "Alphabetic Currency Code as defined by ISO 4217. For example, the currency code for the US dollar is USD."^^rdf:HTML ; + rdfs:isDefinedBy . + +ns1:currencyExponent a rdf:Property ; + rdfs:label "currency exponent"^^xsd:string ; + dcterms:description "The currency exponent indicates the number of decimal places between a major currency unit and its minor currency unit. For example, the US dollar is the major currency unit of the United States, and the US cent is the minor currency unit. Since one cent is 1/100 of a dollar, the US dollar has a currency exponent of 2. However, the Japanese Yen has no minor currency units, so the yen has a currency exponent of 0."^^rdf:HTML ; + rdfs:isDefinedBy . + +ns1:currencyNumber a rdf:Property ; + rdfs:label "currency number"^^xsd:string ; + dcterms:description "Numeric Currency Code as defined by ISO 4217. For example, the currency number for the US dollar is 840."^^rdf:HTML ; + rdfs:isDefinedBy . + ns1:dataEncoding a rdf:Property ; rdfs:label "data encoding"^^xsd:string ; rdfs:isDefinedBy . @@ -25739,20 +29994,17 @@ ns1:dataType a rdf:Property ; rdfs:label "datatype"^^xsd:string ; rdfs:isDefinedBy . -ns1:dbpediaMatch a rdf:Property ; - rdfs:label "dbpedia match"^^xsd:string ; - rdfs:isDefinedBy . - ns1:default a rdf:Property ; rdfs:label "default"^^xsd:string ; dcterms:description "The default element in an enumeration"^^rdf:HTML ; rdfs:isDefinedBy . -ns1:definedUnitOfSystem a rdf:Property ; - rdfs:label "defined unit of system"^^xsd:string ; - dcterms:description "This property relates a unit of measure with the unit system that defines the unit."^^rdf:HTML ; +ns1:derivedCoherentUnitOfSystem a rdf:Property ; + rdfs:label "is coherent derived unit of system"^^xsd:string ; + dcterms:description "This property relates a unit of measure to the unit system in which the unit is derived from the system's base units with a proportionality constant of one."^^rdf:HTML ; rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:isUnitOfSystem . + rdfs:subPropertyOf ns1:coherentUnitOfSystem, + ns1:derivedUnitOfSystem . ns1:dimensionExponentForAmountOfSubstance a rdf:Property ; rdfs:label "dimension exponent for amount of substance"^^xsd:string ; @@ -25803,10 +30055,6 @@ ns1:encoding a rdf:Property ; rdfs:label "encoding"^^xsd:string ; rdfs:isDefinedBy . -ns1:exactConstant a rdf:Property ; - rdfs:label "exact constant"^^xsd:string ; - rdfs:isDefinedBy . - ns1:example a rdf:Property ; rdfs:label "example"^^xsd:string ; rdfs:comment "The 'qudt:example' property is used to annotate an instance of a class with a reference to a concept that is an example. The type of this property is 'rdf:Property'. This allows both scalar and object ranges."^^rdf:HTML ; @@ -25822,10 +30070,13 @@ ns1:figureLabel a rdf:Property ; ns1:generalization a rdf:Property ; rdfs:label "generalization"^^xsd:string ; - dcterms:description """This property relates a quantity kind to its generalization. A quantity kind, PARENT, is a generalization of the quantity kind CHILD only if: + dcterms:description "This deprecated property was intended to relate a quantity kind to its generalization."^^rdf:HTML, + """This property relates a quantity kind to its generalization. A quantity kind, PARENT, is a generalization of the quantity kind CHILD only if: 1. PARENT and CHILD have the same dimensions in every system of quantities; 2. Every unit that is a measure of quantities of kind CHILD is also a valid measure of quantities of kind PARENT."""^^rdf:HTML ; + dcterms:isReplacedBy skos:broader ; + ns1:deprecated true ; rdfs:isDefinedBy . ns1:guidance a rdf:Property ; @@ -25838,11 +30089,6 @@ ns1:hasAllowedUnit a rdf:Property ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:hasUnit . -ns1:hasBaseQuantityKind a rdf:Property ; - rdfs:label "has base quantity kind"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:hasQuantityKind . - ns1:hasBaseUnit a rdf:Property ; rdfs:label "base unit"^^xsd:string ; dcterms:description "This property relates a system of units to a base unit defined within the system. The base units of a system are used to define the derived units of the system by expressing the derived units as products of the base units raised to a rational power."^^rdf:HTML ; @@ -25855,6 +30101,10 @@ ns1:hasDerivedCoherentUnit a rdf:Property ; rdfs:subPropertyOf ns1:hasCoherentUnit, ns1:hasDerivedUnit . +ns1:hasReferenceQuantityKind a rdf:Property ; + rdfs:label "has reference quantity kind"^^xsd:string ; + rdfs:isDefinedBy . + ns1:hasRule a rdf:Property ; rdfs:label "has rule"^^xsd:string ; rdfs:isDefinedBy . @@ -25863,10 +30113,6 @@ ns1:height a rdf:Property ; rdfs:label "height"^^xsd:string ; rdfs:isDefinedBy . -ns1:iec61360Code a rdf:Property ; - rdfs:label "iec-61360 code"^^xsd:string ; - rdfs:isDefinedBy . - ns1:image a rdf:Property ; rdfs:label "image"^^xsd:string ; rdfs:isDefinedBy . @@ -25875,64 +30121,6 @@ ns1:imageLocation a rdf:Property ; rdfs:label "image location"^^xsd:string ; rdfs:isDefinedBy . -ns1:inferredApplicableUnit a ns5:MagicProperty ; - rdfs:label "applicable units for a QuantityKind instance"^^xsd:string ; - ns5:body [ a ns3:Select ; - ns3:distinct true ; - ns3:resultVariables ( [ ns3:varName "unit"^^xsd:string ] ) ; - ns3:where ( [ a ns3:Union ; - ns3:elements ( ( [ ns3:object ns5:_arg1 ; - ns3:predicate ns1:hasQuantityKind ; - ns3:subject [ ns3:varName "unit"^^xsd:string ] ] [ a ns3:Filter ; - ns3:expression [ a ns3:notExists ; - ns3:elements ( [ ns3:object true ; - ns3:predicate ns1:deprecated ; - ns3:subject [ ns3:varName "unit"^^xsd:string ] ] ) ] ] [ a ns3:TriplePath ; - ns3:object ns1:Unit ; - ns3:path [ a ns3:SeqPath ; - ns3:path1 rdf:type ; - ns3:path2 [ a ns3:ModPath ; - ns3:modMax -2 ; - ns3:modMin 0 ; - ns3:subPath rdfs:subClassOf ] ] ; - ns3:subject [ ns3:varName "unit"^^xsd:string ] ] ) ( [ a ns3:NotExists ; - ns3:elements ( [ ns3:object ns5:_arg1 ; - ns3:predicate ns1:hasQuantityKind ; - ns3:subject [ ns3:varName "unit"^^xsd:string ] ] [ a ns3:TriplePath ; - ns3:object ns1:Unit ; - ns3:path [ a ns3:SeqPath ; - ns3:path1 rdf:type ; - ns3:path2 [ a ns3:ModPath ; - ns3:modMax -2 ; - ns3:modMin 0 ; - ns3:subPath rdfs:subClassOf ] ] ; - ns3:subject [ ns3:varName "unit"^^xsd:string ] ] ) ] [ ns3:object [ ns3:varName "parent1"^^xsd:string ] ; - ns3:predicate skos:broader ; - ns3:subject ns5:_arg1 ] [ ns3:object [ ns3:varName "unit"^^xsd:string ] ; - ns3:predicate ns1:inferredApplicableUnit ; - ns3:subject [ ns3:varName "parent1"^^xsd:string ] ] ) ) ] ) ] ; - ns5:constraint [ a ns6:Argument ; - ns6:predicate ns3:arg1 ; - ns6:valueType ns1:QuantityKind ; - rdfs:comment "The QuantityKind instance"^^xsd:string ] ; - ns5:returnType rdfs:Class ; - rdfs:comment """A magic property that returns all units that are "applicable" to a given QuantityKind, found by examining the incoming qudt:hasQuantityKind property for the provided QuantityKind. If there are none found, recurse up the skos:broader relation until such a QuantityKind is found. - -Example use: -quantitykind:Power qudt:inferredApplicableUnit ?unit . """^^xsd:string ; - rdfs:subClassOf ns5:MagicProperties . - -ns1:informativeReference a rdf:Property ; - rdfs:label "informative reference"^^xsd:string ; - dcterms:description "Provides a way to reference a source that provided useful but non-normative information."^^rdf:HTML ; - rdfs:isDefinedBy . - -ns1:isoNormativeReference a rdf:Property ; - rdfs:label "normative reference (ISO)"^^xsd:string ; - dcterms:description "Provides a way to reference the ISO unit definition."^^rdf:HTML ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:normativeReference . - ns1:javaName a rdf:Property ; rdfs:label "java name"^^xsd:string ; rdfs:isDefinedBy . @@ -25949,11 +30137,6 @@ ns1:length a rdf:Property ; rdfs:label "length"^^xsd:string ; rdfs:isDefinedBy . -ns1:literal a rdf:Property ; - rdfs:label "literal"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns4:literal . - ns1:mathDefinition a rdf:Property ; rdfs:label "math definition"^^xsd:string ; rdfs:isDefinedBy . @@ -26064,6 +30247,16 @@ ns1:standardUncertainty a rdf:Property ; dcterms:description "The standard uncertainty of a quantity is the estimated standard deviation of the mean taken from a series of measurements."^^rdf:HTML ; rdfs:isDefinedBy . +ns1:standardUncertaintySN a rdf:Property ; + rdfs:label "standard uncertainty scientific"^^xsd:string ; + dcterms:description "The standard uncertainty of a quantity is the estimated standard deviation of the mean taken from a series of measurements."^^rdf:HTML ; + rdfs:isDefinedBy . + +ns1:systemDerivedQuantityKind a rdf:Property ; + rdfs:label "system derived quantity kind"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns1:hasQuantityKind . + ns1:udunitsCode a rdf:Property ; rdfs:label "udunits code"^^xsd:string ; dcterms:description "The UDUNITS package supports units of physical quantities. Its C library provides for arithmetic manipulation of units and for conversion of numeric values between compatible units. The package contains an extensive unit database, which is in XML format and user-extendable. The package also contains a command-line utility for investigating units and converting values."^^rdf:HTML ; @@ -26077,6 +30270,11 @@ ns1:uneceCommonCode a rdf:Property ; "https://unece.org/trade/documents/2021/06/uncefact-rec20-0"^^xsd:anyURI ; rdfs:isDefinedBy . +ns1:valueSN a rdf:Property ; + rdfs:label "value scientific"^^xsd:string ; + dcterms:description "A property to relate an observable thing with a value expressed in scientific notation"^^rdf:HTML ; + rdfs:isDefinedBy . + ns1:vbName a rdf:Property ; rdfs:label "Vusal Basic name"^^xsd:string ; rdfs:isDefinedBy . @@ -26223,7 +30421,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000031 ; ns1:standardUncertaintySN 3.1e-06 ; ns1:value 7294.299537 ; - ns1:valueSN 7.2943e+03 ; + ns1:valueSN 7.2943e+03, + 7.2943e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?malsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26234,7 +30433,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000033 ; ns1:standardUncertaintySN 3.3e-34 ; ns1:value 0.0000000000000000000000000066446562 ; - ns1:valueSN 6.644656e-27 ; + ns1:valueSN 6.644656e-27, + 6.644656e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mal#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26244,7 +30444,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000003 ; ns1:standardUncertaintySN 3e-17 ; ns1:value 0.000000000597191917 ; - ns1:valueSN 5.971919e-10 ; + ns1:valueSN 5.971919e-10, + 5.971919e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?malc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26254,7 +30455,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000093 ; ns1:standardUncertaintySN 9.3e-05 ; ns1:value 3727.379109 ; - ns1:valueSN 3.727379e+03 ; + ns1:valueSN 3.727379e+03, + 3.727379e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26264,7 +30466,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000062 ; ns1:standardUncertaintySN 6.2e-11 ; ns1:value 4.001506179127 ; - ns1:valueSN 4.001506e+00 ; + ns1:valueSN 4.001506e+00, + 4.001506e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?malu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26274,7 +30477,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000062 ; ns1:standardUncertaintySN 6.2e-14 ; ns1:value 0.004001506179127 ; - ns1:valueSN 4.001506e-03 ; + ns1:valueSN 4.001506e-03, + 4.001506e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmal#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26284,7 +30488,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000041 ; ns1:standardUncertaintySN 4.1e-10 ; ns1:value 3.97259968951 ; - ns1:valueSN 3.9726e+00 ; + ns1:valueSN 3.9726e+00, + 3.9726e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?malsmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26294,7 +30499,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000009 ; ns1:standardUncertaintySN 9e-17 ; ns1:value 0.000000000100001498 ; - ns1:valueSN 1.000015e-10 ; + ns1:valueSN 1.000015e-10, + 1.000015e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?angstar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26304,7 +30510,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000083 ; ns1:standardUncertaintySN 8.3e-35 ; ns1:value 0.000000000000000000000000001660538782 ; - ns1:valueSN 1.660539e-27 ; + ns1:valueSN 1.660539e-27, + 1.660539e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?u#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26314,7 +30521,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000074 ; ns1:standardUncertaintySN 7.4e-18 ; ns1:value 0.000000000149241783 ; - ns1:valueSN 1.492418e-10 ; + ns1:valueSN 1.492418e-10, + 1.492418e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tuj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26324,7 +30532,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000023 ; ns1:standardUncertaintySN 2.3e-05 ; ns1:value 931.494028 ; - ns1:valueSN 9.31494e+02 ; + ns1:valueSN 9.31494e+02, + 9.31494e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26334,7 +30543,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 23.0 ; ns1:standardUncertaintySN 2.3e+01 ; ns1:value 931494028.0 ; - ns1:valueSN 9.31494e+08 ; + ns1:valueSN 9.31494e+08, + 9.31494e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26344,7 +30554,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.049 ; ns1:standardUncertaintySN 4.9e-02 ; ns1:value 34231777.149 ; - ns1:valueSN 3.423178e+07 ; + ns1:valueSN 3.423178e+07, + 3.423178e+07 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uhr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26354,7 +30565,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 320000000000000.0 ; ns1:standardUncertaintySN 3.2e+14 ; ns1:value 225234273690000000000000.0 ; - ns1:valueSN 2.252343e+23 ; + ns1:valueSN 2.252343e+23, + 2.252343e+23 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26364,7 +30576,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 1100000.0 ; ns1:standardUncertaintySN 1.1e+06 ; ns1:value 751300667100000.0 ; - ns1:valueSN 7.513007e+14 ; + ns1:valueSN 7.513007e+14, + 7.513007e+14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26374,7 +30587,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000074 ; ns1:standardUncertaintySN 7.4e-18 ; ns1:value 0.000000000149241783 ; - ns1:valueSN 1.492418e-10 ; + ns1:valueSN 1.492418e-10, + 1.492418e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26384,7 +30598,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 19000000.0 ; ns1:standardUncertaintySN 1.9e+07 ; ns1:value 10809527000000.0 ; - ns1:valueSN 1.080953e+13 ; + ns1:valueSN 1.080953e+13, + 1.080953e+13 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?uk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26394,7 +30609,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000083 ; ns1:standardUncertaintySN 8.3e-35 ; ns1:value 0.000000000000000000000000001660538782 ; - ns1:valueSN 1.660539e-27 ; + ns1:valueSN 1.660539e-27, + 1.660539e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ukg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26404,7 +30620,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000000000000000000000000000081 ; ns1:standardUncertaintySN 8.1e-61 ; ns1:value 0.00000000000000000000000000000000000000000000000000003206361533 ; - ns1:valueSN 3.206362e-53 ; + ns1:valueSN 3.206362e-53, + 3.206362e-53 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auhypol#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26414,7 +30631,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000000000000000000000000000000000000000000031 ; ns1:standardUncertaintySN 3.1e-72 ; ns1:value 0.0000000000000000000000000000000000000000000000000000000000000000623538095 ; - ns1:valueSN 6.235381e-65 ; + ns1:valueSN 6.235381e-65, + 6.235381e-65 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26424,7 +30642,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000000000000053 ; ns1:standardUncertaintySN 5.3e-42 ; ns1:value 0.0000000000000000000000000000000001054571628 ; - ns1:valueSN 1.054572e-34 ; + ns1:valueSN 1.054572e-34, + 1.054572e-34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tthbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26434,7 +30653,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000004 ; ns1:standardUncertaintySN 4e-27 ; ns1:value 0.0000000000000000001602176487 ; - ns1:valueSN 1.602176e-19 ; + ns1:valueSN 1.602176e-19, + 1.602176e-19 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?te#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26444,7 +30664,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 27000.0 ; ns1:standardUncertaintySN 2.7e+04 ; ns1:value 1081202300000.0 ; - ns1:valueSN 1.081202e+12 ; + ns1:valueSN 1.081202e+12, + 1.081202e+12 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aucd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26454,7 +30675,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000017 ; ns1:standardUncertaintySN 1.7e-10 ; ns1:value 0.00662361763 ; - ns1:valueSN 6.623618e-03 ; + ns1:valueSN 6.623618e-03, + 6.623618e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aucur#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26464,7 +30686,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000021 ; ns1:standardUncertaintySN 2.1e-37 ; ns1:value 0.00000000000000000000000000000847835281 ; - ns1:valueSN 8.478353e-30 ; + ns1:valueSN 8.478353e-30, + 8.478353e-30 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auedm#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26474,7 +30697,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 13000.0 ; ns1:standardUncertaintySN 1.3e+04 ; ns1:value 514220632000.0 ; - ns1:valueSN 5.142206e+11 ; + ns1:valueSN 5.142206e+11, + 5.142206e+11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auefld#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26484,7 +30708,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 240000000000000.0 ; ns1:standardUncertaintySN 2.4e+14 ; ns1:value 9717361660000000000000.0 ; - ns1:valueSN 9.717362e+21 ; + ns1:valueSN 9.717362e+21, + 9.717362e+21 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auefg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26494,7 +30719,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000000000000000034 ; ns1:standardUncertaintySN 3.4e-50 ; ns1:value 0.000000000000000000000000000000000000000016487772536 ; - ns1:valueSN 1.648777e-41 ; + ns1:valueSN 1.648777e-41, + 1.648777e-41 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auepol#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26504,7 +30730,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000068 ; ns1:standardUncertaintySN 6.8e-07 ; ns1:value 27.21138386 ; - ns1:valueSN 2.721138e+01 ; + ns1:valueSN 2.721138e+01, + 2.721138e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auep#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26514,7 +30741,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000000000000011 ; ns1:standardUncertaintySN 1.1e-47 ; ns1:value 0.000000000000000000000000000000000000000448655107 ; - ns1:valueSN 4.486551e-40 ; + ns1:valueSN 4.486551e-40, + 4.486551e-40 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aueqm#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26524,7 +30752,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000022 ; ns1:standardUncertaintySN 2.2e-25 ; ns1:value 0.00000000000000000435974394 ; - ns1:valueSN 4.359744e-18 ; + ns1:valueSN 4.359744e-18, + 4.359744e-18 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?thr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26534,7 +30763,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000041 ; ns1:standardUncertaintySN 4.1e-15 ; ns1:value 0.0000000823872206 ; - ns1:valueSN 8.238722e-08 ; + ns1:valueSN 8.238722e-08, + 8.238722e-08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auforce#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26544,7 +30774,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000036 ; ns1:standardUncertaintySN 3.6e-20 ; ns1:value 0.000000000052917720859 ; - ns1:valueSN 5.291772e-11 ; + ns1:valueSN 5.291772e-11, + 5.291772e-11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tbohrrada0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26554,7 +30785,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000046 ; ns1:standardUncertaintySN 4.6e-31 ; ns1:value 0.0000000000000000000000185480183 ; - ns1:valueSN 1.854802e-23 ; + ns1:valueSN 1.854802e-23, + 1.854802e-23 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aumdm#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26564,7 +30796,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0059 ; ns1:standardUncertaintySN 5.9e-03 ; ns1:value 235051.7382 ; - ns1:valueSN 2.350517e+05 ; + ns1:valueSN 2.350517e+05, + 2.350517e+05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aumfd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26574,7 +30807,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000027 ; ns1:standardUncertaintySN 2.7e-37 ; ns1:value 0.00000000000000000000000000007891036433 ; - ns1:valueSN 7.891036e-29 ; + ns1:valueSN 7.891036e-29, + 7.891036e-29 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aumag#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26584,7 +30818,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000045 ; ns1:standardUncertaintySN 4.5e-38 ; ns1:value 0.000000000000000000000000000000910938215 ; - ns1:valueSN 9.109382e-31 ; + ns1:valueSN 9.109382e-31, + 9.109382e-31 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ttme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26594,7 +30829,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000099 ; ns1:standardUncertaintySN 9.9e-32 ; ns1:value 0.000000000000000000000001992851565 ; - ns1:valueSN 1.992852e-24 ; + ns1:valueSN 1.992852e-24, + 1.992852e-24 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aumom#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26602,7 +30838,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 0.0000000001112650056 ; - ns1:valueSN 1.11265e-10 ; + ns1:valueSN 1.11265e-10, + 1.11265e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auperm#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26612,7 +30849,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000016 ; ns1:standardUncertaintySN 1.6e-12 ; ns1:value 0.00000000000000002418884326505 ; - ns1:valueSN 2.418884e-17 ; + ns1:valueSN 2.418884e-17, + 2.418884e-17 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?aut#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26622,7 +30860,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0015 ; ns1:standardUncertaintySN 1.5e-03 ; ns1:value 2187691.2541 ; - ns1:valueSN 2.187691e+06 ; + ns1:valueSN 2.187691e+06, + 2.187691e+06 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?auvel#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26632,7 +30871,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 30000000000000000.0 ; ns1:standardUncertaintySN 3e+16 ; ns1:value 602214179000000000000000.0 ; - ns1:valueSN 6.022142e+23 ; + ns1:valueSN 6.022142e+23, + 6.022142e+23 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?na#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26642,7 +30882,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000023 ; ns1:standardUncertaintySN 2.3e-31 ; ns1:value 0.00000000000000000000000927400915 ; - ns1:valueSN 9.274009e-24 ; + ns1:valueSN 9.274009e-24, + 9.274009e-24 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26652,7 +30893,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000079 ; ns1:standardUncertaintySN 7.9e-14 ; ns1:value 0.000057883817555 ; - ns1:valueSN 5.788382e-05 ; + ns1:valueSN 5.788382e-05, + 5.788382e-05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mubev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26662,7 +30904,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 350.0 ; ns1:standardUncertaintySN 3.5e+02 ; ns1:value 13996246040.0 ; - ns1:valueSN 1.399625e+10 ; + ns1:valueSN 1.399625e+10, + 1.399625e+10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26672,7 +30915,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000012 ; ns1:standardUncertaintySN 1.2e-06 ; ns1:value 46.6864515 ; - ns1:valueSN 4.668645e+01 ; + ns1:valueSN 4.668645e+01, + 4.668645e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26692,7 +30936,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000036 ; ns1:standardUncertaintySN 3.6e-20 ; ns1:value 0.000000000052917720859 ; - ns1:valueSN 5.291772e-11 ; + ns1:valueSN 5.291772e-11, + 5.291772e-11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26702,7 +30947,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000024 ; ns1:standardUncertaintySN 2.4e-29 ; ns1:value 0.000000000000000000000013806504 ; - ns1:valueSN 1.38065e-23 ; + ns1:valueSN 1.38065e-23, + 1.38065e-23 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?k#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26722,7 +30968,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 36000.0 ; ns1:standardUncertaintySN 3.6e+04 ; ns1:value 20836644000.0 ; - ns1:valueSN 2.083664e+10 ; + ns1:valueSN 2.083664e+10, + 2.083664e+10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kshhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26740,7 +30987,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 376.730313461 ; - ns1:valueSN 3.767303e+02 ; + ns1:valueSN 3.767303e+02, + 3.767303e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?z0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26750,7 +30998,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000058 ; ns1:standardUncertaintySN 5.8e-24 ; ns1:value 0.0000000000000028179402894 ; - ns1:valueSN 2.81794e-15 ; + ns1:valueSN 2.81794e-15, + 2.81794e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?re#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26760,7 +31009,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000033 ; ns1:standardUncertaintySN 3.3e-21 ; ns1:value 0.0000000000024263102175 ; - ns1:valueSN 2.42631e-12 ; + ns1:valueSN 2.42631e-12, + 2.42631e-12 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26770,7 +31020,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000053 ; ns1:standardUncertaintySN 5.3e-22 ; ns1:value 0.00000000000038615926459 ; - ns1:valueSN 3.861593e-13 ; + ns1:valueSN 3.861593e-13, + 3.861593e-13 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26780,7 +31031,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000053 ; ns1:standardUncertaintySN 5.3e-14 ; ns1:value 0.000077480917004 ; - ns1:valueSN 7.748092e-05 ; + ns1:valueSN 7.748092e-05, + 7.748092e-05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26796,7 +31048,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 25812.807 ; - ns1:valueSN 2.581281e+04 ; + ns1:valueSN 2.581281e+04, + 2.581281e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?rk90#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26806,7 +31059,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000028 ; ns1:standardUncertaintySN 2.8e-20 ; ns1:value 0.000000000000100207699 ; - ns1:valueSN 1.002077e-13 ; + ns1:valueSN 1.002077e-13, + 1.002077e-13 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26816,7 +31070,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000039 ; ns1:standardUncertaintySN 3.9e-12 ; ns1:value -0.0004664345537 ; - ns1:valueSN -4.664346e-04 ; + ns1:valueSN -4.664346e-04, + -4.664346e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26826,7 +31081,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000016 ; ns1:standardUncertaintySN 1.6e-06 ; ns1:value 3670.4829654 ; - ns1:valueSN 3.670483e+03 ; + ns1:valueSN 3.670483e+03, + 3.670483e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mdsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26836,7 +31092,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000072 ; ns1:standardUncertaintySN 7.2e-09 ; ns1:value 0.8574382308 ; - ns1:valueSN 8.574382e-01 ; + ns1:valueSN 8.574382e-01, + 8.574382e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gdn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26846,7 +31103,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000011 ; ns1:standardUncertaintySN 1.1e-34 ; ns1:value 0.00000000000000000000000000433073465 ; - ns1:valueSN 4.330735e-27 ; + ns1:valueSN 4.330735e-27, + 4.330735e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mud#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26856,7 +31114,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000039 ; ns1:standardUncertaintySN 3.9e-12 ; ns1:value 0.0004669754556 ; - ns1:valueSN 4.669755e-04 ; + ns1:valueSN 4.669755e-04, + 4.669755e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26866,7 +31125,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000072 ; ns1:standardUncertaintySN 7.2e-09 ; ns1:value 0.8574382308 ; - ns1:valueSN 8.574382e-01 ; + ns1:valueSN 8.574382e-01, + 8.574382e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26876,7 +31136,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000017 ; ns1:standardUncertaintySN 1.7e-34 ; ns1:value 0.0000000000000000000000000033435832 ; - ns1:valueSN 3.343583e-27 ; + ns1:valueSN 3.343583e-27, + 3.343583e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?md#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26886,7 +31147,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000015 ; ns1:standardUncertaintySN 1.5e-17 ; ns1:value 0.000000000300506272 ; - ns1:valueSN 3.005063e-10 ; + ns1:valueSN 3.005063e-10, + 3.005063e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mdc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26896,7 +31158,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000047 ; ns1:standardUncertaintySN 4.7e-05 ; ns1:value 1875.612793 ; - ns1:valueSN 1.875613e+03 ; + ns1:valueSN 1.875613e+03, + 1.875613e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26906,7 +31169,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000078 ; ns1:standardUncertaintySN 7.8e-11 ; ns1:value 2.013553212724 ; - ns1:valueSN 2.013553e+00 ; + ns1:valueSN 2.013553e+00, + 2.013553e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mdu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26916,7 +31180,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000078 ; ns1:standardUncertaintySN 7.8e-14 ; ns1:value 0.002013553212724 ; - ns1:valueSN 2.013553e-03 ; + ns1:valueSN 2.013553e-03, + 2.013553e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26926,7 +31191,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000011 ; ns1:standardUncertaintySN 1.1e-07 ; ns1:value -0.44820652 ; - ns1:valueSN -4.482065e-01 ; + ns1:valueSN -4.482065e-01, + -4.482065e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26936,7 +31202,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000024 ; ns1:standardUncertaintySN 2.4e-09 ; ns1:value 0.307012207 ; - ns1:valueSN 3.070122e-01 ; + ns1:valueSN 3.070122e-01, + 3.070122e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26946,7 +31213,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000022 ; ns1:standardUncertaintySN 2.2e-10 ; ns1:value 1.99900750108 ; - ns1:valueSN 1.999008e+00 ; + ns1:valueSN 1.999008e+00, + 1.999008e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26964,7 +31232,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 0.000000000008854187817 ; - ns1:valueSN 8.854188e-12 ; + ns1:valueSN 8.854188e-12, + 8.854188e-12 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ep0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26974,7 +31243,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 4400.0 ; ns1:standardUncertaintySN 4.4e+03 ; ns1:value -175882015000.0 ; - ns1:valueSN -1.75882e+11 ; + ns1:valueSN -1.75882e+11, + -1.75882e+11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?esme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26984,7 +31254,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000018 ; ns1:standardUncertaintySN 1.8e-05 ; ns1:value -2143.923498 ; - ns1:valueSN -2.143923e+03 ; + ns1:valueSN -2.143923e+03, + -2.143923e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -26994,7 +31265,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000012 ; ns1:standardUncertaintySN 1.2e-13 ; ns1:value 0.00027244371093 ; - ns1:valueSN 2.724437e-04 ; + ns1:valueSN 2.724437e-04, + 2.724437e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mesmd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27004,7 +31276,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000035 ; ns1:standardUncertaintySN 3.5e-13 ; ns1:value -2.00231930436256 ; - ns1:valueSN -2.002319e+00 ; + ns1:valueSN -2.002319e+00, + -2.002319e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gem#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27014,7 +31287,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 4400.0 ; ns1:standardUncertaintySN 4.4e+03 ; ns1:value 176085977000.0 ; - ns1:valueSN 1.76086e+11 ; + ns1:valueSN 1.76086e+11, + 1.76086e+11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammae#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27024,7 +31298,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0007 ; ns1:standardUncertaintySN 7e-04 ; ns1:value 28024.95364 ; - ns1:valueSN 2.802495e+04 ; + ns1:valueSN 2.802495e+04, + 2.802495e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27034,7 +31309,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000023 ; ns1:standardUncertaintySN 2.3e-31 ; ns1:value -0.00000000000000000000000928476377 ; - ns1:valueSN -9.284764e-24 ; + ns1:valueSN -9.284764e-24, + -9.284764e-24 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muem#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27044,7 +31320,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000074 ; ns1:standardUncertaintySN 7.4e-13 ; ns1:value 0.00115965218111 ; - ns1:valueSN 1.159652e-03 ; + ns1:valueSN 1.159652e-03, + 1.159652e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ae#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27054,7 +31331,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000074 ; ns1:standardUncertaintySN 7.4e-13 ; ns1:value -1.00115965218111 ; - ns1:valueSN -1.00116e+00 ; + ns1:valueSN -1.00116e+00, + -1.00116e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27064,7 +31342,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000008 ; ns1:standardUncertaintySN 8e-07 ; ns1:value -1838.28197092 ; - ns1:valueSN -1.838282e+03 ; + ns1:valueSN -1.838282e+03, + -1.838282e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27074,7 +31353,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000045 ; ns1:standardUncertaintySN 4.5e-38 ; ns1:value 0.000000000000000000000000000000910938215 ; - ns1:valueSN 9.109382e-31 ; + ns1:valueSN 9.109382e-31, + 9.109382e-31 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?me#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27084,7 +31364,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000041 ; ns1:standardUncertaintySN 4.1e-21 ; ns1:value 0.0000000000000818710438 ; - ns1:valueSN 8.187104e-14 ; + ns1:valueSN 8.187104e-14, + 8.187104e-14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mec2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27094,7 +31375,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000013 ; ns1:standardUncertaintySN 1.3e-08 ; ns1:value 0.51099891 ; - ns1:valueSN 5.109989e-01 ; + ns1:valueSN 5.109989e-01, + 5.109989e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27104,7 +31386,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000023 ; ns1:standardUncertaintySN 2.3e-13 ; ns1:value 0.00054857990943 ; - ns1:valueSN 5.485799e-04 ; + ns1:valueSN 5.485799e-04, + 5.485799e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?meu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27114,7 +31397,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000023 ; ns1:standardUncertaintySN 2.3e-16 ; ns1:value 0.00000054857990943 ; - ns1:valueSN 5.485799e-07 ; + ns1:valueSN 5.485799e-07, + 5.485799e-07 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27124,7 +31408,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000052 ; ns1:standardUncertaintySN 5.2e-06 ; ns1:value 206.7669877 ; - ns1:valueSN 2.06767e+02 ; + ns1:valueSN 2.06767e+02, + 2.06767e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27134,7 +31419,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000012 ; ns1:standardUncertaintySN 1.2e-10 ; ns1:value 0.00483633171 ; - ns1:valueSN 4.836332e-03 ; + ns1:valueSN 4.836332e-03, + 4.836332e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27154,7 +31440,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000033 ; ns1:standardUncertaintySN 3.3e-13 ; ns1:value 0.00054386734459 ; - ns1:valueSN 5.438673e-04 ; + ns1:valueSN 5.438673e-04, + 5.438673e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mesmn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27164,7 +31451,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000054 ; ns1:standardUncertaintySN 5.4e-06 ; ns1:value -658.2106848 ; - ns1:valueSN -6.582107e+02 ; + ns1:valueSN -6.582107e+02, + -6.582107e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27174,7 +31462,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000024 ; ns1:standardUncertaintySN 2.4e-13 ; ns1:value 0.00054461702177 ; - ns1:valueSN 5.44617e-04 ; + ns1:valueSN 5.44617e-04, + 5.44617e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mesmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27194,7 +31483,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000058 ; ns1:standardUncertaintySN 5.8e-14 ; ns1:value 0.00013709335557 ; - ns1:valueSN 1.370934e-04 ; + ns1:valueSN 1.370934e-04, + 1.370934e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27204,7 +31494,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00001 ; ns1:standardUncertaintySN 1e-05 ; ns1:value 864.058257 ; - ns1:valueSN 8.640583e+02 ; + ns1:valueSN 8.640583e+02, + 8.640583e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27214,7 +31505,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000072 ; ns1:standardUncertaintySN 7.2e-06 ; ns1:value -658.2275971 ; - ns1:valueSN -6.582276e+02 ; + ns1:valueSN -6.582276e+02, + -6.582276e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27224,7 +31516,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000027 ; ns1:standardUncertaintySN 2.7e-17 ; ns1:value 0.000000001073544188 ; - ns1:valueSN 1.073544e-09 ; + ns1:valueSN 1.073544e-09, + 1.073544e-09 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27234,7 +31527,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000092 ; ns1:standardUncertaintySN 9.2e-10 ; ns1:value 0.0367493254 ; - ns1:valueSN 3.674933e-02 ; + ns1:valueSN 3.674933e-02, + 3.674933e-02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evhr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27244,7 +31538,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 6000000.0 ; ns1:standardUncertaintySN 6e+06 ; ns1:value 241798945400000.0 ; - ns1:valueSN 2.417989e+14 ; + ns1:valueSN 2.417989e+14, + 2.417989e+14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27254,7 +31549,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.02 ; ns1:standardUncertaintySN 2e-02 ; ns1:value 806554.465 ; - ns1:valueSN 8.065545e+05 ; + ns1:valueSN 8.065545e+05, + 8.065545e+05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27264,7 +31560,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000004 ; ns1:standardUncertaintySN 4e-27 ; ns1:value 0.0000000000000000001602176487 ; - ns1:valueSN 1.602176e-19 ; + ns1:valueSN 1.602176e-19, + 1.602176e-19 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27274,7 +31571,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.02 ; ns1:standardUncertaintySN 2e-02 ; ns1:value 11604.505 ; - ns1:valueSN 1.16045e+04 ; + ns1:valueSN 1.16045e+04, + 1.16045e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27284,7 +31582,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000000000044 ; ns1:standardUncertaintySN 4.4e-44 ; ns1:value 0.000000000000000000000000000000000001782661758 ; - ns1:valueSN 1.782662e-36 ; + ns1:valueSN 1.782662e-36, + 1.782662e-36 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?evkg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27294,7 +31593,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000004 ; ns1:standardUncertaintySN 4e-27 ; ns1:value 0.0000000000000000001602176487 ; - ns1:valueSN 1.602176e-19 ; + ns1:valueSN 1.602176e-19, + 1.602176e-19 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?e#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27304,7 +31604,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 6000000.0 ; ns1:standardUncertaintySN 6e+06 ; ns1:value 241798945400000.0 ; - ns1:valueSN 2.417989e+14 ; + ns1:valueSN 2.417989e+14, + 2.417989e+14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?esh#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27314,7 +31615,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0024 ; ns1:standardUncertaintySN 2.4e-03 ; ns1:value 96485.3399 ; - ns1:valueSN 9.648534e+04 ; + ns1:valueSN 9.648534e+04, + 9.648534e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?f#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27334,7 +31636,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000005 ; ns1:standardUncertaintySN 5e-12 ; ns1:value 0.0072973525376 ; - ns1:valueSN 7.297353e-03 ; + ns1:valueSN 7.297353e-03, + 7.297353e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?alph#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27344,7 +31647,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000019 ; ns1:standardUncertaintySN 1.9e-23 ; ns1:value 0.000000000000000374177118 ; - ns1:valueSN 3.741771e-16 ; + ns1:valueSN 3.741771e-16, + 3.741771e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?c11strc#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27354,7 +31658,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000059 ; ns1:standardUncertaintySN 5.9e-24 ; ns1:value 0.0000000000000001191042759 ; - ns1:valueSN 1.191043e-16 ; + ns1:valueSN 1.191043e-16, + 1.191043e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?c1l#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27371,7 +31676,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000042 ; ns1:standardUncertaintySN 4.2e-17 ; ns1:value 0.000000029212622986 ; - ns1:valueSN 2.921262e-08 ; + ns1:valueSN 2.921262e-08, + 2.921262e-08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hru#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27381,7 +31687,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000068 ; ns1:standardUncertaintySN 6.8e-07 ; ns1:value 27.21138386 ; - ns1:valueSN 2.721138e+01 ; + ns1:valueSN 2.721138e+01, + 2.721138e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27391,7 +31698,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000022 ; ns1:standardUncertaintySN 2.2e-25 ; ns1:value 0.00000000000000000435974394 ; - ns1:valueSN 4.359744e-18 ; + ns1:valueSN 4.359744e-18, + 4.359744e-18 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27401,7 +31709,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000068 ; ns1:standardUncertaintySN 6.8e-07 ; ns1:value 27.21138386 ; - ns1:valueSN 2.721138e+01 ; + ns1:valueSN 2.721138e+01, + 2.721138e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?threv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27411,7 +31720,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 44000.0 ; ns1:standardUncertaintySN 4.4e+04 ; ns1:value 6579683920722000.0 ; - ns1:valueSN 6.579684e+15 ; + ns1:valueSN 6.579684e+15, + 6.579684e+15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27421,7 +31731,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00015 ; ns1:standardUncertaintySN 1.5e-04 ; ns1:value 21947463.13705 ; - ns1:valueSN 2.194746e+07 ; + ns1:valueSN 2.194746e+07, + 2.194746e+07 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27431,7 +31742,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000022 ; ns1:standardUncertaintySN 2.2e-25 ; ns1:value 0.00000000000000000435974394 ; - ns1:valueSN 4.359744e-18 ; + ns1:valueSN 4.359744e-18, + 4.359744e-18 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27441,7 +31753,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.55 ; ns1:standardUncertaintySN 5.5e-01 ; ns1:value 315774.65 ; - ns1:valueSN 3.157747e+05 ; + ns1:valueSN 3.157747e+05, + 3.157747e+05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27451,7 +31764,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000000000000024 ; ns1:standardUncertaintySN 2.4e-42 ; ns1:value 0.0000000000000000000000000000000000485086934 ; - ns1:valueSN 4.850869e-35 ; + ns1:valueSN 4.850869e-35, + 4.850869e-35 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hrkg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27461,7 +31775,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000052 ; ns1:standardUncertaintySN 5.2e-06 ; ns1:value 5495.8852765 ; - ns1:valueSN 5.495885e+03 ; + ns1:valueSN 5.495885e+03, + 5.495885e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mhsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27471,7 +31786,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000025 ; ns1:standardUncertaintySN 2.5e-34 ; ns1:value 0.00000000000000000000000000500641192 ; - ns1:valueSN 5.006412e-27 ; + ns1:valueSN 5.006412e-27, + 5.006412e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mh#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27481,7 +31797,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000022 ; ns1:standardUncertaintySN 2.2e-17 ; ns1:value 0.000000000449953864 ; - ns1:valueSN 4.499539e-10 ; + ns1:valueSN 4.499539e-10, + 4.499539e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mhc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27491,7 +31808,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00007 ; ns1:standardUncertaintySN 7e-05 ; ns1:value 2808.391383 ; - ns1:valueSN 2.808391e+03 ; + ns1:valueSN 2.808391e+03, + 2.808391e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27501,7 +31819,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000026 ; ns1:standardUncertaintySN 2.6e-09 ; ns1:value 3.0149322473 ; - ns1:valueSN 3.014932e+00 ; + ns1:valueSN 3.014932e+00, + 3.014932e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mhu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27511,7 +31830,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000026 ; ns1:standardUncertaintySN 2.6e-12 ; ns1:value 0.0030149322473 ; - ns1:valueSN 3.014932e-03 ; + ns1:valueSN 3.014932e-03, + 3.014932e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmh#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27521,7 +31841,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000026 ; ns1:standardUncertaintySN 2.6e-09 ; ns1:value 2.9931526713 ; - ns1:valueSN 2.993153e+00 ; + ns1:valueSN 2.993153e+00, + 2.993153e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27531,7 +31852,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000064 ; ns1:standardUncertaintySN 6.4e-33 ; ns1:value 0.0000000000000000000000044398216294 ; - ns1:valueSN 4.439822e-24 ; + ns1:valueSN 4.439822e-24, + 4.439822e-24 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27541,7 +31863,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000001 ; ns1:standardUncertaintySN 1e-22 ; ns1:value 0.00000000000000413566733 ; - ns1:valueSN 4.135667e-15 ; + ns1:valueSN 4.135667e-15, + 4.135667e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27551,7 +31874,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000001 ; ns1:standardUncertaintySN 1e-12 ; ns1:value 0.0000000000000001519829846006 ; - ns1:valueSN 1.51983e-16 ; + ns1:valueSN 1.51983e-16, + 1.51983e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzhr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27559,7 +31883,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 0.000000003335640951 ; - ns1:valueSN 3.335641e-09 ; + ns1:valueSN 3.335641e-09, + 3.335641e-09 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27569,7 +31894,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000000033 ; ns1:standardUncertaintySN 3.3e-41 ; ns1:value 0.000000000000000000000000000000000662606896 ; - ns1:valueSN 6.626069e-34 ; + ns1:valueSN 6.626069e-34, + 6.626069e-34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27579,7 +31905,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000084 ; ns1:standardUncertaintySN 8.4e-17 ; ns1:value 0.000000000047992374 ; - ns1:valueSN 4.799237e-11 ; + ns1:valueSN 4.799237e-11, + 4.799237e-11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hzk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27599,7 +31926,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000094 ; ns1:standardUncertaintySN 9.4e-08 ; ns1:value 137.035999679 ; - ns1:valueSN 1.37036e+02 ; + ns1:valueSN 1.37036e+02, + 1.37036e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?alphinv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27609,7 +31937,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000019 ; ns1:standardUncertaintySN 1.9e-24 ; ns1:value 0.0000000000000013310250394 ; - ns1:valueSN 1.331025e-15 ; + ns1:valueSN 1.331025e-15, + 1.331025e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27619,7 +31948,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000031 ; ns1:standardUncertaintySN 3.1e-14 ; ns1:value 0.000001239841875 ; - ns1:valueSN 1.239842e-06 ; + ns1:valueSN 1.239842e-06, + 1.239842e-06 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27629,7 +31959,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000003 ; ns1:standardUncertaintySN 3e-19 ; ns1:value 0.0000000455633525276 ; - ns1:valueSN 4.556335e-08 ; + ns1:valueSN 4.556335e-08, + 4.556335e-08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvhr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27637,7 +31968,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 299792458.0 ; - ns1:valueSN 2.997925e+08 ; + ns1:valueSN 2.997925e+08, + 2.997925e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27647,7 +31979,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000099 ; ns1:standardUncertaintySN 9.9e-33 ; ns1:value 0.0000000000000000000000001986445501 ; - ns1:valueSN 1.986446e-25 ; + ns1:valueSN 1.986446e-25, + 1.986446e-25 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27657,7 +31990,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000025 ; ns1:standardUncertaintySN 2.5e-08 ; ns1:value 0.014387752 ; - ns1:valueSN 1.438775e-02 ; + ns1:valueSN 1.438775e-02, + 1.438775e-02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27667,7 +32001,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000000000000000011 ; ns1:standardUncertaintySN 1.1e-49 ; ns1:value 0.0000000000000000000000000000000000000000022102187 ; - ns1:valueSN 2.210219e-42 ; + ns1:valueSN 2.210219e-42, + 2.210219e-42 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?minvkg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27677,7 +32012,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000088 ; ns1:standardUncertaintySN 8.8e-06 ; ns1:value 12906.4037787 ; - ns1:valueSN 1.29064e+04 ; + ns1:valueSN 1.29064e+04, + 1.29064e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?invconqu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27687,7 +32023,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 12000000.0 ; ns1:standardUncertaintySN 1.2e+07 ; ns1:value 483597891000000.0 ; - ns1:valueSN 4.835979e+14 ; + ns1:valueSN 4.835979e+14, + 4.835979e+14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kjos#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27697,7 +32034,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 330.0 ; ns1:standardUncertaintySN 3.3e+02 ; ns1:value 6700536410.0 ; - ns1:valueSN 6.700536e+09 ; + ns1:valueSN 6.700536e+09, + 6.700536e+09 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ju#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27707,7 +32045,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 160000000000.0 ; ns1:standardUncertaintySN 1.6e+11 ; ns1:value 6241509650000000000.0 ; - ns1:valueSN 6.24151e+18 ; + ns1:valueSN 6.24151e+18, + 6.24151e+18 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?jev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27717,7 +32056,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 11000000000.0 ; ns1:standardUncertaintySN 1.1e+10 ; ns1:value 229371269000000000.0 ; - ns1:valueSN 2.293713e+17 ; + ns1:valueSN 2.293713e+17, + 2.293713e+17 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?jhr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27727,7 +32067,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 75000000000000000000000000.0 ; ns1:standardUncertaintySN 7.5e+25 ; ns1:value 1509190450000000000000000000000000.0 ; - ns1:valueSN 1.50919e+33 ; + ns1:valueSN 1.50919e+33, + 1.50919e+33 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?jhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27737,7 +32078,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 250000000000000000.0 ; ns1:standardUncertaintySN 2.5e+17 ; ns1:value 5034117470000000000000000.0 ; - ns1:valueSN 5.034117e+24 ; + ns1:valueSN 5.034117e+24, + 5.034117e+24 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?jminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27755,7 +32097,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 0.00000000000000001112650056 ; - ns1:valueSN 1.11265e-17 ; + ns1:valueSN 1.11265e-17, + 1.11265e-17 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?jkg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27785,7 +32128,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000055 ; ns1:standardUncertaintySN 5.5e-12 ; ns1:value 0.0000031668153 ; - ns1:valueSN 3.166815e-06 ; + ns1:valueSN 3.166815e-06, + 3.166815e-06 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?khr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27795,7 +32139,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 36000.0 ; ns1:standardUncertaintySN 3.6e+04 ; ns1:value 20836644000.0 ; - ns1:valueSN 2.083664e+10 ; + ns1:valueSN 2.083664e+10, + 2.083664e+10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?khz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27815,7 +32160,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000024 ; ns1:standardUncertaintySN 2.4e-29 ; ns1:value 0.000000000000000000000013806504 ; - ns1:valueSN 1.38065e-23 ; + ns1:valueSN 1.38065e-23, + 1.38065e-23 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27825,7 +32171,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000000000000027 ; ns1:standardUncertaintySN 2.7e-46 ; ns1:value 0.00000000000000000000000000000000000000015361807 ; - ns1:valueSN 1.536181e-40 ; + ns1:valueSN 1.536181e-40, + 1.536181e-40 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kkg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27835,7 +32182,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 30000000000000000000.0 ; ns1:standardUncertaintySN 3e+19 ; ns1:value 602214179000000000000000000.0 ; - ns1:valueSN 6.022142e+26 ; + ns1:valueSN 6.022142e+26, + 6.022142e+26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kgu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27845,7 +32193,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 14000000000000000000000000000.0 ; ns1:standardUncertaintySN 1.4e+28 ; ns1:value 560958912000000000000000000000000000.0 ; - ns1:valueSN 5.609589e+35 ; + ns1:valueSN 5.609589e+35, + 5.609589e+35 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kgev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27855,7 +32204,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 1000000000000000000000000000.0 ; ns1:standardUncertaintySN 1e+27 ; ns1:value 20614861600000000000000000000000000.0 ; - ns1:valueSN 2.061486e+34 ; + ns1:valueSN 2.061486e+34, + 2.061486e+34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kghr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27865,7 +32215,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 6800000000000000000000000000000000000000000.0 ; ns1:standardUncertaintySN 6.8e+42 ; ns1:value 135639273300000000000000000000000000000000000000000.0 ; - ns1:valueSN 1.356393e+50 ; + ns1:valueSN 1.356393e+50, + 1.356393e+50 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kghz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27875,7 +32226,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 23000000000000000000000000000000000.0 ; ns1:standardUncertaintySN 2.3e+34 ; ns1:value 452443915000000000000000000000000000000000.0 ; - ns1:valueSN 4.524439e+41 ; + ns1:valueSN 4.524439e+41, + 4.524439e+41 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kgminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27883,7 +32235,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 89875517870000000.0 ; - ns1:valueSN 8.987552e+16 ; + ns1:valueSN 8.987552e+16, + 8.987552e+16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?kgj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27903,7 +32256,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000014 ; ns1:standardUncertaintySN 1.4e-17 ; ns1:value 0.000000000543102064 ; - ns1:valueSN 5.431021e-10 ; + ns1:valueSN 5.431021e-10, + 5.431021e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?asil#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27913,7 +32267,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000005 ; ns1:standardUncertaintySN 5e-18 ; ns1:value 0.0000000001920155762 ; - ns1:valueSN 1.920156e-10 ; + ns1:valueSN 1.920156e-10, + 1.920156e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?d220sil#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27923,7 +32278,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000052 ; ns1:standardUncertaintySN 5.2e-23 ; ns1:value 0.000000000000002067833667 ; - ns1:valueSN 2.067834e-15 ; + ns1:valueSN 2.067834e-15, + 2.067834e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27933,7 +32289,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000053 ; ns1:standardUncertaintySN 5.3e-20 ; ns1:value 0.000000000000100209955 ; - ns1:valueSN 1.0021e-13 ; + ns1:valueSN 1.0021e-13, + 1.0021e-13 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27959,7 +32316,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000057 ; ns1:standardUncertaintySN 5.7e-19 ; ns1:value 0.00000000039903126821 ; - ns1:valueSN 3.990313e-10 ; + ns1:valueSN 3.990313e-10, + 3.990313e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?nah#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27969,7 +32327,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000017 ; ns1:standardUncertaintySN 1.7e-10 ; ns1:value 0.11962656472 ; - ns1:valueSN 1.196266e-01 ; + ns1:valueSN 1.196266e-01, + 1.196266e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?nahc#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27979,7 +32338,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000011 ; ns1:standardUncertaintySN 1.1e-12 ; ns1:value 0.0000120588349 ; - ns1:valueSN 1.205883e-05 ; + ns1:valueSN 1.205883e-05, + 1.205883e-05 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27989,7 +32349,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000003 ; ns1:standardUncertaintySN 3e-22 ; ns1:value 0.00000000000001173444104 ; - ns1:valueSN 1.173444e-14 ; + ns1:valueSN 1.173444e-14, + 1.173444e-14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -27999,7 +32360,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000047 ; ns1:standardUncertaintySN 4.7e-23 ; ns1:value 0.000000000000001867594295 ; - ns1:valueSN 1.867594e-15 ; + ns1:valueSN 1.867594e-15, + 1.867594e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28009,7 +32371,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000052 ; ns1:standardUncertaintySN 5.2e-06 ; ns1:value 206.7682823 ; - ns1:valueSN 2.067683e+02 ; + ns1:valueSN 2.067683e+02, + 2.067683e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmusme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28019,7 +32382,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000012 ; ns1:standardUncertaintySN 1.2e-09 ; ns1:value -2.0023318414 ; - ns1:valueSN -2.002332e+00 ; + ns1:valueSN -2.002332e+00, + -2.002332e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gmum#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28029,7 +32393,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000016 ; ns1:standardUncertaintySN 1.6e-33 ; ns1:value -0.0000000000000000000000000449044786 ; - ns1:valueSN -4.490448e-26 ; + ns1:valueSN -4.490448e-26, + -4.490448e-26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mumum#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28039,7 +32404,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000006 ; ns1:standardUncertaintySN 6e-10 ; ns1:value 0.00116592069 ; - ns1:valueSN 1.165921e-03 ; + ns1:valueSN 1.165921e-03, + 1.165921e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?amu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28049,7 +32415,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000012 ; ns1:standardUncertaintySN 1.2e-10 ; ns1:value -0.00484197049 ; - ns1:valueSN -4.84197e-03 ; + ns1:valueSN -4.84197e-03, + -4.84197e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28059,7 +32426,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000023 ; ns1:standardUncertaintySN 2.3e-07 ; ns1:value -8.89059705 ; - ns1:valueSN -8.890597e+00 ; + ns1:valueSN -8.890597e+00, + -8.890597e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28069,7 +32437,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000011 ; ns1:standardUncertaintySN 1.1e-35 ; ns1:value 0.00000000000000000000000000018835313 ; - ns1:valueSN 1.883531e-28 ; + ns1:valueSN 1.883531e-28, + 1.883531e-28 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28079,7 +32448,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000095 ; ns1:standardUncertaintySN 9.5e-19 ; ns1:value 0.0000000000169283351 ; - ns1:valueSN 1.692834e-11 ; + ns1:valueSN 1.692834e-11, + 1.692834e-11 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28089,7 +32459,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000038 ; ns1:standardUncertaintySN 3.8e-06 ; ns1:value 105.6583668 ; - ns1:valueSN 1.056584e+02 ; + ns1:valueSN 1.056584e+02, + 1.056584e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28099,7 +32470,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000029 ; ns1:standardUncertaintySN 2.9e-09 ; ns1:value 0.1134289256 ; - ns1:valueSN 1.134289e-01 ; + ns1:valueSN 1.134289e-01, + 1.134289e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmuu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28109,7 +32481,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000029 ; ns1:standardUncertaintySN 2.9e-12 ; ns1:value 0.0001134289256 ; - ns1:valueSN 1.134289e-04 ; + ns1:valueSN 1.134289e-04, + 1.134289e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmmu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28119,7 +32492,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000029 ; ns1:standardUncertaintySN 2.9e-09 ; ns1:value 0.1124545167 ; - ns1:valueSN 1.124545e-01 ; + ns1:valueSN 1.124545e-01, + 1.124545e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28129,7 +32503,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000085 ; ns1:standardUncertaintySN 8.5e-08 ; ns1:value -3.183345137 ; - ns1:valueSN -3.183345e+00 ; + ns1:valueSN -3.183345e+00, + -3.183345e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28139,7 +32514,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000029 ; ns1:standardUncertaintySN 2.9e-09 ; ns1:value 0.1126095261 ; - ns1:valueSN 1.126095e-01 ; + ns1:valueSN 1.126095e-01, + 1.126095e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28159,7 +32535,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000000000000053 ; ns1:standardUncertaintySN 5.3e-42 ; ns1:value 0.0000000000000000000000000000000001054571628 ; - ns1:valueSN 1.054572e-34 ; + ns1:valueSN 1.054572e-34, + 1.054572e-34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?thbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28169,7 +32546,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000016 ; ns1:standardUncertaintySN 1.6e-23 ; ns1:value 0.000000000000000658211899 ; - ns1:valueSN 6.582119e-16 ; + ns1:valueSN 6.582119e-16, + 6.582119e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?thbarev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28179,7 +32557,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000041 ; ns1:standardUncertaintySN 4.1e-21 ; ns1:value 0.0000000000000818710438 ; - ns1:valueSN 8.187104e-14 ; + ns1:valueSN 8.187104e-14, + 8.187104e-14 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tmec2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28189,7 +32568,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000013 ; ns1:standardUncertaintySN 1.3e-08 ; ns1:value 0.51099891 ; - ns1:valueSN 5.109989e-01 ; + ns1:valueSN 5.109989e-01, + 5.109989e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tmec2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28199,7 +32579,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000053 ; ns1:standardUncertaintySN 5.3e-22 ; ns1:value 0.00000000000038615926459 ; - ns1:valueSN 3.861593e-13 ; + ns1:valueSN 3.861593e-13, + 3.861593e-13 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tecomwlbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28209,7 +32590,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000045 ; ns1:standardUncertaintySN 4.5e-38 ; ns1:value 0.000000000000000000000000000000910938215 ; - ns1:valueSN 9.109382e-31 ; + ns1:valueSN 9.109382e-31, + 9.109382e-31 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28219,7 +32601,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000014 ; ns1:standardUncertaintySN 1.4e-29 ; ns1:value 0.000000000000000000000273092406 ; - ns1:valueSN 2.730924e-22 ; + ns1:valueSN 2.730924e-22, + 2.730924e-22 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mec#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28229,7 +32612,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000013 ; ns1:standardUncertaintySN 1.3e-08 ; ns1:value 0.51099891 ; - ns1:valueSN 5.109989e-01 ; + ns1:valueSN 5.109989e-01, + 5.109989e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28239,7 +32623,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000018 ; ns1:standardUncertaintySN 1.8e-30 ; ns1:value 0.000000000000000000001288088657 ; - ns1:valueSN 1.288089e-21 ; + ns1:valueSN 1.288089e-21, + 1.288089e-21 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?nut#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28247,7 +32632,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 299792458.0 ; - ns1:valueSN 2.997925e+08 ; + ns1:valueSN 2.997925e+08, + 2.997925e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tc#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28257,7 +32643,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000002 ; ns1:standardUncertaintySN 2e-24 ; ns1:value 0.0000000000000013195908951 ; - ns1:valueSN 1.319591e-15 ; + ns1:valueSN 1.319591e-15, + 1.319591e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28267,7 +32654,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000031 ; ns1:standardUncertaintySN 3.1e-25 ; ns1:value 0.00000000000000021001941382 ; - ns1:valueSN 2.100194e-16 ; + ns1:valueSN 2.100194e-16, + 2.100194e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28277,7 +32665,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000025 ; ns1:standardUncertaintySN 2.5e-10 ; ns1:value 0.00104066882 ; - ns1:valueSN 1.040669e-03 ; + ns1:valueSN 1.040669e-03, + 1.040669e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munsmue#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28287,7 +32676,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000011 ; ns1:standardUncertaintySN 1.1e-06 ; ns1:value 1838.6836605 ; - ns1:valueSN 1.838684e+03 ; + ns1:valueSN 1.838684e+03, + 1.838684e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28297,7 +32687,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000009 ; ns1:standardUncertaintySN 9e-07 ; ns1:value -3.82608545 ; - ns1:valueSN -3.826085e+00 ; + ns1:valueSN -3.826085e+00, + -3.826085e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gnn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28307,7 +32698,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 43.0 ; ns1:standardUncertaintySN 4.3e+01 ; ns1:value 183247185.0 ; - ns1:valueSN 1.832472e+08 ; + ns1:valueSN 1.832472e+08, + 1.832472e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gamman#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28317,7 +32709,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000069 ; ns1:standardUncertaintySN 6.9e-06 ; ns1:value 29.1646954 ; - ns1:valueSN 2.91647e+01 ; + ns1:valueSN 2.91647e+01, + 2.91647e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28327,7 +32720,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000023 ; ns1:standardUncertaintySN 2.3e-33 ; ns1:value -0.0000000000000000000000000096623641 ; - ns1:valueSN -9.662364e-27 ; + ns1:valueSN -9.662364e-27, + -9.662364e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28337,7 +32731,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000025 ; ns1:standardUncertaintySN 2.5e-10 ; ns1:value -0.00104187563 ; - ns1:valueSN -1.041876e-03 ; + ns1:valueSN -1.041876e-03, + -1.041876e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28347,7 +32742,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000045 ; ns1:standardUncertaintySN 4.5e-07 ; ns1:value -1.91304273 ; - ns1:valueSN -1.913043e+00 ; + ns1:valueSN -1.913043e+00, + -1.913043e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28357,7 +32753,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000084 ; ns1:standardUncertaintySN 8.4e-35 ; ns1:value 0.000000000000000000000000001674927211 ; - ns1:valueSN 1.674927e-27 ; + ns1:valueSN 1.674927e-27, + 1.674927e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28367,7 +32764,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000075 ; ns1:standardUncertaintySN 7.5e-18 ; ns1:value 0.0000000001505349505 ; - ns1:valueSN 1.50535e-10 ; + ns1:valueSN 1.50535e-10, + 1.50535e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28377,7 +32775,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000023 ; ns1:standardUncertaintySN 2.3e-05 ; ns1:value 939.565346 ; - ns1:valueSN 9.395653e+02 ; + ns1:valueSN 9.395653e+02, + 9.395653e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28387,7 +32786,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000043 ; ns1:standardUncertaintySN 4.3e-10 ; ns1:value 1.00866491597 ; - ns1:valueSN 1.008665e+00 ; + ns1:valueSN 1.008665e+00, + 1.008665e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28397,7 +32797,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000043 ; ns1:standardUncertaintySN 4.3e-13 ; ns1:value 0.00100866491597 ; - ns1:valueSN 1.008665e-03 ; + ns1:valueSN 1.008665e-03, + 1.008665e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28407,7 +32808,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000023 ; ns1:standardUncertaintySN 2.3e-07 ; ns1:value 8.89248409 ; - ns1:valueSN 8.892484e+00 ; + ns1:valueSN 8.892484e+00, + 8.892484e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28417,7 +32819,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000016 ; ns1:standardUncertaintySN 1.6e-07 ; ns1:value -0.68497934 ; - ns1:valueSN -6.849793e-01 ; + ns1:valueSN -6.849793e-01, + -6.849793e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28427,7 +32830,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000046 ; ns1:standardUncertaintySN 4.6e-10 ; ns1:value 1.00137841918 ; - ns1:valueSN 1.001378e+00 ; + ns1:valueSN 1.001378e+00, + 1.001378e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28447,7 +32851,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000016 ; ns1:standardUncertaintySN 1.6e-07 ; ns1:value -0.68499694 ; - ns1:valueSN -6.849969e-01 ; + ns1:valueSN -6.849969e-01, + -6.849969e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28468,7 +32873,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000013 ; ns1:standardUncertaintySN 1.3e-34 ; ns1:value 0.00000000000000000000000000505078324 ; - ns1:valueSN 5.050783e-27 ; + ns1:valueSN 5.050783e-27, + 5.050783e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28478,7 +32884,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000045 ; ns1:standardUncertaintySN 4.5e-17 ; ns1:value 0.000000031524512326 ; - ns1:valueSN 3.152451e-08 ; + ns1:valueSN 3.152451e-08, + 3.152451e-08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28488,7 +32895,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000064 ; ns1:standardUncertaintySN 6.4e-10 ; ns1:value 0.02542623616 ; - ns1:valueSN 2.542624e-02 ; + ns1:valueSN 2.542624e-02, + 2.542624e-02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28498,7 +32906,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000064 ; ns1:standardUncertaintySN 6.4e-10 ; ns1:value 0.00036582637 ; - ns1:valueSN 3.658264e-04 ; + ns1:valueSN 3.658264e-04, + 3.658264e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munskk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28508,7 +32917,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000019 ; ns1:standardUncertaintySN 1.9e-07 ; ns1:value 7.62259384 ; - ns1:valueSN 7.622594e+00 ; + ns1:valueSN 7.622594e+00, + 7.622594e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?munshhz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28516,7 +32926,8 @@ ns1:width a rdf:Property ; ns1:hasUnit ; ns1:relativeStandardUncertainty 1.5e-10 ; ns1:value 0.0000000000068541878128 ; - ns1:valueSN 6.854188e-12 . + ns1:valueSN 6.854188e-12, + 6.854188e-12 . a ns1:ConstantValue ; rdfs:label "Value for Pi"^^xsd:string ; @@ -28525,7 +32936,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0 ; ns1:standardUncertaintySN 0e+00 ; ns1:value 3.141592653589793238462643383279502884197 ; - ns1:valueSN 3.141593e+00 . + ns1:valueSN 3.141593e+00, + 3.141593e+00 . a ns1:ConstantValue ; rdfs:label "Value for Planck constant"^^xsd:string ; @@ -28534,7 +32946,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000000000033 ; ns1:standardUncertaintySN 3.3e-41 ; ns1:value 0.000000000000000000000000000000000662606896 ; - ns1:valueSN 6.626069e-34 ; + ns1:valueSN 6.626069e-34, + 6.626069e-34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?h#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28544,7 +32957,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000001 ; ns1:standardUncertaintySN 1e-22 ; ns1:value 0.00000000000000413566733 ; - ns1:valueSN 4.135667e-15 ; + ns1:valueSN 4.135667e-15, + 4.135667e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28554,7 +32968,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000016 ; ns1:standardUncertaintySN 1.6e-23 ; ns1:value 0.000000000000000658211899 ; - ns1:valueSN 6.582119e-16 ; + ns1:valueSN 6.582119e-16, + 6.582119e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hbarev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28564,7 +32979,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000049 ; ns1:standardUncertaintySN 4.9e-06 ; ns1:value 197.3269631 ; - ns1:valueSN 1.97327e+02 ; + ns1:valueSN 1.97327e+02, + 1.97327e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28624,7 +33040,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 2.4 ; ns1:standardUncertaintySN 2.4e+00 ; ns1:value 95788339.2 ; - ns1:valueSN 9.578834e+07 ; + ns1:valueSN 9.578834e+07, + 9.578834e+07 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?esmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28634,7 +33051,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000019 ; ns1:standardUncertaintySN 1.9e-24 ; ns1:value 0.0000000000000013214098446 ; - ns1:valueSN 1.32141e-15 ; + ns1:valueSN 1.32141e-15, + 1.32141e-15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28644,7 +33062,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000003 ; ns1:standardUncertaintySN 3e-25 ; ns1:value 0.00000000000000021030890861 ; - ns1:valueSN 2.103089e-16 ; + ns1:valueSN 2.103089e-16, + 2.103089e-16 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28654,7 +33073,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000008 ; ns1:standardUncertaintySN 8e-07 ; ns1:value 1836.15267247 ; - ns1:valueSN 1.836153e+03 ; + ns1:valueSN 1.836153e+03, + 1.836153e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28664,7 +33084,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000046 ; ns1:standardUncertaintySN 4.6e-08 ; ns1:value 5.585694713 ; - ns1:valueSN 5.585695e+00 ; + ns1:valueSN 5.585695e+00, + 5.585695e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28674,7 +33095,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 7.0 ; ns1:standardUncertaintySN 7e+00 ; ns1:value 267522209.9 ; - ns1:valueSN 2.675222e+08 ; + ns1:valueSN 2.675222e+08, + 2.675222e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammap#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28684,7 +33106,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000011 ; ns1:standardUncertaintySN 1.1e-06 ; ns1:value 42.5774821 ; - ns1:valueSN 4.257748e+01 ; + ns1:valueSN 4.257748e+01, + 4.257748e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28694,7 +33117,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000037 ; ns1:standardUncertaintySN 3.7e-34 ; ns1:value 0.00000000000000000000000001410606662 ; - ns1:valueSN 1.410607e-26 ; + ns1:valueSN 1.410607e-26, + 1.410607e-26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28704,7 +33128,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000012 ; ns1:standardUncertaintySN 1.2e-11 ; ns1:value 0.001521032209 ; - ns1:valueSN 1.521032e-03 ; + ns1:valueSN 1.521032e-03, + 1.521032e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28714,7 +33139,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000023 ; ns1:standardUncertaintySN 2.3e-08 ; ns1:value 2.792847356 ; - ns1:valueSN 2.792847e+00 ; + ns1:valueSN 2.792847e+00, + 2.792847e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28734,7 +33160,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000083 ; ns1:standardUncertaintySN 8.3e-35 ; ns1:value 0.000000000000000000000000001672621637 ; - ns1:valueSN 1.672622e-27 ; + ns1:valueSN 1.672622e-27, + 1.672622e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28744,7 +33171,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000075 ; ns1:standardUncertaintySN 7.5e-18 ; ns1:value 0.0000000001503277359 ; - ns1:valueSN 1.503277e-10 ; + ns1:valueSN 1.503277e-10, + 1.503277e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28754,7 +33182,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000023 ; ns1:standardUncertaintySN 2.3e-05 ; ns1:value 938.272013 ; - ns1:valueSN 9.38272e+02 ; + ns1:valueSN 9.38272e+02, + 9.38272e+02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28764,7 +33193,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000001 ; ns1:standardUncertaintySN 1e-10 ; ns1:value 1.00727646677 ; - ns1:valueSN 1.007276e+00 ; + ns1:valueSN 1.007276e+00, + 1.007276e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28774,7 +33204,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000001 ; ns1:standardUncertaintySN 1e-13 ; ns1:value 0.00100727646677 ; - ns1:valueSN 1.007276e-03 ; + ns1:valueSN 1.007276e-03, + 1.007276e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28784,7 +33215,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000023 ; ns1:standardUncertaintySN 2.3e-07 ; ns1:value 8.88024339 ; - ns1:valueSN 8.880243e+00 ; + ns1:valueSN 8.880243e+00, + 8.880243e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28794,7 +33226,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000034 ; ns1:standardUncertaintySN 3.4e-07 ; ns1:value -1.45989806 ; - ns1:valueSN -1.459898e+00 ; + ns1:valueSN -1.459898e+00, + -1.459898e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28804,7 +33237,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000046 ; ns1:standardUncertaintySN 4.6e-10 ; ns1:value 0.99862347824 ; - ns1:valueSN 9.986235e-01 ; + ns1:valueSN 9.986235e-01, + 9.986235e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28834,7 +33268,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000005 ; ns1:standardUncertaintySN 5e-13 ; ns1:value 0.00036369475199 ; - ns1:valueSN 3.636948e-04 ; + ns1:valueSN 3.636948e-04, + 3.636948e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28844,7 +33279,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000001 ; ns1:standardUncertaintySN 1e-12 ; ns1:value 0.000727389504 ; - ns1:valueSN 7.273895e-04 ; + ns1:valueSN 7.273895e-04, + 7.273895e-04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28854,7 +33290,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000073 ; ns1:standardUncertaintySN 7.3e-05 ; ns1:value 10973731.568527 ; - ns1:valueSN 1.097373e+07 ; + ns1:valueSN 1.097373e+07, + 1.097373e+07 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?ryd#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28864,7 +33301,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 22000.0 ; ns1:standardUncertaintySN 2.2e+04 ; ns1:value 3289841960361000.0 ; - ns1:valueSN 3.289842e+15 ; + ns1:valueSN 3.289842e+15, + 3.289842e+15 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?rydchz#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28874,7 +33312,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000034 ; ns1:standardUncertaintySN 3.4e-07 ; ns1:value 13.60569193 ; - ns1:valueSN 1.360569e+01 ; + ns1:valueSN 1.360569e+01, + 1.360569e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28884,7 +33323,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000011 ; ns1:standardUncertaintySN 1.1e-25 ; ns1:value 0.00000000000000000217987197 ; - ns1:valueSN 2.179872e-18 ; + ns1:valueSN 2.179872e-18, + 2.179872e-18 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28894,7 +33334,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000044 ; ns1:standardUncertaintySN 4.4e-06 ; ns1:value -1.1517047 ; - ns1:valueSN -1.151705e+00 ; + ns1:valueSN -1.151705e+00, + -1.151705e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?s0sr#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28904,7 +33345,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000025 ; ns1:standardUncertaintySN 2.5e-08 ; ns1:value 0.014387752 ; - ns1:valueSN 1.438775e-02 ; + ns1:valueSN 1.438775e-02, + 1.438775e-02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28914,7 +33356,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 5.6 ; ns1:standardUncertaintySN 5.6e+00 ; ns1:value 203789473.0 ; - ns1:valueSN 2.037895e+08 ; + ns1:valueSN 2.037895e+08, + 2.037895e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammahp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28924,7 +33367,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000009 ; ns1:standardUncertaintySN 9e-07 ; ns1:value 32.43410198 ; - ns1:valueSN 3.24341e+01 ; + ns1:valueSN 3.24341e+01, + 3.24341e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28934,7 +33378,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000003 ; ns1:standardUncertaintySN 3e-34 ; ns1:value -0.00000000000000000000000001074552982 ; - ns1:valueSN -1.074553e-26 ; + ns1:valueSN -1.074553e-26, + -1.074553e-26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muhp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28944,7 +33389,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000014 ; ns1:standardUncertaintySN 1.4e-11 ; ns1:value -0.001158671471 ; - ns1:valueSN -1.158671e-03 ; + ns1:valueSN -1.158671e-03, + -1.158671e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28954,7 +33400,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000025 ; ns1:standardUncertaintySN 2.5e-08 ; ns1:value -2.127497718 ; - ns1:valueSN -2.127498e+00 ; + ns1:valueSN -2.127498e+00, + -2.127498e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28964,7 +33411,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000011 ; ns1:standardUncertaintySN 1.1e-08 ; ns1:value -0.761766558 ; - ns1:valueSN -7.617666e-01 ; + ns1:valueSN -7.617666e-01, + -7.617666e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28974,7 +33422,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000033 ; ns1:standardUncertaintySN 3.3e-09 ; ns1:value -0.7617861313 ; - ns1:valueSN -7.617861e-01 ; + ns1:valueSN -7.617861e-01, + -7.617861e-01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28984,7 +33433,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 7.3 ; ns1:standardUncertaintySN 7.3e+00 ; ns1:value 267515336.2 ; - ns1:valueSN 2.675153e+08 ; + ns1:valueSN 2.675153e+08, + 2.675153e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammapp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -28994,7 +33444,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000012 ; ns1:standardUncertaintySN 1.2e-06 ; ns1:value 42.5763881 ; - ns1:valueSN 4.257639e+01 ; + ns1:valueSN 4.257639e+01, + 4.257639e+01 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29004,7 +33455,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000038 ; ns1:standardUncertaintySN 3.8e-34 ; ns1:value 0.00000000000000000000000001410570419 ; - ns1:valueSN 1.41057e-26 ; + ns1:valueSN 1.41057e-26, + 1.41057e-26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mupp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29014,7 +33466,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000017 ; ns1:standardUncertaintySN 1.7e-11 ; ns1:value 0.001520993128 ; - ns1:valueSN 1.520993e-03 ; + ns1:valueSN 1.520993e-03, + 1.520993e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29024,7 +33477,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000003 ; ns1:standardUncertaintySN 3e-08 ; ns1:value 2.792775598 ; - ns1:valueSN 2.792776e+00 ; + ns1:valueSN 2.792776e+00, + 2.792776e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29035,14 +33489,16 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0 ; ns1:standardUncertaintySN 0e+00 ; ns1:value 299792458.0 ; - ns1:valueSN 2.997925e+08 . + ns1:valueSN 2.997925e+08, + 2.997925e+08 . a ns1:ConstantValue ; rdfs:label "Value for speed of light in vacuum (Imperial units)"^^xsd:string ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 670616629.0 ; - ns1:valueSN 6.706166e+08 ; + ns1:valueSN 6.706166e+08, + 6.706166e+08 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?c#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29188,7 +33644,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000000027 ; ns1:standardUncertaintySN 2.7e-37 ; ns1:value 0.00000000000000000000000000006652458558 ; - ns1:valueSN 6.652459e-29 ; + ns1:valueSN 6.652459e-29, + 6.652459e-29 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?sigmae#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29198,7 +33655,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000021 ; ns1:standardUncertaintySN 2.1e-11 ; ns1:value -0.001620514423 ; - ns1:valueSN -1.620514e-03 ; + ns1:valueSN -1.620514e-03, + -1.620514e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mutsmuem#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29208,7 +33666,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000051 ; ns1:standardUncertaintySN 5.1e-06 ; ns1:value 5496.9215269 ; - ns1:valueSN 5.496922e+03 ; + ns1:valueSN 5.496922e+03, + 5.496922e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mtsme#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29218,7 +33677,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000076 ; ns1:standardUncertaintySN 7.6e-08 ; ns1:value 5.957924896 ; - ns1:valueSN 5.957925e+00 ; + ns1:valueSN 5.957925e+00, + 5.957925e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?gtn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29228,7 +33688,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000042 ; ns1:standardUncertaintySN 4.2e-34 ; ns1:value 0.00000000000000000000000001504609361 ; - ns1:valueSN 1.504609e-26 ; + ns1:valueSN 1.504609e-26, + 1.504609e-26 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mut#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29238,7 +33699,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000021 ; ns1:standardUncertaintySN 2.1e-11 ; ns1:value 0.001622393657 ; - ns1:valueSN 1.622394e-03 ; + ns1:valueSN 1.622394e-03, + 1.622394e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29248,7 +33710,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000038 ; ns1:standardUncertaintySN 3.8e-08 ; ns1:value 2.978962448 ; - ns1:valueSN 2.978962e+00 ; + ns1:valueSN 2.978962e+00, + 2.978962e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29258,7 +33721,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000000000000000000000000000000025 ; ns1:standardUncertaintySN 2.5e-34 ; ns1:value 0.00000000000000000000000000500735588 ; - ns1:valueSN 5.007356e-27 ; + ns1:valueSN 5.007356e-27, + 5.007356e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mt#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29268,7 +33732,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000022 ; ns1:standardUncertaintySN 2.2e-17 ; ns1:value 0.000000000450038703 ; - ns1:valueSN 4.500387e-10 ; + ns1:valueSN 4.500387e-10, + 4.500387e-10 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mtc2#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29278,7 +33743,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00007 ; ns1:standardUncertaintySN 7e-05 ; ns1:value 2808.920906 ; - ns1:valueSN 2.808921e+03 ; + ns1:valueSN 2.808921e+03, + 2.808921e+03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29288,7 +33754,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000025 ; ns1:standardUncertaintySN 2.5e-09 ; ns1:value 3.0155007134 ; - ns1:valueSN 3.015501e+00 ; + ns1:valueSN 3.015501e+00, + 3.015501e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mtu#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29298,7 +33765,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000000025 ; ns1:standardUncertaintySN 2.5e-12 ; ns1:value 0.0030155007134 ; - ns1:valueSN 3.015501e-03 ; + ns1:valueSN 3.015501e-03, + 3.015501e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mmt#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29308,7 +33776,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000037 ; ns1:standardUncertaintySN 3.7e-07 ; ns1:value -1.55718553 ; - ns1:valueSN -1.557186e+00 ; + ns1:valueSN -1.557186e+00, + -1.557186e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mutsmunn#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29318,7 +33787,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.00000001 ; ns1:standardUncertaintySN 1e-08 ; ns1:value 1.066639908 ; - ns1:valueSN 1.06664e+00 ; + ns1:valueSN 1.06664e+00, + 1.06664e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mutsmup#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29328,7 +33798,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000025 ; ns1:standardUncertaintySN 2.5e-09 ; ns1:value 2.9937170309 ; - ns1:valueSN 2.993717e+00 ; + ns1:valueSN 2.993717e+00, + 2.993717e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29338,7 +33809,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000000000000000000000000000000000083 ; ns1:standardUncertaintySN 8.3e-35 ; ns1:value 0.000000000000000000000000001660538782 ; - ns1:valueSN 1.660539e-27 ; + ns1:valueSN 1.660539e-27, + 1.660539e-27 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?tukg#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29348,7 +33820,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.000018 ; ns1:standardUncertaintySN 1.8e-05 ; ns1:value 25812.807557 ; - ns1:valueSN 2.581281e+04 ; + ns1:valueSN 2.581281e+04, + 2.581281e+04 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?rk#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -29378,7 +33851,8 @@ ns1:width a rdf:Property ; ns1:standardUncertainty 0.0000000051 ; ns1:standardUncertaintySN 5.1e-09 ; ns1:value 0.0028977685 ; - ns1:valueSN 2.897768e-03 ; + ns1:valueSN 2.897768e-03, + 2.897768e-03 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?bwien#mid"^^xsd:anyURI . a ns1:CurrencyUnit ; @@ -29387,7 +33861,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 784 ; ns1:dbpediaMatch "http://dbpedia.org/resource/United_Arab_Emirates_dirham"^^xsd:anyURI ; - ns1:expression "$AED$"^^ns1:LatexString ; + ns1:expression "$AED$"^^ns1:LatexString, + "\\(AED\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/United_Arab_Emirates_dirham?oldid=491806142"^^xsd:anyURI ; @@ -29411,7 +33886,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 8 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Lek"^^xsd:anyURI ; - ns1:expression "$ALL$"^^ns1:LatexString ; + ns1:expression "$ALL$"^^ns1:LatexString, + "\\(ALL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Lek?oldid=495195665"^^xsd:anyURI ; @@ -29436,7 +33912,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 532 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Netherlands_Antillean_guilder"^^xsd:anyURI ; - ns1:expression "$ANG$"^^ns1:LatexString ; + ns1:expression "$ANG$"^^ns1:LatexString, + "\\(ANG\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Netherlands_Antillean_guilder?oldid=490030382"^^xsd:anyURI ; @@ -29448,7 +33925,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 1 ; ns1:currencyNumber 973 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Angolan_kwanza"^^xsd:anyURI ; - ns1:expression "$AOA$"^^ns1:LatexString ; + ns1:expression "$AOA$"^^ns1:LatexString, + "\\(AOA\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Angolan_kwanza?oldid=491748749"^^xsd:anyURI ; @@ -29506,7 +33984,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "BAM"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 977 ; - ns1:expression "$BAM$"^^ns1:LatexString ; + ns1:expression "$BAM$"^^ns1:LatexString, + "\\(BAM\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "KM"^^xsd:string ; @@ -29540,7 +34019,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 975 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Bulgarian_lev"^^xsd:anyURI ; - ns1:expression "$BGN$"^^ns1:LatexString ; + ns1:expression "$BGN$"^^ns1:LatexString, + "\\(BGN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Bulgarian_lev?oldid=494947467"^^xsd:anyURI ; @@ -29564,7 +34044,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 108 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Burundian_franc"^^xsd:anyURI ; - ns1:expression "$BIF$"^^ns1:LatexString ; + ns1:expression "$BIF$"^^ns1:LatexString, + "\\(BIF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Burundian_franc?oldid=489383699"^^xsd:anyURI ; @@ -29576,7 +34057,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 60 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Bermudian_dollar"^^xsd:anyURI ; - ns1:expression "$BMD$"^^ns1:LatexString ; + ns1:expression "$BMD$"^^ns1:LatexString, + "\\(BMD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Bermudian_dollar?oldid=492670344"^^xsd:anyURI ; @@ -29588,7 +34070,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 96 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Brunei_dollar"^^xsd:anyURI ; - ns1:expression "$BND$"^^ns1:LatexString ; + ns1:expression "$BND$"^^ns1:LatexString, + "\\(BND\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Brunei_dollar?oldid=495134546"^^xsd:anyURI ; @@ -29600,7 +34083,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 68 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Bolivian_boliviano"^^xsd:anyURI ; - ns1:expression "$BOB$"^^ns1:LatexString ; + ns1:expression "$BOB$"^^ns1:LatexString, + "\\(BOB\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Bolivian_boliviano?oldid=494873944"^^xsd:anyURI ; @@ -29611,7 +34095,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "BOV"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 984 ; - ns1:expression "$BOV$"^^ns1:LatexString ; + ns1:expression "$BOV$"^^ns1:LatexString, + "\\(BOV\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -29622,7 +34107,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 986 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Brazilian_real"^^xsd:anyURI ; - ns1:expression "$BRL$"^^ns1:LatexString ; + ns1:expression "$BRL$"^^ns1:LatexString, + "\\(BRL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Brazilian_real?oldid=495278259"^^xsd:anyURI ; @@ -29647,7 +34133,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 64 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Bhutanese_ngultrum"^^xsd:anyURI ; - ns1:expression "$BTN$"^^ns1:LatexString ; + ns1:expression "$BTN$"^^ns1:LatexString, + "\\(BTN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Bhutanese_ngultrum?oldid=491579260"^^xsd:anyURI ; @@ -29659,7 +34146,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 72 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Pula"^^xsd:anyURI ; - ns1:expression "$BWP$"^^ns1:LatexString ; + ns1:expression "$BWP$"^^ns1:LatexString, + "\\(BWP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Pula?oldid=495207177"^^xsd:anyURI ; @@ -29683,7 +34171,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 84 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Belize_dollar"^^xsd:anyURI ; - ns1:expression "$BZD$"^^ns1:LatexString ; + ns1:expression "$BZD$"^^ns1:LatexString, + "\\(BZD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Belize_dollar?oldid=462662376"^^xsd:anyURI ; @@ -29708,7 +34197,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 976 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Congolese_franc"^^xsd:anyURI ; - ns1:expression "$CDF$"^^ns1:LatexString ; + ns1:expression "$CDF$"^^ns1:LatexString, + "\\(CDF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Congolese_franc?oldid=490314640"^^xsd:anyURI ; @@ -29719,7 +34209,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "CHE"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 947 ; - ns1:expression "$CHE$"^^ns1:LatexString ; + ns1:expression "$CHE$"^^ns1:LatexString, + "\\(CHE\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -29730,7 +34221,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 756 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Swiss_franc"^^xsd:anyURI ; - ns1:expression "$CHF$"^^ns1:LatexString ; + ns1:expression "$CHF$"^^ns1:LatexString, + "\\(CHF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Swiss_franc?oldid=492548706"^^xsd:anyURI ; @@ -29743,7 +34235,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "CHW"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 948 ; - ns1:expression "$CHW$"^^ns1:LatexString ; + ns1:expression "$CHW$"^^ns1:LatexString, + "\\(CHW\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -29753,7 +34246,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "CLF"^^xsd:string ; ns1:currencyExponent 0 ; ns1:currencyNumber 990 ; - ns1:expression "$CLF$"^^ns1:LatexString ; + ns1:expression "$CLF$"^^ns1:LatexString, + "\\(CLF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -29764,7 +34258,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 152 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Chilean_peso"^^xsd:anyURI ; - ns1:expression "$CLP$"^^ns1:LatexString ; + ns1:expression "$CLP$"^^ns1:LatexString, + "\\(CLP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Chilean_peso?oldid=495455481"^^xsd:anyURI ; @@ -29777,7 +34272,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 1 ; ns1:currencyNumber 156 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Renminbi"^^xsd:anyURI ; - ns1:expression "$CNY$"^^ns1:LatexString ; + ns1:expression "$CNY$"^^ns1:LatexString, + "\\(CNY\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Renminbi?oldid=494799454"^^xsd:anyURI ; @@ -29790,7 +34286,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 170 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Colombian_peso"^^xsd:anyURI ; - ns1:expression "$COP$"^^ns1:LatexString ; + ns1:expression "$COP$"^^ns1:LatexString, + "\\(COP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Colombian_peso?oldid=490834575"^^xsd:anyURI ; @@ -29802,7 +34299,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "COU"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 970 ; - ns1:expression "$COU$"^^ns1:LatexString ; + ns1:expression "$COU$"^^ns1:LatexString, + "\\(COU\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -29813,7 +34311,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 188 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Costa_Rican_col%C3%B3n"^^xsd:anyURI ; - ns1:expression "$CRC$"^^ns1:LatexString ; + ns1:expression "$CRC$"^^ns1:LatexString, + "\\(CRC\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Costa_Rican_colón?oldid=491007608"^^xsd:anyURI ; @@ -29825,7 +34324,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 192 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Cuban_peso"^^xsd:anyURI ; - ns1:expression "$CUP$"^^ns1:LatexString ; + ns1:expression "$CUP$"^^ns1:LatexString, + "\\(CUP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Cuban_peso?oldid=486492974"^^xsd:anyURI ; @@ -29837,7 +34337,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 132 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Cape_Verdean_escudo"^^xsd:anyURI ; - ns1:expression "$CVE$"^^ns1:LatexString ; + ns1:expression "$CVE$"^^ns1:LatexString, + "\\(CVE\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Cape_Verdean_escudo?oldid=491416749"^^xsd:anyURI ; @@ -29849,7 +34350,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 196 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Cypriot_pound"^^xsd:anyURI ; - ns1:expression "$CYP$"^^ns1:LatexString ; + ns1:expression "$CYP$"^^ns1:LatexString, + "\\(CYP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Cypriot_pound?oldid=492644935"^^xsd:anyURI ; @@ -29861,7 +34363,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 203 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Czech_koruna"^^xsd:anyURI ; - ns1:expression "$CZK$"^^ns1:LatexString ; + ns1:expression "$CZK$"^^ns1:LatexString, + "\\(CZK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Czech_koruna?oldid=493991393"^^xsd:anyURI ; @@ -29874,7 +34377,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 262 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Djiboutian_franc"^^xsd:anyURI ; - ns1:expression "$DJF$"^^ns1:LatexString ; + ns1:expression "$DJF$"^^ns1:LatexString, + "\\(DJF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Djiboutian_franc?oldid=486807423"^^xsd:anyURI ; @@ -29886,7 +34390,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 208 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Danish_krone"^^xsd:anyURI ; - ns1:expression "$DKK$"^^ns1:LatexString ; + ns1:expression "$DKK$"^^ns1:LatexString, + "\\(DKK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Danish_krone?oldid=491168880"^^xsd:anyURI ; @@ -29899,7 +34404,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 214 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Dominican_peso"^^xsd:anyURI ; - ns1:expression "$DOP$"^^ns1:LatexString ; + ns1:expression "$DOP$"^^ns1:LatexString, + "\\(DOP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Dominican_peso?oldid=493950199"^^xsd:anyURI ; @@ -29922,7 +34428,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 233 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Estonian_kroon"^^xsd:anyURI ; - ns1:expression "$EEK$"^^ns1:LatexString ; + ns1:expression "$EEK$"^^ns1:LatexString, + "\\(EEK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Estonian_kroon?oldid=492626188"^^xsd:anyURI ; @@ -29934,7 +34441,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 818 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Egyptian_pound"^^xsd:anyURI ; - ns1:expression "$EGP$"^^ns1:LatexString ; + ns1:expression "$EGP$"^^ns1:LatexString, + "\\(EGP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Egyptian_pound?oldid=494670285"^^xsd:anyURI ; @@ -29946,7 +34454,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 232 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Nakfa"^^xsd:anyURI ; - ns1:expression "$ERN$"^^ns1:LatexString ; + ns1:expression "$ERN$"^^ns1:LatexString, + "\\(ERN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nakfa?oldid=415286274"^^xsd:anyURI ; @@ -29958,7 +34467,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 230 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Ethiopian_birr"^^xsd:anyURI ; - ns1:expression "$ETB$"^^ns1:LatexString ; + ns1:expression "$ETB$"^^ns1:LatexString, + "\\(ETB\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ethiopian_birr?oldid=493373507"^^xsd:anyURI ; @@ -29970,7 +34480,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 978 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Euro"^^xsd:anyURI ; - ns1:expression "$EUR$"^^ns1:LatexString ; + ns1:expression "$EUR$"^^ns1:LatexString, + "\\(EUR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Euro?oldid=495293446"^^xsd:anyURI ; @@ -29984,7 +34495,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 242 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Fijian_dollar"^^xsd:anyURI ; - ns1:expression "$FJD$"^^ns1:LatexString ; + ns1:expression "$FJD$"^^ns1:LatexString, + "\\(FJD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Fijian_dollar?oldid=494373740"^^xsd:anyURI ; @@ -29996,7 +34508,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 238 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Falkland_Islands_pound"^^xsd:anyURI ; - ns1:expression "$FKP$"^^ns1:LatexString ; + ns1:expression "$FKP$"^^ns1:LatexString, + "\\(FKP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Falkland_Islands_pound?oldid=489513616"^^xsd:anyURI ; @@ -30008,7 +34521,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 826 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Pound_sterling"^^xsd:anyURI ; - ns1:expression "$GBP$"^^ns1:LatexString ; + ns1:expression "$GBP$"^^ns1:LatexString, + "\\(GBP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Pound_sterling?oldid=495524329"^^xsd:anyURI ; @@ -30022,7 +34536,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 981 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Lari"^^xsd:anyURI ; - ns1:expression "$GEL$"^^ns1:LatexString ; + ns1:expression "$GEL$"^^ns1:LatexString, + "\\(GEL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Lari?oldid=486808394"^^xsd:anyURI ; @@ -30035,7 +34550,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 936 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Ghanaian_cedi"^^xsd:anyURI ; - ns1:expression "$GHS$"^^ns1:LatexString ; + ns1:expression "$GHS$"^^ns1:LatexString, + "\\(GHS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ghanaian_cedi?oldid=415914569"^^xsd:anyURI ; @@ -30047,7 +34563,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 292 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Gibraltar_pound"^^xsd:anyURI ; - ns1:expression "$GIP$"^^ns1:LatexString ; + ns1:expression "$GIP$"^^ns1:LatexString, + "\\(GIP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Gibraltar_pound?oldid=494842600"^^xsd:anyURI ; @@ -30059,7 +34576,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 270 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Gambian_dalasi"^^xsd:anyURI ; - ns1:expression "$GMD$"^^ns1:LatexString ; + ns1:expression "$GMD$"^^ns1:LatexString, + "\\(GMD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Gambian_dalasi?oldid=489522429"^^xsd:anyURI ; @@ -30071,7 +34589,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 324 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Guinean_franc"^^xsd:anyURI ; - ns1:expression "$GNF$"^^ns1:LatexString ; + ns1:expression "$GNF$"^^ns1:LatexString, + "\\(GNF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Guinean_franc?oldid=489527042"^^xsd:anyURI ; @@ -30083,7 +34602,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 320 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Quetzal"^^xsd:anyURI ; - ns1:expression "$GTQ$"^^ns1:LatexString ; + ns1:expression "$GTQ$"^^ns1:LatexString, + "\\(GTQ\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Quetzal?oldid=489813522"^^xsd:anyURI ; @@ -30095,7 +34615,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 328 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Guyanese_dollar"^^xsd:anyURI ; - ns1:expression "$GYD$"^^ns1:LatexString ; + ns1:expression "$GYD$"^^ns1:LatexString, + "\\(GYD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Guyanese_dollar?oldid=495070062"^^xsd:anyURI ; @@ -30107,7 +34628,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 1 ; ns1:currencyNumber 344 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Hong_Kong_dollar"^^xsd:anyURI ; - ns1:expression "$HKD$"^^ns1:LatexString ; + ns1:expression "$HKD$"^^ns1:LatexString, + "\\(HKD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Hong_Kong_dollar?oldid=495133277"^^xsd:anyURI ; @@ -30121,7 +34643,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 340 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Lempira"^^xsd:anyURI ; - ns1:expression "$HNL$"^^ns1:LatexString ; + ns1:expression "$HNL$"^^ns1:LatexString, + "\\(HNL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Lempira?oldid=389955747"^^xsd:anyURI ; @@ -30133,7 +34656,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 191 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Croatian_kuna"^^xsd:anyURI ; - ns1:expression "$HRK$"^^ns1:LatexString ; + ns1:expression "$HRK$"^^ns1:LatexString, + "\\(HRK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Croatian_kuna?oldid=490959527"^^xsd:anyURI ; @@ -30145,7 +34669,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 332 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Haitian_gourde"^^xsd:anyURI ; - ns1:expression "$HTG$"^^ns1:LatexString ; + ns1:expression "$HTG$"^^ns1:LatexString, + "\\(HTG\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Haitian_gourde?oldid=486090975"^^xsd:anyURI ; @@ -30157,7 +34682,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 348 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Hungarian_forint"^^xsd:anyURI ; - ns1:expression "$HUF$"^^ns1:LatexString ; + ns1:expression "$HUF$"^^ns1:LatexString, + "\\(HUF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Hungarian_forint?oldid=492818607"^^xsd:anyURI ; @@ -30170,7 +34696,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 360 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Indonesian_rupiah"^^xsd:anyURI ; - ns1:expression "$IDR$"^^ns1:LatexString ; + ns1:expression "$IDR$"^^ns1:LatexString, + "\\(IDR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Indonesian_rupiah?oldid=489729458"^^xsd:anyURI ; @@ -30183,7 +34710,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 376 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Israeli_new_sheqel"^^xsd:anyURI ; - ns1:expression "$ILS$"^^ns1:LatexString ; + ns1:expression "$ILS$"^^ns1:LatexString, + "\\(ILS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Israeli_new_sheqel?oldid=316213924"^^xsd:anyURI ; @@ -30196,7 +34724,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 356 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Indian_rupee"^^xsd:anyURI ; - ns1:expression "$INR$"^^ns1:LatexString ; + ns1:expression "$INR$"^^ns1:LatexString, + "\\(INR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Indian_rupee?oldid=495120167"^^xsd:anyURI ; @@ -30210,7 +34739,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 368 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Iraqi_dinar"^^xsd:anyURI ; - ns1:expression "$IQD$"^^ns1:LatexString ; + ns1:expression "$IQD$"^^ns1:LatexString, + "\\(IQD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Iraqi_dinar?oldid=494793908"^^xsd:anyURI ; @@ -30222,7 +34752,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 364 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Iranian_rial"^^xsd:anyURI ; - ns1:expression "$IRR$"^^ns1:LatexString ; + ns1:expression "$IRR$"^^ns1:LatexString, + "\\(IRR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Iranian_rial?oldid=495299431"^^xsd:anyURI ; @@ -30234,7 +34765,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 352 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Icelandic_kr%C3%B3na"^^xsd:anyURI ; - ns1:expression "$ISK$"^^ns1:LatexString ; + ns1:expression "$ISK$"^^ns1:LatexString, + "\\(ISK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Icelandic_króna?oldid=495457496"^^xsd:anyURI ; @@ -30247,7 +34779,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 388 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Jamaican_dollar"^^xsd:anyURI ; - ns1:expression "$JMD$"^^ns1:LatexString ; + ns1:expression "$JMD$"^^ns1:LatexString, + "\\(JMD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Jamaican_dollar?oldid=494039981"^^xsd:anyURI ; @@ -30259,7 +34792,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 3 ; ns1:currencyNumber 400 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Jordanian_dinar"^^xsd:anyURI ; - ns1:expression "$JOD$"^^ns1:LatexString ; + ns1:expression "$JOD$"^^ns1:LatexString, + "\\(JOD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Jordanian_dinar?oldid=495270728"^^xsd:anyURI ; @@ -30271,7 +34805,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 392 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Japanese_yen"^^xsd:anyURI ; - ns1:expression "$JPY$"^^ns1:LatexString ; + ns1:expression "$JPY$"^^ns1:LatexString, + "\\(JPY\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Japanese_yen?oldid=493771966"^^xsd:anyURI ; @@ -30285,7 +34820,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 404 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Kenyan_shilling"^^xsd:anyURI ; - ns1:expression "$KES$"^^ns1:LatexString ; + ns1:expression "$KES$"^^ns1:LatexString, + "\\(KES\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Kenyan_shilling?oldid=489547027"^^xsd:anyURI ; @@ -30297,7 +34833,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 417 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Som"^^xsd:anyURI ; - ns1:expression "$KGS$"^^ns1:LatexString ; + ns1:expression "$KGS$"^^ns1:LatexString, + "\\(KGS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Som?oldid=495411674"^^xsd:anyURI ; @@ -30309,7 +34846,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 116 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Riel"^^xsd:anyURI ; - ns1:expression "$KHR$"^^ns1:LatexString ; + ns1:expression "$KHR$"^^ns1:LatexString, + "\\(KHR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Riel?oldid=473309240"^^xsd:anyURI ; @@ -30321,7 +34859,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 174 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Comorian_franc"^^xsd:anyURI ; - ns1:expression "$KMF$"^^ns1:LatexString ; + ns1:expression "$KMF$"^^ns1:LatexString, + "\\(KMF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Comorian_franc?oldid=489502162"^^xsd:anyURI ; @@ -30333,7 +34872,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 408 ; ns1:dbpediaMatch "http://dbpedia.org/resource/North_Korean_won"^^xsd:anyURI ; - ns1:expression "$KPW$"^^ns1:LatexString ; + ns1:expression "$KPW$"^^ns1:LatexString, + "\\(KPW\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/North_Korean_won?oldid=495081686"^^xsd:anyURI ; @@ -30345,7 +34885,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 410 ; ns1:dbpediaMatch "http://dbpedia.org/resource/South_Korean_won"^^xsd:anyURI ; - ns1:expression "$KRW$"^^ns1:LatexString ; + ns1:expression "$KRW$"^^ns1:LatexString, + "\\(KRW\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/South_Korean_won?oldid=494404062"^^xsd:anyURI ; @@ -30359,7 +34900,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 3 ; ns1:currencyNumber 414 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Kuwaiti_dinar"^^xsd:anyURI ; - ns1:expression "$KWD$"^^ns1:LatexString ; + ns1:expression "$KWD$"^^ns1:LatexString, + "\\(KWD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Kuwaiti_dinar?oldid=489547428"^^xsd:anyURI ; @@ -30371,7 +34913,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 136 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Cayman_Islands_dollar"^^xsd:anyURI ; - ns1:expression "$KYD$"^^ns1:LatexString ; + ns1:expression "$KYD$"^^ns1:LatexString, + "\\(KYD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Cayman_Islands_dollar?oldid=494206112"^^xsd:anyURI ; @@ -30383,7 +34926,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 398 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Kazakhstani_tenge"^^xsd:anyURI ; - ns1:expression "$KZT$"^^ns1:LatexString ; + ns1:expression "$KZT$"^^ns1:LatexString, + "\\(KZT\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Kazakhstani_tenge?oldid=490523058"^^xsd:anyURI ; @@ -30405,7 +34949,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 422 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Lebanese_pound"^^xsd:anyURI ; - ns1:expression "$LBP$"^^ns1:LatexString ; + ns1:expression "$LBP$"^^ns1:LatexString, + "\\(LBP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Lebanese_pound?oldid=495528740"^^xsd:anyURI ; @@ -30417,7 +34962,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 144 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Sri_Lankan_rupee"^^xsd:anyURI ; - ns1:expression "$LKR$"^^ns1:LatexString ; + ns1:expression "$LKR$"^^ns1:LatexString, + "\\(LKR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Sri_Lankan_rupee?oldid=495359963"^^xsd:anyURI ; @@ -30429,7 +34975,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 430 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Liberian_dollar"^^xsd:anyURI ; - ns1:expression "$LRD$"^^ns1:LatexString ; + ns1:expression "$LRD$"^^ns1:LatexString, + "\\(LRD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Liberian_dollar?oldid=489549110"^^xsd:anyURI ; @@ -30441,7 +34988,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 426 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Loti"^^xsd:anyURI ; - ns1:expression "$LSL$"^^ns1:LatexString ; + ns1:expression "$LSL$"^^ns1:LatexString, + "\\(LSL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Loti?oldid=384534708"^^xsd:anyURI ; @@ -30453,7 +35001,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 440 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Lithuanian_litas"^^xsd:anyURI ; - ns1:expression "$LTL$"^^ns1:LatexString ; + ns1:expression "$LTL$"^^ns1:LatexString, + "\\(LTL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Lithuanian_litas?oldid=493046592"^^xsd:anyURI ; @@ -30465,7 +35014,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 428 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Latvian_lats"^^xsd:anyURI ; - ns1:expression "$LVL$"^^ns1:LatexString ; + ns1:expression "$LVL$"^^ns1:LatexString, + "\\(LVL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Latvian_lats?oldid=492800402"^^xsd:anyURI ; @@ -30477,7 +35027,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 3 ; ns1:currencyNumber 434 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Libyan_dinar"^^xsd:anyURI ; - ns1:expression "$LYD$"^^ns1:LatexString ; + ns1:expression "$LYD$"^^ns1:LatexString, + "\\(LYD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Libyan_dinar?oldid=491421981"^^xsd:anyURI ; @@ -30489,7 +35040,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 504 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Moroccan_dirham"^^xsd:anyURI ; - ns1:expression "$MAD$"^^ns1:LatexString ; + ns1:expression "$MAD$"^^ns1:LatexString, + "\\(MAD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Moroccan_dirham?oldid=490560557"^^xsd:anyURI ; @@ -30501,7 +35053,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 498 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Moldovan_leu"^^xsd:anyURI ; - ns1:expression "$MDL$"^^ns1:LatexString ; + ns1:expression "$MDL$"^^ns1:LatexString, + "\\(MDL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Moldovan_leu?oldid=490027766"^^xsd:anyURI ; @@ -30514,7 +35067,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 969 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Malagasy_ariary"^^xsd:anyURI ; - ns1:expression "$MGA$"^^ns1:LatexString ; + ns1:expression "$MGA$"^^ns1:LatexString, + "\\(MGA\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Malagasy_ariary?oldid=489551279"^^xsd:anyURI ; @@ -30526,7 +35080,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 807 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Macedonian_denar"^^xsd:anyURI ; - ns1:expression "$MKD$"^^ns1:LatexString ; + ns1:expression "$MKD$"^^ns1:LatexString, + "\\(MKD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Macedonian_denar?oldid=489550202"^^xsd:anyURI ; @@ -30539,7 +35094,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 104 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Myanma_kyat"^^xsd:anyURI ; - ns1:expression "$MMK$"^^ns1:LatexString ; + ns1:expression "$MMK$"^^ns1:LatexString, + "\\(MMK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Myanma_kyat?oldid=441109905"^^xsd:anyURI ; @@ -30560,7 +35116,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 1 ; ns1:currencyNumber 446 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Pataca"^^xsd:anyURI ; - ns1:expression "$MOP$"^^ns1:LatexString ; + ns1:expression "$MOP$"^^ns1:LatexString, + "\\(MOP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Pataca?oldid=482490442"^^xsd:anyURI ; @@ -30572,7 +35129,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 929 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Mauritanian_ouguiya"^^xsd:anyURI ; - ns1:expression "$MRO$"^^ns1:LatexString ; + ns1:expression "$MRO$"^^ns1:LatexString, + "\\(MRO\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mauritanian_ouguiya?oldid=490027072"^^xsd:anyURI ; @@ -30583,7 +35141,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "MTL"^^xsd:string ; ns1:currencyNumber 470 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Maltese_lira"^^xsd:anyURI ; - ns1:expression "$MTL$"^^ns1:LatexString ; + ns1:expression "$MTL$"^^ns1:LatexString, + "\\(MTL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Maltese_lira?oldid=493810797"^^xsd:anyURI ; @@ -30595,7 +35154,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 480 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Mauritian_rupee"^^xsd:anyURI ; - ns1:expression "$MUR$"^^ns1:LatexString ; + ns1:expression "$MUR$"^^ns1:LatexString, + "\\(MUR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mauritian_rupee?oldid=487629200"^^xsd:anyURI ; @@ -30607,7 +35167,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 462 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Maldivian_rufiyaa"^^xsd:anyURI ; - ns1:expression "$MVR$"^^ns1:LatexString ; + ns1:expression "$MVR$"^^ns1:LatexString, + "\\(MVR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Maldivian_rufiyaa?oldid=491578728"^^xsd:anyURI ; @@ -30618,7 +35179,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "MWK"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 454 ; - ns1:expression "$MWK$"^^ns1:LatexString ; + ns1:expression "$MWK$"^^ns1:LatexString, + "\\(MWK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -30629,7 +35191,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 484 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Mexican_peso"^^xsd:anyURI ; - ns1:expression "$MXN$"^^ns1:LatexString ; + ns1:expression "$MXN$"^^ns1:LatexString, + "\\(MXN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mexican_peso?oldid=494829813"^^xsd:anyURI ; @@ -30642,7 +35205,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "MXV"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 979 ; - ns1:expression "$MXV$"^^ns1:LatexString ; + ns1:expression "$MXV$"^^ns1:LatexString, + "\\(MXV\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -30653,7 +35217,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 458 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Malaysian_ringgit"^^xsd:anyURI ; - ns1:expression "$MYR$"^^ns1:LatexString ; + ns1:expression "$MYR$"^^ns1:LatexString, + "\\(MYR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Malaysian_ringgit?oldid=494417091"^^xsd:anyURI ; @@ -30666,7 +35231,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 943 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Mozambican_metical"^^xsd:anyURI ; - ns1:expression "$MZN$"^^ns1:LatexString ; + ns1:expression "$MZN$"^^ns1:LatexString, + "\\(MZN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mozambican_metical?oldid=488225670"^^xsd:anyURI ; @@ -30687,7 +35253,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 516 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Namibian_dollar"^^xsd:anyURI ; - ns1:expression "$NAD$"^^ns1:LatexString ; + ns1:expression "$NAD$"^^ns1:LatexString, + "\\(NAD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Namibian_dollar?oldid=495250023"^^xsd:anyURI ; @@ -30699,7 +35266,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 566 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Nigerian_naira"^^xsd:anyURI ; - ns1:expression "$NGN$"^^ns1:LatexString ; + ns1:expression "$NGN$"^^ns1:LatexString, + "\\(NGN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nigerian_naira?oldid=493462003"^^xsd:anyURI ; @@ -30711,7 +35279,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 558 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Nicaraguan_c%C3%B3rdoba"^^xsd:anyURI ; - ns1:expression "$NIO$"^^ns1:LatexString ; + ns1:expression "$NIO$"^^ns1:LatexString, + "\\(NIO\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nicaraguan_córdoba?oldid=486140595"^^xsd:anyURI ; @@ -30723,7 +35292,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 578 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Norwegian_krone"^^xsd:anyURI ; - ns1:expression "$NOK$"^^ns1:LatexString ; + ns1:expression "$NOK$"^^ns1:LatexString, + "\\(NOK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Norwegian_krone?oldid=495283934"^^xsd:anyURI ; @@ -30737,7 +35307,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 524 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Nepalese_rupee"^^xsd:anyURI ; - ns1:expression "$NPR$"^^ns1:LatexString ; + ns1:expression "$NPR$"^^ns1:LatexString, + "\\(NPR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nepalese_rupee?oldid=476894226"^^xsd:anyURI ; @@ -30749,7 +35320,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 554 ; ns1:dbpediaMatch "http://dbpedia.org/resource/New_Zealand_dollar"^^xsd:anyURI ; - ns1:expression "$NZD$"^^ns1:LatexString ; + ns1:expression "$NZD$"^^ns1:LatexString, + "\\(NZD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/New_Zealand_dollar?oldid=495487722"^^xsd:anyURI ; @@ -30763,7 +35335,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 3 ; ns1:currencyNumber 512 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Omani_rial"^^xsd:anyURI ; - ns1:expression "$OMR$"^^ns1:LatexString ; + ns1:expression "$OMR$"^^ns1:LatexString, + "\\(OMR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Omani_rial?oldid=491748879"^^xsd:anyURI ; @@ -30786,7 +35359,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 604 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Peruvian_nuevo_sol"^^xsd:anyURI ; - ns1:expression "$PEN$"^^ns1:LatexString ; + ns1:expression "$PEN$"^^ns1:LatexString, + "\\(PEN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Peruvian_nuevo_sol?oldid=494237249"^^xsd:anyURI ; @@ -30798,7 +35372,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 598 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Kina"^^xsd:anyURI ; - ns1:expression "$PGK$"^^ns1:LatexString ; + ns1:expression "$PGK$"^^ns1:LatexString, + "\\(PGK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Kina?oldid=477155361"^^xsd:anyURI ; @@ -30810,7 +35385,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 608 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Philippine_peso"^^xsd:anyURI ; - ns1:expression "$PHP$"^^ns1:LatexString ; + ns1:expression "$PHP$"^^ns1:LatexString, + "\\(PHP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Philippine_peso?oldid=495411811"^^xsd:anyURI ; @@ -30823,7 +35399,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 586 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Pakistani_rupee"^^xsd:anyURI ; - ns1:expression "$PKR$"^^ns1:LatexString ; + ns1:expression "$PKR$"^^ns1:LatexString, + "\\(PKR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Pakistani_rupee?oldid=494937873"^^xsd:anyURI ; @@ -30835,7 +35412,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 985 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Polish_z%C5%82oty"^^xsd:anyURI ; - ns1:expression "$PLN$"^^ns1:LatexString ; + ns1:expression "$PLN$"^^ns1:LatexString, + "\\(PLN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Polish_złoty?oldid=492697733"^^xsd:anyURI ; @@ -30848,7 +35426,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 600 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Guaran%C3%AD"^^xsd:anyURI ; - ns1:expression "$PYG$"^^ns1:LatexString ; + ns1:expression "$PYG$"^^ns1:LatexString, + "\\(PYG\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Guaraní?oldid=412592698"^^xsd:anyURI ; @@ -30860,7 +35439,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 634 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Qatari_riyal"^^xsd:anyURI ; - ns1:expression "$QAR$"^^ns1:LatexString ; + ns1:expression "$QAR$"^^ns1:LatexString, + "\\(QAR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Qatari_riyal?oldid=491747452"^^xsd:anyURI ; @@ -30871,7 +35451,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "RON"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 946 ; - ns1:expression "$RON$"^^ns1:LatexString ; + ns1:expression "$RON$"^^ns1:LatexString, + "\\(RON\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "L"^^xsd:string ; @@ -30883,7 +35464,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 941 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Serbian_dinar"^^xsd:anyURI ; - ns1:expression "$RSD$"^^ns1:LatexString ; + ns1:expression "$RSD$"^^ns1:LatexString, + "\\(RSD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Serbian_dinar?oldid=495146650"^^xsd:anyURI ; @@ -30896,7 +35478,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 643 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Russian_ruble"^^xsd:anyURI ; - ns1:expression "$RUB$"^^ns1:LatexString ; + ns1:expression "$RUB$"^^ns1:LatexString, + "\\(RUB\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Russian_ruble?oldid=494336467"^^xsd:anyURI ; @@ -30909,7 +35492,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 646 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Rwandan_franc"^^xsd:anyURI ; - ns1:expression "$RWF$"^^ns1:LatexString ; + ns1:expression "$RWF$"^^ns1:LatexString, + "\\(RWF\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Rwandan_franc?oldid=489727903"^^xsd:anyURI ; @@ -30921,7 +35505,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 682 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Saudi_riyal"^^xsd:anyURI ; - ns1:expression "$SAR$"^^ns1:LatexString ; + ns1:expression "$SAR$"^^ns1:LatexString, + "\\(SAR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Saudi_riyal?oldid=491092981"^^xsd:anyURI ; @@ -30934,7 +35519,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 90 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Solomon_Islands_dollar"^^xsd:anyURI ; - ns1:expression "$SBD$"^^ns1:LatexString ; + ns1:expression "$SBD$"^^ns1:LatexString, + "\\(SBD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Solomon_Islands_dollar?oldid=490313285"^^xsd:anyURI ; @@ -30946,7 +35532,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 690 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Seychellois_rupee"^^xsd:anyURI ; - ns1:expression "$SCR$"^^ns1:LatexString ; + ns1:expression "$SCR$"^^ns1:LatexString, + "\\(SCR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Seychellois_rupee?oldid=492242185"^^xsd:anyURI ; @@ -30958,7 +35545,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 938 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Sudanese_pound"^^xsd:anyURI ; - ns1:expression "$SDG$"^^ns1:LatexString ; + ns1:expression "$SDG$"^^ns1:LatexString, + "\\(SDG\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Sudanese_pound?oldid=495263707"^^xsd:anyURI ; @@ -30970,7 +35558,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 752 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Swedish_krona"^^xsd:anyURI ; - ns1:expression "$SEK$"^^ns1:LatexString ; + ns1:expression "$SEK$"^^ns1:LatexString, + "\\(SEK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Swedish_krona?oldid=492703602"^^xsd:anyURI ; @@ -30984,7 +35573,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 702 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Singapore_dollar"^^xsd:anyURI ; - ns1:expression "$SGD$"^^ns1:LatexString ; + ns1:expression "$SGD$"^^ns1:LatexString, + "\\(SGD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Singapore_dollar?oldid=492228311"^^xsd:anyURI ; @@ -30998,7 +35588,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 654 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Saint_Helena_pound"^^xsd:anyURI ; - ns1:expression "$SHP$"^^ns1:LatexString ; + ns1:expression "$SHP$"^^ns1:LatexString, + "\\(SHP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Saint_Helena_pound?oldid=490152057"^^xsd:anyURI ; @@ -31009,7 +35600,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "SKK"^^xsd:string ; ns1:currencyNumber 703 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Slovak_koruna"^^xsd:anyURI ; - ns1:expression "$SKK$"^^ns1:LatexString ; + ns1:expression "$SKK$"^^ns1:LatexString, + "\\(SKK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Slovak_koruna?oldid=492625951"^^xsd:anyURI ; @@ -31022,7 +35614,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 925 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Sierra_Leonean_leone"^^xsd:anyURI ; - ns1:expression "$SLL$"^^ns1:LatexString ; + ns1:expression "$SLL$"^^ns1:LatexString, + "\\(SLL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Sierra_Leonean_leone?oldid=493517965"^^xsd:anyURI ; @@ -31034,7 +35627,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 706 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Somali_shilling"^^xsd:anyURI ; - ns1:expression "$SOS$"^^ns1:LatexString ; + ns1:expression "$SOS$"^^ns1:LatexString, + "\\(SOS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Somali_shilling?oldid=494434126"^^xsd:anyURI ; @@ -31046,7 +35640,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 968 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Surinamese_dollar"^^xsd:anyURI ; - ns1:expression "$SRD$"^^ns1:LatexString ; + ns1:expression "$SRD$"^^ns1:LatexString, + "\\(SRD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Surinamese_dollar?oldid=490316270"^^xsd:anyURI ; @@ -31058,7 +35653,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 930 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Dobra"^^xsd:anyURI ; - ns1:expression "$STD$"^^ns1:LatexString ; + ns1:expression "$STD$"^^ns1:LatexString, + "\\(STD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Dobra?oldid=475725328"^^xsd:anyURI ; @@ -31070,7 +35666,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 760 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Syrian_pound"^^xsd:anyURI ; - ns1:expression "$SYP$"^^ns1:LatexString ; + ns1:expression "$SYP$"^^ns1:LatexString, + "\\(SYP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Syrian_pound?oldid=484294722"^^xsd:anyURI ; @@ -31082,7 +35679,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 748 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Swazi_lilangeni"^^xsd:anyURI ; - ns1:expression "$SZL$"^^ns1:LatexString ; + ns1:expression "$SZL$"^^ns1:LatexString, + "\\(SZL\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Swazi_lilangeni?oldid=490323340"^^xsd:anyURI ; @@ -31106,7 +35704,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 972 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tajikistani_somoni"^^xsd:anyURI ; - ns1:expression "$TJS$"^^ns1:LatexString ; + ns1:expression "$TJS$"^^ns1:LatexString, + "\\(TJS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Tajikistani_somoni?oldid=492500781"^^xsd:anyURI ; @@ -31118,7 +35717,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 934 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Manat"^^xsd:anyURI ; - ns1:expression "$TMM$"^^ns1:LatexString ; + ns1:expression "$TMM$"^^ns1:LatexString, + "\\(TMM\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Manat?oldid=486967490"^^xsd:anyURI ; @@ -31130,7 +35730,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 3 ; ns1:currencyNumber 788 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tunisian_dinar"^^xsd:anyURI ; - ns1:expression "$TND$"^^ns1:LatexString ; + ns1:expression "$TND$"^^ns1:LatexString, + "\\(TND\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Tunisian_dinar?oldid=491218035"^^xsd:anyURI ; @@ -31142,7 +35743,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 776 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tongan_pa%CA%BBanga"^^xsd:anyURI ; - ns1:expression "$TOP$"^^ns1:LatexString ; + ns1:expression "$TOP$"^^ns1:LatexString, + "\\(TOP\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Tongan_paʻanga?oldid=482738012"^^xsd:anyURI ; @@ -31154,7 +35756,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 949 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Turkish_lira"^^xsd:anyURI ; - ns1:expression "$TRY$"^^ns1:LatexString ; + ns1:expression "$TRY$"^^ns1:LatexString, + "\\(TRY\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Turkish_lira?oldid=494097764"^^xsd:anyURI ; @@ -31167,7 +35770,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 780 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Trinidad_and_Tobago_dollar"^^xsd:anyURI ; - ns1:expression "$TTD$"^^ns1:LatexString ; + ns1:expression "$TTD$"^^ns1:LatexString, + "\\(TTD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Trinidad_and_Tobago_dollar?oldid=490325306"^^xsd:anyURI ; @@ -31179,7 +35783,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 1 ; ns1:currencyNumber 901 ; ns1:dbpediaMatch "http://dbpedia.org/resource/New_Taiwan_dollar"^^xsd:anyURI ; - ns1:expression "$TWD$"^^ns1:LatexString ; + ns1:expression "$TWD$"^^ns1:LatexString, + "\\(TWD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/New_Taiwan_dollar?oldid=493996933"^^xsd:anyURI ; @@ -31192,7 +35797,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 834 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tanzanian_shilling"^^xsd:anyURI ; - ns1:expression "$TZS$"^^ns1:LatexString ; + ns1:expression "$TZS$"^^ns1:LatexString, + "\\(TZS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Tanzanian_shilling?oldid=492257527"^^xsd:anyURI ; @@ -31204,7 +35810,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 980 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Ukrainian_hryvnia"^^xsd:anyURI ; - ns1:expression "$UAH$"^^ns1:LatexString ; + ns1:expression "$UAH$"^^ns1:LatexString, + "\\(UAH\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ukrainian_hryvnia?oldid=493064633"^^xsd:anyURI ; @@ -31217,7 +35824,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 800 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Ugandan_shilling"^^xsd:anyURI ; - ns1:expression "$UGX$"^^ns1:LatexString ; + ns1:expression "$UGX$"^^ns1:LatexString, + "\\(UGX\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ugandan_shilling?oldid=495383966"^^xsd:anyURI ; @@ -31239,7 +35847,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "USN"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 997 ; - ns1:expression "$USN$"^^ns1:LatexString ; + ns1:expression "$USN$"^^ns1:LatexString, + "\\(USN\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31259,7 +35868,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 858 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Uruguayan_peso"^^xsd:anyURI ; - ns1:expression "$UYU$"^^ns1:LatexString ; + ns1:expression "$UYU$"^^ns1:LatexString, + "\\(UYU\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Uruguayan_peso?oldid=487528781"^^xsd:anyURI ; @@ -31271,7 +35881,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 860 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Uzbekistani_som"^^xsd:anyURI ; - ns1:expression "$UZS$"^^ns1:LatexString ; + ns1:expression "$UZS$"^^ns1:LatexString, + "\\(UZS\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Uzbekistani_som?oldid=490522228"^^xsd:anyURI ; @@ -31282,7 +35893,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "VES"^^xsd:string ; ns1:currencyExponent 2 ; ns1:currencyNumber 928 ; - ns1:expression "$VEB$"^^ns1:LatexString ; + ns1:expression "$VEB$"^^ns1:LatexString, + "\\(VEB\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31292,7 +35904,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "VND"^^xsd:string ; ns1:currencyExponent 0 ; ns1:currencyNumber 704 ; - ns1:expression "$VND$"^^ns1:LatexString ; + ns1:expression "$VND$"^^ns1:LatexString, + "\\(VND\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31303,7 +35916,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 548 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Vanuatu_vatu"^^xsd:anyURI ; - ns1:expression "$VUV$"^^ns1:LatexString ; + ns1:expression "$VUV$"^^ns1:LatexString, + "\\(VUV\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Vanuatu_vatu?oldid=494667103"^^xsd:anyURI ; @@ -31315,7 +35929,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 882 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Samoan_tala"^^xsd:anyURI ; - ns1:expression "$WST$"^^ns1:LatexString ; + ns1:expression "$WST$"^^ns1:LatexString, + "\\(WST\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Samoan_tala?oldid=423898531"^^xsd:anyURI ; @@ -31334,7 +35949,8 @@ ns1:width a rdf:Property ; rdfs:label "Silver (one Troy ounce)"@en ; ns1:currencyCode "XAG"^^xsd:string ; ns1:currencyNumber 961 ; - ns1:expression "$XAG$"^^ns1:LatexString ; + ns1:expression "$XAG$"^^ns1:LatexString, + "\\(XAG\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:ucumCode "[oz_tr]{Ag}"^^ns1:UCUMcs ; @@ -31344,7 +35960,8 @@ ns1:width a rdf:Property ; rdfs:label "Gold (one Troy ounce)"@en ; ns1:currencyCode "XAU"^^xsd:string ; ns1:currencyNumber 959 ; - ns1:expression "$XAU$"^^ns1:LatexString ; + ns1:expression "$XAU$"^^ns1:LatexString, + "\\(XAU\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:ucumCode "[oz_tr]{Au}"^^ns1:UCUMcs ; @@ -31354,7 +35971,8 @@ ns1:width a rdf:Property ; rdfs:label "European Composite Unit (EURCO) (Bonds market unit)"@en ; ns1:currencyCode "XBA"^^xsd:string ; ns1:currencyNumber 955 ; - ns1:expression "$XBA$"^^ns1:LatexString ; + ns1:expression "$XBA$"^^ns1:LatexString, + "\\(XBA\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31363,7 +35981,8 @@ ns1:width a rdf:Property ; rdfs:label "European Monetary Unit (E.M.U.-6) (Bonds market unit)"@en ; ns1:currencyCode "XBB"^^xsd:string ; ns1:currencyNumber 956 ; - ns1:expression "$XBB$"^^ns1:LatexString ; + ns1:expression "$XBB$"^^ns1:LatexString, + "\\(XBB\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31372,7 +35991,8 @@ ns1:width a rdf:Property ; rdfs:label "European Unit of Account 9 (E.U.A.-9) (Bonds market unit)"@en ; ns1:currencyCode "XBC"^^xsd:string ; ns1:currencyNumber 957 ; - ns1:expression "$XBC$"^^ns1:LatexString ; + ns1:expression "$XBC$"^^ns1:LatexString, + "\\(XBC\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31381,7 +36001,8 @@ ns1:width a rdf:Property ; rdfs:label "European Unit of Account 17 (E.U.A.-17) (Bonds market unit)"@en ; ns1:currencyCode "XBD"^^xsd:string ; ns1:currencyNumber 958 ; - ns1:expression "$XBD$"^^ns1:LatexString ; + ns1:expression "$XBD$"^^ns1:LatexString, + "\\(XBD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31392,7 +36013,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 951 ; ns1:dbpediaMatch "http://dbpedia.org/resource/East_Caribbean_dollar"^^xsd:anyURI ; - ns1:expression "$XCD$"^^ns1:LatexString ; + ns1:expression "$XCD$"^^ns1:LatexString, + "\\(XCD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/East_Caribbean_dollar?oldid=493020176"^^xsd:anyURI ; @@ -31403,7 +36025,8 @@ ns1:width a rdf:Property ; ns1:currencyCode "XDR"^^xsd:string ; ns1:currencyNumber 960 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Special_Drawing_Rights"^^xsd:anyURI ; - ns1:expression "$XDR$"^^ns1:LatexString ; + ns1:expression "$XDR$"^^ns1:LatexString, + "\\(XDR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Special_Drawing_Rights?oldid=467224374"^^xsd:anyURI ; @@ -31412,7 +36035,8 @@ ns1:width a rdf:Property ; a ns1:CurrencyUnit ; rdfs:label "Gold franc (special settlement currency)"@en ; ns1:currencyCode "XFO"^^xsd:string ; - ns1:expression "$XFO$"^^ns1:LatexString ; + ns1:expression "$XFO$"^^ns1:LatexString, + "\\(XFO\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31420,7 +36044,8 @@ ns1:width a rdf:Property ; a ns1:CurrencyUnit ; rdfs:label "UIC franc (special settlement currency)"@en ; ns1:currencyCode "XFU"^^xsd:string ; - ns1:expression "$XFU$"^^ns1:LatexString ; + ns1:expression "$XFU$"^^ns1:LatexString, + "\\(XFU\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; rdfs:isDefinedBy . @@ -31438,7 +36063,8 @@ ns1:width a rdf:Property ; rdfs:label "Palladium (one Troy ounce)"@en ; ns1:currencyCode "XPD"^^xsd:string ; ns1:currencyNumber 964 ; - ns1:expression "$XPD$"^^ns1:LatexString ; + ns1:expression "$XPD$"^^ns1:LatexString, + "\\(XPD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:ucumCode "[oz_tr]{Pd}"^^ns1:UCUMcs ; @@ -31457,7 +36083,8 @@ ns1:width a rdf:Property ; rdfs:label "Platinum (one Troy ounce)"@en ; ns1:currencyCode "XPT"^^xsd:string ; ns1:currencyNumber 962 ; - ns1:expression "$XPT$"^^ns1:LatexString ; + ns1:expression "$XPT$"^^ns1:LatexString, + "\\(XPT\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:ucumCode "[oz_tr]{Pt}"^^ns1:UCUMcs ; @@ -31469,7 +36096,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 886 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Yemeni_rial"^^xsd:anyURI ; - ns1:expression "$YER$"^^ns1:LatexString ; + ns1:expression "$YER$"^^ns1:LatexString, + "\\(YER\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Yemeni_rial?oldid=494507603"^^xsd:anyURI ; @@ -31481,7 +36109,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 710 ; ns1:dbpediaMatch "http://dbpedia.org/resource/South_African_rand"^^xsd:anyURI ; - ns1:expression "$ZAR$"^^ns1:LatexString ; + ns1:expression "$ZAR$"^^ns1:LatexString, + "\\(ZAR\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/South_African_rand?oldid=493780395"^^xsd:anyURI ; @@ -31495,7 +36124,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 0 ; ns1:currencyNumber 967 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Zambian_kwacha"^^xsd:anyURI ; - ns1:expression "$ZMK$"^^ns1:LatexString ; + ns1:expression "$ZMK$"^^ns1:LatexString, + "\\(ZMK\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Zambian_kwacha?oldid=490328608"^^xsd:anyURI ; @@ -31507,7 +36137,8 @@ ns1:width a rdf:Property ; ns1:currencyExponent 2 ; ns1:currencyNumber 932 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Zimbabwean_dollar"^^xsd:anyURI ; - ns1:expression "$ZWD$"^^ns1:LatexString ; + ns1:expression "$ZWD$"^^ns1:LatexString, + "\\(ZWD\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Zimbabwean_dollar?oldid=491532675"^^xsd:anyURI ; @@ -31543,20 +36174,17 @@ ns1:width a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-1L1I0M0H0T0D0"^^xsd:string ; + a ns1:QuantityKindDimensionVector ; + rdfs:label "A0E-2L1I0M1H0T-3D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForElectricCurrent -2 ; ns1:dimensionExponentForLength 1 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForMass 1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$E^-2 L M T^-3 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -31572,7 +36200,8 @@ ns1:width a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 T^-2 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 T^-2 Θ^-1$"^^ns1:LatexString, + "\\(L^-1 T^-2 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -31650,6 +36279,36 @@ ns1:width a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-5I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -5 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-5 M^-1 T^2 $"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M-1H0T3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 3 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -31708,7 +36367,8 @@ ns1:width a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(M T^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^2$"^^ns1:LatexString, + "\\(M T^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -31753,6 +36413,7 @@ ns1:width a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L T^2 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -31828,7 +36489,8 @@ ns1:width a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M^-1 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M^-1 Θ^-1$"^^ns1:LatexString, + "\\(L^3 M^-1 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -31875,6 +36537,23 @@ ns1:width a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E3L-1I0M-2H0T7D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 3 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -2 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 7 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-1 M^-2 T^7 I^3$"^^ns1:LatexString, + "\\(L^-1 M^-2 T^7 I^3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -31894,7 +36573,8 @@ ns1:width a rdf:Property ; ns1:Prefix ; rdfs:label "Exbi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^{6}$, or $2^{60}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.529215e+17 ; + ns1:prefixMultiplier 1.529215e+17, + 1.529215e+17 ; ns1:symbol "Ei"^^xsd:string ; rdfs:isDefinedBy . @@ -31902,7 +36582,8 @@ ns1:width a rdf:Property ; ns1:Prefix ; rdfs:label "Gibi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^{3}$, or $2^{30}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.073742e+09 ; + ns1:prefixMultiplier 1.073742e+09, + 1.073742e+09 ; ns1:symbol "Gi"^^xsd:string ; ns1:ucumCode "Gi"^^xsd:string ; rdfs:isDefinedBy . @@ -31920,7 +36601,8 @@ ns1:width a rdf:Property ; ns1:Prefix ; rdfs:label "Pebi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^{5}$, or $2^{50}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.258999e+14 ; + ns1:prefixMultiplier 1.258999e+14, + 1.258999e+14 ; ns1:symbol "Pi"^^xsd:string ; rdfs:isDefinedBy . @@ -31976,7 +36658,8 @@ ns1:width a rdf:Property ; ns1:Prefix ; rdfs:label "Tebi"@en ; dcterms:description "A binary prefix for expressing a value with a scaling of $1024^4}$, or $2^{40}$."^^ns1:LatexString ; - ns1:prefixMultiplier 1.099512e+12 ; + ns1:prefixMultiplier 1.099512e+12, + 1.099512e+12 ; ns1:symbol "Ti"^^xsd:string ; ns1:ucumCode "Ti"^^xsd:string ; rdfs:isDefinedBy . @@ -31990,12 +36673,14 @@ ns1:width a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexDefinition "$\\lambda_B = e^{\\frac{\\mu_B}{RT}}$, where $\\mu_B$ is the chemical potential of substance $B$, $R$ is the molar gas constant, and $T$ is thermodynamic temperature."^^ns1:LatexString ; ns1:latexSymbol "$\\lambda_B$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:AbsoluteActivity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Absorptance"@en ; - dcterms:description "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance."^^rdf:HTML ; + dcterms:description "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance."^^ns1:LatexString, + "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Absorbance"^^xsd:anyURI, @@ -32005,11 +36690,13 @@ ns1:width a rdf:Property ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance."^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Absorptance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Acceptor Ionization Energy"@en ; - dcterms:description "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor."^^rdf:HTML ; + dcterms:description "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor."^^ns1:LatexString, + "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -32065,13 +36752,15 @@ ns1:width a rdf:Property ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor."^^xsd:string ; ns1:symbol "E_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Activity Coefficient"@en ; - dcterms:description "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. "^^rdf:HTML ; + dcterms:description "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. "^^ns1:LatexString, + "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. "^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Activity_coefficient"^^xsd:anyURI ; @@ -32079,30 +36768,155 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$f_B = \\frac{\\lambda_B}{(\\lambda_B^*x_B)}$, where $\\lambda_B$ the absolute activity of substance $B$, $\\lambda_B^*$ is the absolute activity of the pure substance $B$ at the same temperature and pressure, and $x_B$ is the amount-of-substance fraction of substance $B$."^^ns1:LatexString ; ns1:plainTextDescription "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. "^^xsd:string ; ns1:symbol "f_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ActivityCoefficient"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Altitude"@en ; + dcterms:description "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^ns1:LatexString, + "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Altitude"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Amount of Substance of Concentration of B"@en ; + dcterms:description "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^ns1:LatexString, + "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ; + dcterms:isReplacedBy ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:deprecated true ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD005"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$C_B = \\frac{n_B}{V}$, where $n_B$ is the amount of substance $B$ and $V$ is the volume."^^ns1:LatexString ; + ns1:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^xsd:string ; + ns1:symbol "C_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Amount of Substance of Fraction of B"@en ; + dcterms:description "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^ns1:LatexString, + "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ; + dcterms:isReplacedBy ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:deprecated true ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_fraction"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$x_B = \\frac{n_B}{n}$, where $n_B$ is the amount of substance $B$ and $n$ is the total amount of substance."^^ns1:LatexString ; + ns1:plainTextDescription "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^xsd:string ; + ns1:symbol "X_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Molar Mass variation due to Pressure"@en ; + dcterms:description "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^ns1:LatexString ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:AmountOfSubstancePerMassPressure"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Angular Momentum per Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AngularMomentumPerAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Area Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AreaAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Asset"@en ; - dcterms:description "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)."^^rdf:HTML ; + dcterms:description "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)."^^ns1:LatexString, + "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:plainTextDescription "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)."^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Atom Scattering Factor"@en ; - dcterms:description "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom."^^rdf:HTML ; + dcterms:description "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom."^^ns1:LatexString, + "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://reference.iucr.org/dictionary/Atomic_scattering_factor"^^xsd:anyURI ; @@ -32110,11 +36924,13 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$f = \\frac{E_a}{E_e}$, where $E_a$ is the radiation amplitude scattered by the atom and $E_e$ is the radiation ampliture scattered by a single electron."^^ns1:LatexString ; ns1:plainTextDescription "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom."^^xsd:string ; ns1:symbol "f"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AtomScatteringFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Atomic Number"@en ; - dcterms:description "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge."^^rdf:HTML ; + dcterms:description "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge."^^ns1:LatexString, + "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_number"^^xsd:anyURI, @@ -32122,23 +36938,27 @@ ns1:width a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge."^^xsd:string ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AtomicNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Average Logarithmic Energy Decrement"@en ; - dcterms:description "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons."^^rdf:HTML ; + dcterms:description "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons."^^ns1:LatexString, + "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://everything2.com/title/Average+logarithmic+energy+decrement+per+collision"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\xi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AverageLogarithmicEnergyDecrement"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Binding Fraction"@en ; - dcterms:description "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number."^^rdf:HTML ; + dcterms:description "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number."^^ns1:LatexString, + "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://encyclopedia2.thefreedictionary.com/binding+fraction"^^xsd:anyURI ; @@ -32146,26 +36966,39 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$b = \\frac{B_r}{A}$, where $B_r$ is the relative mass defect and $A$ is the nucleon number."^^ns1:LatexString ; ns1:plainTextDescription "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number."^^xsd:string ; ns1:symbol "b"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BindingFraction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Bioconcentration Factor"@en ; - dcterms:description "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient."^^rdf:HTML ; + dcterms:description "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient."^^ns1:LatexString, + "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BioconcentrationFactor"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Biodegredation Half Life"@en ; - dcterms:description "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism."^^rdf:HTML ; + dcterms:description "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism."^^ns1:LatexString, + "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BiodegredationHalfLife"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "bit rate"^^xsd:string ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD018"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BitRate"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Body Mass Index"@en ; dcterms:description "$\\textit{Body Mass Index}$, BMI, is an index of weight for height, calculated as: $BMI = \\frac{M_{body}}{H^2}$, where $M_{body}$ is body mass in kg, and $H$ is height in metres. The BMI has been used as a guideline for defining whether a person is overweight because it minimizes the effect of height, but it does not take into consideration other important factors, such as age and body build. The BMI has also been used as an indicator of obesity on the assumption that the higher the index, the greater the level of body fat."^^ns1:LatexString ; @@ -32176,6 +37009,7 @@ ns1:width a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198631477.001.0001/acref-9780198631477-e-254"^^xsd:anyURI ; ns1:symbol "BMI"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BodyMassIndex"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "BMI"^^xsd:string . @@ -32217,9 +37051,20 @@ ns1:width a rdf:Property ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "byte rate"^^xsd:string ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD020"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ByteRate"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Center of Gravity in the X axis"@en ; ns1:applicableUnit , @@ -32264,6 +37109,7 @@ ns1:width a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -32311,6 +37157,7 @@ ns1:width a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -32358,24 +37205,28 @@ ns1:width a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.grc.nasa.gov/WWW/k-12/airplane/cg.html"^^xsd:anyURI ; ns1:symbol "cg"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Charge Number"@en ; - dcterms:description "The \"Charge Number\", or just valance of an ion is the coefficient that, when multiplied by the elementary charge, gives the ion's charge."^^rdf:HTML ; + dcterms:description "The \"Charge Number\", or just valance of an ion is the coefficient that, when multiplied by the elementary charge, gives the ion's charge."^^ns1:LatexString, + "The \"Charge Number\", or just valance of an ion is the coefficient that, when multiplied by the elementary charge, gives the ion's charge."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_number"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The \"Charge Number\", or just valance of an ion is the coefficient that, when multiplied by the elementary charge, gives the ion's charge."^^xsd:string ; ns1:symbol "z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ChargeNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Chemical Affinity"@en ; - dcterms:description "In chemical physics and physical chemistry, \"Chemical Affinity\" is the electronic property by which dissimilar chemical species are capable of forming chemical compounds. Chemical affinity can also refer to the tendency of an atom or compound to combine by chemical reaction with atoms or compounds of unlike composition."^^rdf:HTML ; + dcterms:description "In chemical physics and physical chemistry, \"Chemical Affinity\" is the electronic property by which dissimilar chemical species are capable of forming chemical compounds. Chemical affinity can also refer to the tendency of an atom or compound to combine by chemical reaction with atoms or compounds of unlike composition."^^ns1:LatexString, + "In chemical physics and physical chemistry, \"Chemical Affinity\" is the electronic property by which dissimilar chemical species are capable of forming chemical compounds. Chemical affinity can also refer to the tendency of an atom or compound to combine by chemical reaction with atoms or compounds of unlike composition."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Chemical_affinity"^^xsd:anyURI ; @@ -32383,6 +37234,7 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$A = -\\sum \\nu_b\\mu_B$, where $\\nu_b$ is the stoichiometric number of substance $B$ and $\\mu_B$ is the chemical potential of substance $B$."^^ns1:LatexString ; ns1:plainTextDescription "In chemical physics and physical chemistry, \"Chemical Affinity\" is the electronic property by which dissimilar chemical species are capable of forming chemical compounds. Chemical affinity can also refer to the tendency of an atom or compound to combine by chemical reaction with atoms or compounds of unlike composition."^^xsd:string ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ChemicalAffinity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32402,7 +37254,8 @@ ns1:width a rdf:Property ; "Химический потенциал"@ru, "kimyasal potansiyel"@tr, "化学势"@zh ; - dcterms:description "\"Chemical Potential\", also known as partial molar free energy, is a form of potential energy that can be absorbed or released during a chemical reaction."^^rdf:HTML ; + dcterms:description "\"Chemical Potential\", also known as partial molar free energy, is a form of potential energy that can be absorbed or released during a chemical reaction."^^ns1:LatexString, + "\"Chemical Potential\", also known as partial molar free energy, is a form of potential energy that can be absorbed or released during a chemical reaction."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -32412,16 +37265,19 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$\\mu_B = (\\frac{\\partial G}{\\partial n_B})_{T,p,n_i}$, where $G$ is Gibbs energy, and $n_B$ is the amount of substance $B$."^^ns1:LatexString ; ns1:latexSymbol "$\\mu_B$"^^ns1:LatexString ; ns1:plainTextDescription "\"Chemical Potential\", also known as partial molar free energy, is a form of potential energy that can be absorbed or released during a chemical reaction."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Chromaticity"@en ; - dcterms:description "Chromaticity is an objective specification of the quality of a color regardless of its luminance"^^rdf:HTML ; + dcterms:description "Chromaticity is an objective specification of the quality of a color regardless of its luminance"^^ns1:LatexString, + "Chromaticity is an objective specification of the quality of a color regardless of its luminance"^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Chromaticity"^^xsd:anyURI ; ns1:plainTextDescription "Chromaticity is an objective specification of the quality of a color regardless of its luminance"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Chromaticity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32432,12 +37288,14 @@ ns1:width a rdf:Property ; ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=121-12-69"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:symbol "H_{c,B}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Coercivity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Combined Non Evaporative Heat Transfer Coefficient"@en ; - dcterms:description "\"Combined Non Evaporative Heat Transfer Coefficient\" is the "^^rdf:HTML ; + dcterms:description "\"Combined Non Evaporative Heat Transfer Coefficient\" is the "^^ns1:LatexString, + "\"Combined Non Evaporative Heat Transfer Coefficient\" is the "^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -32445,20 +37303,46 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$h = h_r + h_c + h_k$, where $h_r$ is the linear radiative heat transfer coefficient, $h_c$ is the convective heat transfer coefficient, and $h_k$ is the conductive heat transfer coefficient."^^ns1:LatexString ; ns1:plainTextDescription "\"Combined Non Evaporative Heat Transfer Coefficient\" is the "^^xsd:string ; ns1:symbol "h"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CombinedNonEvaporativeHeatTransferCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Constringence"@en ; - dcterms:description "In optics and lens design, constringence of a transparent material, also known as the Abbe number or the V-number, is an approximate measure of the material's dispersion (change of refractive index versus wavelength), with high values of V indicating low dispersion."^^rdf:HTML ; + dcterms:description "In optics and lens design, constringence of a transparent material, also known as the Abbe number or the V-number, is an approximate measure of the material's dispersion (change of refractive index versus wavelength), with high values of V indicating low dispersion."^^ns1:LatexString, + "In optics and lens design, constringence of a transparent material, also known as the Abbe number or the V-number, is an approximate measure of the material's dispersion (change of refractive index versus wavelength), with high values of V indicating low dispersion."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Abbe_number"^^xsd:anyURI ; ns1:symbol "V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Constringence"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Abbe Number"@en, "V-number"@en ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Energiekosten"@de, + "energy cost"@en ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Cost_of_electricity_by_source"^^xsd:anyURI ; + ns1:plainTextDescription "The monetary cost of a unit of energy"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CostPerEnergy"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Anschaffungskosten pro Watt"@de, + "cost per power"@en ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Photovoltaics"^^xsd:anyURI ; + ns1:plainTextDescription "In photovoltaics, cost per power of electricity produced measures the cost of installing the hardware relative to the power produced."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CostPerPower"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "coupling factor"@en, "constante de acoplamiento"@es, @@ -32470,7 +37354,8 @@ ns1:width a rdf:Property ; "Константа взаимодействия"@ru, "Çiftlenim sabiti"@tr, "耦合常數"@zh ; - dcterms:description "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling."^^rdf:HTML ; + dcterms:description "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling."^^ns1:LatexString, + "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=161-03-18"^^xsd:anyURI, @@ -32478,11 +37363,13 @@ ns1:width a rdf:Property ; ns1:latexDefinition "For inductive coupling between two inductive elements, $k = \\frac{\\left | L_{mn} \\right |}{\\sqrt{L_m L_n}}$, where $L_m$ and $L_n$ are their self inductances, and $L_{mn}$ is their mutual inductance."^^ns1:LatexString ; ns1:plainTextDescription "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling."^^xsd:string ; ns1:symbol "k"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CouplingFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Current Linkage"@en ; - dcterms:description "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop."^^rdf:HTML ; + dcterms:description "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop."^^ns1:LatexString, + "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop."^^rdf:HTML ; ns1:applicableUnit , , , @@ -32494,11 +37381,21 @@ ns1:width a rdf:Property ; ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=121-11-60"^^xsd:anyURI ; ns1:latexSymbol "$\\Theta$"^^ns1:LatexString ; ns1:plainTextDescription "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CurrentLinkage"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "current of the amount of substance"@en-us ; + dcterms:description "ratio of the amount of substance divided by the related time"@en ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Quotient Stoffmenge dividiert durch die zugehörige Zeit"@de ; + ns1:symbol "0173-1#Z4-BAJ384#002"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Debye-Waller Factor"@en ; - dcterms:description "\"Debye-Waller Factor\" (DWF), named after Peter Debye and Ivar Waller, is used in condensed matter physics to describe the attenuation of x-ray scattering or coherent neutron scattering caused by thermal motion. Also, a factor by which the intensity of a diffraction line is reduced because of the lattice vibrations."^^rdf:HTML ; + dcterms:description "\"Debye-Waller Factor\" (DWF), named after Peter Debye and Ivar Waller, is used in condensed matter physics to describe the attenuation of x-ray scattering or coherent neutron scattering caused by thermal motion. Also, a factor by which the intensity of a diffraction line is reduced because of the lattice vibrations."^^ns1:LatexString, + "\"Debye-Waller Factor\" (DWF), named after Peter Debye and Ivar Waller, is used in condensed matter physics to describe the attenuation of x-ray scattering or coherent neutron scattering caused by thermal motion. Also, a factor by which the intensity of a diffraction line is reduced because of the lattice vibrations."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Debye–Waller_factor"^^xsd:anyURI ; @@ -32506,23 +37403,27 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$u = R - R_0$, where $R$ is the particle position vector and $R_0$ is the equilibrium position vector of a particle."^^ns1:LatexString ; ns1:plainTextDescription "\"Debye-Waller Factor\" (DWF), named after Peter Debye and Ivar Waller, is used in condensed matter physics to describe the attenuation of x-ray scattering or coherent neutron scattering caused by thermal motion. Also, a factor by which the intensity of a diffraction line is reduced because of the lattice vibrations."^^xsd:string ; ns1:symbol "D, B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Debye-WallerFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Debye Angular Wavenumber"@en ; - dcterms:description "\"Debye Angular Wavenumber\" is the cut-off angular wavenumber in the Debye model of the vibrational spectrum of a solid."^^rdf:HTML ; + dcterms:description "\"Debye Angular Wavenumber\" is the cut-off angular wavenumber in the Debye model of the vibrational spectrum of a solid."^^ns1:LatexString, + "\"Debye Angular Wavenumber\" is the cut-off angular wavenumber in the Debye model of the vibrational spectrum of a solid."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Debye Angular Wavenumber\" is the cut-off angular wavenumber in the Debye model of the vibrational spectrum of a solid."^^xsd:string ; ns1:symbol "q_D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DebyeAngularWavenumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Decay Constant"@en ; - dcterms:description "The \"Decay Constant\" is the proportionality between the size of a population of radioactive atoms and the rate at which the population decreases because of radioactive decay."^^rdf:HTML ; + dcterms:description "The \"Decay Constant\" is the proportionality between the size of a population of radioactive atoms and the rate at which the population decreases because of radioactive decay."^^ns1:LatexString, + "The \"Decay Constant\" is the proportionality between the size of a population of radioactive atoms and the rate at which the population decreases because of radioactive decay."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Exponential_decay"^^xsd:anyURI, @@ -32531,12 +37432,14 @@ ns1:width a rdf:Property ; ns1:latexDefinition "Relative variation $\\frac{dN}{N}$ of the number $N$ of atoms or nuclei in a system, due to spontaneous emission from these atoms or nuclei during an infinitesimal time interval, divided by its duration $dt$, thus $\\lambda = -\\frac{1}{N}\\frac{dN}{dt}$."^^ns1:LatexString ; ns1:latexSymbol "$\\lambda$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Decay Constant\" is the proportionality between the size of a population of radioactive atoms and the rate at which the population decreases because of radioactive decay."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DecayConstant"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Degree of Dissociation"@en ; - dcterms:description "The \"Degree of Dissociation\" is the fraction of original solute molecules that have dissociated."^^rdf:HTML ; + dcterms:description "The \"Degree of Dissociation\" is the fraction of original solute molecules that have dissociated."^^ns1:LatexString, + "The \"Degree of Dissociation\" is the fraction of original solute molecules that have dissociated."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Faraday_constant"^^xsd:anyURI ; ns1:hasDimensionVector ; @@ -32544,11 +37447,13 @@ ns1:width a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Degree of Dissociation\" is the fraction of original solute molecules that have dissociated."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DegreeOfDissociation"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Density of states"@en ; - dcterms:description "\"Density of States\" is the number of vibrational modes in an infinitesimal interval of angular frequency divided by the range of that interval and by volume."^^rdf:HTML ; + dcterms:description "\"Density of States\" is the number of vibrational modes in an infinitesimal interval of angular frequency divided by the range of that interval and by volume."^^ns1:LatexString, + "\"Density of States\" is the number of vibrational modes in an infinitesimal interval of angular frequency divided by the range of that interval and by volume."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD030"^^xsd:string ; @@ -32556,11 +37461,13 @@ ns1:width a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Density of States\" is the number of vibrational modes in an infinitesimal interval of angular frequency divided by the range of that interval and by volume."^^xsd:string ; ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DensityOfStates"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Diastolic Blood Pressure"@en ; - dcterms:description "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^rdf:HTML ; + dcterms:description "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^ns1:LatexString, + "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^rdf:HTML ; ns1:applicableUnit , , , @@ -32627,6 +37534,7 @@ ns1:width a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780199549351.001.0001/acref-9780199549351-e-1162"^^xsd:anyURI ; ns1:plainTextDescription "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . @@ -32639,7 +37547,8 @@ ns1:width a rdf:Property ; "coefficiente di diffusione"@it, "coeficiente de difusão"@pt, "difuzijski koeficient"@sl ; - dcterms:description "The \"Diffusion Coefficient\" is a proportionality constant between the molar flux due to molecular diffusion and the gradient in the concentration of the species (or the driving force for diffusion). Diffusivity is encountered in Fick's law and numerous other equations of physical chemistry."^^rdf:HTML ; + dcterms:description "The \"Diffusion Coefficient\" is a proportionality constant between the molar flux due to molecular diffusion and the gradient in the concentration of the species (or the driving force for diffusion). Diffusivity is encountered in Fick's law and numerous other equations of physical chemistry."^^ns1:LatexString, + "The \"Diffusion Coefficient\" is a proportionality constant between the molar flux due to molecular diffusion and the gradient in the concentration of the species (or the driving force for diffusion). Diffusivity is encountered in Fick's law and numerous other equations of physical chemistry."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD031"^^xsd:string ; @@ -32648,11 +37557,13 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$C_B \\left \\langle \\nu_B \\right \\rangle = -D grad C_B$, where $C_B$ the local molecular concentration of substance $B$ in the mixture and $\\left \\langle \\nu_B \\right \\rangle$ is the local average velocity of the molecules of $B$."^^ns1:LatexString ; ns1:plainTextDescription "The \"Diffusion Coefficient\" is a proportionality constant between the molar flux due to molecular diffusion and the gradient in the concentration of the species (or the driving force for diffusion). Diffusivity is encountered in Fick's law and numerous other equations of physical chemistry."^^xsd:string ; ns1:symbol "D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DiffusionCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Dissipance"@en ; - dcterms:description "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation."^^rdf:HTML ; + dcterms:description "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation."^^ns1:LatexString, + "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Dissipation_factor"^^xsd:anyURI ; @@ -32660,11 +37571,39 @@ ns1:width a rdf:Property ; ns1:latexSymbol "$\\delta$"^^ns1:LatexString ; ns1:plainTextDescription "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation."^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dissipance"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Vzdálenost"@cs, + "Entfernung"@de, + "distance"@en, + "distancia"@es, + "مسافت"@fa, + "distance"@fr, + "distanza"@it, + "Jarak"@ms, + "distância"@pt, + "uzaklık"@tr, + "距离"@zh ; + dcterms:description "\"Distance\" is a numerical description of how far apart objects are. "^^ns1:LatexString, + "\"Distance\" is a numerical description of how far apart objects are. "^^rdf:HTML ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Distance"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:plainTextDescription "\"Distance\" is a numerical description of how far apart objects are. "^^xsd:string ; + ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Distance"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Donor Ionization Energy"@en ; - dcterms:description "\"Donor Ionization Energy\" is the ionization energy of a donor."^^rdf:HTML ; + dcterms:description "\"Donor Ionization Energy\" is the ionization energy of a donor."^^ns1:LatexString, + "\"Donor Ionization Energy\" is the ionization energy of a donor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -32719,30 +37658,35 @@ ns1:width a rdf:Property ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Donor Ionization Energy\" is the ionization energy of a donor."^^xsd:string ; ns1:symbol "E_d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Dose Equivalent Quality Factor"@en ; - dcterms:description "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes."^^rdf:HTML ; + dcterms:description "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes."^^ns1:LatexString, + "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Equivalent_dose"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DoseEquivalentQualityFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Effective Multiplication Factor"@en ; - dcterms:description "The \"Effective Multiplication Factor\" is the multiplication factor for a finite medium."^^rdf:HTML ; + dcterms:description "The \"Effective Multiplication Factor\" is the multiplication factor for a finite medium."^^ns1:LatexString, + "The \"Effective Multiplication Factor\" is the multiplication factor for a finite medium."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nuclear_chain_reaction#Effective_neutron_multiplication_factor"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Effective Multiplication Factor\" is the multiplication factor for a finite medium."^^xsd:string ; ns1:symbol "k_{eff}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MultiplicationFactor"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . @@ -32755,11 +37699,13 @@ ns1:width a rdf:Property ; ns1:informativeReference "http://electron6.phys.utk.edu/qm2/modules/m10/einstein.htm"^^xsd:anyURI ; ns1:latexDefinition "$\\frac{-dN_j}{dt} = A_jkN_j$, where $-dN_j$ is the number of molecules spontaneously leaving the state j for the state k during a time interval of duration $dt$, $N_j$ is the number of molecules in the state j, and $E_j > E_k$."^^ns1:LatexString ; ns1:symbol "A_jkN_j"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EinsteinTransitionProbability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Charge Linear Density"@en ; - dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; + dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^ns1:LatexString, + "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; ns1:applicableUnit ; ns1:expression "$linear-charge-density$"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -32769,6 +37715,7 @@ ns1:width a rdf:Property ; ns1:latexSymbol "$\\rho_l$"^^ns1:LatexString, "$\\tau$"^^ns1:LatexString ; ns1:plainTextDescription "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargeLinearDensity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -32776,6 +37723,32 @@ ns1:width a rdf:Property ; rdfs:label "Electric Current per Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrentPerAngle"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Electric Current per Energy"@en ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrentPerEnergy"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Electric Current per Temperature"@en ; + dcterms:description "\"Electric Current per Unit Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "\"Electric Current per Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrentPerTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32797,6 +37770,7 @@ ns1:width a rdf:Property ; "http://www.oxfordreference.com/view/10.1093/acref/9780199233991.001.0001/acref-9780199233991-e-895"^^xsd:anyURI ; ns1:latexDefinition "$D = \\epsilon_0 E + P$, where $\\epsilon_0$ is the electric constant, $E$ is electric field strength, and $P$ is electric polarization."^^ns1:LatexString ; ns1:symbol "D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -32816,7 +37790,8 @@ ns1:width a rdf:Property ; "Поляризуемость"@ru, "Kutuplanabilirlik"@tr, "極化性"@zh ; - dcterms:description "\"Electric Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which is applied typically by inserting the molecule in a charged parallel-plate capacitor, but may also be caused by the presence of a nearby ion or dipole."^^rdf:HTML ; + dcterms:description "\"Electric Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which is applied typically by inserting the molecule in a charged parallel-plate capacitor, but may also be caused by the presence of a nearby ion or dipole."^^ns1:LatexString, + "\"Electric Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which is applied typically by inserting the molecule in a charged parallel-plate capacitor, but may also be caused by the presence of a nearby ion or dipole."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Polarizability"^^xsd:anyURI ; @@ -32824,6 +37799,7 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$\\alpha_{i,j} = \\frac{\\partial p_i}{\\partial E_j}$, where $p_i$ is the cartesian component along the $i-axis$ of the electric dipole moment induced by the applied electric field strength acting on the molecule, and $E_j$ is the component along the $j-axis$ of this electric field strength."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "\"Electric Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which is applied typically by inserting the molecule in a charged parallel-plate capacitor, but may also be caused by the presence of a nearby ion or dipole."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricPolarizability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32837,7 +37813,8 @@ ns1:width a rdf:Property ; "podatność elektryczna"@pl, "susceptibilidade eléctrica"@pt, "электрическая восприимчивость"@ru ; - dcterms:description "\"Electric Susceptibility\" is the ratio of electric polarization to electric field strength, normalized to the electric constant. The definition applies to an isotropic medium. For an anisotropic medium, electric susceptibility is a second order tensor."^^rdf:HTML ; + dcterms:description "\"Electric Susceptibility\" is the ratio of electric polarization to electric field strength, normalized to the electric constant. The definition applies to an isotropic medium. For an anisotropic medium, electric susceptibility is a second order tensor."^^ns1:LatexString, + "\"Electric Susceptibility\" is the ratio of electric polarization to electric field strength, normalized to the electric constant. The definition applies to an isotropic medium. For an anisotropic medium, electric susceptibility is a second order tensor."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Permittivity"^^xsd:anyURI ; ns1:expression "$e-susceptibility$"^^ns1:LatexString ; @@ -32846,6 +37823,7 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$\\chi = \\frac{P}{(\\epsilon_0 E)}$, where $P$ is electric polorization, $\\epsilon_0$ is the electric constant, and $E$ is electric field strength."^^ns1:LatexString ; ns1:latexSymbol "$\\chi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Electric Susceptibility\" is the ratio of electric polarization to electric field strength, normalized to the electric constant. The definition applies to an isotropic medium. For an anisotropic medium, electric susceptibility is a second order tensor."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricSusceptibility"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , ; @@ -32854,7 +37832,8 @@ ns1:width a rdf:Property ; a ns1:QuantityKind ; rdfs:label "Electrolytic Conductivity"@en ; - dcterms:description "\"Electrolytic Conductivity\" of an electrolyte solution is a measure of its ability to conduct electricity."^^rdf:HTML ; + dcterms:description "\"Electrolytic Conductivity\" of an electrolyte solution is a measure of its ability to conduct electricity."^^ns1:LatexString, + "\"Electrolytic Conductivity\" of an electrolyte solution is a measure of its ability to conduct electricity."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Conductivity_(electrolytic)"^^xsd:anyURI ; @@ -32862,22 +37841,30 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$x = \\frac{J}{E}$, where $J$ is the electrolytic current density and $E$ is the electric field strength."^^ns1:LatexString ; ns1:plainTextDescription "\"Electrolytic Conductivity\" of an electrolyte solution is a measure of its ability to conduct electricity."^^xsd:string ; ns1:symbol "x"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectrolyticConductivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electromagnetic Permeability Ratio"@en ; - dcterms:description "The ratio of the electromagnetic permeability of a specific medium to the electromagnetic permeability of free space."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electromagnetic Permeability Ratio}$ is the ratio of the electromagnetic permeability of a specific medium to the electromagnetic permeability of free space. + """^^ns1:LatexString, + "The ratio of the electromagnetic permeability of a specific medium to the electromagnetic permeability of free space."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:plainTextDescription "The ratio of the electromagnetic permeability of a specific medium to the electromagnetic permeability of free space."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ElectromagneticPermeabilityRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electromagnetic Wave Phase Speed"@en ; - dcterms:description "\"Electromagnetic Wave Phase Speed\" is the ratio of angular velocity and wavenumber."^^rdf:HTML ; + dcterms:description """ + $\\textit{Electromagnetic Wave Phase Speed}$ is the ratio of angular velocity and wavenumber. + """^^ns1:LatexString, + "\"Electromagnetic Wave Phase Speed\" is the ratio of angular velocity and wavenumber."^^rdf:HTML ; ns1:applicableUnit , , , @@ -32891,6 +37878,7 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$c = w/k$ where $w$ is angular velocity and $k$ is angular wavenumber."^^ns1:LatexString ; ns1:plainTextDescription "\"Electromagnetic Wave Phase Speed\" is the ratio of angular velocity and wavenumber."^^xsd:string ; ns1:symbol "c"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectromagneticWavePhaseSpeed"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32901,11 +37889,13 @@ ns1:width a rdf:Property ; ns1:informativeReference "http://en.wikipedia.org/wiki/Emissivity"^^xsd:anyURI ; ns1:latexDefinition "$\\varepsilon = \\frac{M}{M_b}$, where $M$ is the radiant exitance of a thermal radiator and $M_b$ is the radiant exitance of a blackbody at the same temperature."^^ns1:LatexString ; ns1:latexSymbol "$\\varepsilon$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Emissivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy Density of States"@en ; - dcterms:description "\"Energy Density of States\" refers to electrons or other entities, e.g. phonons. It can, for example, refer to amount of substance instead of volume."^^rdf:HTML ; + dcterms:description "\"Energy Density of States\" refers to electrons or other entities, e.g. phonons. It can, for example, refer to amount of substance instead of volume."^^ns1:LatexString, + "\"Energy Density of States\" refers to electrons or other entities, e.g. phonons. It can, for example, refer to amount of substance instead of volume."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -32914,12 +37904,14 @@ ns1:width a rdf:Property ; ns1:latexDefinition "$\\rho(E) = n_E(E) = \\frac{dN(E)}{dE}\\frac{1}{V}$, where $N(E)$ is the total number of states with energy less than $E$, and $V$ is the volume."^^ns1:LatexString ; ns1:plainTextDescription "\"Energy Density of States\" refers to electrons or other entities, e.g. phonons. It can, for example, refer to amount of substance instead of volume."^^xsd:string ; ns1:symbol "n_E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyDensityOfStates"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy and work per mass amount of substance"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerMassAmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -32929,7 +37921,8 @@ ns1:width a rdf:Property ; a ns1:QuantityKind ; rdfs:label "Equilibrium Constant on Concentration Basis"@en ; - dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; + dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^ns1:LatexString, + "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD048"^^xsd:string ; @@ -32940,13 +37933,15 @@ ns1:width a rdf:Property ; ns1:plainTextDescription "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; - rdfs:comment "The unit is unit:MOL-PER-M3 raised to the N where N is the summation of stoichiometric numbers. I don't know what to do with this."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EquilibriumConstant"^^xsd:string, + "The unit is unit:MOL-PER-M3 raised to the N where N is the summation of stoichiometric numbers. I don't know what to do with this."^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Equilibrium Constant on Pressure Basis"@en ; - dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; + dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^ns1:LatexString, + "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD049"^^xsd:string ; @@ -32957,6 +37952,7 @@ ns1:width a rdf:Property ; ns1:plainTextDescription "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:EquilibriumConstant"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -33019,22 +38015,26 @@ another substance in a given chemical reaction."""^^rdf:HTML ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Combined Non Evaporative Heat Transfer Coefficient"@en ; - dcterms:description "\"Evaporative Heat Transfer Coefficient\" is the areic heat transfer coefficient multiplied by the water vapor pressure difference between skind and the environment, and by the exchange area."^^rdf:HTML ; + dcterms:description "\"Evaporative Heat Transfer Coefficient\" is the areic heat transfer coefficient multiplied by the water vapor pressure difference between skind and the environment, and by the exchange area."^^ns1:LatexString, + "\"Evaporative Heat Transfer Coefficient\" is the areic heat transfer coefficient multiplied by the water vapor pressure difference between skind and the environment, and by the exchange area."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Evaporative Heat Transfer Coefficient\" is the areic heat transfer coefficient multiplied by the water vapor pressure difference between skind and the environment, and by the exchange area."^^xsd:string ; ns1:symbol "h_e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EvaporativeHeatTransferCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Exchange Integral"@en ; - dcterms:description "\"Exchange Integral\" is the constituent of the interaction energy between the spins of adjacent electrons in matter arising from the overlap of electron state functions."^^rdf:HTML ; + dcterms:description "\"Exchange Integral\" is the constituent of the interaction energy between the spins of adjacent electrons in matter arising from the overlap of electron state functions."^^ns1:LatexString, + "\"Exchange Integral\" is the constituent of the interaction energy between the spins of adjacent electrons in matter arising from the overlap of electron state functions."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -33043,17 +38043,20 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Exchange Integral\" is the constituent of the interaction energy between the spins of adjacent electrons in matter arising from the overlap of electron state functions."^^xsd:string ; ns1:symbol "K"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ExchangeIntegral"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Fast Fission Factor"@en ; - dcterms:description "\"Fast Fission Factor\" in an infinite medium, is the ratio of the mean number of neutrons produced by fission due to neutrons of all energies to the mean number of neutrons produced by fissions due to thermal neutrons only."^^rdf:HTML ; + dcterms:description "\"Fast Fission Factor\" in an infinite medium, is the ratio of the mean number of neutrons produced by fission due to neutrons of all energies to the mean number of neutrons produced by fissions due to thermal neutrons only."^^ns1:LatexString, + "\"Fast Fission Factor\" in an infinite medium, is the ratio of the mean number of neutrons produced by fission due to neutrons of all energies to the mean number of neutrons produced by fissions due to thermal neutrons only."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Four_factor_formula"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Fast Fission Factor\" in an infinite medium, is the ratio of the mean number of neutrons produced by fission due to neutrons of all energies to the mean number of neutrons produced by fissions due to thermal neutrons only."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:FastFissionFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -33064,21 +38067,25 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:informativeReference "http://en.wikipedia.org/wiki/Heavy_fermion"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:symbol "k_F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:FermiAngularWavenumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fish Biotransformation Half Life"@en ; - dcterms:description "A time that quantifies how long its takes to transform 50% of a substance's total concentration from any concentration point in time in fish via whole body metabolic reactions."^^rdf:HTML ; + dcterms:description "A time that quantifies how long its takes to transform 50% of a substance's total concentration from any concentration point in time in fish via whole body metabolic reactions."^^ns1:LatexString, + "A time that quantifies how long its takes to transform 50% of a substance's total concentration from any concentration point in time in fish via whole body metabolic reactions."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "A time that quantifies how long its takes to transform 50% of a substance's total concentration from any concentration point in time in fish via whole body metabolic reactions."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:FishBiotransformationHalfLife"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Force Magnitude"@en ; - dcterms:description "The 'magnitude' of a force is its 'size' or 'strength', regardless of the direction in which it acts."^^rdf:HTML ; + dcterms:description "The 'magnitude' of a force is its 'size' or 'strength', regardless of the direction in which it acts."^^ns1:LatexString, + "The 'magnitude' of a force is its 'size' or 'strength', regardless of the direction in which it acts."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33106,6 +38113,7 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:informativeReference "http://wiki.answers.com/Q/What_is_magnitude_of_force"^^xsd:anyURI ; ns1:plainTextDescription "The 'magnitude' of a force is its 'size' or 'strength', regardless of the direction in which it acts."^^xsd:string ; ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -33115,11 +38123,13 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_field"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerElectricCharge"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "g-Factor of Nucleus"@en ; - dcterms:description "The \"g-Factor of Nucleus\" is associated with the spin and magnetic moments of protons, neutrons, and many nuclei."^^rdf:HTML ; + dcterms:description "The \"g-Factor of Nucleus\" is associated with the spin and magnetic moments of protons, neutrons, and many nuclei."^^ns1:LatexString, + "The \"g-Factor of Nucleus\" is associated with the spin and magnetic moments of protons, neutrons, and many nuclei."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Landé_g-factor"^^xsd:anyURI ; @@ -33127,11 +38137,13 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:latexDefinition "$g = \\frac{\\mu}{I\\mu_B}$, where $\\mu$ is the magnitude of magnetic dipole moment, $I$ is the nuclear angular momentum quantum number, and $\\mu_B$ is the Bohr magneton."^^ns1:LatexString ; ns1:plainTextDescription "The \"g-Factor of Nucleus\" is associated with the spin and magnetic moments of protons, neutrons, and many nuclei."^^xsd:string ; ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GFactorOfNucleus"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Gap Energy"@en ; - dcterms:description "\"Gap Energy\" is the difference in energy between the lowest level of conduction band and the highest level of valence band. It is an energy range in a solid where no electron states can exist."^^rdf:HTML ; + dcterms:description "\"Gap Energy\" is the difference in energy between the lowest level of conduction band and the highest level of valence band. It is an energy range in a solid where no electron states can exist."^^ns1:LatexString, + "\"Gap Energy\" is the difference in energy between the lowest level of conduction band and the highest level of valence band. It is an energy range in a solid where no electron states can exist."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33186,98 +38198,28 @@ another substance in a given chemical reaction."""^^rdf:HTML ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Gap Energy\" is the difference in energy between the lowest level of conduction band and the highest level of valence band. It is an energy range in a solid where no electron states can exist."^^xsd:string ; ns1:symbol "E_g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Gauge Pressure"@en ; - dcterms:description """Gauge Pressure is the pressure of a system relative to the pressure of the surrounding atmosphere. -It is the difference between the absolute pressure and the atmospheric pressure. Gauge pressure is positive for pressures -above atmospheric pressure and negative for pressures below it. A Quantity in QUDT having a QuantityKind of GaugePressure -would typically also assert the value of qudt:isDeltaQuantity to be true, indicating that the value is a difference between -two pressures."""^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Gene Family Abundance"@en ; - dcterms:description "The abundance of each gene family in the community. Gene families are groups of evolutionarily-related protein-coding sequences that often perform similar functions. Gene family abundance is reported in RPK (reads per kilobase) units to normalize for gene length."^^rdf:HTML ; + dcterms:description "The abundance of each gene family in the community. Gene families are groups of evolutionarily-related protein-coding sequences that often perform similar functions. Gene family abundance is reported in RPK (reads per kilobase) units to normalize for gene length."^^ns1:LatexString, + "The abundance of each gene family in the community. Gene families are groups of evolutionarily-related protein-coding sequences that often perform similar functions. Gene family abundance is reported in RPK (reads per kilobase) units to normalize for gene length."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://learn.gencore.bio.nyu.edu/"^^xsd:anyURI ; ns1:plainTextDescription "The abundance of each gene family in the community. Gene families are groups of evolutionarily-related protein-coding sequences that often perform similar functions. Gene family abundance is reported in RPK (reads per kilobase) units to normalize for gene length."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:GeneFamilyAbundance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Generalized Coordinate"@en ; - dcterms:description "Generalized Coordinates refers to the parameters that describe the configuration of the system relative to some reference configuration. These parameters must uniquely define the configuration of the system relative to the reference configuration."^^rdf:HTML ; + dcterms:description "Generalized Coordinates refers to the parameters that describe the configuration of the system relative to some reference configuration. These parameters must uniquely define the configuration of the system relative to the reference configuration."^^ns1:LatexString, + "Generalized Coordinates refers to the parameters that describe the configuration of the system relative to some reference configuration. These parameters must uniquely define the configuration of the system relative to the reference configuration."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Generalized_coordinates"^^xsd:anyURI ; @@ -33285,11 +38227,13 @@ two pressures."""^^ns1:LatexString ; ns1:latexDefinition "$q_i$, where $q_i$ is one of the coordinates that is used to describe the position of the system under consideration, and $N$ is the lowest number of coordinates necessary to fully define the position of the system."^^ns1:LatexString ; ns1:plainTextDescription "Generalized Coordinates refers to the parameters that describe the configuration of the system relative to some reference configuration. These parameters must uniquely define the configuration of the system relative to the reference configuration."^^xsd:string ; ns1:symbol "q_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GeneralizedCoordinate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Generalized Force"@en ; - dcterms:description "Generalized Forces find use in Lagrangian mechanics, where they play a role conjugate to generalized coordinates."^^rdf:HTML ; + dcterms:description "Generalized Forces find use in Lagrangian mechanics, where they play a role conjugate to generalized coordinates."^^ns1:LatexString, + "Generalized Forces find use in Lagrangian mechanics, where they play a role conjugate to generalized coordinates."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Generalized_forces"^^xsd:anyURI ; @@ -33297,11 +38241,13 @@ two pressures."""^^ns1:LatexString ; ns1:latexDefinition "$\\delta A = \\sum Q_i\\delta q_i$, where $A$ is work and $q_i$ is a generalized coordinate."^^ns1:LatexString ; ns1:plainTextDescription "Generalized Forces find use in Lagrangian mechanics, where they play a role conjugate to generalized coordinates."^^xsd:string ; ns1:symbol "Q_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GeneralizedForce"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Generalized Force"@en ; - dcterms:description "Generalized Momentum, also known as the canonical or conjugate momentum, extends the concepts of both linear momentum and angular momentum. To distinguish it from generalized momentum, the product of mass and velocity is also referred to as mechanical, kinetic or kinematic momentum."^^rdf:HTML ; + dcterms:description "Generalized Momentum, also known as the canonical or conjugate momentum, extends the concepts of both linear momentum and angular momentum. To distinguish it from generalized momentum, the product of mass and velocity is also referred to as mechanical, kinetic or kinematic momentum."^^ns1:LatexString, + "Generalized Momentum, also known as the canonical or conjugate momentum, extends the concepts of both linear momentum and angular momentum. To distinguish it from generalized momentum, the product of mass and velocity is also referred to as mechanical, kinetic or kinematic momentum."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Momentum"^^xsd:anyURI ; @@ -33309,11 +38255,13 @@ two pressures."""^^ns1:LatexString ; ns1:latexDefinition "$p_i = \\frac{\\partial L}{\\partial \\dot{q_i}}$, where $L$ is the Langrange function and $\\dot{q_i}$ is a generalized velocity."^^ns1:LatexString ; ns1:plainTextDescription "Generalized Momentum, also known as the canonical or conjugate momentum, extends the concepts of both linear momentum and angular momentum. To distinguish it from generalized momentum, the product of mass and velocity is also referred to as mechanical, kinetic or kinematic momentum."^^xsd:string ; ns1:symbol "p_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GeneralizedMomentum"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Generalized Velocity"@en ; - dcterms:description "Generalized Velocities are the time derivatives of the generalized coordinates of the system."^^rdf:HTML ; + dcterms:description "Generalized Velocities are the time derivatives of the generalized coordinates of the system."^^ns1:LatexString, + "Generalized Velocities are the time derivatives of the generalized coordinates of the system."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Generalized_coordinates"^^xsd:anyURI ; @@ -33321,6 +38269,7 @@ two pressures."""^^ns1:LatexString ; ns1:latexDefinition "$\\dot{q_i} = \\frac{dq_i}{dt}$, where $q_i$ is the generalized coordinate and $t$ is time."^^ns1:LatexString ; ns1:latexSymbol "$\\dot{q_i}$"^^ns1:LatexString ; ns1:plainTextDescription "Generalized Velocities are the time derivatives of the generalized coordinates of the system."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GeneralizedVelocity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -33338,21 +38287,25 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative API gravity is thus an inverse measure of a petroleum liquid's density relative to that of water (also known as specific gravity). It is used to compare densities of petroleum liquids. For example, if one petroleum liquid is less dense than another, it has a greater API gravity. Although API gravity is mathematically a dimensionless quantity (see the formula below), it is referred to as being in 'degrees'. API gravity is graduated in degrees on a hydrometer instrument. API gravity values of most petroleum liquids fall between 10 and 70 degrees."""^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Gravity_API"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Growing Degree Days (Cereals)"@en ; - dcterms:description "The sum of excess temperature over 5.5°C, where the temperature is the mean of the minimum and maximum atmospheric temperature in a day. This measure is appropriate for most cereal crops."^^rdf:HTML ; + dcterms:description "The sum of excess temperature over 5.5°C, where the temperature is the mean of the minimum and maximum atmospheric temperature in a day. This measure is appropriate for most cereal crops."^^ns1:LatexString, + "The sum of excess temperature over 5.5°C, where the temperature is the mean of the minimum and maximum atmospheric temperature in a day. This measure is appropriate for most cereal crops."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "The sum of excess temperature over 5.5°C, where the temperature is the mean of the minimum and maximum atmospheric temperature in a day. This measure is appropriate for most cereal crops."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GrowingDegreeDay_Cereal"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Gruneisen Parameter"@en ; - dcterms:description "\"Gruneisen Parameter\" named after Eduard Grüneisen, describes the effect that changing the volume of a crystal lattice has on its vibrational properties, and, as a consequence, the effect that changing temperature has on the size or dynamics of the lattice."^^rdf:HTML ; + dcterms:description "\"Gruneisen Parameter\" named after Eduard Grüneisen, describes the effect that changing the volume of a crystal lattice has on its vibrational properties, and, as a consequence, the effect that changing temperature has on the size or dynamics of the lattice."^^ns1:LatexString, + "\"Gruneisen Parameter\" named after Eduard Grüneisen, describes the effect that changing the volume of a crystal lattice has on its vibrational properties, and, as a consequence, the effect that changing temperature has on the size or dynamics of the lattice."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Grüneisen_parameter"^^xsd:anyURI ; @@ -33360,11 +38313,13 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative ns1:latexDefinition "$\\gamma = \\frac{\\alpha_V}{x_T c_V\\rho}$, where $\\alpha_V$ is the cubic expansion coefficient, $x_T$ is isothermal compressibility, $c_V$ is specific heat capacity at constant volume, and $\\rho$ is mass density."^^ns1:LatexString ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; ns1:plainTextDescription "\"Gruneisen Parameter\" named after Eduard Grüneisen, describes the effect that changing the volume of a crystal lattice has on its vibrational properties, and, as a consequence, the effect that changing temperature has on the size or dynamics of the lattice."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GruneisenParameter"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Hall Coefficient"@en ; - dcterms:description "\"Hall Coefficient\" is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field."^^rdf:HTML ; + dcterms:description "\"Hall Coefficient\" is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field."^^ns1:LatexString, + "\"Hall Coefficient\" is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33376,11 +38331,13 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative ns1:latexDefinition "In an isotropic conductor, the relation between electric field strength, $E$, and electric current density, $J$ is $E = \\rho J + R_H(B X J)$, where $\\rho$ is resistivity, and $B$ is magnetic flux density."^^ns1:LatexString ; ns1:plainTextDescription "\"Hall Coefficient\" is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field."^^xsd:string ; ns1:symbol "R_H, A_H"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HallCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Hamilton Function"@en ; - dcterms:description "The Hamilton–Jacobi equation (HJE) is a necessary condition describing extremal geometry in generalizations of problems from the calculus of variations."^^rdf:HTML ; + dcterms:description "The Hamilton–Jacobi equation (HJE) is a necessary condition describing extremal geometry in generalizations of problems from the calculus of variations."^^ns1:LatexString, + "The Hamilton–Jacobi equation (HJE) is a necessary condition describing extremal geometry in generalizations of problems from the calculus of variations."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -33390,6 +38347,7 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative ns1:latexDefinition "$H = \\sum p_i\\dot{q_i} - L$, where $p_i$ is a generalized momentum, $\\dot{q_i}$ is a generalized velocity, and $L$ is the Lagrange function."^^ns1:LatexString ; ns1:plainTextDescription "The Hamilton–Jacobi equation (HJE) is a necessary condition describing extremal geometry in generalizations of problems from the calculus of variations."^^xsd:string ; ns1:symbol "H"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HamiltonFunction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -33459,31 +38417,73 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Heart Rate"@en ; - dcterms:description "The number of heartbeats per unit of time, usually per minute. The heart rate is based on the number of contractions of the ventricles (the lower chambers of the heart). The heart rate may be too fast (tachycardia) or too slow (bradycardia). The average adult pulse rate at rest is 60–80 per minute, but exercise, injury, illness, and emotion may produce much faster rates."^^rdf:HTML ; + dcterms:description "The number of heartbeats per unit of time, usually per minute. The heart rate is based on the number of contractions of the ventricles (the lower chambers of the heart). The heart rate may be too fast (tachycardia) or too slow (bradycardia). The average adult pulse rate at rest is 60–80 per minute, but exercise, injury, illness, and emotion may produce much faster rates."^^ns1:LatexString, + "The number of heartbeats per unit of time, usually per minute. The heart rate is based on the number of contractions of the ventricles (the lower chambers of the heart). The heart rate may be too fast (tachycardia) or too slow (bradycardia). The average adult pulse rate at rest is 60–80 per minute, but exercise, injury, illness, and emotion may produce much faster rates."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Heart_rate"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.medterms.com/script/main/art.asp?articlekey=3674"^^xsd:anyURI, "http://www.oxfordreference.com/view/10.1093/oi/authority.20110803100354463"^^xsd:anyURI ; ns1:plainTextDescription "The number of heartbeats per unit of time, usually per minute. The heart rate is based on the number of contractions of the ventricles (the lower chambers of the heart). The heart rate may be too fast (tachycardia) or too slow (bradycardia). The average adult pulse rate at rest is 60–80 per minute, but exercise, injury, illness, and emotion may produce much faster rates."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HeartRate"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Heat Flow Rate per Unit Area"@en ; + dcterms:description "$\\textit{Heat Flux}$ is the heat rate per area. In SI units, heat flux is measured in $W/m^2$. Heat rate is a scalar quantity, while heat flux is a vectorial quantity. To define the heat flux at a certain point in space, one takes the limiting case where the size of the surface becomes infinitesimally small."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_flux"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Henry's Law Volatility Constant"@en ; - dcterms:description "A quantity kind that is a proportionality constant that relates the partial pressure of a gas above a liquid and the concentration of the gas dissolved in the liquid. The numerator contains the gaseous concentration and the denominator contains the liquid concentration."^^rdf:HTML ; + dcterms:description "A quantity kind that is a proportionality constant that relates the partial pressure of a gas above a liquid and the concentration of the gas dissolved in the liquid. The numerator contains the gaseous concentration and the denominator contains the liquid concentration."^^ns1:LatexString, + "A quantity kind that is a proportionality constant that relates the partial pressure of a gas above a liquid and the concentration of the gas dissolved in the liquid. The numerator contains the gaseous concentration and the denominator contains the liquid concentration."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "A quantity kind that is a proportionality constant that relates the partial pressure of a gas above a liquid and the concentration of the gas dissolved in the liquid. The numerator contains the gaseous concentration and the denominator contains the liquid concentration."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HenrysLawVolatilityConstant"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Hyperfine Structure Quantum Number"@en ; - dcterms:description "The \"Hyperfine Structure Quantum Number\" is a quantum number of an atom describing inclination of the nuclear spin with respect to a quantization axis given by the magnetic field produced by the orbital electrons."^^rdf:HTML ; + dcterms:description "The \"Hyperfine Structure Quantum Number\" is a quantum number of an atom describing inclination of the nuclear spin with respect to a quantization axis given by the magnetic field produced by the orbital electrons."^^ns1:LatexString, + "The \"Hyperfine Structure Quantum Number\" is a quantum number of an atom describing inclination of the nuclear spin with respect to a quantization axis given by the magnetic field produced by the orbital electrons."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Hyperfine_structure"^^xsd:anyURI, @@ -33491,12 +38491,14 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The \"Hyperfine Structure Quantum Number\" is a quantum number of an atom describing inclination of the nuclear spin with respect to a quantization axis given by the magnetic field produced by the orbital electrons."^^xsd:string ; ns1:symbol "F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HyperfineStructureQuantumNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Incidence Proportion"@en ; - dcterms:description "Incidence proportion (also known as cumulative incidence) is the number of new cases within a specified time period divided by the size of the population initially at risk. For example, if a population initially contains 1,000 non-diseased persons and 28 develop a condition over two years of observation, the incidence proportion is 28 cases per 1,000 persons per two years, i.e. 2.8% per two years."^^rdf:HTML ; + dcterms:description "Incidence proportion (also known as cumulative incidence) is the number of new cases within a specified time period divided by the size of the population initially at risk. For example, if a population initially contains 1,000 non-diseased persons and 28 develop a condition over two years of observation, the incidence proportion is 28 cases per 1,000 persons per two years, i.e. 2.8% per two years."^^ns1:LatexString, + "Incidence proportion (also known as cumulative incidence) is the number of new cases within a specified time period divided by the size of the population initially at risk. For example, if a population initially contains 1,000 non-diseased persons and 28 develop a condition over two years of observation, the incidence proportion is 28 cases per 1,000 persons per two years, i.e. 2.8% per two years."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Cumulative_incidence"^^xsd:anyURI, @@ -33504,45 +38506,52 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative ns1:plainTextDescription "Incidence proportion (also known as cumulative incidence) is the number of new cases within a specified time period divided by the size of the population initially at risk. For example, if a population initially contains 1,000 non-diseased persons and 28 develop a condition over two years of observation, the incidence proportion is 28 cases per 1,000 persons per two years, i.e. 2.8% per two years."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Incidence"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "Incidence Rate"@en ; - dcterms:description "The incidence rate is a measure of the frequency with which a disease or other incident occurs over a specified time period. It is also known as the incidence density rate or person-time incidence rate, when the denominator is the combined person-time of the population at risk (the sum of the time duration of exposure across all persons exposed)"^^rdf:HTML ; + dcterms:description "The incidence rate is a measure of the frequency with which a disease or other incident occurs over a specified time period. It is also known as the incidence density rate or person-time incidence rate, when the denominator is the combined person-time of the population at risk (the sum of the time duration of exposure across all persons exposed)"^^ns1:LatexString, + "The incidence rate is a measure of the frequency with which a disease or other incident occurs over a specified time period. It is also known as the incidence density rate or person-time incidence rate, when the denominator is the combined person-time of the population at risk (the sum of the time duration of exposure across all persons exposed)"^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Incidence_(epidemiology)"^^xsd:anyURI ; ns1:plainTextDescription "The incidence rate is a measure of the frequency with which a disease or other incident occurs over a specified time period. It is also known as the incidence density rate or person-time incidence rate, when the denominator is the combined person-time of the population at risk (the sum of the time duration of exposure across all persons exposed)"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Incidence"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "Infinite Multiplication Factor"@en ; - dcterms:description "The \"Infinite Multiplication Factor\" is the multiplication factor for an infinite medium or for an infinite repeating lattice."^^rdf:HTML ; + dcterms:description "The \"Infinite Multiplication Factor\" is the multiplication factor for an infinite medium or for an infinite repeating lattice."^^ns1:LatexString, + "The \"Infinite Multiplication Factor\" is the multiplication factor for an infinite medium or for an infinite repeating lattice."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Four_factor_formula"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$k_\\infty$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Infinite Multiplication Factor\" is the multiplication factor for an infinite medium or for an infinite repeating lattice."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MultiplicationFactor"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "InternalConversionFactor"@en ; - dcterms:description "The \"InternalConversionFactor\" describes the rate of internal conversion. It is the ratio of the number of internal conversion electrons to the number of gamma quanta emitted by the radioactive atom in a given transition."^^rdf:HTML ; + dcterms:description "The \"InternalConversionFactor\" describes the rate of internal conversion. It is the ratio of the number of internal conversion electrons to the number of gamma quanta emitted by the radioactive atom in a given transition."^^ns1:LatexString, + "The \"InternalConversionFactor\" describes the rate of internal conversion. It is the ratio of the number of internal conversion electrons to the number of gamma quanta emitted by the radioactive atom in a given transition."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Internal_conversion_coefficient"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"InternalConversionFactor\" describes the rate of internal conversion. It is the ratio of the number of internal conversion electrons to the number of gamma quanta emitted by the radioactive atom in a given transition."^^xsd:string ; ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:InternalConversionFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -33558,28 +38567,43 @@ API gravity is thus an inverse measure of a petroleum liquid's density relative , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Inverse Square Time"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseTime_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Ion Concentration"@en ; - dcterms:description "\"Ion Concentration\" is the number of ions per unit volume. Also known as ion density."^^rdf:HTML ; + dcterms:description "\"Ion Concentration\" is the number of ions per unit volume. Also known as ion density."^^ns1:LatexString, + "\"Ion Concentration\" is the number of ions per unit volume. Also known as ion density."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Ion Concentration\" is the number of ions per unit volume. Also known as ion density."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:InverseVolume"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Ion Density"@en ; - dcterms:description "\"Ion Density\" is the number of ions per unit volume. Also known as ion concentration."^^rdf:HTML ; + dcterms:description "\"Ion Density\" is the number of ions per unit volume. Also known as ion concentration."^^ns1:LatexString, + "\"Ion Density\" is the number of ions per unit volume. Also known as ion concentration."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -33593,12 +38617,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Ion Density\" is the number of ions per unit volume. Also known as ion concentration."^^xsd:string ; ns1:symbol "N, n^+, n^-"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Ion Transport Number"@en ; - dcterms:description "The \"Ion Transport Number\" is a quantity which indicates the different contribution of ions to the electric current in electrolytes due to different electrical mobility."^^rdf:HTML ; + dcterms:description "The \"Ion Transport Number\" is a quantity which indicates the different contribution of ions to the electric current in electrolytes due to different electrical mobility."^^ns1:LatexString, + "The \"Ion Transport Number\" is a quantity which indicates the different contribution of ions to the electric current in electrolytes due to different electrical mobility."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ion_transport_number"^^xsd:anyURI ; @@ -33606,12 +38632,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$t_B = \\frac{i_B}{i}$, where $i_B$ is the electric current carried by the ion $B$ and $i$ is the total electric current."^^ns1:LatexString ; ns1:plainTextDescription "The \"Ion Transport Number\" is a quantity which indicates the different contribution of ions to the electric current in electrolytes due to different electrical mobility."^^xsd:string ; ns1:symbol "t_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:IonTransportNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Kerma"@en ; - dcterms:description "\"Kerma\" is the sum of the initial kinetic energies of all the charged particles liberated by uncharged ionizing radiation (i.e., indirectly ionizing radiation such as photons and neutrons) in a sample of matter, divided by the mass of the sample."^^rdf:HTML ; + dcterms:description "\"Kerma\" is the sum of the initial kinetic energies of all the charged particles liberated by uncharged ionizing radiation (i.e., indirectly ionizing radiation such as photons and neutrons) in a sample of matter, divided by the mass of the sample."^^ns1:LatexString, + "\"Kerma\" is the sum of the initial kinetic energies of all the charged particles liberated by uncharged ionizing radiation (i.e., indirectly ionizing radiation such as photons and neutrons) in a sample of matter, divided by the mass of the sample."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33622,12 +38650,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "For indirectly ionizing (uncharged) particles, $K= \\frac{dE_{tr}}{dm}$, where $dE_{tr}$ is the mean sum of the initial kinetic energies of all the charged ionizing particles liberated by uncharged ionizing particles in an element of matter, and $dm$ is the mass of that element."^^ns1:LatexString ; ns1:plainTextDescription "\"Kerma\" is the sum of the initial kinetic energies of all the charged particles liberated by uncharged ionizing radiation (i.e., indirectly ionizing radiation such as photons and neutrons) in a sample of matter, divided by the mass of the sample."^^xsd:string ; ns1:symbol "K"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Kerma"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Kerma Rate"@en ; - dcterms:description "\"Kerma Rate\" is the kerma per unit time."^^rdf:HTML ; + dcterms:description "\"Kerma Rate\" is the kerma per unit time."^^ns1:LatexString, + "\"Kerma Rate\" is the kerma per unit time."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33659,11 +38689,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$\\dot{K} = \\frac{dK}{dt}$, where $K$ is the increment of kerma during time interval with duration $t$."^^ns1:LatexString ; ns1:latexSymbol "$\\dot{K}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Kerma Rate\" is the kerma per unit time."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:KermaRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Lagrange Function"@en ; - dcterms:description "The Lagrange Function is a function that summarizes the dynamics of the system."^^rdf:HTML ; + dcterms:description "The Lagrange Function is a function that summarizes the dynamics of the system."^^ns1:LatexString, + "The Lagrange Function is a function that summarizes the dynamics of the system."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -33674,11 +38706,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$L(q_i, \\dot{q_i}) = T(q_i, \\dot{q_i}) - V(q_i)$, where $T$ is kinetic energy, $V$ is potential energy, $q_i$ is a generalized coordinate, and $\\dot{q_i}$ is a generalized velocity."^^ns1:LatexString ; ns1:plainTextDescription "The Lagrange Function is a function that summarizes the dynamics of the system."^^xsd:string ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LagrangeFunction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Landau-Ginzburg Number"@en ; - dcterms:description "\"Landau-Ginzburg Number\", also known as the Ginzburg-Landau parameter, describes the relationship between London penetration depth and coherence length."^^rdf:HTML ; + dcterms:description "\"Landau-Ginzburg Number\", also known as the Ginzburg-Landau parameter, describes the relationship between London penetration depth and coherence length."^^ns1:LatexString, + "\"Landau-Ginzburg Number\", also known as the Ginzburg-Landau parameter, describes the relationship between London penetration depth and coherence length."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Ginzburg–Landau_theory"^^xsd:anyURI ; @@ -33686,12 +38720,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "At zero thermodynamic temperature $\\kappa = \\frac{\\lambda_L}{(\\varepsilon\\sqrt{2})}$, where $\\lambda_L$ is London penetration depth and $\\varepsilon$ is coherence length."^^ns1:LatexString ; ns1:latexSymbol "$\\kappa$"^^ns1:LatexString ; ns1:plainTextDescription "\"Landau-Ginzburg Number\", also known as the Ginzburg-Landau parameter, describes the relationship between London penetration depth and coherence length."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Landau-GinzburgNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Lande g-Factor"@en ; - dcterms:description "The \"Lande g-Factor\" is a particular example of a g-factor, namely for an electron with both spin and orbital angular momenta. It is named after Alfred Landé, who first described it in 1921."^^rdf:HTML ; + dcterms:description "The \"Lande g-Factor\" is a particular example of a g-factor, namely for an electron with both spin and orbital angular momenta. It is named after Alfred Landé, who first described it in 1921."^^ns1:LatexString, + "The \"Lande g-Factor\" is a particular example of a g-factor, namely for an electron with both spin and orbital angular momenta. It is named after Alfred Landé, who first described it in 1921."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/G-factor_(physics)"^^xsd:anyURI, @@ -33700,11 +38736,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$g = \\frac{\\mu}{J\\mu_B}$, where $\\mu$ is the magnitude of magnetic dipole moment, $J$ is the total angular momentum quantum number, and $\\mu_B$ is the Bohr magneton."^^ns1:LatexString ; ns1:plainTextDescription "The \"Lande g-Factor\" is a particular example of a g-factor, namely for an electron with both spin and orbital angular momenta. It is named after Alfred Landé, who first described it in 1921."^^xsd:string ; ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LandeGFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Lattice Vector"@en ; - dcterms:description "\"Lattice Vector\" is a translation vector that maps the crystal lattice on itself."^^rdf:HTML ; + dcterms:description "\"Lattice Vector\" is a translation vector that maps the crystal lattice on itself."^^ns1:LatexString, + "\"Lattice Vector\" is a translation vector that maps the crystal lattice on itself."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33749,12 +38787,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Lattice Vector\" is a translation vector that maps the crystal lattice on itself."^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Leakage Factor"@en ; - dcterms:description "\"Leakage Factor\" is the ratio of the total magnetic flux to the useful magnetic flux of a magnetic circuit."^^rdf:HTML ; + dcterms:description "\"Leakage Factor\" is the ratio of the total magnetic flux to the useful magnetic flux of a magnetic circuit."^^ns1:LatexString, + "\"Leakage Factor\" is the ratio of the total magnetic flux to the useful magnetic flux of a magnetic circuit."^^rdf:HTML ; ns1:applicableUnit ; ns1:expression "$leakage-factor$"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -33763,10 +38803,20 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$\\sigma = 1 - k^2$, where $k$ is the coupling factor."^^ns1:LatexString ; ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; ns1:plainTextDescription "\"Leakage Factor\" is the ratio of the total magnetic flux to the useful magnetic flux of a magnetic circuit."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LeakageFactor"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Length per Electric Current"@en ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Length per Unit Electric Current"@en ; + dcterms:isReplacedBy ; + ns1:deprecated true ; ns1:hasDimensionVector ; rdfs:isDefinedBy . @@ -33778,28 +38828,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; - rdfs:isDefinedBy ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "Length Ratio"@en ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:LengthPercentage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -33807,11 +38836,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively rdfs:label "Length Temperature Time"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:LengthTemperatureTime"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Lethargy"@en ; - dcterms:description "The \"Lethargy\" is a dimensionless logarithm of the ratio of the energy of source neutrons to the energy of neutrons after a collision."^^rdf:HTML ; + dcterms:description "The \"Lethargy\" is a dimensionless logarithm of the ratio of the energy of source neutrons to the energy of neutrons after a collision."^^ns1:LatexString, + "The \"Lethargy\" is a dimensionless logarithm of the ratio of the energy of source neutrons to the energy of neutrons after a collision."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.scribd.com/doc/51548050/149/Lethargy"^^xsd:anyURI ; @@ -33819,11 +38850,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$u = \\ln(\\frac{E_0}{E})$, where $E_0$ is a reference energy."^^ns1:LatexString ; ns1:plainTextDescription "The \"Lethargy\" is a dimensionless logarithm of the ratio of the energy of source neutrons to the energy of neutrons after a collision."^^xsd:string ; ns1:symbol "u"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Lethargy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Level Width"@en ; - dcterms:description "The \"Level Width\" is the uncertainty in the energy of a quantum-mechanical system having discrete energy levels in a state that is not strictly stationary. The system may be an atom, a molecule, or an atomic nucleus."^^rdf:HTML ; + dcterms:description "The \"Level Width\" is the uncertainty in the energy of a quantum-mechanical system having discrete energy levels in a state that is not strictly stationary. The system may be an atom, a molecule, or an atomic nucleus."^^ns1:LatexString, + "The \"Level Width\" is the uncertainty in the energy of a quantum-mechanical system having discrete energy levels in a state that is not strictly stationary. The system may be an atom, a molecule, or an atomic nucleus."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -33833,19 +38866,23 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$\\Gamma = \\frac{\\hbar}{\\tau}$, where $\\hbar$ is the reduced Planck constant and $\\tau$ is the mean lifetime."^^ns1:LatexString ; ns1:latexSymbol "$\\Gamma$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Level Width\" is the uncertainty in the energy of a quantum-mechanical system having discrete energy levels in a state that is not strictly stationary. The system may be an atom, a molecule, or an atomic nucleus."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LevelWidth"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Linear Compressibility"@en ; - dcterms:description "Linear Compressibility is a measure of the relative length change of a solid as a response to a normal force change."^^rdf:HTML ; + dcterms:description "Linear Compressibility is a measure of the relative length change of a solid as a response to a normal force change."^^ns1:LatexString, + "Linear Compressibility is a measure of the relative length change of a solid as a response to a normal force change."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Linear Compressibility is a measure of the relative length change of a solid as a response to a normal force change."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearCompressibility"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Linear Electric Current"@en ; - dcterms:description "\"Linear Electric Linear Current\" is the electric current per unit line."^^rdf:HTML ; + dcterms:description "\"Linear Electric Linear Current\" is the electric current per unit line."^^ns1:LatexString, + "\"Linear Electric Linear Current\" is the electric current per unit line."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33856,12 +38893,27 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:iec61360Code "0112/2///62720#UAD076"^^xsd:string ; ns1:informativeReference "http://www.asknumbers.com/ElectricalConversion.aspx"^^xsd:anyURI ; ns1:plainTextDescription "\"Linear Electric Linear Current\" is the electric current per unit line."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearElectricCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Linear Strain"@en ; - dcterms:description "A strain is a normalized measure of deformation representing the displacement between particles in the body relative to a reference length."^^rdf:HTML ; + dcterms:description "A strain is a normalized measure of deformation representing the displacement between particles in the body relative to a reference length."^^ns1:LatexString, + "A strain is a normalized measure of deformation representing the displacement between particles in the body relative to a reference length."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Deformation_(mechanics)"^^xsd:anyURI ; @@ -33869,23 +38921,29 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$\\xi = \\frac{\\Delta l}{l_0}$, where $\\Delta l$ is the increase in length and $l_0$ is the length in a reference state to be specified."^^ns1:LatexString ; ns1:latexSymbol "$\\xi$"^^ns1:LatexString ; ns1:plainTextDescription "A strain is a normalized measure of deformation representing the displacement between particles in the body relative to a reference length."^^xsd:string ; - rdfs:isDefinedBy . + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Octanol Air Partition Coefficient"@en ; - dcterms:description "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of liquid octanol and gaseous air at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible substances."^^rdf:HTML ; + dcterms:description "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of liquid octanol and gaseous air at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible substances."^^ns1:LatexString, + "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of liquid octanol and gaseous air at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible substances."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of liquid octanol and gaseous air at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible substances."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LogOctanolAirPartitionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Logarithm of Octanol Water Partition Coefficient"@en ; - dcterms:description "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of octanol and water at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible liquids. This property is used to measure the lipophilicity and the hydrophilicity of a substance."^^rdf:HTML ; + dcterms:description "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of octanol and water at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible liquids. This property is used to measure the lipophilicity and the hydrophilicity of a substance."^^ns1:LatexString, + "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of octanol and water at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible liquids. This property is used to measure the lipophilicity and the hydrophilicity of a substance."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "A dimensionless ratio that is the logarithm of the ratio of a compound's concentration within a two phase mixture of octanol and water at equilibrium. More simply, it is a comparison of the solubilities of the compound solute in these two immiscible liquids. This property is used to measure the lipophilicity and the hydrophilicity of a substance."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LogOctanolWaterPartitionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -33907,21 +38965,25 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:iec61360Code "0112/2///62720#UAD083"^^xsd:string ; ns1:latexDefinition "$G = \\log_{2}(f2/f1)$, where $f1$ and $f2 \\geq f1$ are frequencies of two tones."^^ns1:LatexString ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LogarithmicFrequencyInterval"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Long-Range Order Parameter"@en ; - dcterms:description "\"Long-Range Order Parameter\" is the fraction of atoms in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^rdf:HTML ; + dcterms:description "\"Long-Range Order Parameter\" is the fraction of atoms in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^ns1:LatexString, + "\"Long-Range Order Parameter\" is the fraction of atoms in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Long-Range Order Parameter\" is the fraction of atoms in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^xsd:string ; ns1:symbol "R, s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Long-RangeOrderParameter"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Lorenz Coefficient"@en ; - dcterms:description "\"Lorenz Coefficient\" is part mof the Lorenz curve."^^rdf:HTML ; + dcterms:description "\"Lorenz Coefficient\" is part mof the Lorenz curve."^^ns1:LatexString, + "\"Lorenz Coefficient\" is part mof the Lorenz curve."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD087"^^xsd:string ; @@ -33930,17 +38992,23 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$L = \\frac{\\lambda}{\\sigma T}$, where $\\lambda$ is thermal conductivity, $\\sigma$ is electric conductivity, and $T$ is thermodynamic temperature."^^ns1:LatexString ; ns1:plainTextDescription "\"Lorenz Coefficient\" is part mof the Lorenz curve."^^xsd:string ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LorenzCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Loss Factor"@en ; - dcterms:description "\"Loss Factor} is the inverse of \\textit{Quality Factor} and is the ratio of the \\textit{resistance} and modulus of \\textit{reactance\"."^^rdf:HTML ; + dcterms:description """ + $\\textit{Loss Factor}$ is the inverse of $\\textit{Quality Factor}$ and is the ratio of the $\\textit{resistance}$ and modulus of $\\textit{reactance}$. + """^^ns1:LatexString, + "\"Loss Factor} is the inverse of \\textit{Quality Factor} and is the ratio of the \\textit{resistance} and modulus of \\textit{reactance\"."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$d = \\frac{1}{Q}$, where $Q$ is quality factor."^^ns1:LatexString ; - ns1:plainTextDescription "\"Loss Factor} is the inverse of \\textit{Quality Factor} and is the ratio of the \\textit{resistance} and modulus of \\textit{reactance\"."^^xsd:string ; + ns1:plainTextDescription "\"Loss Factor} is the inverse of \\textit{Quality Factor} and is the ratio of the \\textit{resistance} and modulus of \\textit{reactance\"."^^xsd:string, + "Loss Factor is the inverse of Quality Factor and is the ratio of the resistance and modulus of reactance."^^xsd:string ; ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LossFactor"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -33948,7 +39016,8 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively a ns1:QuantityKind ; rdfs:label "Lower Critical Magnetic Flux Density"@en ; - dcterms:description "\"Lower Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for magnetic flux entering the superconductor."^^rdf:HTML ; + dcterms:description "\"Lower Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for magnetic flux entering the superconductor."^^ns1:LatexString, + "\"Lower Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for magnetic flux entering the superconductor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -33963,13 +39032,15 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Lower Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for magnetic flux entering the superconductor."^^xsd:string ; ns1:symbol "B_{c1}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFluxDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Luminous Efficacy"@en ; - dcterms:description "Luminous Efficacy is the ratio of luminous flux (in lumens) to power (usually measured in watts). Depending on context, the power can be either the radiant flux of the source's output, or it can be the total electric power consumed by the source."^^rdf:HTML ; + dcterms:description "Luminous Efficacy is the ratio of luminous flux (in lumens) to power (usually measured in watts). Depending on context, the power can be either the radiant flux of the source's output, or it can be the total electric power consumed by the source."^^ns1:LatexString, + "Luminous Efficacy is the ratio of luminous flux (in lumens) to power (usually measured in watts). Depending on context, the power can be either the radiant flux of the source's output, or it can be the total electric power consumed by the source."^^rdf:HTML ; ns1:applicableUnit ; ns1:expression "$lm/w$"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -33977,11 +39048,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:informativeReference "http://en.wikipedia.org/wiki/Luminous_efficacy"^^xsd:anyURI ; ns1:latexDefinition "$K = \\frac{\\Phi_v}{\\Phi}$, where $\\Phi_v$ is the luminous flux and $\\Phi$ is the corresponding radiant flux."^^ns1:LatexString ; ns1:plainTextDescription "Luminous Efficacy is the ratio of luminous flux (in lumens) to power (usually measured in watts). Depending on context, the power can be either the radiant flux of the source's output, or it can be the total electric power consumed by the source."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousEfficacy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Luminous Exposure"@en ; - dcterms:description "Luminous Exposure is the time-integrated illuminance."^^rdf:HTML ; + dcterms:description "Luminous Exposure is the time-integrated illuminance."^^ns1:LatexString, + "Luminous Exposure is the time-integrated illuminance."^^rdf:HTML ; + ns1:altSymbol "Hv"^^xsd:string ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -33991,6 +39065,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:plainTextDescription "Luminous Exposure is the time-integrated illuminance."^^xsd:string ; ns1:symbol "H_v"^^xsd:string, "Hv"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousExposure"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34016,8 +39091,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively "svetlobni tok"@sl, "işık akısı"@tr, "光通量"@zh ; - dcterms:description "Luminous Flux or Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light."^^rdf:HTML ; - ns1:applicableUnit ; + dcterms:description """ + $\\textit{Luminous Flux}$, or $\\textit{Luminous Power}$, is the measure of the perceived power of light. + It differs from radiant flux, the measure of the total power of light emitted, + in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. + """^^ns1:LatexString, + "Luminous Flux or Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light."^^rdf:HTML ; + ns1:applicableUnit , + ; ns1:dbpediaMatch "http://dbpedia.org/resource/Luminous_flux"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD094"^^xsd:string ; @@ -34027,11 +39108,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:plainTextDescription "Luminous Flux or Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousFlux"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Luminous Flux Ratio"@en ; - dcterms:description "Luminous Flux Ratio (or Relative Luminous Flux or Relative Luminous Power) is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^rdf:HTML ; + dcterms:description "Luminous Flux Ratio (or Relative Luminous Flux or Relative Luminous Power) is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^ns1:LatexString, + "Luminous Flux Ratio (or Relative Luminous Flux or Relative Luminous Power) is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34051,16 +39134,20 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:plainTextDescription "Luminous Flux Ratio (or Relative Luminous Flux or Relative Luminous Power) is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Ion Concentration"@en ; - dcterms:description "\"Luminous Intensity Distribution\" is a measure of the luminous intensity of a light source that changes according to the direction of the ray. It is normally based on some standardized distribution light distribution curves. Usually measured in Candela/Lumen (cd/lm) or (cd/klm)."^^rdf:HTML ; - ns1:applicableUnit ; + dcterms:description "\"Luminous Intensity Distribution\" is a measure of the luminous intensity of a light source that changes according to the direction of the ray. It is normally based on some standardized distribution light distribution curves. Usually measured in Candela/Lumen (cd/lm) or (cd/klm)."^^ns1:LatexString, + "\"Luminous Intensity Distribution\" is a measure of the luminous intensity of a light source that changes according to the direction of the ray. It is normally based on some standardized distribution light distribution curves. Usually measured in Candela/Lumen (cd/lm) or (cd/klm)."^^rdf:HTML ; + ns1:applicableUnit , + ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/link/ifcluminousintensitydistributionmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "\"Luminous Intensity Distribution\" is a measure of the luminous intensity of a light source that changes according to the direction of the ray. It is normally based on some standardized distribution light distribution curves. Usually measured in Candela/Lumen (cd/lm) or (cd/klm)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousIntensityDistribution"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34082,7 +39169,8 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively "Machovo število"@sl, "Mach sayısı"@tr, "马赫"@zh ; - dcterms:description "\"Mach Number\" is a dimensionless quantity representing the speed of an object moving through air or other fluid divided by the local speed of sound. It is commonly used to represent the speed of an object when it is traveling close to or above the speed of sound. The Mach number is commonly used both with objects traveling at high speed in a fluid, and with high-speed fluid flows inside channels such as nozzles, diffusers or wind tunnels. As it is defined as a ratio of two speeds, it is a dimensionless number."^^rdf:HTML ; + dcterms:description "\"Mach Number\" is a dimensionless quantity representing the speed of an object moving through air or other fluid divided by the local speed of sound. It is commonly used to represent the speed of an object when it is traveling close to or above the speed of sound. The Mach number is commonly used both with objects traveling at high speed in a fluid, and with high-speed fluid flows inside channels such as nozzles, diffusers or wind tunnels. As it is defined as a ratio of two speeds, it is a dimensionless number."^^ns1:LatexString, + "\"Mach Number\" is a dimensionless quantity representing the speed of an object moving through air or other fluid divided by the local speed of sound. It is commonly used to represent the speed of an object when it is traveling close to or above the speed of sound. The Mach number is commonly used both with objects traveling at high speed in a fluid, and with high-speed fluid flows inside channels such as nozzles, diffusers or wind tunnels. As it is defined as a ratio of two speeds, it is a dimensionless number."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Mach_number"^^xsd:anyURI ; ns1:hasDimensionVector ; @@ -34095,6 +39183,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:symbol "Ma"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MachNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . @@ -34112,7 +39201,8 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively "constante de Madelung"@pt, "постоянная Маделунга"@ru, "馬德隆常數"@zh ; - dcterms:description "\"Madelung Constant\" is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges. It is named after Erwin Madelung, a German physicist."^^rdf:HTML ; + dcterms:description "\"Madelung Constant\" is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges. It is named after Erwin Madelung, a German physicist."^^ns1:LatexString, + "\"Madelung Constant\" is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges. It is named after Erwin Madelung, a German physicist."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Madelung_constant"^^xsd:anyURI ; @@ -34120,6 +39210,20 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "For a uni-univalent ionic crystal of specified structure, the binding energy $V_b$ per pair of ions is $V_b = \\alpha\\frac{e^2}{4\\pi \\varepsilon_0 a}$, where $e$ is the elementary charge, $\\varepsilon_0$ is the electric constant, and $a$ is the lattice constant which should be specified."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; ns1:plainTextDescription "\"Madelung Constant\" is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges. It is named after Erwin Madelung, a German physicist."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MadelungConstant"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Magnetic flux per length"@en ; + dcterms:description "\"Magnetic Flux per Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "\"Magnetic Flux per Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFluxPerLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34132,6 +39236,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$\\kappa = \\frac{M}{H}$, where $M$ is magnetization, and $H$ is magnetic field strength."^^ns1:LatexString ; ns1:latexSymbol "$\\kappa$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MagneticSusceptability"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -34139,46 +39244,56 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively a ns1:QuantityKind ; rdfs:label "Mass Absorption Coefficient"@en ; - dcterms:description "The mass absorption coefficient is the linear absorption coefficient divided by the density of the absorber."^^rdf:HTML ; + dcterms:description "The mass absorption coefficient is the linear absorption coefficient divided by the density of the absorber."^^ns1:LatexString, + "The mass absorption coefficient is the linear absorption coefficient divided by the density of the absorber."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://medical-dictionary.thefreedictionary.com/mass+absorption+coefficient"^^xsd:anyURI ; ns1:latexDefinition "$a_m = \\frac{a}{\\rho}$, where $a$ is the linear absorption coefficient and $\\rho$ is the mass density of the medium."^^ns1:LatexString ; ns1:latexSymbol "$a_m$"^^ns1:LatexString ; ns1:plainTextDescription "The mass absorption coefficient is the linear absorption coefficient divided by the density of the absorber."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassAbsorptionCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Amount of Substance Temperature"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:MassAmountOfSubstanceTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Concentration of Water"@en ; - dcterms:description "\"Mass Concentration of Water Valour} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Concentration of Water\" is one of a number of $\\textit{Concentration}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Concentration of Water Valour} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$w = m/V$, where $m$ is mass of water, irrespective of the form of aggregation, and $V$ is volume. Mass concentration of water at saturation is denoted $w_{sat}$."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Concentration of Water Valour} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Concentration of Water Valour} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string, + "Mass Concentration of Water is one of a number of Concentration quantities defined by ISO 80000."^^xsd:string ; ns1:symbol "w"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassConcentrationOfWater"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Concentration of Water Vapour"@en ; - dcterms:description "\"Mass Concentration of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Concentration of Water Vapour\" is one of a number of $\\textit{Concentration}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Concentration of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$w = m/V$, where $m$ is mass of water vapour and $V$ is total gas volume. Mass concentration of water vapour at saturation is denoted $v_{sat}$."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Concentration of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Concentration of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string, + "Mass Concentration of Water is one of a number of Concentration quantities defined by ISO 80000."^^xsd:string ; ns1:symbol "v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassConcentrationOfWaterVapour"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Defect"@en ; - dcterms:description "The \"Mass Defect\", also termed mass deficit, or mass packing fraction, describes mass change (decrease) in bound systems, particularly atomic nuclei."^^rdf:HTML ; + dcterms:description "The \"Mass Defect\", also termed mass deficit, or mass packing fraction, describes mass change (decrease) in bound systems, particularly atomic nuclei."^^ns1:LatexString, + "The \"Mass Defect\", also termed mass deficit, or mass packing fraction, describes mass change (decrease) in bound systems, particularly atomic nuclei."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34239,12 +39354,14 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$B = Zm(^{1}\\textrm{H}) + Nm_n - m_a$, where $Z$ is the proton number of the atom, $m(^{1}\\textrm{H})$ is atomic mass of $^{1}\\textrm{H}$, $N$ is the neutron number, $m_n$ is the rest mass of the neutron, and $m_a$ is the rest mass of the atom."^^ns1:LatexString ; ns1:plainTextDescription "The \"Mass Defect\", also termed mass deficit, or mass packing fraction, describes mass change (decrease) in bound systems, particularly atomic nuclei."^^xsd:string ; ns1:symbol "B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Energy Transfer Coefficient"@en ; - dcterms:description "\"Mass Energy Transfer Coefficient\" is that fraction of the mass attenuation coefficient which contributes to the production of kinetic energy in charged particles."^^rdf:HTML ; + dcterms:description "\"Mass Energy Transfer Coefficient\" is that fraction of the mass attenuation coefficient which contributes to the production of kinetic energy in charged particles."^^ns1:LatexString, + "\"Mass Energy Transfer Coefficient\" is that fraction of the mass attenuation coefficient which contributes to the production of kinetic energy in charged particles."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://physics.nist.gov/PhysRefData/XrayMassCoef/chap3.html"^^xsd:anyURI ; @@ -34252,11 +39369,13 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$\\frac{\\mu_{tr}}{\\rho} = -\\frac{1}{\\rho}\\frac{1}{R}\\frac{dR_{tr}}{dl}$, where $dR_{tr}$ is the mean energy that is transferred to kinetic energy of charged particles by interactions of the incident radiation $R$ in traversing a distance $dl$ in the material of density $\\rho$."^^ns1:LatexString ; ns1:latexSymbol "$\\frac{\\mu_{tr}}{\\rho}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Mass Energy Transfer Coefficient\" is that fraction of the mass attenuation coefficient which contributes to the production of kinetic energy in charged particles."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassEnergyTransferCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Fraction"@en ; - dcterms:description "The \"Mass Fraction\" is the fraction of one substance with mass to the mass of the total mixture ."^^rdf:HTML ; + dcterms:description "The \"Mass Fraction\" is the fraction of one substance with mass to the mass of the total mixture ."^^ns1:LatexString, + "The \"Mass Fraction\" is the fraction of one substance with mass to the mass of the total mixture ."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_fraction_(chemistry)"^^xsd:anyURI ; @@ -34264,6 +39383,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$w_B = \\frac{m_B}{m}$, where $m_B$ is the mass of substance $B$ and $m$ is the total."^^ns1:LatexString ; ns1:plainTextDescription "The \"Mass Fraction\" is the fraction of one substance with mass to the mass of the total mixture ."^^xsd:string ; ns1:symbol "w_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassFraction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34275,44 +39395,36 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$A = Z + N$, where $Z$ is the atomic number and $N$ is the neutron number."^^ns1:LatexString ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Mass Concentration of Water To Dry Matter"@en ; - dcterms:description "\"Mass Ratio of Water to Dry Matter} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Ratio of Water to Dry Matter\" is one of a number of $\\textit{Concentration Ratio}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Ratio of Water to Dry Matter} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$u = m/m_d$, where $m$ is mass of water vapour and $m_d$ is mass of dry matter. Mass ratio of water to dry matter at saturation is denoted $u_{sat}$."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Ratio of Water to Dry Matter} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Ratio of Water to Dry Matter} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^xsd:string, + "Mass Ratio of Water to Dry Matter is one of a number of Concentration Ratio quantities defined by ISO 80000."^^xsd:string ; ns1:symbol "u"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatioOfWaterToDryMatter"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Ratio of Water Vapour to Dry Gas"@en ; - dcterms:description "\"Mass Ratio of Water Vapour to Dry Gas} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Ratio of Water Vapour to Dry Gas\" is one of a number of $\\textit{Concentration Ratio}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Ratio of Water Vapour to Dry Gas} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$x = m/m_d$, where $m$ is mass of water vapour and $m_d$ is mass of dry gas. Mass ratio of water vapour to dry gas at saturation is denoted $x_{sat}$."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Ratio of Water Vapour to Dry Gas} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Ratio of Water Vapour to Dry Gas} is one of a number of \\textit{Concentration Ratio\" quantities defined by ISO 8000."^^xsd:string, + "Mass Ratio of Water Vapour to Dry Gas is one of a number of Concentration Ratio quantities defined by ISO 80000."^^xsd:string ; ns1:symbol "x"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Massic Activity"@en ; - dcterms:description "\"Massic Activity\" is the activity divided by the total mass of the sample."^^rdf:HTML ; - ns1:applicableUnit , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD110"^^xsd:string ; - ns1:informativeReference "http://www.encyclo.co.uk/define/massic%20activity"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:plainTextDescription "\"Massic Activity\" is the activity divided by the total mass of the sample."^^xsd:string ; - ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatioOfWaterVapourToDryGas"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34341,6 +39453,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "MOT"^^xsd:string ; skos:broader . @@ -34349,6 +39462,7 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively rdfs:label "Mechanical Mobility"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:MechanicalMobility"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34357,31 +39471,10 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:hasDimensionVector ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "قابلية التحرك"@ar, - "Beweglichkeit"@de, - "mobility"@en, - "movilidad"@es, - "mobilité"@fr, - "mobilità"@it, - "移動度"@ja, - "mobilność"@pl, - "mobilidade"@pt, - "迁移率"@zh ; - dcterms:description "\"Mobility\" characterizes how quickly a particle can move through a metal or semiconductor, when pulled by an electric field. The average drift speed imparted to a charged particle in a medium by an electric field, divided by the electric field strength."^^rdf:HTML ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Electron_mobility"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Mobility\" characterizes how quickly a particle can move through a metal or semiconductor, when pulled by an electric field. The average drift speed imparted to a charged particle in a medium by an electric field, divided by the electric field strength."^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "Mobilität"@de . - a ns1:QuantityKind ; rdfs:label "Mobility Ratio"@en ; - dcterms:description "\"MobilityRatio\" describes permeability of a porous material to a given phase divided by the viscosity of that phase."^^rdf:HTML ; + dcterms:description "\"MobilityRatio\" describes permeability of a porous material to a given phase divided by the viscosity of that phase."^^ns1:LatexString, + "\"MobilityRatio\" describes permeability of a porous material to a given phase divided by the viscosity of that phase."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://baervan.nmt.edu/research_groups/reservoir_sweep_improvement/pages/clean_up/mobility.html"^^xsd:anyURI ; @@ -34389,11 +39482,15 @@ where $N^+$ and $N^-$ are the number of positive and negative ions, respectively ns1:latexDefinition "$b = \\frac{\\mu_n}{\\mu_p}$, where $\\mu_n$ and $\\mu_p$ are mobilities for electrons and holes, respectively."^^ns1:LatexString ; ns1:plainTextDescription "\"MobilityRatio\" describes permeability of a porous material to a given phase divided by the viscosity of that phase."^^xsd:string ; ns1:symbol "b"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MobilityRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Modulus Of Impedance"@en ; - dcterms:description """"Modulus Of Impedance} is the absolute value of the quantity \\textit{impedance". Apparent impedance is defined more generally as + dcterms:description """"Modulus Of Impedance} is the absolute value of the quantity $\\textit{impedance}$. Apparent impedance is defined more generally as + +the quotient of rms voltage and rms electric current; it is often denoted by $Z$."""^^ns1:LatexString, + """"Modulus Of Impedance} is the absolute value of the quantity \\textit{impedance". Apparent impedance is defined more generally as the quotient of rms voltage and rms electric current; it is often denoted by $Z$."""^^ns1:LatexString ; ns1:applicableUnit ; @@ -34403,44 +39500,52 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$Z = \\left | \\underline{Z} \\right |$, where $\\underline{Z}$ is impedance."^^ns1:LatexString ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ModulusOfImpedance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Modulus of Linear Subgrade Reaction"@en ; - dcterms:description "Modulus of Linear Subgrade Reaction is a measure for modulus of linear subgrade reaction, which expresses the elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in N/m^2"^^rdf:HTML ; + dcterms:description "Modulus of Linear Subgrade Reaction is a measure for modulus of linear subgrade reaction, which expresses the elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in N/m^2"^^ns1:LatexString, + "Modulus of Linear Subgrade Reaction is a measure for modulus of linear subgrade reaction, which expresses the elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in N/m^2"^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/link/ifcmodulusoflinearsubgradereactionmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Modulus of Linear Subgrade Reaction is a measure for modulus of linear subgrade reaction, which expresses the elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in N/m^2"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ModulusOfLinearSubgradeReaction"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Modulus of Rotational Subgrade Reaction"@en ; - dcterms:description "Modulus of Rotational Subgrade Reaction is a measure for modulus of rotational subgrade reaction, which expresses the rotational elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in Nm/(m*rad)."^^rdf:HTML ; + dcterms:description "Modulus of Rotational Subgrade Reaction is a measure for modulus of rotational subgrade reaction, which expresses the rotational elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in Nm/(m*rad)."^^ns1:LatexString, + "Modulus of Rotational Subgrade Reaction is a measure for modulus of rotational subgrade reaction, which expresses the rotational elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in Nm/(m*rad)."^^rdf:HTML ; ns1:applicableUnit , , ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/link/ifcmodulusofrotationalsubgradereactionmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Modulus of Rotational Subgrade Reaction is a measure for modulus of rotational subgrade reaction, which expresses the rotational elastic bedding of a linear structural element per length, such as for a beam. It is typically measured in Nm/(m*rad)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ModulusOfRotationalSubgradeReaction"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Modulus of Subgrade Reaction"@en ; - dcterms:description "Modulus of Subgrade Reaction is a geotechnical measure describing interaction between foundation structures and the soil. May also be known as bedding measure. Usually measured in N/m3."^^rdf:HTML ; + dcterms:description "Modulus of Subgrade Reaction is a geotechnical measure describing interaction between foundation structures and the soil. May also be known as bedding measure. Usually measured in N/m3."^^ns1:LatexString, + "Modulus of Subgrade Reaction is a geotechnical measure describing interaction between foundation structures and the soil. May also be known as bedding measure. Usually measured in N/m3."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC1/HTML/link/ifcmodulusofsubgradereactionmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "Modulus of Subgrade Reaction is a geotechnical measure describing interaction between foundation structures and the soil. May also be known as bedding measure. Usually measured in N/m3."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ModulusOfSubgradeReaction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molar Conductivity"@en ; - dcterms:description "\"Molar Conductivity\" is the conductivity of an electrolyte solution divided by the molar concentration of the electrolyte, and so measures the efficiency with which a given electrolyte conducts electricity in solution."^^rdf:HTML ; + dcterms:description "\"Molar Conductivity\" is the conductivity of an electrolyte solution divided by the molar concentration of the electrolyte, and so measures the efficiency with which a given electrolyte conducts electricity in solution."^^ns1:LatexString, + "\"Molar Conductivity\" is the conductivity of an electrolyte solution divided by the molar concentration of the electrolyte, and so measures the efficiency with which a given electrolyte conducts electricity in solution."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD121"^^xsd:string ; @@ -34449,11 +39554,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\Gamma_m = \\frac{x}{c_B}$, where $x$ is the electrolytic conductivity and $c_B$ is the amount-of-substance concentration."^^ns1:LatexString ; ns1:latexSymbol "$\\Gamma_m$"^^ns1:LatexString ; ns1:plainTextDescription "\"Molar Conductivity\" is the conductivity of an electrolyte solution divided by the molar concentration of the electrolyte, and so measures the efficiency with which a given electrolyte conducts electricity in solution."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarConductivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molar Entropy"@en ; - dcterms:description "The \"Standard Molar Entropy\" is the entropy content of one mole of substance, under standard conditions (not standard temperature and pressure STP)."^^rdf:HTML ; + dcterms:description "The \"Standard Molar Entropy\" is the entropy content of one mole of substance, under standard conditions (not standard temperature and pressure STP)."^^ns1:LatexString, + "The \"Standard Molar Entropy\" is the entropy content of one mole of substance, under standard conditions (not standard temperature and pressure STP)."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Standard_molar_entropy"^^xsd:anyURI ; @@ -34462,11 +39569,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "The \"Standard Molar Entropy\" is the entropy content of one mole of substance, under standard conditions (not standard temperature and pressure STP)."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "S_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarEntropy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molar Optical Rotatory Power"@en ; - dcterms:description "The \"Molar Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the amount concentration giving the molar optical rotatory power."^^rdf:HTML ; + dcterms:description "The \"Molar Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the amount concentration giving the molar optical rotatory power."^^ns1:LatexString, + "The \"Molar Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the amount concentration giving the molar optical rotatory power."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD126"^^xsd:string ; @@ -34475,11 +39584,40 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\alpha_n = \\alpha \\frac{A}{n}$, where $\\alpha$ is the angle of optical rotation, and $n$ is the amount of substance of the optically active component in the path of a linearly polarized light beam of cross sectional area $A$."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha_n$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Molar Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the amount concentration giving the molar optical rotatory power."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarOpticalRotatoryPower"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Mole Fraction"@en ; + dcterms:description "In chemistry, the mole fraction of a component in a mixture is the relative proportion of molecules belonging to the component to those in the mixture, by number of molecules. It is one way of measuring concentration."^^ns1:LatexString, + "In chemistry, the mole fraction of a component in a mixture is the relative proportion of molecules belonging to the component to those in the mixture, by number of molecules. It is one way of measuring concentration."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Mole_fraction"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "In chemistry, the mole fraction of a component in a mixture is the relative proportion of molecules belonging to the component to those in the mixture, by number of molecules. It is one way of measuring concentration."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Molecular Mass"@en ; - dcterms:description "The molecular mass, or molecular weight of a chemical compound is the mass of one molecule of that compound, relative to the unified atomic mass unit, u. Molecular mass should not be confused with molar mass, which is the mass of one mole of a substance."^^rdf:HTML ; + dcterms:description "The molecular mass, or molecular weight of a chemical compound is the mass of one molecule of that compound, relative to the unified atomic mass unit, u. Molecular mass should not be confused with molar mass, which is the mass of one mole of a substance."^^ns1:LatexString, + "The molecular mass, or molecular weight of a chemical compound is the mass of one molecule of that compound, relative to the unified atomic mass unit, u. Molecular mass should not be confused with molar mass, which is the mass of one mole of a substance."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Molecular_mass"^^xsd:anyURI ; ns1:hasDimensionVector ; @@ -34487,12 +39625,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "The molecular mass, or molecular weight of a chemical compound is the mass of one molecule of that compound, relative to the unified atomic mass unit, u. Molecular mass should not be confused with molar mass, which is the mass of one mole of a substance."^^xsd:string ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolecularMass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Molecular Viscosity"@en ; - dcterms:description "Molecules in a fluid close to a solid boundary sometime strike the boundary and transfer momentum to it. Molecules further from the boundary collide with molecules that have struck the boundary, further transferring the change in momentum into the interior of the fluid. This transfer of momentum is molecular viscosity. Molecules, however, travel only micrometers between collisions, and the process is very inefficient for transferring momentum even a few centimeters. Molecular viscosity is important only within a few millimeters of a boundary. The coefficient of molecular viscosity has the same value as the dynamic viscosity."^^rdf:HTML ; + dcterms:description "Molecules in a fluid close to a solid boundary sometime strike the boundary and transfer momentum to it. Molecules further from the boundary collide with molecules that have struck the boundary, further transferring the change in momentum into the interior of the fluid. This transfer of momentum is molecular viscosity. Molecules, however, travel only micrometers between collisions, and the process is very inefficient for transferring momentum even a few centimeters. Molecular viscosity is important only within a few millimeters of a boundary. The coefficient of molecular viscosity has the same value as the dynamic viscosity."^^ns1:LatexString, + "Molecules in a fluid close to a solid boundary sometime strike the boundary and transfer momentum to it. Molecules further from the boundary collide with molecules that have struck the boundary, further transferring the change in momentum into the interior of the fluid. This transfer of momentum is molecular viscosity. Molecules, however, travel only micrometers between collisions, and the process is very inefficient for transferring momentum even a few centimeters. Molecular viscosity is important only within a few millimeters of a boundary. The coefficient of molecular viscosity has the same value as the dynamic viscosity."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://oceanworld.tamu.edu/resources/ocng_textbook/chapter08/chapter08_01.htm"^^xsd:anyURI ; ns1:plainTextDescription "Molecules in a fluid close to a solid boundary sometime strike the boundary and transfer momentum to it. Molecules further from the boundary collide with molecules that have struck the boundary, further transferring the change in momentum into the interior of the fluid. This transfer of momentum is molecular viscosity. Molecules, however, travel only micrometers between collisions, and the process is very inefficient for transferring momentum even a few centimeters. Molecular viscosity is important only within a few millimeters of a boundary. The coefficient of molecular viscosity has the same value as the dynamic viscosity."^^xsd:string ; @@ -34504,6 +39644,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Momentum per Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:MomentumPerAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34522,19 +39663,22 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$L_{mn} = \\frac{\\Psi_m}{I_n}$, where $I_n$ is an electric current in a thin conducting loop $n$ and $\\Psi_m$ is the linked flux caused by that electric current in another loop $m$."^^ns1:LatexString ; ns1:symbol "L_{mn}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Inductance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "Napierian Absorbance"@en ; - dcterms:description "Napierian Absorbance is the natural (Napierian) logarithm of the reciprocal of the spectral internal transmittance."^^rdf:HTML ; + dcterms:description "Napierian Absorbance is the natural (Napierian) logarithm of the reciprocal of the spectral internal transmittance."^^ns1:LatexString, + "Napierian Absorbance is the natural (Napierian) logarithm of the reciprocal of the spectral internal transmittance."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://eilv.cie.co.at/term/798"^^xsd:anyURI ; ns1:latexDefinition "$A_e(\\lambda) = -ln(\\tau(\\lambda))$, where $\\tau$ is the transmittance at a given wavelength $\\lambda$."^^ns1:LatexString ; ns1:plainTextDescription "Napierian Absorbance is the natural (Napierian) logarithm of the reciprocal of the spectral internal transmittance."^^xsd:string ; ns1:symbol "A_e, B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NapierianAbsorbance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34545,7 +39689,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "coefficiente di diffusione"@it, "coeficiente de difusão"@pt, "difuzijski koeficient"@sl ; - dcterms:description "The \"Diffusion Coefficient\" is "^^rdf:HTML ; + dcterms:description "The \"Diffusion Coefficient\" is "^^ns1:LatexString, + "The \"Diffusion Coefficient\" is "^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://encyclopedia2.thefreedictionary.com/Diffusion+of+Neutrons"^^xsd:anyURI ; @@ -34553,6 +39698,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$D_n = -\\frac{J_x}{\\frac{\\partial dn}{\\partial dx}}$, where $J_x$ is the $x-component$ of the particle current and $n$ is the particle number density."^^ns1:LatexString ; ns1:plainTextDescription "The \"Diffusion Coefficient\" is "^^xsd:string ; ns1:symbol "D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NeutronDiffusionCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34577,45 +39723,53 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31895"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:symbol "N"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NeutronNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Neutron Yield per Absorption"@en ; - dcterms:description "The \"Neutron Yield per Absorption\" is the average number of fission neutrons, both prompt and delayed, emitted per neutron absorbed in a fissionable nuclide or in a nuclear fuel, as specified."^^rdf:HTML ; + dcterms:description "The \"Neutron Yield per Absorption\" is the average number of fission neutrons, both prompt and delayed, emitted per neutron absorbed in a fissionable nuclide or in a nuclear fuel, as specified."^^ns1:LatexString, + "The \"Neutron Yield per Absorption\" is the average number of fission neutrons, both prompt and delayed, emitted per neutron absorbed in a fissionable nuclide or in a nuclear fuel, as specified."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Fission_product_yield"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\eta$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Neutron Yield per Absorption\" is the average number of fission neutrons, both prompt and delayed, emitted per neutron absorbed in a fissionable nuclide or in a nuclear fuel, as specified."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NeutronYieldPerAbsorption"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Neutron Yield per Fission"@en ; - dcterms:description "The \"Neutron Yield per Fission\" is the average number of fission neutrons, both prompt and delayed, emitted per fission event."^^rdf:HTML ; + dcterms:description "The \"Neutron Yield per Fission\" is the average number of fission neutrons, both prompt and delayed, emitted per fission event."^^ns1:LatexString, + "The \"Neutron Yield per Fission\" is the average number of fission neutrons, both prompt and delayed, emitted per fission event."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Fission_product_yield"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\nu$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Neutron Yield per Fission\" is the average number of fission neutrons, both prompt and delayed, emitted per fission event."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NeutronYieldPerFission"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Non-Leakage Probability"@en ; - dcterms:description "The \"Non-Leakage Probability\" is the probability that a neutron will not escape from the reactor during the slowing-down process or while it diffuses as a thermal neutron"^^rdf:HTML ; + dcterms:description "The \"Non-Leakage Probability\" is the probability that a neutron will not escape from the reactor during the slowing-down process or while it diffuses as a thermal neutron"^^ns1:LatexString, + "The \"Non-Leakage Probability\" is the probability that a neutron will not escape from the reactor during the slowing-down process or while it diffuses as a thermal neutron"^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Six_factor_formula"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexSymbol "$\\Lambda$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Non-Leakage Probability\" is the probability that a neutron will not escape from the reactor during the slowing-down process or while it diffuses as a thermal neutron"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Non-LeakageProbability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Non-active Power"@en ; - dcterms:description "\"Non-active Power\", for a two-terminal element or a two-terminal circuit under periodic conditions, is the quantity equal to the square root of the difference of the squares of the apparent power and the active power."^^rdf:HTML ; + dcterms:description "\"Non-active Power\", for a two-terminal element or a two-terminal circuit under periodic conditions, is the quantity equal to the square root of the difference of the squares of the apparent power and the active power."^^ns1:LatexString, + "\"Non-active Power\", for a two-terminal element or a two-terminal circuit under periodic conditions, is the quantity equal to the square root of the difference of the squares of the apparent power and the active power."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34631,13 +39785,15 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$Q^{'} = \\sqrt{{\\left | \\underline{S} \\right |}^2 - P^2}$, where $\\underline{S}$ is apparent power and $P$ is active power."^^ns1:LatexString ; ns1:plainTextDescription "\"Non-active Power\", for a two-terminal element or a two-terminal circuit under periodic conditions, is the quantity equal to the square root of the difference of the squares of the apparent power and the active power."^^xsd:string ; ns1:symbol "Q'"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NonActivePower"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . a ns1:QuantityKind ; rdfs:label "Positive Length"@en ; - dcterms:description "\"NonNegativeLength\" is a measure of length greater than or equal to zero."^^rdf:HTML ; + dcterms:description "\"NonNegativeLength\" is a measure of length greater than or equal to zero."^^ns1:LatexString, + "\"NonNegativeLength\" is a measure of length greater than or equal to zero."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34679,6 +39835,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"NonNegativeLength\" is a measure of length greater than or equal to zero."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -34724,12 +39881,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Spin Quantum Number"@en ; - dcterms:description "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^rdf:HTML ; + dcterms:description "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^ns1:LatexString, + "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; @@ -34737,6 +39896,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$I^2 = \\hbar^2 I(I + 1)$, where $\\hbar$ is the Planck constant."^^ns1:LatexString ; ns1:plainTextDescription "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^xsd:string ; ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NuclearSpinQuantumNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -34755,12 +39915,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "número de massa"@pt, "nükleon numarası"@tr, "质量数"@zh ; - dcterms:description "Number of nucleons in an atomic nucleus.A = Z+N. Nuclides with the same value of A are called isobars."^^rdf:HTML ; + dcterms:description "Number of nucleons in an atomic nucleus.A = Z+N. Nuclides with the same value of A are called isobars."^^ns1:LatexString, + "Number of nucleons in an atomic nucleus.A = Z+N. Nuclides with the same value of A are called isobars."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "Number of nucleons in an atomic nucleus.A = Z+N. Nuclides with the same value of A are called isobars."^^xsd:string ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NucleonNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Massenzahl"@de, "mass number"@en, @@ -34771,13 +39933,25 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:QuantityKind ; rdfs:label "Number of Particles"@en ; - dcterms:description "\"Number of Particles\", also known as the particle number, of a thermodynamic system, conventionally indicated with the letter N, is the number of constituent particles in that system."^^rdf:HTML ; + dcterms:description "\"Number of Particles\", also known as the particle number, of a thermodynamic system, conventionally indicated with the letter N, is the number of constituent particles in that system."^^ns1:LatexString, + "\"Number of Particles\", also known as the particle number, of a thermodynamic system, conventionally indicated with the letter N, is the number of constituent particles in that system."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Particle_number"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "\"Number of Particles\", also known as the particle number, of a thermodynamic system, conventionally indicated with the letter N, is the number of constituent particles in that system."^^xsd:string ; ns1:symbol "N_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberOfParticles"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Orbital Angular Momentum per Mass"@en ; + dcterms:description "Angular momentum of the orbit per mass of the vehicle"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Angular momentum of the orbit per mass of the vehicle"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "h"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34788,11 +39962,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:informativeReference "http://www.answers.com/topic/order-of-reflection"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:OrderOfReflection"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Osmotic Coefficient"@en ; - dcterms:description "The \"Osmotic Coefficient\" is a quantity which characterises the deviation of a solvent from ideal behavior."^^rdf:HTML ; + dcterms:description "The \"Osmotic Coefficient\" is a quantity which characterises the deviation of a solvent from ideal behavior."^^ns1:LatexString, + "The \"Osmotic Coefficient\" is a quantity which characterises the deviation of a solvent from ideal behavior."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Osmotic_coefficient"^^xsd:anyURI ; @@ -34800,11 +39976,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\varphi = -(M_A\\sum b_B)^{-1} \\ln a_A$, where $M_A$ is the molar mass of the solvent $A$, $\\sum$ denotes summation over all the solutes, $b_B$ is the molality of solute $B$, and $a_A$ is the activity of solvent $A$."^^ns1:LatexString ; ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Osmotic Coefficient\" is a quantity which characterises the deviation of a solvent from ideal behavior."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:OsmoticCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Packing Fraction"@en ; - dcterms:description "The \"Packing Fraction\" is the fraction of volume in a crystal structure that is occupied by atoms."^^rdf:HTML ; + dcterms:description "The \"Packing Fraction\" is the fraction of volume in a crystal structure that is occupied by atoms."^^ns1:LatexString, + "The \"Packing Fraction\" is the fraction of volume in a crystal structure that is occupied by atoms."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_packing_factor"^^xsd:anyURI ; @@ -34812,11 +39990,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$f = \\frac{\\Delta_r}{A}$, where $\\Delta_r$ is the relative mass excess and $A$ is the nucleon number."^^ns1:LatexString ; ns1:plainTextDescription "The \"Packing Fraction\" is the fraction of volume in a crystal structure that is occupied by atoms."^^xsd:string ; ns1:symbol "f"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PackingFraction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Particle Fluence Rate"@en ; - dcterms:description "\"Particle Fluence Rate\" can be defined as the total number of particles (typically Gamma Ray Photons ) crossing over a sphere of unit cross section which surrounds a Point Source of Ionising Radiation."^^rdf:HTML ; + dcterms:description "\"Particle Fluence Rate\" can be defined as the total number of particles (typically Gamma Ray Photons ) crossing over a sphere of unit cross section which surrounds a Point Source of Ionising Radiation."^^ns1:LatexString, + "\"Particle Fluence Rate\" can be defined as the total number of particles (typically Gamma Ray Photons ) crossing over a sphere of unit cross section which surrounds a Point Source of Ionising Radiation."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -34825,42 +40005,50 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\theta = \\frac{d\\Phi}{dt}$, where $d\\Phi$ is the increment of the particle fluence during an infinitesimal time interval with duration $dt$."^^ns1:LatexString ; ns1:latexSymbol "$\\theta$"^^ns1:LatexString ; ns1:plainTextDescription "\"Particle Fluence Rate\" can be defined as the total number of particles (typically Gamma Ray Photons ) crossing over a sphere of unit cross section which surrounds a Point Source of Ionising Radiation."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ParticleFluenceRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Particle Source Density"@en ; - dcterms:description "\"Particle Source Density\" is the rate of production of particles in a 3D domain divided by the volume of that element."^^rdf:HTML ; + dcterms:description "\"Particle Source Density\" is the rate of production of particles in a 3D domain divided by the volume of that element."^^ns1:LatexString, + "\"Particle Source Density\" is the rate of production of particles in a 3D domain divided by the volume of that element."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Particle Source Density\" is the rate of production of particles in a 3D domain divided by the volume of that element."^^xsd:string ; ns1:symbol "S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ParticleSourceDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Period"@en ; - dcterms:description "Duration of one cycle of a periodic phenomenon."^^rdf:HTML ; + dcterms:description "Duration of one cycle of a periodic phenomenon."^^ns1:LatexString, + "Duration of one cycle of a periodic phenomenon."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:plainTextDescription "Duration of one cycle of a periodic phenomenon."^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Period"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Permeability Ratio"@en ; - dcterms:description "The ratio of the effective permeability of a porous phase to the absolute permeability."^^rdf:HTML ; + dcterms:description "The ratio of the effective permeability of a porous phase to the absolute permeability."^^ns1:LatexString, + "The ratio of the effective permeability of a porous phase to the absolute permeability."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Relative_permeability"^^xsd:anyURI ; ns1:plainTextDescription "The ratio of the effective permeability of a porous phase to the absolute permeability."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:PermeabilityRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Permeance"@en ; - dcterms:description "\"Permeance\" is the inverse of reluctance. Permeance is a measure of the quantity of flux for a number of current-turns in magnetic circuit. A magnetic circuit almost acts as though the flux is \"conducted\", therefore permeance is larger for large cross sections of a material and smaller for longer lengths. This concept is analogous to electrical conductance in the electric circuit."^^rdf:HTML ; + dcterms:description "\"Permeance\" is the inverse of reluctance. Permeance is a measure of the quantity of flux for a number of current-turns in magnetic circuit. A magnetic circuit almost acts as though the flux is \"conducted\", therefore permeance is larger for large cross sections of a material and smaller for longer lengths. This concept is analogous to electrical conductance in the electric circuit."^^ns1:LatexString, + "\"Permeance\" is the inverse of reluctance. Permeance is a measure of the quantity of flux for a number of current-turns in magnetic circuit. A magnetic circuit almost acts as though the flux is \"conducted\", therefore permeance is larger for large cross sections of a material and smaller for longer lengths. This concept is analogous to electrical conductance in the electric circuit."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD135"^^xsd:string ; @@ -34869,12 +40057,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\Lambda = \\frac{1}{R_m}$, where $R_m$ is reluctance."^^ns1:LatexString ; ns1:latexSymbol "$\\Lambda$"^^ns1:LatexString ; ns1:plainTextDescription "\"Permeance\" is the inverse of reluctance. Permeance is a measure of the quantity of flux for a number of current-turns in magnetic circuit. A magnetic circuit almost acts as though the flux is \"conducted\", therefore permeance is larger for large cross sections of a material and smaller for longer lengths. This concept is analogous to electrical conductance in the electric circuit."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Permeance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Permittivity Ratio"@en ; - dcterms:description "\"Permittivity Ratio\" is the ratio of permittivity to the permittivity of a vacuum."^^rdf:HTML ; + dcterms:description "\"Permittivity Ratio\" is the ratio of permittivity to the permittivity of a vacuum."^^ns1:LatexString, + "\"Permittivity Ratio\" is the ratio of permittivity to the permittivity of a vacuum."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Permittivity"^^xsd:anyURI ; ns1:expression "$rel-permittivity$"^^ns1:LatexString ; @@ -34885,6 +40075,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "\"Permittivity Ratio\" is the ratio of permittivity to the permittivity of a vacuum."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:PermittivityRatio"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . @@ -34896,6 +40087,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD137"^^xsd:string ; ns1:informativeReference "https://en.wikipedia.org/wiki/Photon_counting"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:PhotonIntensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -34904,22 +40096,26 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Photon_counting"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:PhotonRadiance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Photosynthetic Photon Flux"@en ; - dcterms:description "Photosynthetic Photon Flux (PPF) is a measurement of the total number of photons emitted by a light source each second within the PAR wavelength range and is measured in μmol/s. Lighting manufacturers may specify their grow light products in terms of PPF. It can be considered as analogous to measuring the luminous flux (lumens) of visible light which would typically require the use of an integrating sphere or a goniometer system with spectroradiometer sensor."^^rdf:HTML ; + dcterms:description "Photosynthetic Photon Flux (PPF) is a measurement of the total number of photons emitted by a light source each second within the PAR wavelength range and is measured in μmol/s. Lighting manufacturers may specify their grow light products in terms of PPF. It can be considered as analogous to measuring the luminous flux (lumens) of visible light which would typically require the use of an integrating sphere or a goniometer system with spectroradiometer sensor."^^ns1:LatexString, + "Photosynthetic Photon Flux (PPF) is a measurement of the total number of photons emitted by a light source each second within the PAR wavelength range and is measured in μmol/s. Lighting manufacturers may specify their grow light products in terms of PPF. It can be considered as analogous to measuring the luminous flux (lumens) of visible light which would typically require the use of an integrating sphere or a goniometer system with spectroradiometer sensor."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://www.dormgrow.com/par/"^^xsd:anyURI ; ns1:plainTextDescription "Photosynthetic Photon Flux (PPF) is a measurement of the total number of photons emitted by a light source each second within the PAR wavelength range and is measured in μmol/s. Lighting manufacturers may specify their grow light products in terms of PPF. It can be considered as analogous to measuring the luminous flux (lumens) of visible light which would typically require the use of an integrating sphere or a goniometer system with spectroradiometer sensor."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PhotosyntheticPhotonFlux"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "PPF"^^xsd:string ; prov:wasDerivedFrom . a ns1:QuantityKind ; rdfs:label "Photosynthetic Photon Flux Density"@en ; - dcterms:description "Photosynthetically Active Radiation are the wavelengths of light within the visible range of 400 to 700 nanometers (nm) that are critical for photosynthesis. PPFD measures the amount of PAR light (photons) that arrive at the plant’s surface each second. The PPFD is measured at various distances with a Full-spectrum Quantum Sensor, also known as a PAR meter. Natural sunlight has a PAR value of 900-1500μMol/m2/s when the sun is directly overhead. For a grow light to be effective, it should have PAR values of 500-1500 μMol/m2/s."^^rdf:HTML ; + dcterms:description "Photosynthetically Active Radiation are the wavelengths of light within the visible range of 400 to 700 nanometers (nm) that are critical for photosynthesis. PPFD measures the amount of PAR light (photons) that arrive at the plant’s surface each second. The PPFD is measured at various distances with a Full-spectrum Quantum Sensor, also known as a PAR meter. Natural sunlight has a PAR value of 900-1500μMol/m2/s when the sun is directly overhead. For a grow light to be effective, it should have PAR values of 500-1500 μMol/m2/s."^^ns1:LatexString, + "Photosynthetically Active Radiation are the wavelengths of light within the visible range of 400 to 700 nanometers (nm) that are critical for photosynthesis. PPFD measures the amount of PAR light (photons) that arrive at the plant’s surface each second. The PPFD is measured at various distances with a Full-spectrum Quantum Sensor, also known as a PAR meter. Natural sunlight has a PAR value of 900-1500μMol/m2/s when the sun is directly overhead. For a grow light to be effective, it should have PAR values of 500-1500 μMol/m2/s."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34932,13 +40128,15 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:informativeReference "https://www.gigahertz-optik.com/en-us/service-and-support/knowledge-base/measurement-of-par/"^^xsd:anyURI ; ns1:plainTextDescription "Photosynthetically Active Radiation are the wavelengths of light within the visible range of 400 to 700 nanometers (nm) that are critical for photosynthesis. PPFD measures the amount of PAR light (photons) that arrive at the plant’s surface each second. The PPFD is measured at various distances with a Full-spectrum Quantum Sensor, also known as a PAR meter. Natural sunlight has a PAR value of 900-1500μMol/m2/s when the sun is directly overhead. For a grow light to be effective, it should have PAR values of 500-1500 μMol/m2/s."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PhotosyntheticPhotonFluxDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "PPFD"^^xsd:string ; prov:wasDerivedFrom . a ns1:QuantityKind ; rdfs:label "Poisson Ratio"@en ; - dcterms:description "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio."^^rdf:HTML ; + dcterms:description "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio."^^ns1:LatexString, + "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Poisson%27s_ratio"^^xsd:anyURI ; @@ -34946,11 +40144,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\mu = \\frac{\\Delta \\delta}{\\Delta l}$, where $\\Delta \\delta$ is the lateral contraction and $\\Delta l$ is the elongation."^^ns1:LatexString ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; ns1:plainTextDescription "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PoissonRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Position Vector"@en ; - dcterms:description "A \"Position Vector\", also known as location vector or radius vector, is a Euclidean vector which represents the position of a point P in space in relation to an arbitrary reference origin O."^^rdf:HTML ; + dcterms:description "A \"Position Vector\", also known as location vector or radius vector, is a Euclidean vector which represents the position of a point P in space in relation to an arbitrary reference origin O."^^ns1:LatexString, + "A \"Position Vector\", also known as location vector or radius vector, is a Euclidean vector which represents the position of a point P in space in relation to an arbitrary reference origin O."^^rdf:HTML ; ns1:applicableUnit , , , @@ -34996,6 +40196,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$r = \\overrightarrow{OP}$, where $O$ and $P$ are two points in space."^^ns1:LatexString ; ns1:plainTextDescription "A \"Position Vector\", also known as location vector or radius vector, is a Euclidean vector which represents the position of a point P in space in relation to an arbitrary reference origin O."^^xsd:string ; ns1:symbol "r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35025,6 +40226,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$\\lambda = \\left | P \\right | / \\left | S \\right |$, where $P$ is active power and $S$ is apparent power."^^ns1:LatexString ; ns1:latexSymbol "$\\lambda$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:PowerFactor"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . @@ -35063,16 +40265,20 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$\\mathbf{S} = \\mathbf{E} \\times \\mathbf{H} $, where $\\mathbf{E}$ is electric field strength and \\mathbf{H} is magnetic field strength."^^ns1:LatexString ; ns1:latexSymbol "$\\mathbf{S} $"^^ns1:LatexString ; - ns1:plainTextDescription "\"Poynting Vector} is the vector product of the electric field strength \\mathbf{E} and the magnetic field strength \\mathbf{H\" of the electromagnetic field at a given point. The flux of the Poynting vector through a closed surface is equal to the electromagnetic power passing through this surface. For a periodic electromagnetic field, the time average of the Poynting vector is a vector of which, with certain reservations, the direction may be considered as being the direction of propagation of electromagnetic energy and the magnitude considered as being the average electromagnetic power flux density."^^xsd:string ; + ns1:plainTextDescription "\"Poynting Vector\" is the vector product of the electric field strength $\\mathbf{E}$ and the magnetic field strength $\\mathbf{H}\" of the electromagnetic field at a given point. The flux of the Poynting vector through a closed surface is equal to the electromagnetic power passing through this surface. For a periodic electromagnetic field, the time average of the Poynting vector is a vector of which, with certain reservations, the direction may be considered as being the direction of propagation of electromagnetic energy and the magnitude considered as being the average electromagnetic power flux density."^^xsd:string, + "\"Poynting Vector} is the vector product of the electric field strength \\mathbf{E} and the magnetic field strength \\mathbf{H\" of the electromagnetic field at a given point. The flux of the Poynting vector through a closed surface is equal to the electromagnetic power passing through this surface. For a periodic electromagnetic field, the time average of the Poynting vector is a vector of which, with certain reservations, the direction may be considered as being the direction of propagation of electromagnetic energy and the magnitude considered as being the average electromagnetic power flux density."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PoyntingVector"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Pressure Loss per Length"@en ; - dcterms:description "\"Pressure Loss per Length\" refers to the power lost in overcoming the friction between two moving surfaces. Also referred to as \"Friction Loss\"."^^rdf:HTML ; + dcterms:description "\"Pressure Loss per Length\" refers to the power lost in overcoming the friction between two moving surfaces. Also referred to as \"Friction Loss\"."^^ns1:LatexString, + "\"Pressure Loss per Length\" refers to the power lost in overcoming the friction between two moving surfaces. Also referred to as \"Friction Loss\"."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Friction_loss"^^xsd:anyURI ; ns1:plainTextDescription "\"Pressure Loss per Length\" refers to the power lost in overcoming the friction between two moving surfaces. Also referred to as \"Friction Loss\"."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PressureLossPerLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35083,18 +40289,21 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:PressurePercentage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Prevalence"@en ; - dcterms:description "In epidemiology, prevalence is the proportion of a particular population found to be affected by a medical condition (typically a disease or a risk factor such as smoking or seatbelt use) at a specific time. (Wikipedia)"^^rdf:HTML ; + dcterms:description "In epidemiology, prevalence is the proportion of a particular population found to be affected by a medical condition (typically a disease or a risk factor such as smoking or seatbelt use) at a specific time. (Wikipedia)"^^ns1:LatexString, + "In epidemiology, prevalence is the proportion of a particular population found to be affected by a medical condition (typically a disease or a risk factor such as smoking or seatbelt use) at a specific time. (Wikipedia)"^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Prevalence"^^xsd:anyURI ; ns1:plainTextDescription "In epidemiology, prevalence is the proportion of a particular population found to be affected by a medical condition (typically a disease or a risk factor such as smoking or seatbelt use) at a specific time. (Wikipedia)"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Prevalence"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35102,6 +40311,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Propellant Burn Rate"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:PropellantBurnRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35163,6 +40373,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ; ns1:hasDimensionVector ; ns1:symbol "M_f"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35175,12 +40386,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Radiance"@en ; - dcterms:description "\"Radiance\" is a radiometric measure that describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle in a specified direction."^^rdf:HTML ; + dcterms:description "\"Radiance\" is a radiometric measure that describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle in a specified direction."^^ns1:LatexString, + "\"Radiance\" is a radiometric measure that describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle in a specified direction."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD148"^^xsd:string ; @@ -35189,18 +40402,21 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "\"Radiance\" is a radiometric measure that describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle in a specified direction."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Radiance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Radiance Factor"@en ; - dcterms:description "Radiance Factor is the ratio of the radiance of the surface element in the given direction to that of a perfect reflecting or transmitting diffuser identically irradiated unit."^^rdf:HTML ; + dcterms:description "Radiance Factor is the ratio of the radiance of the surface element in the given direction to that of a perfect reflecting or transmitting diffuser identically irradiated unit."^^ns1:LatexString, + "Radiance Factor is the ratio of the radiance of the surface element in the given direction to that of a perfect reflecting or transmitting diffuser identically irradiated unit."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.encyclo.co.uk/define/radiance%20factor"^^xsd:anyURI ; ns1:latexDefinition "$\\beta = \\frac{L_n}{L_d}$, where $L_n$ is the radiance of a surface element in a given direction and $L_d$ is the radiance of the perfect reflecting or transmitting diffuser identically irradiated and viewed. Reflectance factor is equivalent to radiance factor or luminance factor (when the cone angle is infinitely small, and is equivalent to reflectance when the cone angle is $2π sr$."^^ns1:LatexString ; ns1:latexSymbol "$\\beta$"^^ns1:LatexString ; ns1:plainTextDescription "Radiance Factor is the ratio of the radiance of the surface element in the given direction to that of a perfect reflecting or transmitting diffuser identically irradiated unit."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RadianceFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35220,8 +40436,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "энергия излучения"@ru, "Işınım erkesi"@tr, "辐射能"@zh ; - dcterms:description "In radiometry,\"Radiant Energy} is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. In nuclear physics, \\textit{Radiant Energy\" is energy, excluding rest energy, of the particles that are emitted, transferred, or received."^^rdf:HTML ; + dcterms:description """ + In radiometry, $\\textit{Radiant Energy}$ is the energy of electromagnetic waves. + The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. + In nuclear physics, $\\textit{Radiant Energy}$ is energy, excluding rest energy, of the particles that are emitted, transferred, or received. + """^^ns1:LatexString, + "In radiometry,\"Radiant Energy} is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. In nuclear physics, \\textit{Radiant Energy\" is energy, excluding rest energy, of the particles that are emitted, transferred, or received."^^rdf:HTML ; ns1:abbreviation "M-L2-PER-T2"^^xsd:string ; + ns1:altSymbol "R"^^xsd:string ; ns1:applicableUnit , , , @@ -35275,16 +40497,19 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:informativeReference "http://en.wikipedia.org/wiki/Radiant_energy"^^xsd:anyURI ; ns1:latexDefinition "$Q_e$"^^ns1:LatexString ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:plainTextDescription "In radiometry,\"Radiant Energy} is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. In nuclear physics, \\textit{Radiant Energy\" is energy, excluding rest energy, of the particles that are emitted, transferred, or received."^^xsd:string ; + ns1:plainTextDescription "In radiometry,\"Radiant Energy} is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. In nuclear physics, $\\textit{Radiant Energy\" is energy, excluding rest energy, of the particles that are emitted, transferred, or received."^^xsd:string, + "In radiometry,\"Radiant Energy} is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux (or power) with respect to time. In nuclear physics, \\textit{Radiant Energy\" is energy, excluding rest energy, of the particles that are emitted, transferred, or received."^^xsd:string ; ns1:symbol "Q_e"^^xsd:string, "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Radiant Energy Density"@en ; - dcterms:description "\"Radiant Energy Density\", or radiant power, is the radiant energy per unit volume."^^rdf:HTML ; + dcterms:description "\"Radiant Energy Density\", or radiant power, is the radiant energy per unit volume."^^ns1:LatexString, + "\"Radiant Energy Density\", or radiant power, is the radiant energy per unit volume."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Radiant_energy_density"^^xsd:anyURI ; @@ -35292,20 +40517,32 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$w$, $\\rho = \\frac{dQ}{dV}$, where $dQ$ is the radiant energy in an elementary three-dimensional domain, and $dV$ is the volume."^^ns1:LatexString ; ns1:latexSymbol "$w, \\rho$"^^ns1:LatexString ; ns1:plainTextDescription "\"Radiant Energy Density\", or radiant power, is the radiant energy per unit volume."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RadiantEnergyDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Radiosity"@en ; - dcterms:description "Radiosity is the total emitted and reflected radiation leaving a surface."^^rdf:HTML ; + dcterms:description "Radiosity is the total emitted and reflected radiation leaving a surface."^^ns1:LatexString, + "Radiosity is the total emitted and reflected radiation leaving a surface."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Radiosity is the total emitted and reflected radiation leaving a surface."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Radiosity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Ratio of Specific Heat Capacities"@en ; - dcterms:description "The specific heat ratio of a gas is the ratio of the specific heat at constant pressure, $c_p$, to the specific heat at constant volume, $c_V$. It is sometimes referred to as the \"adiabatic index} or the \\textit{heat capacity ratio} or the \\textit{isentropic expansion factor} or the \\textit{adiabatic exponent} or the \\textit{isentropic exponent\"."^^ns1:LatexString ; + dcterms:description """ + The specific heat ratio of a gas is the ratio of the specific heat at constant pressure, + $c_p$, to the specific heat at constant volume, $c_V$. + It is sometimes referred to as the $\\textit{adiabatic index}$, + or the $\\textit{heat capacity ratio}$, + or the $\\textit{isentropic expansion factor}$, + or the $\\textit{adiabatic exponent}$, + or the $\\textit{isentropic exponent}$. + """^^ns1:LatexString, + "The specific heat ratio of a gas is the ratio of the specific heat at constant pressure, $c_p$, to the specific heat at constant volume, $c_V$. It is sometimes referred to as the \"adiabatic index} or the \\textit{heat capacity ratio} or the \\textit{isentropic expansion factor} or the \\textit{adiabatic exponent} or the \\textit{isentropic exponent\"."^^ns1:LatexString ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.citizendium.org/wiki/Specific_heat_ratio"^^xsd:anyURI ; @@ -35313,12 +40550,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\gamma = c_p / c_V$, where $c$ is the specific heat of a gas, $c_p$ is specific heat capacity at constant pressure, $c_V$ is specific heat capacity at constant volume."^^ns1:LatexString ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString, "$\\varkappa$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:RatioOfSpecificHeatCapacities"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Reactivity"@en ; - dcterms:description "\"Reactivity\" characterizes the deflection of reactor from the critical state."^^rdf:HTML ; + dcterms:description "\"Reactivity\" characterizes the deflection of reactor from the critical state."^^ns1:LatexString, + "\"Reactivity\" characterizes the deflection of reactor from the critical state."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Nuclear_chain_reaction"^^xsd:anyURI ; @@ -35326,11 +40565,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\rho = \\frac{k_{eff} - 1}{k_{eff}}$, where $k_{eff}$ is the effective multiplication factor."^^ns1:LatexString ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "\"Reactivity\" characterizes the deflection of reactor from the critical state."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Reactivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Recombination Coefficient"@en ; - dcterms:description "The \"Recombination Coefficient\" is the rate of recombination of positive ions with electrons or negative ions in a gas, per unit volume, divided by the product of the number of positive ions per unit volume and the number of electrons or negative ions per unit volume."^^rdf:HTML ; + dcterms:description "The \"Recombination Coefficient\" is the rate of recombination of positive ions with electrons or negative ions in a gas, per unit volume, divided by the product of the number of positive ions per unit volume and the number of electrons or negative ions per unit volume."^^ns1:LatexString, + "The \"Recombination Coefficient\" is the rate of recombination of positive ions with electrons or negative ions in a gas, per unit volume, divided by the product of the number of positive ions per unit volume and the number of electrons or negative ions per unit volume."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://encyclopedia2.thefreedictionary.com/recombination+coefficient"^^xsd:anyURI ; @@ -35338,17 +40579,20 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$-\\frac{dn^+}{dt} = -\\frac{dn^-}{dt} = an^+n^-$, where $n^+$ and $n^-$ are the ion number densities of positive and negative ions, respectively, recombined during an infinitesimal time interval with duration $dt$."^^ns1:LatexString ; ns1:plainTextDescription "The \"Recombination Coefficient\" is the rate of recombination of positive ions with electrons or negative ions in a gas, per unit volume, divided by the product of the number of positive ions per unit volume and the number of electrons or negative ions per unit volume."^^xsd:string ; ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RecombinationCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reflectance Factor"@en ; - dcterms:description "Reflectance Factor is the measure of the ability of a surface to reflect light or other electromagnetic radiation, equal to the ratio of the reflected flux to the incident flux."^^rdf:HTML ; + dcterms:description "Reflectance Factor is the measure of the ability of a surface to reflect light or other electromagnetic radiation, equal to the ratio of the reflected flux to the incident flux."^^ns1:LatexString, + "Reflectance Factor is the measure of the ability of a surface to reflect light or other electromagnetic radiation, equal to the ratio of the reflected flux to the incident flux."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.thefreedictionary.com/reflectance+factor"^^xsd:anyURI ; ns1:latexDefinition "$R = \\frac{\\Phi_n}{\\Phi_d}$, where $\\Phi_n$ is the radiant flux or luminous flux reflected in the directions delimited by a given cone and $\\Phi_d$ is the flux reflected in the same directions by an identically radiated diffuser of reflectance equal to 1."^^ns1:LatexString ; ns1:plainTextDescription "Reflectance Factor is the measure of the ability of a surface to reflect light or other electromagnetic radiation, equal to the ratio of the reflected flux to the incident flux."^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ReflectanceFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35369,19 +40613,22 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "Показатель преломления"@ru, "kırılma indeksi"@tr, "折射率"@zh ; - dcterms:description "\"refractive index\" or index of refraction n of a substance (optical medium) is a dimensionless number that describes how light, or any other radiation, propagates through that medium."^^rdf:HTML ; + dcterms:description "\"refractive index\" or index of refraction n of a substance (optical medium) is a dimensionless number that describes how light, or any other radiation, propagates through that medium."^^ns1:LatexString, + "\"refractive index\" or index of refraction n of a substance (optical medium) is a dimensionless number that describes how light, or any other radiation, propagates through that medium."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Refractive_index"^^xsd:anyURI ; ns1:latexDefinition "$n = \\frac{c_0}{c}$, where $c_0$ is the speed of light in vacuum, and $c$ is the speed of light in the medium."^^ns1:LatexString ; ns1:plainTextDescription "\"refractive index\" or index of refraction n of a substance (optical medium) is a dimensionless number that describes how light, or any other radiation, propagates through that medium."^^xsd:string ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RefractiveIndex"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Brechungsindex"@de . a ns1:QuantityKind ; rdfs:label "Relative Luminous Flux"@en ; - dcterms:description "Relative Luminous Flux or Relative Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^rdf:HTML ; + dcterms:description "Relative Luminous Flux or Relative Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^ns1:LatexString, + "Relative Luminous Flux or Relative Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^rdf:HTML ; dcterms:isReplacedBy ; ns1:applicableUnit ; ns1:deprecated true ; @@ -35390,24 +40637,29 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "Relative Luminous Flux or Relative Luminous Power is the measure of the perceived power of light. It differs from radiant flux, the measure of the total power of light emitted, in that luminous flux is adjusted to reflect the varying sensitivity of the human eye to different wavelengths of light. It is expressed as a percentage or fraction of full power."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:RelativeLuminousFlux"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Relative Mass Concentration of Vapour"@en ; - dcterms:description "\"Relative Mass Concentration of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Relative Mass Concentration of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 80000."^^ns1:LatexString, + "\"Relative Mass Concentration of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$\\varphi = v / v_{sat}$, where $v$ is mass concentration of water vapour, $v_{sat}$ is its mass concentration of water vapour at saturation (at the same temperature). For normal cases, the relative partial pressure may be assumed to be equal to relative mass concentration of vapour."^^ns1:LatexString ; ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Relative Mass Concentration of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Relative Mass Concentration of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^xsd:string, + "Relative Mass Concentration of Vapour is one of a number of Relative Concentration quantities defined by ISO 80000."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RelativeMassConcentrationOfVapour"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Relative Mass Density"@en ; - dcterms:description "Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material."^^rdf:HTML ; + dcterms:description "Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material."^^ns1:LatexString, + "Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Relative_density"^^xsd:anyURI ; @@ -35415,11 +40667,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$d = \\frac{\\rho}{\\rho_0}$, where $\\rho$ is mass density of a substance and $\\rho_0$ is the mass density of a reference substance under conditions that should be specified for both substances."^^ns1:LatexString ; ns1:plainTextDescription "Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material."^^xsd:string ; ns1:symbol "d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RelativeMassDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Relative Mass Excess"@en ; - dcterms:description "The \"Relative Mass Excess\" is the mass excess between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster (extrapolated from relative mass defect)."^^rdf:HTML ; + dcterms:description "The \"Relative Mass Excess\" is the mass excess between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster (extrapolated from relative mass defect)."^^ns1:LatexString, + "The \"Relative Mass Excess\" is the mass excess between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster (extrapolated from relative mass defect)."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_excess"^^xsd:anyURI ; @@ -35427,17 +40681,21 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\Delta_r = \\frac{\\Delta}{m_u}$, where $\\Delta$ is the mass excess and $m_u$ is the unified atomic mass constant."^^ns1:LatexString ; ns1:latexSymbol "$\\Delta_r$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Relative Mass Excess\" is the mass excess between the monoisotopic mass of an element and the mass of its A + 1 or its A + 2 isotopic cluster (extrapolated from relative mass defect)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RelativeMassExcess"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Relative Mass Ratio of Vapour"@en ; - dcterms:description "\"Relative Mass Ratio of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Relative Mass Ratio of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 80000."^^ns1:LatexString, + "\"Relative Mass Ratio of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$\\psi = x / x_{sat}$, where $x$ is mass ratio of water vapour to dry gas, $x_{sat}$ is its mass raio of water vapour to dry gas at saturation (at the same temperature)."^^ns1:LatexString ; ns1:latexSymbol "$\\psi$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Relative Mass Ratio of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Relative Mass Ratio of Vapour\" is one of a number of \"Relative Concentration\" quantities defined by ISO 8000."^^xsd:string, + "Relative Mass Ratio of Vapour is one of a number of Relative Concentration quantities defined by ISO 80000."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RelativeMassRatioOfVapour"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35450,11 +40708,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$\\alpha_p = \\frac{1}{p}\\left (\\frac{\\partial p}{\\partial T} \\right )_V$, where $p$ is $pressure$, $T$ is thermodynamic temperature and $V$ is volume."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha_p$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:RelativePressureCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reluctance"@en ; - dcterms:description "\"Reluctance\" or magnetic resistance, is a concept used in the analysis of magnetic circuits. It is analogous to resistance in an electrical circuit, but rather than dissipating electric energy it stores magnetic energy. In likeness to the way an electric field causes an electric current to follow the path of least resistance, a magnetic field causes magnetic flux to follow the path of least magnetic reluctance. It is a scalar, extensive quantity, akin to electrical resistance."^^rdf:HTML ; + dcterms:description "\"Reluctance\" or magnetic resistance, is a concept used in the analysis of magnetic circuits. It is analogous to resistance in an electrical circuit, but rather than dissipating electric energy it stores magnetic energy. In likeness to the way an electric field causes an electric current to follow the path of least resistance, a magnetic field causes magnetic flux to follow the path of least magnetic reluctance. It is a scalar, extensive quantity, akin to electrical resistance."^^ns1:LatexString, + "\"Reluctance\" or magnetic resistance, is a concept used in the analysis of magnetic circuits. It is analogous to resistance in an electrical circuit, but rather than dissipating electric energy it stores magnetic energy. In likeness to the way an electric field causes an electric current to follow the path of least resistance, a magnetic field causes magnetic flux to follow the path of least magnetic reluctance. It is a scalar, extensive quantity, akin to electrical resistance."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD159"^^xsd:string ; @@ -35463,13 +40723,15 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$R_m = \\frac{U_m}{\\Phi}$, where $U_m$ is magnetic tension, and $\\Phi$ is magnetic flux."^^ns1:LatexString ; ns1:plainTextDescription "\"Reluctance\" or magnetic resistance, is a concept used in the analysis of magnetic circuits. It is analogous to resistance in an electrical circuit, but rather than dissipating electric energy it stores magnetic energy. In likeness to the way an electric field causes an electric current to follow the path of least resistance, a magnetic field causes magnetic flux to follow the path of least magnetic reluctance. It is a scalar, extensive quantity, akin to electrical resistance."^^xsd:string ; ns1:symbol "R_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Reluctance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . a ns1:QuantityKind ; rdfs:label "Residual Resistivity"@en ; - dcterms:description "\"Residual Resistivity\" for metals, is the resistivity extrapolated to zero thermodynamic temperature."^^rdf:HTML ; + dcterms:description "\"Residual Resistivity\" for metals, is the resistivity extrapolated to zero thermodynamic temperature."^^ns1:LatexString, + "\"Residual Resistivity\" for metals, is the resistivity extrapolated to zero thermodynamic temperature."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -35478,6 +40740,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\rho_R$"^^ns1:LatexString ; ns1:plainTextDescription "\"Residual Resistivity\" for metals, is the resistivity extrapolated to zero thermodynamic temperature."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ResidualResistivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35488,6 +40751,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ResistancePercentage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35510,34 +40774,40 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Resonance Escape Probability"@en ; - dcterms:description "The \"Resonance Escape Probability\" is the fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed. In an infinite medium, the probability that a neutron slowing down will traverse all or some specified portion of the range of resonance energies without being absorbed."^^rdf:HTML ; + dcterms:description "The \"Resonance Escape Probability\" is the fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed. In an infinite medium, the probability that a neutron slowing down will traverse all or some specified portion of the range of resonance energies without being absorbed."^^ns1:LatexString, + "The \"Resonance Escape Probability\" is the fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed. In an infinite medium, the probability that a neutron slowing down will traverse all or some specified portion of the range of resonance energies without being absorbed."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Four_factor_formula"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Resonance Escape Probability\" is the fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed. In an infinite medium, the probability that a neutron slowing down will traverse all or some specified portion of the range of resonance energies without being absorbed."^^xsd:string ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ResonanceEscapeProbability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Respiratory Rate"@en ; - dcterms:description "Respiratory rate (Vf, Rf or RR) is also known by respiration rate, pulmonary ventilation rate, ventilation rate, or breathing frequency is the number of breaths taken within a set amount of time, typically 60 seconds. A normal respiratory rate is termed eupnea, an increased respiratory rate is termed tachypnea and a lower than normal respiratory rate is termed bradypnea."^^rdf:HTML ; + dcterms:description "Respiratory rate (Vf, Rf or RR) is also known by respiration rate, pulmonary ventilation rate, ventilation rate, or breathing frequency is the number of breaths taken within a set amount of time, typically 60 seconds. A normal respiratory rate is termed eupnea, an increased respiratory rate is termed tachypnea and a lower than normal respiratory rate is termed bradypnea."^^ns1:LatexString, + "Respiratory rate (Vf, Rf or RR) is also known by respiration rate, pulmonary ventilation rate, ventilation rate, or breathing frequency is the number of breaths taken within a set amount of time, typically 60 seconds. A normal respiratory rate is termed eupnea, an increased respiratory rate is termed tachypnea and a lower than normal respiratory rate is termed bradypnea."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Respiratory_rate"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Respiratory_rate"^^xsd:anyURI ; ns1:plainTextDescription "Respiratory rate (Vf, Rf or RR) is also known by respiration rate, pulmonary ventilation rate, ventilation rate, or breathing frequency is the number of breaths taken within a set amount of time, typically 60 seconds. A normal respiratory rate is termed eupnea, an increased respiratory rate is termed tachypnea and a lower than normal respiratory rate is termed bradypnea."^^xsd:string ; ns1:symbol "Vf, Rf or RR"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RespiratoryRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reynolds Number"@en ; - dcterms:description "The \"Reynolds Number\" (Re) is a dimensionless number that gives a measure of the ratio of inertial forces to viscous forces and consequently quantifies the relative importance of these two types of forces for given flow conditions."^^rdf:HTML ; + dcterms:description "The \"Reynolds Number\" (Re) is a dimensionless number that gives a measure of the ratio of inertial forces to viscous forces and consequently quantifies the relative importance of these two types of forces for given flow conditions."^^ns1:LatexString, + "The \"Reynolds Number\" (Re) is a dimensionless number that gives a measure of the ratio of inertial forces to viscous forces and consequently quantifies the relative importance of these two types of forces for given flow conditions."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Reynolds_number"^^xsd:anyURI ; ns1:hasDimensionVector ; @@ -35546,13 +40816,15 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31896"^^xsd:anyURI ; ns1:plainTextDescription "The \"Reynolds Number\" (Re) is a dimensionless number that gives a measure of the ratio of inertial forces to viscous forces and consequently quantifies the relative importance of these two types of forces for given flow conditions."^^xsd:string ; ns1:symbol "Re"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ReynoldsNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Richardson Constant"@en ; - dcterms:description "\"Richardson Constant\" is a constant used in developing thermionic emission current density for a metal."^^rdf:HTML ; + dcterms:description "\"Richardson Constant\" is a constant used in developing thermionic emission current density for a metal."^^ns1:LatexString, + "\"Richardson Constant\" is a constant used in developing thermionic emission current density for a metal."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD162"^^xsd:string ; @@ -35561,11 +40833,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "The thermionic emission current, $J$, for a metal is $J = AT^2\\exp{(-\\frac{\\Phi}{kT})}$, where $T$ is thermodynamic temperature, $k$ is the Boltzmann constant, and $\\Phi$ is a work function."^^ns1:LatexString ; ns1:plainTextDescription "\"Richardson Constant\" is a constant used in developing thermionic emission current density for a metal."^^xsd:string ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RichardsonConstant"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Scalar Magnetic Potential"@en ; - dcterms:description "\"Scalar Magnetic Potential\" is the scalar potential of an irrotational magnetic field strength. The negative of the gradient of the scalar magnetic potential is the irrotational magnetic field strength. The magnetic scalar potential is not unique since any constant scalar field can be added to it without changing its gradient."^^rdf:HTML ; + dcterms:description "\"Scalar Magnetic Potential\" is the scalar potential of an irrotational magnetic field strength. The negative of the gradient of the scalar magnetic potential is the irrotational magnetic field strength. The magnetic scalar potential is not unique since any constant scalar field can be added to it without changing its gradient."^^ns1:LatexString, + "\"Scalar Magnetic Potential\" is the scalar potential of an irrotational magnetic field strength. The negative of the gradient of the scalar magnetic potential is the irrotational magnetic field strength. The magnetic scalar potential is not unique since any constant scalar field can be added to it without changing its gradient."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD164"^^xsd:string ; @@ -35575,21 +40849,25 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Scalar Magnetic Potential\" is the scalar potential of an irrotational magnetic field strength. The negative of the gradient of the scalar magnetic potential is the irrotational magnetic field strength. The magnetic scalar potential is not unique since any constant scalar field can be added to it without changing its gradient."^^xsd:string ; ns1:symbol "V_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ScalarMagneticPotential"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Section Area Integral"@en ; - dcterms:description "The sectional area integral measure is typically used in torsional analysis. It is usually measured in M⁵."^^rdf:HTML ; + dcterms:description "The sectional area integral measure is typically used in torsional analysis. It is usually measured in M⁵."^^ns1:LatexString, + "The sectional area integral measure is typically used in torsional analysis. It is usually measured in M⁵."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/RELEASE/IFC4/ADD1/HTML/link/ifcsectionalareaintegralmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The sectional area integral measure is typically used in torsional analysis. It is usually measured in M⁵."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SectionAreaIntegral"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Section Modulus"@en ; - dcterms:description "The Section Modulus is a geometric property for a given cross-section used in the design of beams or flexural members."^^rdf:HTML ; + dcterms:description "The Section Modulus is a geometric property for a given cross-section used in the design of beams or flexural members."^^ns1:LatexString, + "The Section Modulus is a geometric property for a given cross-section used in the design of beams or flexural members."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -35599,11 +40877,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$Z = \\frac{I_a}{(r_Q)_{max}}$, where $I_a$ is the second axial moment of area and $(r_Q)_{max}$ is the maximum radial distance of any point in the surface considered from the $Q-axis$ with respect to which $I_a$ is defined."^^ns1:LatexString ; ns1:plainTextDescription "The Section Modulus is a geometric property for a given cross-section used in the design of beams or flexural members."^^xsd:string ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SectionModulus"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Seebeck Coefficient"@en ; - dcterms:description "\"Seebeck Coefficient\", or thermopower, or thermoelectric power of a material is a measure of the magnitude of an induced thermoelectric voltage in response to a temperature difference across that material."^^rdf:HTML ; + dcterms:description "\"Seebeck Coefficient\", or thermopower, or thermoelectric power of a material is a measure of the magnitude of an induced thermoelectric voltage in response to a temperature difference across that material."^^ns1:LatexString, + "\"Seebeck Coefficient\", or thermopower, or thermoelectric power of a material is a measure of the magnitude of an induced thermoelectric voltage in response to a temperature difference across that material."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD169"^^xsd:string ; @@ -35612,27 +40892,32 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$S_{ab} = \\frac{dE_{ab}}{dT}$, where $E_{ab}$ is the thermosource voltage between substances a and b, $T$ is the thermodynamic temperature of the hot junction."^^ns1:LatexString ; ns1:plainTextDescription "\"Seebeck Coefficient\", or thermopower, or thermoelectric power of a material is a measure of the magnitude of an induced thermoelectric voltage in response to a temperature difference across that material."^^xsd:string ; ns1:symbol "S_{ab}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SeebeckCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Short-Range Order Parameter"@en ; - dcterms:description "\"Short-Range Order Parameter\" is the fraction of the nearest-neighbor atom pairs in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^rdf:HTML ; + dcterms:description "\"Short-Range Order Parameter\" is the fraction of the nearest-neighbor atom pairs in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^ns1:LatexString, + "\"Short-Range Order Parameter\" is the fraction of the nearest-neighbor atom pairs in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$r, \\sigma$"^^ns1:LatexString ; ns1:plainTextDescription "\"Short-Range Order Parameter\" is the fraction of the nearest-neighbor atom pairs in an Ising ferromagnet having magnetic moments in one direction, minus the fraction having magnetic moments in the opposite direction."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Short-RangeOrderParameter"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Signal Detection Threshold"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:SignalDetectionThreshold"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Signal Strength"@en ; - dcterms:description "In telecommunications, particularly in radio, signal strength refers to the magnitude of the electric field at a reference point that is a significant distance from the transmitting antenna. It may also be referred to as received signal level or field strength. Typically, it is expressed in voltage per length or signal power received by a reference antenna. High-powered transmissions, such as those used in broadcasting, are expressed in dB-millivolts per metre (dBmV/m)."^^rdf:HTML ; + dcterms:description "In telecommunications, particularly in radio, signal strength refers to the magnitude of the electric field at a reference point that is a significant distance from the transmitting antenna. It may also be referred to as received signal level or field strength. Typically, it is expressed in voltage per length or signal power received by a reference antenna. High-powered transmissions, such as those used in broadcasting, are expressed in dB-millivolts per metre (dBmV/m)."^^ns1:LatexString, + "In telecommunications, particularly in radio, signal strength refers to the magnitude of the electric field at a reference point that is a significant distance from the transmitting antenna. It may also be referred to as received signal level or field strength. Typically, it is expressed in voltage per length or signal power received by a reference antenna. High-powered transmissions, such as those used in broadcasting, are expressed in dB-millivolts per metre (dBmV/m)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -35646,13 +40931,15 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:dbpediaMatch "http://dbpedia.org/resource/Signal_strength"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:plainTextDescription "In telecommunications, particularly in radio, signal strength refers to the magnitude of the electric field at a reference point that is a significant distance from the transmitting antenna. It may also be referred to as received signal level or field strength. Typically, it is expressed in voltage per length or signal power received by a reference antenna. High-powered transmissions, such as those used in broadcasting, are expressed in dB-millivolts per metre (dBmV/m)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricField"^^xsd:string ; rdfs:isDefinedBy ; skos:broader , . a ns1:QuantityKind ; rdfs:label "Slowing-Down Density"@en ; - dcterms:description "\"Slowing-Down Density\" is a measure of the rate at which neutrons lose energy in a nuclear reactor through collisions; equal to the number of neutrons that fall below a given energy per unit volume per unit time."^^rdf:HTML ; + dcterms:description "\"Slowing-Down Density\" is a measure of the rate at which neutrons lose energy in a nuclear reactor through collisions; equal to the number of neutrons that fall below a given energy per unit volume per unit time."^^ns1:LatexString, + "\"Slowing-Down Density\" is a measure of the rate at which neutrons lose energy in a nuclear reactor through collisions; equal to the number of neutrons that fall below a given energy per unit volume per unit time."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -35662,11 +40949,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$q = -\\frac{dn}{dt}$, where $n$ is the number density and $dt$ is the duration."^^ns1:LatexString ; ns1:plainTextDescription "\"Slowing-Down Density\" is a measure of the rate at which neutrons lose energy in a nuclear reactor through collisions; equal to the number of neutrons that fall below a given energy per unit volume per unit time."^^xsd:string ; ns1:symbol "q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Slowing-DownDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Sound exposure"@en ; - dcterms:description "Sound Exposure is the energy of the A-weighted sound calculated over the measurement time(s). For a given period of time, an increase of 10 dB(A) in sound pressure level corresponds to a tenfold increase in E."^^rdf:HTML ; + dcterms:description "Sound Exposure is the energy of the A-weighted sound calculated over the measurement time(s). For a given period of time, an increase of 10 dB(A) in sound pressure level corresponds to a tenfold increase in E."^^ns1:LatexString, + "Sound Exposure is the energy of the A-weighted sound calculated over the measurement time(s). For a given period of time, an increase of 10 dB(A) in sound pressure level corresponds to a tenfold increase in E."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD172"^^xsd:string ; @@ -35675,11 +40964,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "Sound Exposure is the energy of the A-weighted sound calculated over the measurement time(s). For a given period of time, an increase of 10 dB(A) in sound pressure level corresponds to a tenfold increase in E."^^xsd:string ; ns1:symbol "E"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundExposure"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Sound intensity"@en ; - dcterms:description "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^rdf:HTML ; + dcterms:description "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^ns1:LatexString, + "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^rdf:HTML ; ns1:abbreviation "w/m2"^^xsd:string ; ns1:applicableUnit , , @@ -35711,6 +41002,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "Sound intensity or acoustic intensity ($I$) is defined as the sound power $P_a$ per unit area $A$. The usual context is the noise measurement of sound intensity in the air at a listener's location as a sound energy quantity."^^xsd:string ; ns1:symbol "I"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -35723,26 +41015,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$q= vS$, where $v$ is sound particle velocity and $S$ is the surface area through which an acoustic wave of frequence $f$ propagates."^^ns1:LatexString ; ns1:symbol "q"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Specific Electric Charge"@en ; - dcterms:description "Electric charge (often capacity in the context of electrochemical cells) relativ to the mass (often only active components). capacity "^^rdf:HTML ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "Electric charge (often capacity in the context of electrochemical cells) relativ to the mass (often only active components). capacity "^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Specific Electrical Current"@en ; - dcterms:description "\"Specific Electric Current\" is a measure to specify the applied current relative to a corresponding mass. This measure is often used for standardization within electrochemistry."^^ns1:LatexString ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:SoundVolumeVelocity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Optical Rotatory Power"@en ; - dcterms:description "The \"Specific Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the mass concentration of the substance giving the specific optical rotatory power."^^rdf:HTML ; + dcterms:description "The \"Specific Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the mass concentration of the substance giving the specific optical rotatory power."^^ns1:LatexString, + "The \"Specific Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the mass concentration of the substance giving the specific optical rotatory power."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://goldbook.iupac.org/O04313.html"^^xsd:anyURI ; @@ -35750,6 +41029,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\alpha_m = \\alpha \\frac{A}{m}$, where $\\alpha$ is the angle of optical rotation, and $m$ is the mass of the optically active component in the path of a linearly polarized light beam of cross sectional area $A$."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha_m$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Specific Optical Rotatory Power\" Angle of optical rotation divided by the optical path length through the medium and by the mass concentration of the substance giving the specific optical rotatory power."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificOpticalRotatoryPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35762,6 +41042,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$\\sigma = \\int \\int \\sigma_{\\Omega,E} d\\Omega dE$"^^ns1:LatexString ; ns1:latexSymbol "$\\sigma_{\\Omega, E}$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:SpectralAngularCrossSection"^^xsd:string ; rdfs:isDefinedBy ; skos:closeMatch , . @@ -35782,22 +41063,26 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexDefinition "$\\lambda_B^\\Theta = \\lambda_B^*(p^\\Theta)$, where $\\lambda_B^\\Theta$ the absolute activity of the pure substance $B$ at the same temperature and pressure, and $p^\\Theta$ is standard pressure."^^ns1:LatexString ; ns1:latexSymbol "$\\lambda_B^\\Theta$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:StandardAbsoluteActivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Statistical Weight"@en ; - dcterms:description "A \"Statistical Weight\" is the relative probability (possibly unnormalized) of a particular feature of a state."^^rdf:HTML ; + dcterms:description "A \"Statistical Weight\" is the relative probability (possibly unnormalized) of a particular feature of a state."^^ns1:LatexString, + "A \"Statistical Weight\" is the relative probability (possibly unnormalized) of a particular feature of a state."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Statistical_weight"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:plainTextDescription "A \"Statistical Weight\" is the relative probability (possibly unnormalized) of a particular feature of a state."^^xsd:string ; ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:StatisticalWeight"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Stochastic Process"@en ; - dcterms:description "In probability theory, a stochastic process, or sometimes random process is a collection of random variables; this is often used to represent the evolution of some random value, or system, over time. This is the probabilistic counterpart to a deterministic process (or deterministic system)."^^rdf:HTML ; + dcterms:description "In probability theory, a stochastic process, or sometimes random process is a collection of random variables; this is often used to represent the evolution of some random value, or system, over time. This is the probabilistic counterpart to a deterministic process (or deterministic system)."^^ns1:LatexString, + "In probability theory, a stochastic process, or sometimes random process is a collection of random variables; this is often used to represent the evolution of some random value, or system, over time. This is the probabilistic counterpart to a deterministic process (or deterministic system)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -35830,24 +41115,28 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:informativeReference "http://en.wikipedia.org/wiki/Stochastic_process"^^xsd:anyURI ; ns1:plainTextDescription "In probability theory, a stochastic process, or sometimes random process is a collection of random variables; this is often used to represent the evolution of some random value, or system, over time. This is the probabilistic counterpart to a deterministic process (or deterministic system)."^^xsd:string ; ns1:symbol "X"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Frequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Stoichiometric Number"@en ; - dcterms:description "Chemical reactions, as macroscopic unit operations, consist of simply a very large number of elementary reactions, where a single molecule reacts with another molecule. As the reacting molecules (or moieties) consist of a definite set of atoms in an integer ratio, the ratio between reactants in a complete reaction is also in integer ratio. A reaction may consume more than one molecule, and the \"Stoichiometric Number\" counts this number, defined as positive for products (added) and negative for reactants (removed)."^^rdf:HTML ; + dcterms:description "Chemical reactions, as macroscopic unit operations, consist of simply a very large number of elementary reactions, where a single molecule reacts with another molecule. As the reacting molecules (or moieties) consist of a definite set of atoms in an integer ratio, the ratio between reactants in a complete reaction is also in integer ratio. A reaction may consume more than one molecule, and the \"Stoichiometric Number\" counts this number, defined as positive for products (added) and negative for reactants (removed)."^^ns1:LatexString, + "Chemical reactions, as macroscopic unit operations, consist of simply a very large number of elementary reactions, where a single molecule reacts with another molecule. As the reacting molecules (or moieties) consist of a definite set of atoms in an integer ratio, the ratio between reactants in a complete reaction is also in integer ratio. A reaction may consume more than one molecule, and the \"Stoichiometric Number\" counts this number, defined as positive for products (added) and negative for reactants (removed)."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Stoichiometry"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexSymbol "$\\nu_B$"^^ns1:LatexString ; ns1:plainTextDescription "Chemical reactions, as macroscopic unit operations, consist of simply a very large number of elementary reactions, where a single molecule reacts with another molecule. As the reacting molecules (or moieties) consist of a definite set of atoms in an integer ratio, the ratio between reactants in a complete reaction is also in integer ratio. A reaction may consume more than one molecule, and the \"Stoichiometric Number\" counts this number, defined as positive for products (added) and negative for reactants (removed)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:StoichiometricNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Structure Factor"@en ; - dcterms:description "\"Structure Factor\" is a mathematical description of how a material scatters incident radiation."^^rdf:HTML ; + dcterms:description "\"Structure Factor\" is a mathematical description of how a material scatters incident radiation."^^ns1:LatexString, + "\"Structure Factor\" is a mathematical description of how a material scatters incident radiation."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Structure_factor"^^xsd:anyURI ; @@ -35855,17 +41144,20 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$F(h, k, l) = \\sum_{n=1}^N f_n\\exp{[2\\pi i(hx_n + ky_n +lz_n)]}$, where $f_n$ is the atomic scattering factor for atom $n$, and $x_n$, $y_n$, and $z_n$ are fractional coordinates in the unit cell; for $h$, $k$, and $l$."^^ns1:LatexString ; ns1:plainTextDescription "\"Structure Factor\" is a mathematical description of how a material scatters incident radiation."^^xsd:string ; ns1:symbol "F(h, k, l)"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:StructureFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Surface Activity Density"@en ; - dcterms:description "The \"Surface Activity Density\" is undefined."^^rdf:HTML ; + dcterms:description "The \"Surface Activity Density\" is undefined."^^ns1:LatexString, + "The \"Surface Activity Density\" is undefined."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$a_s = \\frac{A}{S}$, where $S$ is the total area of the surface of a sample and $A$ is its activity."^^ns1:LatexString ; ns1:plainTextDescription "The \"Surface Activity Density\" is undefined."^^xsd:string ; ns1:symbol "a_s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SurfaceActivityDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -35877,11 +41169,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$q = h (T_s - T_r)$, where $T_s$ is areic heat flow rate is the thermodynamic temperature of the surface, and is a reference thermodynamic temperature characteristic of the adjacent surroundings."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:SurfaceCoefficientOfHeatTransfer"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Systolic Blood Pressure"@en ; - dcterms:description "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^rdf:HTML ; + dcterms:description "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^ns1:LatexString, + "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^rdf:HTML ; ns1:applicableUnit , , , @@ -35948,23 +41242,27 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780199549351.001.0001/acref-9780199549351-e-1162"^^xsd:anyURI ; ns1:plainTextDescription "The pressure of blood in the arteries which rises to a maximum as blood is pumped out by the left ventricle (systole) and drops to a minimum in diastole. The systolic/diastolic pressure is normally ~120/80 mmHg in a young adult."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . a ns1:QuantityKind ; rdfs:label "Temporal Summation Function"@en ; - dcterms:description "\"Temporal Summation Function\" is the ability of the human eye to produce a composite signal from the signals coming into an eye during a short time interval."^^rdf:HTML ; + dcterms:description "\"Temporal Summation Function\" is the ability of the human eye to produce a composite signal from the signals coming into an eye during a short time interval."^^ns1:LatexString, + "\"Temporal Summation Function\" is the ability of the human eye to produce a composite signal from the signals coming into an eye during a short time interval."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Summation_(neurophysiology)#Temporal_summation"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Temporal Summation Function\" is the ability of the human eye to produce a composite signal from the signals coming into an eye during a short time interval."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TemporalSummationFunction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Conductance"@en ; - dcterms:description "This quantity is also called \"Heat Transfer Coefficient\"."^^rdf:HTML ; + dcterms:description "This quantity is also called \"Heat Transfer Coefficient\"."^^ns1:LatexString, + "This quantity is also called \"Heat Transfer Coefficient\"."^^rdf:HTML ; ns1:applicableUnit , , , @@ -35977,12 +41275,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$G = 1/R$, where $R$ is \"Thermal Resistance\""^^ns1:LatexString ; ns1:plainTextDescription "This quantity is also called \"Heat Transfer Coefficient\"."^^xsd:string ; ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalConductance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Thermal Diffusion Factor"@en ; - dcterms:description "Thermal diffusion is a phenomenon in which a temperature gradient in a mixture of fluids gives rise to a flow of one constituent relative to the mixture as a whole. in the context of the equation that describes thermal diffusion, the \"Thermal Diffusion Factor\" is ."^^rdf:HTML ; + dcterms:description "Thermal diffusion is a phenomenon in which a temperature gradient in a mixture of fluids gives rise to a flow of one constituent relative to the mixture as a whole. in the context of the equation that describes thermal diffusion, the \"Thermal Diffusion Factor\" is ."^^ns1:LatexString, + "Thermal diffusion is a phenomenon in which a temperature gradient in a mixture of fluids gives rise to a flow of one constituent relative to the mixture as a whole. in the context of the equation that describes thermal diffusion, the \"Thermal Diffusion Factor\" is ."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.thermopedia.com/content/1189/"^^xsd:anyURI ; @@ -35990,11 +41290,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$\\alpha_T = \\frac{k_T}{(x_A x_B)}$, where $k_T$ is the thermal diffusion ratio, and $x_A$ and $x_B$ are the local amount-of-substance fractions of the two substances $A$ and $B$."^^ns1:LatexString ; ns1:latexSymbol "$\\alpha_T$"^^ns1:LatexString ; ns1:plainTextDescription "Thermal diffusion is a phenomenon in which a temperature gradient in a mixture of fluids gives rise to a flow of one constituent relative to the mixture as a whole. in the context of the equation that describes thermal diffusion, the \"Thermal Diffusion Factor\" is ."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalDiffusionFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Diffusion Ratio"@en ; - dcterms:description "The \"Thermal Diffusion Ratio\" is proportional to the product of the component concentrations."^^rdf:HTML ; + dcterms:description "The \"Thermal Diffusion Ratio\" is proportional to the product of the component concentrations."^^ns1:LatexString, + "The \"Thermal Diffusion Ratio\" is proportional to the product of the component concentrations."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.thermopedia.com/content/1189/"^^xsd:anyURI ; @@ -36002,11 +41304,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "In a steady state of a binary mixture in which thermal diffusion occurs, $grad x_B = -(\\frac{k_T}{T}) grad T$, where $x_B$ is the amount-of-substance fraction of the heavier substance $B$, and $T$ is the local thermodynamic temperature."^^ns1:LatexString ; ns1:plainTextDescription "The \"Thermal Diffusion Ratio\" is proportional to the product of the component concentrations."^^xsd:string ; ns1:symbol "k_T"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalDiffusionRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Diffusion Coefficient"@en ; - dcterms:description "The \"Thermal Diffusion Coefficient\" is ."^^rdf:HTML ; + dcterms:description "The \"Thermal Diffusion Coefficient\" is ."^^ns1:LatexString, + "The \"Thermal Diffusion Coefficient\" is ."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.thermopedia.com/content/1189/"^^xsd:anyURI ; @@ -36014,28 +41318,33 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$D_T = kT \\cdot D$, where $k_T$ is the thermal diffusion ratio, and $D$ is the diffusion coefficient."^^ns1:LatexString ; ns1:plainTextDescription "The \"Thermal Diffusion Coefficient\" is ."^^xsd:string ; ns1:symbol "D_T"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalDiffusionRatioCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Utilization Factor"@en ; - dcterms:description "The \"Thermal Utilization Factor\" in an infinite medium, is the ratio of the number of thermal absorbed in a fissionable nuclide or in a nuclear fuel, as specified, to the total number of thermal neutrons absorbed."^^rdf:HTML ; + dcterms:description "The \"Thermal Utilization Factor\" in an infinite medium, is the ratio of the number of thermal absorbed in a fissionable nuclide or in a nuclear fuel, as specified, to the total number of thermal neutrons absorbed."^^ns1:LatexString, + "The \"Thermal Utilization Factor\" in an infinite medium, is the ratio of the number of thermal absorbed in a fissionable nuclide or in a nuclear fuel, as specified, to the total number of thermal neutrons absorbed."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Four_factor_formula"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Thermal Utilization Factor\" in an infinite medium, is the ratio of the number of thermal absorbed in a fissionable nuclide or in a nuclear fuel, as specified, to the total number of thermal neutrons absorbed."^^xsd:string ; ns1:symbol "f"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalUtilizationFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thomson Coefficient"@en ; - dcterms:description "\"Thomson Coefficient\" represents Thomson heat power developed, divided by the electric current and the temperature difference."^^rdf:HTML ; + dcterms:description "\"Thomson Coefficient\" represents Thomson heat power developed, divided by the electric current and the temperature difference."^^ns1:LatexString, + "\"Thomson Coefficient\" represents Thomson heat power developed, divided by the electric current and the temperature difference."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.daviddarling.info/encyclopedia/T/Thomson_effect.html"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; ns1:plainTextDescription "\"Thomson Coefficient\" represents Thomson heat power developed, divided by the electric current and the temperature difference."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThomsonCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -36046,6 +41355,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:TimePercentage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -36055,6 +41365,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:TimeRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -36071,6 +41382,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TorquePerLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -36081,6 +41393,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:symbol "j"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalAngularMomentumQuantumNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch , @@ -36089,7 +41402,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:QuantityKind ; rdfs:label "Total Atomic Stopping Power"@en ; - dcterms:description "The \"Total Atomic Stopping Power\" for an ionizing particle passing through an element, is the particle's energy loss per atom within a unit area normal to the particle's path; equal to the linear energy transfer (energy loss per unit path length) divided by the number of atoms per unit volume."^^rdf:HTML ; + dcterms:description "The \"Total Atomic Stopping Power\" for an ionizing particle passing through an element, is the particle's energy loss per atom within a unit area normal to the particle's path; equal to the linear energy transfer (energy loss per unit path length) divided by the number of atoms per unit volume."^^ns1:LatexString, + "The \"Total Atomic Stopping Power\" for an ionizing particle passing through an element, is the particle's energy loss per atom within a unit area normal to the particle's path; equal to the linear energy transfer (energy loss per unit path length) divided by the number of atoms per unit volume."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -36098,11 +41412,14 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$S_a = \\frac{S}{n}$, where $S$ is the total linear stopping power and $n$ is the number density of the atoms in the substance."^^ns1:LatexString ; ns1:plainTextDescription "The \"Total Atomic Stopping Power\" for an ionizing particle passing through an element, is the particle's energy loss per atom within a unit area normal to the particle's path; equal to the linear energy transfer (energy loss per unit path length) divided by the number of atoms per unit volume."^^xsd:string ; ns1:symbol "S_a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalAtomicStoppingPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Total Current"@en ; - dcterms:description "\"Total Current\" is the sum of the electric current that is flowing through a surface and the displacement current."^^rdf:HTML ; + dcterms:description "\"Total Current\" is the sum of the electric current that is flowing through a surface and the displacement current."^^ns1:LatexString, + "\"Total Current\" is the sum of the electric current that is flowing through a surface and the displacement current."^^rdf:HTML ; + ns1:altSymbol "I_t"^^xsd:string ; ns1:applicableUnit , , , @@ -36115,19 +41432,22 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:plainTextDescription "\"Total Current\" is the sum of the electric current that is flowing through a surface and the displacement current."^^xsd:string ; ns1:symbol "I_t"^^xsd:string, "I_{tot}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalCurrent"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . a ns1:QuantityKind ; rdfs:label "Total Current Density"@en ; - dcterms:description "\"Total Current Density\" is the sum of the electric current density and the displacement current density."^^rdf:HTML ; + dcterms:description "\"Total Current Density\" is the sum of the electric current density and the displacement current density."^^ns1:LatexString, + "\"Total Current Density\" is the sum of the electric current density and the displacement current density."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$J_{tot}= J + J_D$, where $J$ is electric current density and $J_D$ is displacement current density."^^ns1:LatexString ; ns1:latexSymbol "$J_{tot}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Total Current Density\" is the sum of the electric current density and the displacement current density."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . @@ -36141,11 +41461,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$N = \\int N_i dl$."^^ns1:LatexString ; ns1:symbol "N_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalIonization"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Total Mass Stopping Power"@en ; - dcterms:description "If a substance is compared in gaseous and solid form, then the linear stopping powers of the two states are very different just because of the different density. One therefore often divides S(E) by the density of the material to obtain the \"Mass Stopping Power\". The mass stopping power then depends only very little on the density of the material."^^rdf:HTML ; + dcterms:description "If a substance is compared in gaseous and solid form, then the linear stopping powers of the two states are very different just because of the different density. One therefore often divides S(E) by the density of the material to obtain the \"Mass Stopping Power\". The mass stopping power then depends only very little on the density of the material."^^ns1:LatexString, + "If a substance is compared in gaseous and solid form, then the linear stopping powers of the two states are very different just because of the different density. One therefore often divides S(E) by the density of the material to obtain the \"Mass Stopping Power\". The mass stopping power then depends only very little on the density of the material."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -36156,41 +41478,77 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:latexDefinition "$S_m = \\frac{S}{\\rho}$, where $S$ is the total linear stopping power and $\\rho$ is the mass density of the sample."^^ns1:LatexString ; ns1:plainTextDescription "If a substance is compared in gaseous and solid form, then the linear stopping powers of the two states are very different just because of the different density. One therefore often divides S(E) by the density of the material to obtain the \"Mass Stopping Power\". The mass stopping power then depends only very little on the density of the material."^^xsd:string ; ns1:symbol "S_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalMassStoppingPower"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Transmittance"@en ; + dcterms:description "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^ns1:LatexString, + "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Transmittance"^^xsd:anyURI ; + ns1:latexDefinition "$\\tau = \\frac{\\Phi_t}{\\Phi_m}$, where $\\Phi_t$ is the transmitted radiant flux or the transmitted luminous flux, and $\\Phi_m$ is the radiant flux or luminous flux of the incident radiation."^^ns1:LatexString ; + ns1:latexSymbol "$\\tau, T$"^^ns1:LatexString ; + ns1:plainTextDescription "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^xsd:string ; + ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Transmittance Density"@en ; - dcterms:description "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^rdf:HTML ; + dcterms:description "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^ns1:LatexString, + "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:latexDefinition "$A_{10}(\\lambda) = -lg(\\tau(\\lambda))$, where $\\tau$ is the transmittance at a given wavelength $\\lambda$."^^ns1:LatexString ; ns1:plainTextDescription "Transmittance is the fraction of incident light (electromagnetic radiation) at a specified wavelength that passes through a sample."^^xsd:string ; ns1:symbol "A_10, D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TransmittanceDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Turbidity"@en ; - dcterms:description "Turbidity is the cloudiness or haziness of a fluid, or of air, caused by individual particles (suspended solids) that are generally invisible to the naked eye, similar to smoke in air. Turbidity in open water is often caused by phytoplankton and the measurement of turbidity is a key test of water quality. The higher the turbidity, the higher the risk of the drinkers developing gastrointestinal diseases, especially for immune-compromised people, because contaminants like virus or bacteria can become attached to the suspended solid. The suspended solids interfere with water disinfection with chlorine because the particles act as shields for the virus and bacteria. Similarly suspended solids can protect bacteria from UV sterilisation of water. Fluids can contain suspended solid matter consisting of particles of many different sizes. While some suspended material will be large enough and heavy enough to settle rapidly to the bottom container if a liquid sample is left to stand (the settleable solids), very small particles will settle only very slowly or not at all if the sample is regularly agitated or the particles are colloidal. These small solid particles cause the liquid to appear turbid."^^rdf:HTML ; + dcterms:description "Turbidity is the cloudiness or haziness of a fluid, or of air, caused by individual particles (suspended solids) that are generally invisible to the naked eye, similar to smoke in air. Turbidity in open water is often caused by phytoplankton and the measurement of turbidity is a key test of water quality. The higher the turbidity, the higher the risk of the drinkers developing gastrointestinal diseases, especially for immune-compromised people, because contaminants like virus or bacteria can become attached to the suspended solid. The suspended solids interfere with water disinfection with chlorine because the particles act as shields for the virus and bacteria. Similarly suspended solids can protect bacteria from UV sterilisation of water. Fluids can contain suspended solid matter consisting of particles of many different sizes. While some suspended material will be large enough and heavy enough to settle rapidly to the bottom container if a liquid sample is left to stand (the settleable solids), very small particles will settle only very slowly or not at all if the sample is regularly agitated or the particles are colloidal. These small solid particles cause the liquid to appear turbid."^^ns1:LatexString, + "Turbidity is the cloudiness or haziness of a fluid, or of air, caused by individual particles (suspended solids) that are generally invisible to the naked eye, similar to smoke in air. Turbidity in open water is often caused by phytoplankton and the measurement of turbidity is a key test of water quality. The higher the turbidity, the higher the risk of the drinkers developing gastrointestinal diseases, especially for immune-compromised people, because contaminants like virus or bacteria can become attached to the suspended solid. The suspended solids interfere with water disinfection with chlorine because the particles act as shields for the virus and bacteria. Similarly suspended solids can protect bacteria from UV sterilisation of water. Fluids can contain suspended solid matter consisting of particles of many different sizes. While some suspended material will be large enough and heavy enough to settle rapidly to the bottom container if a liquid sample is left to stand (the settleable solids), very small particles will settle only very slowly or not at all if the sample is regularly agitated or the particles are colloidal. These small solid particles cause the liquid to appear turbid."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Turbidity"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Turbidity"^^xsd:anyURI ; ns1:plainTextDescription "Turbidity is the cloudiness or haziness of a fluid, or of air, caused by individual particles (suspended solids) that are generally invisible to the naked eye, similar to smoke in air. Turbidity in open water is often caused by phytoplankton and the measurement of turbidity is a key test of water quality. The higher the turbidity, the higher the risk of the drinkers developing gastrointestinal diseases, especially for immune-compromised people, because contaminants like virus or bacteria can become attached to the suspended solid. The suspended solids interfere with water disinfection with chlorine because the particles act as shields for the virus and bacteria. Similarly suspended solids can protect bacteria from UV sterilisation of water. Fluids can contain suspended solid matter consisting of particles of many different sizes. While some suspended material will be large enough and heavy enough to settle rapidly to the bottom container if a liquid sample is left to stand (the settleable solids), very small particles will settle only very slowly or not at all if the sample is regularly agitated or the particles are colloidal. These small solid particles cause the liquid to appear turbid."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Turbidity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Turns"@en ; - dcterms:description "\"Turns\" is the number of turns in a winding."^^rdf:HTML ; + dcterms:description "\"Turns\" is the number of turns in a winding."^^ns1:LatexString, + "\"Turns\" is the number of turns in a winding."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Turns\" is the number of turns in a winding."^^xsd:string ; ns1:symbol "N"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Turns"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Upper Critical Magnetic Flux Density"@en ; - dcterms:description "\"Upper Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for disappearance of bulk superconductivity."^^rdf:HTML ; + dcterms:description "\"Upper Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for disappearance of bulk superconductivity."^^ns1:LatexString, + "\"Upper Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for disappearance of bulk superconductivity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -36205,6 +41563,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Upper Critical Magnetic Flux Density\" for type II superconductors, is the threshold magnetic flux density for disappearance of bulk superconductivity."^^xsd:string ; ns1:symbol "B_{c2}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFluxDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch . @@ -36236,25 +41595,30 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ; ns1:expression "$VT$"^^ns1:LatexString ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Ventilation Rate per Floor Area"@en ; - dcterms:description "Ventilation Rate is often expressed by the volumetric flowrate of outdoor air introduced to a building. However, ASHRAE now recommends ventilation rates dependent upon floor area."^^rdf:HTML ; + dcterms:description "Ventilation Rate is often expressed by the volumetric flowrate of outdoor air introduced to a building. However, ASHRAE now recommends ventilation rates dependent upon floor area."^^ns1:LatexString, + "Ventilation Rate is often expressed by the volumetric flowrate of outdoor air introduced to a building. However, ASHRAE now recommends ventilation rates dependent upon floor area."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Ventilation_(architecture)#Ventilation_rates_for_indoor_air_quality"^^xsd:anyURI ; ns1:plainTextDescription "Ventilation Rate is often expressed by the volumetric flowrate of outdoor air introduced to a building. However, ASHRAE now recommends ventilation rates dependent upon floor area."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VentilationRatePerFloorArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Video Frame Rate"@en ; - dcterms:description "Frame rate (also known as frame frequency) is the frequency (rate) at which an imaging device produces unique consecutive images called frames. The term applies equally well to computer graphics, video cameras, film cameras, and motion capture systems. Frame rate is most often expressed in frames per second (FPS) and is also expressed in progressive scan monitors as hertz (Hz)."^^rdf:HTML ; + dcterms:description "Frame rate (also known as frame frequency) is the frequency (rate) at which an imaging device produces unique consecutive images called frames. The term applies equally well to computer graphics, video cameras, film cameras, and motion capture systems. Frame rate is most often expressed in frames per second (FPS) and is also expressed in progressive scan monitors as hertz (Hz)."^^ns1:LatexString, + "Frame rate (also known as frame frequency) is the frequency (rate) at which an imaging device produces unique consecutive images called frames. The term applies equally well to computer graphics, video cameras, film cameras, and motion capture systems. Frame rate is most often expressed in frames per second (FPS) and is also expressed in progressive scan monitors as hertz (Hz)."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Frame_rate"^^xsd:anyURI ; ns1:plainTextDescription "Frame rate (also known as frame frequency) is the frequency (rate) at which an imaging device produces unique consecutive images called frames. The term applies equally well to computer graphics, video cameras, film cameras, and motion capture systems. Frame rate is most often expressed in frames per second (FPS) and is also expressed in progressive scan monitors as hertz (Hz)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VideoFrameRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -36266,6 +41630,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:VoltagePercentage"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -36288,105 +41653,22 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Warping Constant"@en ; - dcterms:description "The \"Warping Constant\" is a measure for the warping constant or warping resistance of a cross section under torsional loading. It is usually measured in m⁶."^^rdf:HTML ; + dcterms:description "The \"Warping Constant\" is a measure for the warping constant or warping resistance of a cross section under torsional loading. It is usually measured in m⁶."^^ns1:LatexString, + "The \"Warping Constant\" is a measure for the warping constant or warping resistance of a cross section under torsional loading. It is usually measured in m⁶."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/RELEASE/IFC4/ADD1/HTML/link/ifcwarpingconstantmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The \"Warping Constant\" is a measure for the warping constant or warping resistance of a cross section under torsional loading. It is usually measured in m⁶."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:WarpingConstant"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "práce"@cs, - "Arbeit"@de, - "work"@en, - "trabajo"@es, - "کار"@fa, - "travail"@fr, - "कार्य"@hi, - "lavoro"@it, - "仕事量"@ja, - "kerja"@ms, - "praca"@pl, - "trabalho"@pt, - "lucru mecanic"@ro, - "delo"@sl, - "iş"@tr, - "功"@zh ; - dcterms:description """$\\textit{Work}$ or $net\\ work$ is equal to the change in kinetic energy. - This relationship is called the work-energy theorem: - $$Wnet = K. E._f K. E._o $$$ - where $K. E._f$ is the final kinetic energy and $K. E._o$ is the original kinetic energy. - Potential energy, also referred to as stored energy, is the ability of a system to do work due - to its position or internal structure. - Change in potential energy is equal to work. - The potential energy equations can also be derived from the integral form of work: - $$\\Delta P. E. = W = \\int F \\cdot dx$$. - """^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Work_(physics)"^^xsd:anyURI, - "http://www.cliffsnotes.com/study_guide/Work-and-Energy.topicArticleId-10453,articleId-10418.html"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:latexDefinition "$A = \\int Pdt$, where $P$ is power and $t$ is time."^^ns1:LatexString ; - ns1:plainTextDescription "A force is said to do Work when it acts on a body so that there is a displacement of the point of application, however small, in the direction of the force. The concepts of work and energy are closely tied to the concept of force because an applied force can do work on an object and cause a change in energy. Energy is defined as the ability to do work. Work is done on an object when an applied force moves it through a distance. Kinetic energy is the energy of an object in motion. The net work is equal to the change in kinetic energy."^^xsd:string ; - ns1:symbol "A"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:Unit ; rdfs:label "Ampere Per Square Centimetre"@en, "Ampere Per Square Centimeter"@en-us ; @@ -36394,7 +41676,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+04 ; + ns1:conversionMultiplier 10000.0, + 1e+04 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB052"^^xsd:string ; @@ -36405,22 +41688,6 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "A4"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ampere per Degree Celsius"@en ; - dcterms:description "A measure used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 57.2957795 ; - ns1:expression "\\(A/degC\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://books.google.com/books?id=zkErAAAAYAAJ&pg=PA60&lpg=PA60&dq=ampere+per+degree"^^xsd:anyURI, - "http://web.mit.edu/course/21/21.guide/use-tab.htm"^^xsd:anyURI ; - ns1:symbol "A/°C"^^xsd:string ; - ns1:ucumCode "A.Cel-1"^^ns1:UCUMcs, - "A/Cel"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Ampere per Gram"@en ; @@ -36455,7 +41722,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB051"^^xsd:string ; @@ -36502,7 +41770,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Atmosphere Cubic Meter per Mole"@en, "Atmosphere Cubic Meter per Mole"@en-us ; dcterms:description "A unit that consists of the power of the SI base unit metre with the exponent 3 multiplied by the unit atmosphere divided by the SI base unit mol."^^ns1:LatexString ; - ns1:conversionMultiplier 1.01325e+05 ; + ns1:conversionMultiplier 101325.0, + 1.01325e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "atm⋅m³/mol"^^xsd:string ; @@ -36514,7 +41783,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "Abampere Per Square Centimeter (\\(aA/cm^2\\)) is a unit in the category of Electric current density. It is also known as abamperes per square centimeter, abampere/square centimeter, abampere/square centimetre, abamperes per square centimetre, abampere per square centimetre. This unit is commonly used in the cgs unit system. Abampere Per Square Centimeter (\\(aA/cm^2\\)) has a dimension of \\(L^{-2}I\\) where L is length, and I is electric current. It can be converted to the corresponding standard SI unit \\(A/m^{2}\\) by multiplying its value by a factor of 100000."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+05 ; + ns1:conversionMultiplier 100000.0, + 1e+05 ; ns1:derivedUnitOfSystem ; ns1:expression "\\(aba-per-cm2\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -36532,7 +41802,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "The Statampere per Square Centimeter is a unit of electric current density in the c.g.s. system of units."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 3.335641e-06 ; + ns1:conversionMultiplier 3.335641e-06, + 0.000003335641 ; ns1:derivedUnitOfSystem ; ns1:expression "\\(statA / cm^{2}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -36548,11 +41819,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA319"^^xsd:string ; - ns1:plainTextDescription "0.000000000000000001-fold of the SI derived unit farad"^^xsd:string ; + ns1:plainTextDescription "0,000 000 000 000 000 001-fold of the SI derived unit farad"^^xsd:string, + "0.000000000000000001-fold of the SI derived unit farad"^^xsd:string ; ns1:prefix ; ns1:symbol "aF"^^xsd:string ; ns1:ucumCode "aF"^^ns1:UCUMcs ; @@ -36566,7 +41839,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB151"^^xsd:string ; @@ -36594,7 +41868,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:Unit ; rdfs:label "Bar Per Kelvin"@en ; dcterms:description "unit with the name bar divided by the SI base unit kelvin"^^rdf:HTML ; - ns1:conversionMultiplier 1e+05 ; + ns1:conversionMultiplier 100000.0, + 1e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA324"^^xsd:string ; @@ -36653,6 +41928,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "becquerel"@cs, "Becquerel"@de, "μπεκερέλ"@el, + "Becquerel"@en, "becquerel"@en, "becquerel"@es, "بکرل"@fa, @@ -36808,7 +42084,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:ucumCode "[Btu_IT].[ft_i].[ft_i]-2.h-1.[degF]-1"^^ns1:UCUMcs, "[Btu_IT].[ft_i]/([ft_i]2.h.[degF])"^^ns1:UCUMcs ; ns1:uneceCommonCode "J40"^^xsd:string ; - ns2:comment "qudt:exactMatch: unit:BTU_IT-FT-PER-HR-FT2-DEG_F"^^xsd:string ; + ns2:comment "owl:sameAs: unit:BTU_IT-FT-PER-HR-FT2-DEG_F"^^xsd:string, + "qudt:exactMatch: unit:BTU_IT-FT-PER-HR-FT2-DEG_F"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -37023,6 +42300,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:Unit ; rdfs:label "Coulomb mal Quadratmeter je Volt"@de, + "Coulomb Square Metre Per Volt"@en, "coulomb square metre per volt"@en, "Coulomb Square Meter Per Volt"@en-us, "کولن متر مربع بر ولت"@fa, @@ -37051,7 +42329,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB120"^^xsd:string ; @@ -37091,7 +42370,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB119"^^xsd:string ; @@ -37291,7 +42571,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Statcoulomb per Mole"@en ; dcterms:description "\"Statcoulomb per Mole\" is a unit of measure for the electical charge associated with one mole of a substance. The mole is a unit of measurement used in chemistry to express amounts of a chemical substance, defined as an amount of a substance that contains as many elementary entities (e.g., atoms, molecules, ions, electrons) as there are atoms in 12 grams of pure carbon-12 (12C), the isotope of carbon with atomic weight 12."^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.33564e-10 ; + ns1:conversionMultiplier 0.000000000333564, + 3.33564e-10 ; ns1:expression "\\(statC/mol\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -37306,7 +42587,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA373"^^xsd:string ; @@ -37418,11 +42700,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "Cubic Centimeter Per Kelvin"@en-us ; dcterms:description "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit kelvin"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA386"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit kelvin"^^xsd:string ; + ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit kelvin"^^xsd:string, + "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit kelvin"^^xsd:string ; ns1:symbol "cm³/K"^^xsd:string ; ns1:ucumCode "cm3.K-1"^^ns1:UCUMcs, "cm3/K"^^ns1:UCUMcs ; @@ -37437,11 +42721,13 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA394"^^xsd:string ; - ns1:plainTextDescription "volume ratio consisting of the 0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:plainTextDescription "volume ratio consisting of the 0.000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the power of the SI base unit metre with the exponent 3"^^xsd:string, + "volume ratio consisting of the 0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; ns1:symbol "cm³/m³"^^xsd:string ; ns1:ucumCode "cm3.m-3"^^ns1:UCUMcs, "cm3/m3"^^ns1:UCUMcs ; @@ -37452,7 +42738,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Centistokes"@en ; dcterms:description "\\(\\textbf{Centistokes}\\) is a C.G.S System unit for 'Kinematic Viscosity' expressed as \\(cSt\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA359"^^xsd:string ; @@ -37465,7 +42752,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ rdfs:label "Curie"@en ; dcterms:description "The curie (symbol Ci) is a non-SI unit of radioactivity, named after Marie and Pierre Curie. It is defined as \\(1Ci = 3.7 \\times 10^{10} decays\\ per\\ second\\). Its continued use is discouraged. One Curie is roughly the activity of 1 gram of the radium isotope Ra, a substance studied by the Curies. The SI derived unit of radioactivity is the becquerel (Bq), which equates to one decay per second. Therefore: \\(1Ci = 3.7 \\times 10^{10} Bq= 37 GBq\\) and \\(1Bq \\equiv 2.703 \\times 10^{-11}Ci \\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.7e+10 ; + ns1:conversionMultiplier 37000000000.0, + 3.7e+10 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Curie"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -37605,7 +42893,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "temperature multiplied by unit of time."@en ; ns1:applicableSystem , ; - ns1:conversionMultiplier 6.048e+05 ; + ns1:conversionMultiplier 604800.0, + 6.048e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "°C/wk"^^xsd:string ; @@ -37766,28 +43055,12 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "A51"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Dyne Second Per Cubic Centimetre"@en, - "Dyne Second Per Cubic Centimeter"@en-us ; - dcterms:description "CGS unit of the acoustic image impedance of the medium"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 10.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB102"^^xsd:string ; - ns1:plainTextDescription "CGS unit of the acoustic image impedance of the medium"^^xsd:string ; - ns1:symbol "dyn⋅s/cm³"^^xsd:string ; - ns1:ucumCode "dyn.s.cm-3"^^ns1:UCUMcs, - "dyn.s/cm3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A50"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Debye"@en ; dcterms:description "\"Debye\" is a C.G.S System unit for 'Electric Dipole Moment' expressed as \\(D\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.33564e-30 ; + ns1:conversionMultiplier 3.33564e-30, + 0.00000000000000000000000000000333564 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Debye"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -37862,7 +43135,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:Unit ; rdfs:label "Denier"@en ; dcterms:description "Denier or den is a unit of measure for the linear mass density of fibers. It is defined as the mass in grams per 9,000 meters. In the International System of Units the tex is used instead (see below). The denier is based on a natural standard: a single strand of silk is approximately one denier. A 9,000-meter strand of silk weighs about one gram. The term denier is from the French denier, a coin of small value (worth 1/12 of a sou). Applied to yarn, a denier was held to be equal in weight to 1/24 of an ounce. The term microdenier is used to describe filaments that weigh less than one gram per 9,000 meter length."^^rdf:HTML ; - ns1:conversionMultiplier 1.1e-07 ; + ns1:conversionMultiplier 0.00000011, + 1.1e-07 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Denier"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -37880,7 +43154,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "CGS unit of the length-related energy"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB145"^^xsd:string ; @@ -37894,7 +43169,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ a ns1:Unit ; rdfs:label "Electronvolt Per Angstrom"@en ; dcterms:description "unit electronvolt divided by the unit angstrom"^^rdf:HTML ; - ns1:conversionMultiplier 1.602177e-09 ; + ns1:conversionMultiplier 0.000000001602176634, + 1.602177e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:latexSymbol "\\(ev/\\AA\\)"^^ns1:LatexString ; @@ -37912,7 +43188,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1.602177e-19 ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA426"^^xsd:string ; @@ -37947,6 +43224,7 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ "farad"@cs, "Farad"@de, "φαράντ"@el, + "Farad"@en, "farad"@en, "faradio"@es, "فاراد"@fa, @@ -38011,7 +43289,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "An abfarad is an obsolete electromagnetic (CGS) unit of capacitance equal to \\(10^{9}\\) farads (1,000,000,000 F or 1 GF). The absolute farad of the e.m.u. system, for a steady current identically \\(abC/abV\\), and identically reciprocal abdaraf. 1 abF = 1 GF."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Abfarad"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -38029,7 +43308,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "The absolute dielectric constant of free space is defined as the ratio of displacement to the electric field intensity. The unit of measure is the abfarad per centimeter, a derived CGS unit."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+11 ; + ns1:conversionMultiplier 100000000000.0, + 1e+11 ; ns1:derivedUnitOfSystem ; ns1:expression "\\(abf-per-cm\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -38043,7 +43323,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ dcterms:description "Statfarad (statF) is a unit in the category of Electric capacitance. It is also known as statfarads. This unit is commonly used in the cgs unit system. Statfarad (statF) has a dimension of \\(M^{-1}L^{-2}T^4I^2\\) where M is mass, L is length, T is time, and I is electric current. It can be converted to the corresponding standard SI unit F by multiplying its value by a factor of 1.11265E-012."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.11265e-18 ; + ns1:conversionMultiplier 1.11265e-18, + 0.000000000001112650056053618432174089964848 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -38168,20 +43449,10 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "K21"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Femtomoles per kilogram"@en ; - dcterms:description "A 10**15 part quantity of substance of the measurand per kilogram mass of matrix."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-15 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "fmol/kg"^^xsd:string ; - ns1:ucumCode "fmol.kg-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Imperial Gallon"@en ; - dcterms:description "A British gallon used in liquid and dry measurement approximately 1.2 U.S. gallons, or 4.54 liters"^^rdf:HTML ; + dcterms:description "\"Imperial Gallon\" is an Imperial unit for 'Liquid Volume' expressed as \\(galIMP\\)."^^ns1:LatexString, + "A British gallon used in liquid and dry measurement approximately 1.2 U.S. gallons, or 4.54 liters"^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 0.00454609 ; ns1:definedUnitOfSystem ; @@ -38261,7 +43532,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB381"^^xsd:string ; @@ -38271,39 +43543,6 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "H84"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gram Per Square Centimetre"@en, - "Gram Per Square Centimeter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre and exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 10.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB103"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre and exponent 2"^^xsd:string ; - ns1:symbol "g/cm²"^^xsd:string ; - ns1:ucumCode "g.cm-2"^^ns1:UCUMcs, - "g/cm2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "25"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Grams per square centimetre per year"@en ; - dcterms:description "A rate of change of 0.001 of the SI unit of mass over 0.00001 of the SI unit of area in a period of an average calendar year (365.25 days)"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 3.168809e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "g/(cm²⋅yr)"^^xsd:string ; - ns1:ucumCode "g.cm-2.a-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Gram Per Day"@en ; dcterms:description "0,001-fold of the SI base unit kilogram divided by the unit day"^^rdf:HTML ; @@ -38311,7 +43550,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 0.00000001157407, + 1.157407e-08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA472"^^xsd:string ; @@ -38340,7 +43580,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 2.777778e-07 ; + ns1:conversionMultiplier 0.0000002777778, + 2.777778e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA478"^^xsd:string ; @@ -38358,7 +43599,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 1000-fold of the SI base unit metre"^^xsd:string ; @@ -38384,42 +43626,6 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "GF"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gram Per Square Metre"@en, - "Gram Per Square Meter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA486"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "g/m²"^^xsd:string ; - ns1:ucumCode "g.m-2"^^ns1:UCUMcs, - "g/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GM"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "grams per square metre per day"@en, - "grams per square meter per day"@en-us ; - dcterms:description "A metric unit of volume over time indicating the amount generated across one square meter over a day."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-08 ; - ns1:expression "\\(g-m^{-2}-day^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A metric unit of volume over time indicating the amount generated across one square meter over a day."^^xsd:string ; - ns1:symbol "g/(m²⋅day)"^^xsd:string ; - ns1:ucumCode "g.m-2.d-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Gram Per Minute"@en ; dcterms:description "0,001-fold of the SI base unit kilogram divided by the unit minute"^^rdf:HTML ; @@ -38427,7 +43633,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1.666667e-05 ; + ns1:conversionMultiplier 1.666667e-05, + 0.00001666667 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA490"^^xsd:string ; @@ -38486,37 +43693,12 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:uneceCommonCode "F29"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "grams Carbon per square metre per day"@en, - "grams Carbon per square meter per day"@en-us ; - dcterms:description "A metric unit of volume over time indicating the amount generated across one square meter over a day. Used to express productivity of an ecosystem."^^rdf:HTML ; - ns1:conversionMultiplier 1.157407e-08 ; - ns1:expression "\\(g C-m^{-2}-day^{-1}\\)."^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A metric unit of volume over time indicating the amount generated across one square meter over a day. Used to express productivity of an ecosystem."^^xsd:string ; - ns1:symbol "g{carbon}/(m²⋅day)"^^xsd:string ; - ns1:ucumCode "g.m-2.d-1{C}"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "grams Nitrogen per square metre per day"@en, - "grams Nitrogen per square meter per day"@en-us ; - dcterms:description "A metric unit of volume over time indicating the amount of Nitrogen generated across one square meter over a day. Used to express productivity of an ecosystem."^^rdf:HTML ; - ns1:conversionMultiplier 1.157407e-08 ; - ns1:expression "\\(g N-m^{-2}-day^{-1}\\)."^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A metric unit of volume over time indicating the amount of Nitrogen generated across one square meter over a day. Used to express productivity of an ecosystem."^^xsd:string ; - ns1:symbol "g{nitrogen}/(m²⋅day)"^^xsd:string ; - ns1:ucumCode "g.m-2.d-1{N}"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Gigabit per Second"@en ; dcterms:description "A gigabit per second (Gbit/s or Gb/s) is a unit of data transfer rate equal to 1,000,000,000 bits per second."^^rdf:HTML ; - ns1:conversionMultiplier 6.931472e+08 ; + ns1:conversionMultiplier 693147180.55994530941723212145818, + 6.931472e+08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Data-rate_units#Gigabit_per_second"^^xsd:anyURI ; @@ -38534,7 +43716,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB047"^^xsd:string ; @@ -38553,7 +43736,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA149"^^xsd:string ; @@ -38570,7 +43754,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA147"^^xsd:string ; @@ -38673,7 +43858,8 @@ the quotient of rms voltage and rms electric current; it is often denoted by $Z$ ns1:Unit ; rdfs:label "International Unit per Litre"@en, "International Unit per Liter"@en-us ; - dcterms:description """ + dcterms:description "\"International Unit per Liter\" is a unit for 'Serum Or Plasma Level' expressed as \\(IU/L\\)."^^ns1:LatexString, + """

International Unit per Liter is a unit for 'Serum Or Plasma Level' expressed as IU/L. The magnitude of one IU/L depends on the material, so there is no single conversion multiplier. (See IU for more information). @@ -38689,21 +43875,6 @@ The magnitude of one IU/L depends on the material, so there is rdfs:isDefinedBy ; rdfs:seeAlso . - a ns1:Unit ; - rdfs:label "International Unit per milligram"@en ; - dcterms:description """ -

International Unit per milligramme. -The magnitude of one IU/L depends on the material, so there is no single conversion multiplier. -(See IU for more information). -"""^^rdf:HTML ; - ns1:conversionMultiplier 1e-06 ; - ns1:conversionOffset 0e+00 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "International Units per milligramme."^^xsd:string ; - ns1:symbol "IU/mg"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "International Unit per milliliter"@en, @@ -38906,7 +44077,9 @@ The magnitude of one IU/L depends on the material, so there is rdfs:isDefinedBy . a ns1:Unit ; - rdfs:label "Kelvin per metre"@en ; + rdfs:label "Degrees Kelvin per metre"@en, + "Kelvin per metre"@en, + "Kelvins per metre"@en ; dcterms:description "A change of temperature on the Kelvin temperature scale in one SI unit of length."@en ; ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; @@ -38933,9 +44106,11 @@ The magnitude of one IU/L depends on the material, so there is a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Kelvin je Watt"@de, + "Kelvin per Watt"@en, "kelvin per watt"@en, "kelvin al watt"@it ; - dcterms:description "Thermal resistance is a heat property and a measure of a temperature difference by which an object or material resists a heat flow (heat per time unit or thermal resistance). Thermal resistance is the reciprocal thermal conductance. Absolute thermal resistance is the temperature difference across a structure when a unit of heat energy flows through it in unit time. It is the reciprocal of thermal conductance. The SI units of thermal resistance are kelvins per watt or the equivalent degrees Celsius per watt (the two are the same since as intervals).

"^^rdf:HTML ; + dcterms:description "Thermal resistance is a heat property and a measure of a temperature difference by which an object or material resists a heat flow (heat per time unit or thermal resistance). Thermal resistance is the reciprocal thermal conductance. Absolute thermal resistance is the temperature difference across a structure when a unit of heat energy flows through it in unit time. It is the reciprocal of thermal conductance. The SI units of thermal resistance are kelvins per watt or the equivalent degrees Celsius per watt (the two are the same since as intervals).

"^^rdf:HTML, + "Thermal resistance is a heat property and a measure of a temperature difference by which an object or material resists a heat flow (heat per time unit or thermal resistance). Thermal resistance is the reciprocal thermal conductance. Absolute thermal resistance is the temperature difference across a structure when a unit of heat energy flows through it in unit time. It is the reciprocal of thermal conductance. The SI units of thermal resistance are kelvins per watt or the equivalent degrees Celsius per watt (the two are the same since as intervals).

"^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; ns1:definedUnitOfSystem ; @@ -38977,6 +44152,7 @@ The magnitude of one IU/L depends on the material, so there is "katal"@cs, "Katal"@de, "κατάλ"@el, + "Katal"@en, "katal"@en, "katal"@es, "کاتال"@fa, @@ -39182,7 +44358,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.602177e-10 ; + ns1:conversionMultiplier 0.0000000001602176634, + 1.602177e-10 ; ns1:expression "\\(keV/microM\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -39204,24 +44381,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:ucumCode "kg.K"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilogram Per Square Centimetre"@en, - "Kilogram Per Square Centimeter"@en-us ; - dcterms:description "SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 10000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB174"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; - ns1:symbol "kg/cm²"^^xsd:string ; - ns1:ucumCode "kg.cm-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D5"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilogram Per Day"@en ; dcterms:description "SI base unit kilogram divided by the unit day"^^rdf:HTML ; @@ -39229,7 +44388,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.157407e-05 ; + ns1:conversionMultiplier 1.157407e-05, + 0.00001157407 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA601"^^xsd:string ; @@ -39239,20 +44399,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "F30"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilogram Per Square Foot"@en ; - dcterms:description "SI base unit kilogram divided by the square of the imperial foot"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 10.763910416709722 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "SI base unit kilogram divided by the square of the imperial foot"^^xsd:string ; - ns1:symbol "kg/ft²"^^xsd:string ; - ns1:ucumCode "kg.ft-2"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Kilogram per Gigajoule"@en ; @@ -39269,23 +44415,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:symbol "kg/GJ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilogram per Hectare"@en ; - dcterms:description "Kilogram Per Hectare is a unit of mass per area. Kilogram Per Hectare (kg/ha) has a dimension of ML-2 where M is mass, and L is length. It can be converted to the corresponding standard SI unit kg/m2 by multiplying its value by a factor of 0.0001."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:expression "\\(kg/hare\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kg/ha"^^xsd:string ; - ns1:ucumCode "kg.har-1"^^ns1:UCUMcs, - "kg/har"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Kilogram per Joule"@en ; @@ -39415,7 +44544,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:expression "\\(km^3/s^2\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -39503,7 +44633,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Kilopascal Per Bar"@en ; dcterms:description "1 000-fold of the SI derived unit pascal divided by the unit bar"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+08 ; + ns1:conversionMultiplier 100000000.0, + 1e+08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA577"^^xsd:string ; @@ -39535,7 +44666,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+05 ; + ns1:conversionMultiplier 100000.0, + 1e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB060"^^xsd:string ; @@ -39709,7 +44841,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 5.249912e-06 ; + ns1:conversionMultiplier 5.249912e-06, + 0.000005249912 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA673"^^xsd:string ; @@ -39735,21 +44868,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "P2"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pound Mass (avoirdupois) Per Square Foot"@en ; - dcterms:description "unit for areal-related mass as a unit pound according to the avoirdupois system of units divided by the power of the unit foot according to the Anglo-American and Imperial system of units by exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4.882428 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB262"^^xsd:string ; - ns1:plainTextDescription "unit for areal-related mass as a unit pound according to the avoirdupois system of units divided by the power of the unit foot according to the Anglo-American and Imperial system of units by exponent 2"^^xsd:string ; - ns1:symbol "lb/ft²"^^xsd:string ; - ns1:ucumCode "[lb_av].[ft_i]-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "FP"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Pound per Inch"@en ; dcterms:description "\"Pound per Inch\" is an Imperial unit for 'Mass Per Length' expressed as \\(lb/in\\)."^^ns1:LatexString ; @@ -40180,8 +45298,10 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.0 ; - ns1:conversionOffset 0.0 ; + ns1:conversionMultiplier 1.0, + 1e+00 ; + ns1:conversionOffset 0.0, + 0e+00 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "A square metre unit of area per square metre"^^xsd:string ; @@ -40234,6 +45354,7 @@ The magnitude of one IU/L depends on the material, so there is ns1:expression "\\(m^2/sr\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA986"^^xsd:string ; ns1:informativeReference "http://en.wikipedia.org/wiki/Steradian?oldid=494317847"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:symbol "m²/sr"^^xsd:string ; @@ -40261,26 +45382,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "D25"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Quadratmeter je Volt und Sekunde"@de, - "square metre per volt second"@en, - "Square Meter per Volt Second"@en-us, - "metro quadrato al volt e al secondo"@it ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(m^2/v-s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA748"^^xsd:string ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:symbol "m²/(V⋅s)"^^xsd:string ; - ns1:ucumCode "m2.V-1.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D26"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Square metre seconds per radian"@en ; ns1:applicableSystem , @@ -40343,7 +45444,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA757"^^xsd:string ; - ns1:symbol "m³/ha"^^xsd:string ; + ns1:symbol "m^3/ha"^^xsd:string, + "m³/ha"^^xsd:string ; ns1:ucumCode "m3.har-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . @@ -40546,21 +45648,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "L23"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Mole per Kilogram Pascal"@en ; - dcterms:description "Mole Per Kilogram Pascal (\\(mol/kg-pa\\)) is a unit of Molar Mass variation due to Pressure."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(mol/(kg.pa)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB317"^^xsd:string ; - ns1:symbol "mol/(kg⋅Pa)"^^xsd:string ; - ns1:ucumCode "mol.kg-1.Pa-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P51"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Moles per square metre"@en ; dcterms:description "SI unit of quantity of matter per SI unit area."@en ; @@ -40576,7 +45663,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Moles per square metre per day"^^xsd:string ; dcterms:description "quantity of matter per unit area per unit of time."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-05 ; + ns1:conversionMultiplier 1.157407e-05, + 0.0000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mol/(m²⋅day)"^^xsd:string ; @@ -40677,18 +45765,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "E95"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mol per Tonne"@en ; - dcterms:description "Mole Per Tonne (mol/t) is a unit of Molality"^^rdf:HTML ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "Mole Per Tonne (mol/t) is a unit of Molality"^^xsd:string ; - ns1:symbol "mol/t"^^xsd:string ; - ns1:ucumCode "mol.t-1"^^ns1:UCUMcs, - "mol/t"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Megaampere Per Square Metre"@en, "Megaampere Per Square Meter"@en-us ; @@ -40696,11 +45772,13 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA203"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the SI base unit ampere divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the SI base unit ampere divided by the power of the SI base unit metre with the exponent 2"^^xsd:string, + "1,000,000-fold of the SI base unit ampere divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; ns1:symbol "mol/m²"^^xsd:string ; ns1:ucumCode "MA.m-2"^^ns1:UCUMcs ; ns1:uneceCommonCode "B66"^^xsd:string ; @@ -40710,7 +45788,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:Unit ; rdfs:label "Megabit per Second"@en ; dcterms:description "A megabit per second (Mbit/s or Mb/s; not to be confused with mbit/s which means millibit per second, or with Mbitps which means megabit picosecond) is a unit of data transfer rate equal to 1,000,000 bits per second or 1,000 kilobits per second or 125,000 bytes per second or 125 kilobytes per second."^^rdf:HTML ; - ns1:conversionMultiplier 6.931472e+05 ; + ns1:conversionMultiplier 693147.18055994530941723212145818, + 6.931472e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA226"^^xsd:string ; @@ -40730,11 +45809,13 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA205"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the derived unit becquerel"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the derived unit becquerel"^^xsd:string, + "1,000,000-fold of the derived unit becquerel"^^xsd:string ; ns1:prefix ; ns1:symbol "MBq"^^xsd:string ; ns1:ucumCode "MBq"^^ns1:UCUMcs ; @@ -40749,11 +45830,13 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA208"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 3"^^xsd:string, + "1,000,000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; ns1:symbol "MC/m³"^^xsd:string ; ns1:ucumCode "MC.m-3"^^ns1:UCUMcs ; ns1:uneceCommonCode "B69"^^xsd:string ; @@ -40768,7 +45851,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.602177e-11 ; + ns1:conversionMultiplier 0.00000000001602176634, + 1.602177e-11 ; ns1:expression "\\(MeV/cm\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -40780,7 +45864,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Mega Hertz per Kelvin"@en ; dcterms:description "\\(\\textbf{Mega Hertz per Kelvin} is a unit for 'Inverse Time Temperature' expressed as \\(MHz K^{-1}\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:expression "\\(MHz K^{-1}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -40793,7 +45878,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "MegaJoule per Kelvin"@en ; dcterms:description "MegaJoule Per Kelvin (MegaJ/K) is a unit in the category of Entropy."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:expression "\\(MegaJ/K\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -40808,7 +45894,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA198"^^xsd:string ; @@ -40837,7 +45924,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Megapascal Per Kelvin"@en ; dcterms:description "1,000,000-fold of the SI derived unit pascal divided by the SI base unit kelvin"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA216"^^xsd:string ; @@ -40854,7 +45942,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA220"^^xsd:string ; @@ -40867,11 +45956,13 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Megavolt Ampere Reactive"@en ; dcterms:description "1,000,000-fold of the unit volt ampere reactive"^^rdf:HTML ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB199"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the unit volt ampere reactive"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the unit volt ampere reactive"^^xsd:string, + "1,000,000-fold of the unit volt ampere reactive"^^xsd:string ; ns1:symbol "MV⋅A{Reactive}"^^xsd:string ; ns1:ucumCode "MV.A{reactive}"^^ns1:UCUMcs ; ns1:uneceCommonCode "MAR"^^xsd:string ; @@ -40886,7 +45977,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA058"^^xsd:string ; @@ -40904,7 +45996,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µBq/kg"^^xsd:string ; @@ -40932,7 +46025,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA061"^^xsd:string ; @@ -40966,7 +46060,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA063"^^xsd:string ; @@ -40984,7 +46079,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA064"^^xsd:string ; @@ -41002,7 +46098,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA065"^^xsd:string ; @@ -41015,7 +46112,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "MicroGals per metre"@en ; dcterms:description "A rate of change of one millionth part of a unit of gravitational acceleration equal to one centimetre per second per second over a distance of one metre."@en ; - ns1:conversionMultiplier 1e-08 ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µGal/m"^^xsd:string ; @@ -41029,33 +46127,22 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 2.777778e-10 ; + ns1:conversionMultiplier 0.000000000277777777777778, + 2.777778e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µg/(L⋅hr)"^^xsd:string ; ns1:ucumCode "ug.L-1.h-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Micrograms per square metre per day"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-14 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "µg/(m²⋅day)"^^xsd:string ; - ns1:ucumCode "ug.m-2.d-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Micrograms per cubic metre per hour"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 2.777778e-13 ; + ns1:conversionMultiplier 0.000000000000277777777777778, + 2.777778e-13 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µg/(m³⋅day)"^^xsd:string ; @@ -41070,7 +46157,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Grey"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -41106,7 +46194,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA089"^^xsd:string ; @@ -41123,7 +46212,8 @@ The magnitude of one IU/L depends on the material, so there is "Micrometer Per Kelvin"@en-us ; dcterms:description "0.000001-fold of the SI base unit metre divided by the SI base unit kelvin"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA091"^^xsd:string ; @@ -41140,7 +46230,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µm/mL"^^xsd:string ; @@ -41157,7 +46248,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:conversionOffset 0.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -41171,7 +46263,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:qkdvDenominator ; @@ -41186,7 +46279,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:qkdvDenominator ; @@ -41198,7 +46292,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Micromoles per gram per hour"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-07 ; + ns1:conversionMultiplier 0.000000277777777777778, + 2.777778e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(g⋅h)"^^xsd:string ; @@ -41217,21 +46312,11 @@ The magnitude of one IU/L depends on the material, so there is "umol/g/s"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Micromoles per kilogram"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "µmol/kg"^^xsd:string ; - ns1:ucumCode "umol.kg-1"^^ns1:UCUMcs, - "umol/kg"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Micromoles per litre per hour"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-07 ; + ns1:conversionMultiplier 0.000000277777777777778, + 2.777778e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(L⋅hr)"^^xsd:string ; @@ -41243,7 +46328,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Micromoles per square metre"@en ; dcterms:description "One part per 10**6 (million) of the SI unit of quantity of matter (the mole) per SI unit area."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/m²"^^xsd:string ; @@ -41254,7 +46340,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Micromoles per square metre per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-11 ; + ns1:conversionMultiplier 1.157407e-11, + 0.0000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(m²⋅day)"^^xsd:string ; @@ -41265,7 +46352,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Micromoles per square metre per hour"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-10 ; + ns1:conversionMultiplier 0.000000000277777777777778, + 2.777778e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(m²⋅hr)"^^xsd:string ; @@ -41277,7 +46365,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Micromoles per square metre per second"@en ; dcterms:description "One part per 10**6 (million) of the SI unit of quantity of matter (the mole) per SI unit area per SI unit of time. This term is based on the number of photons in a certain waveband incident per unit time (s) on a unit area (m2) divided by the Avogadro constant (6.022 x 1023 mol-1). It is used commonly to describe PAR in the 400-700 nm waveband. Definition Source: Thimijan, Richard W., and Royal D. Heins. 1982. Photometric, Radiometric, and Quantum Light Units of Measure: A Review of Procedures for Interconversion. HortScience 18:818-822."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(m²⋅s)"^^xsd:string ; @@ -41288,7 +46377,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Micromoles per mole"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:qkdvDenominator ; @@ -41301,7 +46391,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Micromole per micromole of biomass per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-05 ; + ns1:conversionMultiplier 1.157407e-05, + 0.0000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/(µmol⋅day)"^^xsd:string ; @@ -41313,7 +46404,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Micromoles per second"@en ; dcterms:description " This unit is used commonly to describe Photosynthetic Photon Flux (PPF) - the total number of photons emitted by a light source each second within the PAR wavelength range. "@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µmol/s"^^xsd:string ; @@ -41328,7 +46420,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA055"^^xsd:string ; @@ -41363,7 +46456,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA076"^^xsd:string ; @@ -41381,7 +46475,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Sievert"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -41403,7 +46498,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 2.77778e-10 ; + ns1:conversionMultiplier 2.77778e-10, + 0.000000000277778 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Sievert"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -41519,7 +46615,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 1.157407e-08, + 0.0000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mBq/(m²⋅day)"^^xsd:string ; @@ -41548,7 +46645,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Millicurie"@en ; dcterms:description "0.001-fold of the SI derived unit curie"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.7e+07 ; + ns1:conversionMultiplier 37000000.0, + 3.7e+07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA786"^^xsd:string ; @@ -41595,31 +46693,14 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "MilliGals per month"@en ; dcterms:description "A rate of change of one millionth part of a unit of gravitational acceleration equal to one centimetre per second per second over a time duration of 30.4375 days or 2629800 seconds."@en ; - ns1:conversionMultiplier 3.802571e-10 ; + ns1:conversionMultiplier 0.000000000380257053768347, + 3.802571e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mgal/mo"^^xsd:string ; ns1:ucumCode "mGal.mo-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Square Centimetre"@en, - "Milligram Per Square Centimeter"@en-us ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.01 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA818"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "mg/cm²"^^xsd:string ; - ns1:ucumCode "mg.cm-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H63"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Milligram Per Day"@en ; dcterms:description "0.000001-fold of the SI base unit kilogram divided by the unit day"^^rdf:HTML ; @@ -41627,7 +46708,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.157407e-11 ; + ns1:conversionMultiplier 0.00000000001157407, + 1.157407e-11 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA819"^^xsd:string ; @@ -41637,22 +46719,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "F32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Hectare"@en ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA818"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "mg/ha"^^xsd:string ; - ns1:ucumCode "mg.har-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Milligram Per Hour"@en ; dcterms:description "0.000001-fold of the SI base unit kilogram divided by the unit hour"^^rdf:HTML ; @@ -41660,7 +46726,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 2.777778e-10 ; + ns1:conversionMultiplier 0.0000000002777778, + 2.777778e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA823"^^xsd:string ; @@ -41678,7 +46745,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA828"^^xsd:string ; @@ -41688,71 +46756,14 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "C12"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Square Metre"@en, - "Milligram Per Square Meter"@en-us ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA829"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "mg/m²"^^xsd:string ; - ns1:ucumCode "mg.m-2"^^ns1:UCUMcs, - "mg/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GO"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Milligrams per square metre per day"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-11 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "mg/(m²⋅day)"^^xsd:string ; - ns1:ucumCode "mg.m-2.d-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Milligrams per square metre per hour"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 2.777778e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "mg/(m²⋅hr)"^^xsd:string ; - ns1:ucumCode "mg.m-2.h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Milligrams per square metre per second"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "mg/(m²⋅s)"^^xsd:string ; - ns1:ucumCode "mg.m-2.s-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Milligrams per cubic metre per day"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.157407e-11 ; + ns1:conversionMultiplier 1.157407e-11, + 0.0000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mg/(m³⋅day)"^^xsd:string ; @@ -41765,7 +46776,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 2.777778e-10 ; + ns1:conversionMultiplier 0.000000000277777777777778, + 2.777778e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mg/(m³⋅hr)"^^xsd:string ; @@ -41778,7 +46790,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mg/(m³⋅s)"^^xsd:string ; @@ -41792,7 +46805,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.666667e-08 ; + ns1:conversionMultiplier 0.00000001666667, + 1.666667e-08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA833"^^xsd:string ; @@ -41809,7 +46823,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA836"^^xsd:string ; @@ -41894,7 +46909,8 @@ The magnitude of one IU/L depends on the material, so there is "Millilitre Per Kelvin"@en-us ; dcterms:description "0.001-fold of the unit litre divided by the SI base unit kelvin"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA845"^^xsd:string ; @@ -41929,7 +46945,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.157407e-11 ; + ns1:conversionMultiplier 1.157407e-11, + 0.0000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mL/(m²⋅day)"^^xsd:string ; @@ -41944,7 +46961,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA854"^^xsd:string ; @@ -41978,7 +46996,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA874"^^xsd:string ; @@ -42003,7 +47022,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Millimoles per square metre per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 1.157407e-08, + 0.0000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mmol/(m²⋅day)"^^xsd:string ; @@ -42025,7 +47045,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Millimoles per cubic metre per day"@en ; dcterms:description "Unavailable."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 1.157407e-08, + 0.0000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mmol/(m³⋅day)"^^xsd:string ; @@ -42074,7 +47095,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Milliroentgen Equivalent Man"@en ; dcterms:description "The roentgen equivalent man (or rem) is a CGS unit of equivalent dose, effective dose, and committed dose, which are measures of the health effect of low levels of ionizing radiation on the human body."^^rdf:HTML ; - ns1:conversionMultiplier 2.58e-07 ; + ns1:conversionMultiplier 0.000000258, + 2.58e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA898"^^xsd:string, @@ -42140,7 +47162,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1.666667e-05 ; + ns1:conversionMultiplier 1.666667e-05, + 0.00001666667 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA806"^^xsd:string ; @@ -42156,7 +47179,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+07 ; + ns1:conversionMultiplier 10000000.0, + 1e+07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mW/(cm⋅µm⋅sr)"^^xsd:string ; @@ -42169,7 +47193,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mW/(cm⋅nm)"^^xsd:string ; @@ -42182,7 +47207,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mW/(cm⋅nm⋅sr)"^^xsd:string ; @@ -42246,22 +47272,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:symbol "N⋅m²"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Newton Per Ampere"@en ; - dcterms:description "SI derived unit newton divided by the SI base unit ampere"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA236"^^xsd:string ; - ns1:plainTextDescription "SI derived unit newton divided by the SI base unit ampere"^^xsd:string ; - ns1:symbol "N/A"^^xsd:string ; - ns1:ucumCode "N.A-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H40"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Newton per Coulomb"@en ; @@ -42393,7 +47403,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Number per square centimetre per thousand years"@en ; - ns1:conversionMultiplier 3.168809e-07 ; + ns1:conversionMultiplier 0.000000316880878140289, + 3.168809e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/(cm⋅1000 yr)"^^xsd:string ; @@ -42412,7 +47423,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Number per hectare"@en ; dcterms:description "Count of an entity or phenomenon's occurrence in 10,000 times the SI unit area (square metre)."@en ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/ha"^^xsd:string ; @@ -42431,7 +47443,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Number per square kilometre"@en ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/km²"^^xsd:string ; @@ -42450,7 +47463,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Number per square metre per day"@en ; - ns1:conversionMultiplier 1.157407e-05 ; + ns1:conversionMultiplier 1.157407e-05, + 0.0000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/(m²⋅day)"^^xsd:string ; @@ -42460,7 +47474,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Number per milligram"@en ; dcterms:description "Count of an entity or phenomenon occurrence in one millionth of the SI unit of mass (kilogram)."@en ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/mg"^^xsd:string ; @@ -42488,7 +47503,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nBq/L"^^xsd:string ; @@ -42504,7 +47520,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Farad"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -42524,7 +47541,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA904"^^xsd:string ; @@ -42540,26 +47558,14 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1.157407e-17 ; + ns1:conversionMultiplier 1.157407e-17, + 0.0000000000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "ng/day"^^xsd:string ; ns1:ucumCode "ng.d-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanograms per square metre per Pascal per second"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; - ns1:symbol "kg/(m²⋅s⋅Pa)"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Nanokatal Per Litre"@en, @@ -42595,7 +47601,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Nanometer Per Centimeter PSI"@en ; - ns1:conversionMultiplier 1.450377e-11 ; + ns1:conversionMultiplier 1.450377e-11, + 0.0000000000145037738 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:qkdvDenominator ; @@ -42612,7 +47619,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:qkdvDenominator ; @@ -42625,7 +47633,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Nanomoles per cubic centimetre per hour"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-07 ; + ns1:conversionMultiplier 0.000000277777777777778, + 2.777778e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(cm³⋅hr)"^^xsd:string ; @@ -42635,28 +47644,19 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Nanomoles per gram per second"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(g⋅s)"^^xsd:string ; ns1:ucumCode "nmol.g-1.s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanomoles per kilogram"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "nmol/kg"^^xsd:string ; - ns1:ucumCode "nmol.kg-1"^^ns1:UCUMcs, - "nmol/kg"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Nanomoles per litre per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-11 ; + ns1:conversionMultiplier 1.157407e-11, + 0.0000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(L⋅day)"^^xsd:string ; @@ -42666,7 +47666,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Nanomoles per litre per hour"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-10 ; + ns1:conversionMultiplier 0.000000000277777777777778, + 2.777778e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(L⋅hr)"^^xsd:string ; @@ -42676,7 +47677,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Nanomoles per square metre per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-14 ; + ns1:conversionMultiplier 1.157407e-14, + 0.0000000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(m²⋅day)"^^xsd:string ; @@ -42711,7 +47713,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Nanomoles per micromole per day"@en ; dcterms:description "Unavailable."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 1.157407e-08, + 0.0000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "nmol/(µmol⋅day)"^^xsd:string ; @@ -42725,7 +47728,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-07 ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA907"^^xsd:string ; @@ -42742,7 +47746,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA908"^^xsd:string ; @@ -42784,7 +47789,8 @@ The magnitude of one IU/L depends on the material, so there is dcterms:description "\\(\\textit{abohm}\\) is the basic unit of electrical resistance in the emu-cgs system of units. One abohm is equal to \\(10^{-9} ohms\\) in the SI system of units; one abohm is a nano ohm."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Abohm"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -42800,7 +47806,8 @@ The magnitude of one IU/L depends on the material, so there is dcterms:description "\"StatOHM\" is the unit of resistance, reactance, and impedance in the electrostatic C.G.S system of units, equal to the resistance between two points of a conductor when a constant potential difference of 1 statvolt between these points produces a current of 1 statampere; it is equal to approximately \\(8.9876 \\times 10^{11} ohms\\). The statohm is an extremely large unit of resistance. In fact, an object with a resistance of 1 stat W would make an excellent insulator or dielectric . In practical applications, the ohm, the kilohm (k W ) and the megohm (M W or M) are most often used to quantify resistance."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 8.9876e+11 ; + ns1:conversionMultiplier 898760000000.0, + 8.9876e+11 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -42845,7 +47852,8 @@ The magnitude of one IU/L depends on the material, so there is dcterms:description "traditional unit of the mass avoirdupois ounce according to the avoirdupois system of units divided by the unit for time day"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 3.2812e-07 ; + ns1:conversionMultiplier 0.00000032812, + 3.2812e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA919"^^xsd:string ; @@ -42855,27 +47863,13 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "L33"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Imperial Mass Ounce per Square Foot"@en ; - dcterms:description "\"Ounce per Square Foot\" is an Imperial unit for 'Mass Per Area' expressed as \\(oz/ft^{2}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.305151727 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "oz/ft^{2}"^^xsd:string ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "oz/ft²{US}"^^xsd:string ; - ns1:ucumCode "[oz_av].[sft_i]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Ounce (avoirdupois) Per Hour"@en ; dcterms:description "traditional unit of the mass avoirdupois ounce according to the avoirdupois system of units divided by the unit for time hour"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 7.87487e-06 ; + ns1:conversionMultiplier 7.87487e-06, + 0.00000787487 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA920"^^xsd:string ; @@ -42915,26 +47909,12 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "L36"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Imperial Mass Ounce per Square Yard"@en ; - dcterms:description "\"Ounce per Square Yard\" is an Imperial unit for 'Mass Per Area' expressed as \\(oz/yd^{2}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0339057474748823 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "oz/yd^{2}"^^xsd:string ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "oz/yd³{US}"^^xsd:string ; - ns1:ucumCode "[oz_av].[syd_i]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "US Liquid Ounce"@en ; dcterms:description "\"US Liquid Ounce\" is a unit for 'Liquid Volume' expressed as \\(oz\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.957353e-05 ; + ns1:conversionMultiplier 0.0000295735296, + 2.957353e-05 ; ns1:definedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -42987,7 +47967,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Pascal Per Bar"@en ; dcterms:description "SI derived unit pascal divided by the unit bar"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA260"^^xsd:string ; @@ -43080,6 +48061,7 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "باسكال ثانية لكل متر مكعب"@ar, "pascal sekunda na metr krychlový"@cs, "Pascalsekunde je Kubikmeter"@de, + "Pascal Second Per Cubic Metre"@en, "pascal second per cubic metre"@en, "Pascal Second Per Cubic Meter"@en-us, "pascal segundo por metro cúbico"@es, @@ -43144,24 +48126,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "P42"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Centimetre"@en, - "Reciprocal Cubic Centimeter"@en-us ; - dcterms:description "reciprocal of the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA383"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "/cm³"^^xsd:string ; - ns1:ucumCode "cm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H50"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal Square Electron Volt"@en ; dcterms:description "Per Square Electron Volt is a denominator unit with dimensions \\(/eV^2\\)."^^ns1:LatexString ; @@ -43177,21 +48141,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:ucumCode "eV-2"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Foot"@en ; - dcterms:description "reciprocal value of the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 35.31466 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA453"^^xsd:string ; - ns1:plainTextDescription "reciprocal value of the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; - ns1:symbol "/ft³"^^xsd:string ; - ns1:ucumCode "[cft_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K20"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal gram"@en ; ns1:applicableSystem , @@ -43218,21 +48167,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "C89"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Inch"@en ; - dcterms:description "reciprocal value of the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 61023.76 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA546"^^xsd:string ; - ns1:plainTextDescription "reciprocal value of the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; - ns1:symbol "/in³"^^xsd:string ; - ns1:ucumCode "[cin_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K49"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal Joule Cubic Metre"@en, "Reciprocal Joule Cubic Meter"@en-us ; @@ -43291,32 +48225,14 @@ The magnitude of one IU/L depends on the material, so there is ns1:symbol "/(kV⋅A⋅hr)"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Litre"@en, - "Reciprocal Liter"@en-us ; - dcterms:description "reciprocal value of the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA667"^^xsd:string ; - ns1:plainTextDescription "reciprocal value of the unit litre"^^xsd:string ; - ns1:symbol "/L"^^xsd:string ; - ns1:ucumCode "/L"^^ns1:UCUMcs, - "L-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K63"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal metre per nanometre"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/(m⋅nm)"^^xsd:string ; @@ -43329,7 +48245,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/(m⋅nm⋅sr)"^^xsd:string ; @@ -43386,49 +48303,14 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Reciprocal micromole per litre"@en ; dcterms:description "Units used to describe the sensitivity of detection of a spectrophotometer."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "/(mmol⋅L)"^^xsd:string ; ns1:ucumCode "umol-1.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Millilitre"@en, - "Reciprocal Milliliter"@en-us ; - dcterms:description "reciprocal value of the unit Millilitre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "reciprocal value of the unit millilitre"^^xsd:string ; - ns1:symbol "/mL"^^xsd:string ; - ns1:ucumCode "/mL"^^ns1:UCUMcs, - "mL-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Millimetre"@en, - "Reciprocal Cubic Millimeter"@en-us ; - dcterms:description "reciprocal value of the 0.000000001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA870"^^xsd:string ; - ns1:plainTextDescription "reciprocal value of the 0.000000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "/mm³"^^xsd:string ; - ns1:ucumCode "/mm3"^^ns1:UCUMcs, - "mm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L20"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal Pascal per second"@en ; ns1:applicableSystem , @@ -43506,21 +48388,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:ucumCode "sr-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Yard"@en ; - dcterms:description "reciprocal value of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.307951 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB033"^^xsd:string ; - ns1:plainTextDescription "reciprocal value of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; - ns1:symbol "/yd³"^^xsd:string ; - ns1:ucumCode "[cyd_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M10"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Percent per metre"@en ; ns1:conversionMultiplier 1.0 ; @@ -43568,7 +48435,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Relative Permeability"@en ; dcterms:description "In multiphase flow in porous media, the relative permeability of a phase is a dimensionless measure of the effective permeability of that phase. It is the ratio of the effective permeability of that phase to the absolute permeability. It can be viewed as an adaptation of Darcy's law to multiphase flow. For two-phase flow in porous media given steady-state conditions, we can write where is the flux, is the pressure drop, is the viscosity."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.256637e-06 ; + ns1:conversionMultiplier 1.256637e-06, + 0.00000125663706 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Relative_permeability"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -43577,27 +48445,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:symbol "kᵣ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Metric Perm"@en ; - dcterms:description "A perm is a unit of permeance or \"water vapor transmission\" given a certain differential in partial pressures on either side of a material or membrane. The metric perm (not an SI unit) is defined as 1 gram of water vapor per day, per square meter, per millimeter of mercury."@en ; - ns1:conversionMultiplier 8.68127e-11 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; - ns1:symbol "perm{Metric}"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "U.S. Perm"@en ; - dcterms:description "A perm is a unit of permeance or \"water vapor transmission\" given a certain differential in partial pressures on either side of a material or membrane. The U.S. perm is defined as 1 grain of water vapor per hour, per square foot, per inch of mercury."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 5.72135e-11 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; - ns1:symbol "perm{US}"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "US Liquid Pint"@en ; dcterms:description "\"US Liquid Pint\" is a unit for 'Liquid Volume' expressed as \\(pt\\)."^^ns1:LatexString ; @@ -43649,7 +48496,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pptr"^^xsd:string ; @@ -43690,7 +48538,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Farad"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -43710,7 +48559,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA931"^^xsd:string ; @@ -43735,21 +48585,12 @@ The magnitude of one IU/L depends on the material, so there is ns1:ucumCode "pkat/L"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picomoles per kilogram"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "pmol/kg"^^xsd:string ; - ns1:ucumCode "pmol.kg-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Picomoles per litre per day"@en ; dcterms:description "A change in the quantity of matter of 10^-12 moles in the SI unit of volume scaled by 10^-3 over a period of 86400 seconds."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-14 ; + ns1:conversionMultiplier 1.157407e-14, + 0.0000000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pmol/day"^^xsd:string ; @@ -43760,7 +48601,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Picomoles per litre per hour"@en ; dcterms:description "A change in the quantity of matter of 10^-12 moles in the SI unit of volume scaled by 10^-3 over a period of 3600 seconds."@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-13 ; + ns1:conversionMultiplier 0.000000000000277777777777778, + 2.777778e-13 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pmol/(L⋅hr)"^^xsd:string ; @@ -43770,7 +48612,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Picomoles per metre per watt per second"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pmol/(m⋅W⋅s)"^^xsd:string ; @@ -43780,7 +48623,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Picomoles per square metre per day"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.157407e-17 ; + ns1:conversionMultiplier 1.157407e-17, + 0.0000000000000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pmol/(m²⋅day)"^^xsd:string ; @@ -43790,7 +48634,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Picomoles per cubic metre per second"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pmol/(m³⋅s)"^^xsd:string ; @@ -43805,7 +48650,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -43823,7 +48669,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA934"^^xsd:string ; @@ -43840,7 +48687,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "pW/(cm²⋅L)"^^xsd:string ; @@ -43952,7 +48800,8 @@ The magnitude of one IU/L depends on the material, so there is a ns1:Unit ; rdfs:label "Rayl"@en ; - dcterms:description "The \\(Rayl\\) is one of two units of specific acoustic impedance. When sound waves pass through any physical substance the pressure of the waves causes the particles of the substance to move. The sound specific impedance is the ratio between the sound pressure and the particle velocity it produces. The specific impedance is one rayl if unit pressure produces unit velocity. It is defined as follows: \\(1\\; rayl = 1 dyn\\cdot s\\cdot cm^{-3}\\) Or in SI as: \\(1 \\; rayl = 10^{-1}Pa\\cdot s\\cdot m^{-1}\\), which equals \\(10\\,N \\cdot s\\cdot m^{-3}\\)."^^ns1:LatexString ; + dcterms:description "The \\(Rayl\\) is one of two units of specific acoustic impedance. When sound waves pass through any physical substance the pressure of the waves causes the particles of the substance to move. The sound specific impedance is the ratio between the sound pressure and the particle velocity it produces. The specific impedance is one rayl if unit pressure produces unit velocity. It is defined as follows: \\(1\\; rayl = 1 dyn\\cdot s\\cdot cm^{-3}\\) Or in SI as: \\(1 \\; rayl = 10^{-1}Pa\\cdot s\\cdot m^{-1}\\), which equals \\(10\\,N \\cdot s\\cdot m^{-3}\\)."^^ns1:LatexString, + "dcterms:description \"\\(\\textbf{Rayl}\\) is one of two units of specific acoustic impedance. When sound waves pass through any physical substance the pressure of the waves causes the particles of the substance to move. The sound specific impedance is the ratio between the sound pressure and the particle velocity it produces. The specific impedance is one rayl if unit pressure produces unit velocity. It is defined as follows: \\(1\\; rayl = 1 dyn\\cdot s\\cdot cm^{-3}\\) Or in SI as: \\(1 \\; rayl = 10^{-1}Pa\\cdot s\\cdot m^{-1}\\), which equals \\(10\\,N \\cdot s\\cdot m^{-3}\\).\"\"\"^^qudt:LatexString ;"^^xsd:string ; ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Rayl"^^xsd:anyURI ; @@ -43995,7 +48844,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; ns1:expression "\\(s-m2-per-mol\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; + ns1:hasDimensionVector , + ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA280"^^xsd:string ; ns1:symbol "S⋅m²/mol"^^xsd:string ; @@ -44105,7 +48955,8 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "Slug Per Day"@en ; dcterms:description "unit slug for mass according to an English engineering system divided by the unit day"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.689109e-04 ; + ns1:conversionMultiplier 0.00016891087963, + 1.689109e-04 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA979"^^xsd:string ; @@ -44126,18 +48977,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:symbol "slug/ft"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Slug per Square Foot"@en ; - dcterms:description "\"Slug per Square Foot\" is an Imperial unit for 'Mass Per Area' expressed as \\(slug/ft^{2}\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 157.08746452215124 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(slug/ft^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "slug/ft²"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Slug Per Hour"@en ; dcterms:description "unit slug for mass slug according to the English engineering system divided by the unit hour"^^rdf:HTML ; @@ -44171,6 +49010,7 @@ The magnitude of one IU/L depends on the material, so there is "steradián"@cs, "Steradiant"@de, "στερακτίνιο"@el, + "Steradian"@en, "steradian"@en, "estereorradián"@es, "استرادیان"@fa, @@ -44252,7 +49092,8 @@ The magnitude of one IU/L depends on the material, so there is dcterms:description "The CGS electromagnetic unit of conductance; one absiemen is the conductance at which a potential of one abvolt forces a current of one abampere; equal to \\(10^{9}\\) siemens. One siemen is the conductance at which a potential of one volt forces a current of one ampere and named for Karl Wilhem Siemens."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -44261,17 +49102,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:ucumCode "GS"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "T-M"@en ; - ns1:applicableSystem , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "T⋅m"^^xsd:string ; - ns1:ucumCode "T.m"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "T-SEC"@en ; ns1:applicableSystem , @@ -44286,8 +49116,10 @@ The magnitude of one IU/L depends on the material, so there is a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Tex"@en ; - dcterms:description "

\\textit{Tex is a unit of measure for the linear mass density of fibers and is defined as the mass in grams per 1000 meters. Tex is more likely to be used in Canada and Continental Europe, while denier remains more common in the United States and United Kingdom. The unit code is 'tex'. The most commonly used unit is actually the decitex, abbreviated dtex, which is the mass in grams per 10,000 meters. When measuring objects that consist of multiple fibers the term 'filament tex' is sometimes used, referring to the mass in grams per 1000 meters of a single filament. Tex is used for measuring fiber size in many products, including cigarette filters, optical cable, yarn, and fabric.}"^^rdf:HTML ; - ns1:conversionMultiplier 1e-06 ; + dcterms:description "

\\textit{Tex is a unit of measure for the linear mass density of fibers and is defined as the mass in grams per 1000 meters. Tex is more likely to be used in Canada and Continental Europe, while denier remains more common in the United States and United Kingdom. The unit code is 'tex'. The most commonly used unit is actually the decitex, abbreviated dtex, which is the mass in grams per 10,000 meters. When measuring objects that consist of multiple fibers the term 'filament tex' is sometimes used, referring to the mass in grams per 1000 meters of a single filament. Tex is used for measuring fiber size in many products, including cigarette filters, optical cable, yarn, and fabric.}"^^rdf:HTML, + "

\\textit{Tex is a unit of measure for the linear mass density of fibers and is defined as the mass in grams per 1000 meters. Tex is more likely to be used in Canada and Continental Europe, while denier remains more common in the United States and United Kingdom. The unit code is 'tex'. The most commonly used unit is actually the decitex, abbreviated dtex, which is the mass in grams per 10,000 meters. When measuring objects that consist of multiple fibers the term 'filament tex' is sometimes used, referring to the mass in grams per 1000 meters of a single filament. Tex is used for measuring fiber size in many products, including cigarette filters, optical cable, yarn, and fabric.}"^^rdf:HTML ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tex"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -44299,22 +49131,6 @@ The magnitude of one IU/L depends on the material, so there is ns1:uneceCommonCode "D34"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "tonne per hectare per year"@en ; - dcterms:description "A measure of density equivalent to 1000kg per hectare per year or one Megagram per hectare per year, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 3.17e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare per year or one Megagram per hectare per year, typically used to express a volume of biomass or crop yield."^^xsd:string ; - ns1:symbol "t/(ha⋅year)"^^xsd:string ; - ns1:ucumCode "t.har-1.year-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Long Ton (uk) Per Day"@en ; dcterms:description "unit British ton according to the Imperial system of units divided by the unit day"^^rdf:HTML ; @@ -44350,7 +49166,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+12 ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA286"^^xsd:string ; @@ -44392,7 +49209,8 @@ The magnitude of one IU/L depends on the material, so there is ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA297"^^xsd:string ; @@ -44538,7 +49356,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "W/m²⋅nm"^^xsd:string ; @@ -44551,7 +49370,8 @@ The magnitude of one IU/L depends on the material, so there is , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "W/m²⋅nm⋅sr"^^xsd:string ; @@ -44641,6 +49461,7 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, "weberů na metr"@cs, "Weber je Meter"@de, + "Weber Per Metre"@en, "weber per metre"@en, "Weber Per Meter"@en-us, "weber por metro"@es, @@ -44732,7 +49553,7 @@ The magnitude of one IU/L depends on the material, so there is rdfs:label "QUDT Quantity Kinds Vocabulary Catalog Entry v1.2"^^xsd:string ; rdfs:isDefinedBy . -ns4:GMD_DTYPE a ns2:GraphMetaData ; +ns3:GMD_DTYPE a ns2:GraphMetaData ; rdfs:label "DTYPE Schema Version 2.1 Metadata"^^xsd:string ; dcterms:created "2011-05-29"^^xsd:date ; dcterms:modified "2023-11-14"^^xsd:date ; @@ -44768,40 +49589,7 @@ These data types are typically needed when dealing with OWL representations of d ns2:withAttributionTo "DTYPE is issued under a Creative Commons Attribution Share Alike 3.0 United States License."^^xsd:string ; rdfs:isDefinedBy . -ns4:ValueReference a owl:Class ; - rdfs:label "Value Reference"^^xsd:string ; - dcterms:description """ -A value reference is a pointer to an Enumerated Value. -The original order of the value can be overridden by the "order" attribute. -"""^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subClassOf [ a owl:Restriction ; - owl:cardinality 1 ; - owl:onProperty ns4:refersTo ], - [ a owl:Restriction ; - owl:allValuesFrom ns4:EnumeratedValue ; - owl:onProperty ns4:refersTo ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns4:order ], - owl:Thing . - -ns4:code a owl:DatatypeProperty ; - rdfs:label "code"^^xsd:string ; - dcterms:description """ -A property for expressing a unique value for a member of an enumeration. -The range has been set to "xsd:anySimpleType" to allow for any scalar datatype. -"""^^xsd:string ; - rdfs:comment "A unique value that is assigned to an enumeration member."^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:range xsd:anySimpleType . - -ns4:compositeOf a owl:ObjectProperty ; - rdfs:label "composite of"^^xsd:string ; - dcterms:description "A property for constructing composite data structures"^^xsd:string ; - rdfs:isDefinedBy . - -ns4:orderIndex a owl:AnnotationProperty ; +ns3:orderIndex a owl:AnnotationProperty ; rdfs:label "order index"^^xsd:string ; dcterms:description """ The property "dtype:orderIndex" is an annotation property to specify a position that some value or @@ -44814,29 +49602,9 @@ some importance, for example, in XML Schema sequences. rdfs:isDefinedBy ; rdfs:range xsd:integer . -ns2:Aspect a owl:Class ; - rdfs:label "Aspect Dimension"^^xsd:string ; - dcterms:description "Aspect is used to distinguish among sets of features of a domain or subject area. The term is borrowed from \"aspect-oriented\" programming, where it is used to separate concerns. An ontology may be characterized by this dimension so as to parition features that are orthogonal. For example, in a systems ontology there may be aspects for \"structure\", \"function\", \"behavior\" and \"interface\" or \"interoperability\". A viewpoint can be distinguished by \"aspects\". For example the \"information viewpoint\" of an application can be partitioned into separate graphs for the \"security\", \"operational\" and\"data retention\" aspects."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf ns2:Dimension . - -ns2:Discipline a owl:Class ; - rdfs:label "Discipline Dimension"^^xsd:string ; - dcterms:description "A discipline is a specific area of work or study. Examples of disciplines in the engineering domain are electrical engineering, mechanical engineering and, in the financial domain, risk assessment, investment analysis. In VAEM, discipline is used as a dimension for characterizing an ontology graph"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf ns2:Dimension . - -ns2:Domain a owl:Class ; - rdfs:label "Domain Dimension"^^xsd:string ; - dcterms:description "A domain is a subject area of interest. Examples of domains are \"enterprise\", \"process\", \"organization\" and \"system\". In VAEM, \"Domain\" is used as a dimension for characterizing an ontology graph"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf ns2:Dimension . - ns2:GMD_QUDT-CONSTANTS a ns2:GraphMetaData ; - rdfs:label "Physical Constant Vocabulary Version 2.1.41 Metadata"^^xsd:string ; + rdfs:label "Physical Constant Vocabulary Version 2.1.41 Metadata"^^xsd:string, + "Physical Constant Vocabulary Version 2.1.46 Metadata"^^xsd:string ; dcterms:contributor "Irene Polikoff"^^xsd:string, "Jack Hodges"^^xsd:string, "Ralph Hodgson"^^xsd:string, @@ -44845,24 +49613,29 @@ ns2:GMD_QUDT-CONSTANTS a ns2:GraphMetaData ; dcterms:created "2010-02-05"^^xsd:date ; dcterms:creator "James E. Masters"^^xsd:string, "Steve Ray"^^xsd:string ; - dcterms:modified "2024-07-23T11:02:24.374000-04:00"^^xsd:dateTime ; + dcterms:modified "2024-07-23T11:02:24.374000-04:00"^^xsd:dateTime, + "2024-12-09T20:39:17+00:00"^^xsd:dateTime ; dcterms:rights "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "Constants"^^xsd:string ; - dcterms:title "QUDT Constants Version 2.1 Vocabulary"^^xsd:string ; + dcterms:title "QUDT Constants Version 2.1 Vocabulary"^^xsd:string, + "QUDT Constants Version 2.1Vocabulary"^^xsd:string ; ns2:description "The Constants vocabulary defines terms for and contains the values and standard uncertainties of physical constants, initially populated from the NIST website: The NIST Reference on Constants, Units, and Uncertainty, at http://physics.nist.gov/cuu/index.html"^^xsd:string ; ns2:graphName "qudt"^^xsd:string ; - ns2:graphTitle "QUDT Constants Version 2.1.41"^^xsd:string ; + ns2:graphTitle "QUDT Constants Version 2.1.41"^^xsd:string, + "QUDT Constants Version 2.1.46"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:hasOwner ns2:QUDT.org ; ns2:hasSteward ns2:QUDT.org ; ns2:intent "Provides a vocabulary of Constants for both human and machine use"^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_VOCAB-CONSTANTS-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_VOCAB-CONSTANTS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/12/DOC_VOCAB-CONSTANTS.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; ns2:namespace "http://qudt.org/vocab/constant/"^^xsd:anyURI ; ns2:namespacePrefix "constant"^^xsd:string ; ns2:owner "QUDT.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_VOCAB-CONSTANTS-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_VOCAB-CONSTANTS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/11/DOC_VOCAB-CONSTANTS.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:specificity 1 ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/constant"^^xsd:anyURI ; @@ -44876,33 +49649,41 @@ ns2:GMD_QUDT-CONSTANTS a ns2:GraphMetaData ; rdfs:isDefinedBy . ns2:GMD_QUDT-DIMENSION-VECTORS a ns2:GraphMetaData ; - rdfs:label "QUDT Dimension Vector Vocabulary Version 2.1.26"^^xsd:string ; + rdfs:label "QUDT Dimension Vector Vocabulary Metadata Version 2.1.37"^^xsd:string, + "QUDT Dimension Vector Vocabulary Version 2.1.26"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Steve Ray"^^xsd:string ; dcterms:created "2019-08-01T16:25:54.850000+00:00"^^xsd:dateTime ; dcterms:creator "Steve Ray"^^xsd:string ; dcterms:description "Provides the set of all dimension vectors"^^rdf:HTML ; - dcterms:modified "2023-04-12T16:18:01.779000-04:00"^^xsd:dateTime ; + dcterms:modified "2023-04-12T16:18:01.779000-04:00"^^xsd:dateTime, + "2024-03-22T16:48:27.968000-04:00"^^xsd:dateTime ; dcterms:rights "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "QUANTITY-KIND-DIMENSION-VECTORS"^^xsd:string ; dcterms:title "QUDT Dimension Vectors Version 2.1 Vocabulary"^^xsd:string ; ns2:applicableDiscipline "All disciplines"^^xsd:string ; ns2:applicableDomain "Science, Medicine and Engineering"^^xsd:string ; ns2:dateCreated "2019-08-01T21:26:38"^^xsd:dateTime ; - ns2:description "QUDT Dimension Vectors is a vocabulary that extends QUDT Quantity Kinds with properties that support dimensional analysis. There is one dimension vector for each of the system's base quantity kinds. The vector's magnitude determines the exponent of the base dimension for the referenced quantity kind"^^rdf:HTML ; - ns2:graphTitle "QUDT Dimension Vectors Version 2.1.26"^^xsd:string ; + ns2:description "QUDT Dimension Vectors is a vocabulary that extends QUDT Quantity Kinds with properties that support dimensional analysis. There is one dimension vector for each of the system's base quantity kinds. The vector's magnitude determines the exponent of the base dimension for the referenced quantity kind"^^rdf:HTML, + "QUDT Dimension Vectors is a vocabulary that extends QUDT Quantity Kinds with properties that support dimensional analysis. There is one dimension vector for each of the system's base quantity kinds. The vector's magnitude determines the exponent of the base dimension for the referenced quantity kind"^^xsd:string ; + ns2:graphTitle "QUDT Dimension Vectors Version 2.1.26"^^xsd:string, + "QUDT Dimension Vectors Version 2.1.37"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:intent "TBD"^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2023/04/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2023/04/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/03/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:string ; - ns2:namespace "http://qudt.org/vocab/dimensionvector/"^^xsd:string ; + ns2:namespace "http://qudt.org/vocab/dimensionvector/"^^xsd:anyURI, + "http://qudt.org/vocab/dimensionvector/"^^xsd:string ; ns2:namespacePrefix "qkdv"^^xsd:string ; ns2:owner "qudt.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2023/03/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2023/03/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/02/DOC_VOCAB-QUANTITY-KIND-DIMENSION-VECTORS-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:specificity 1 ; - ns2:turtleFileURL "http://qudt.org/2.1/vocab/dimensionvector"^^xsd:string ; + ns2:turtleFileURL "http://qudt.org/2.1/vocab/dimensionvector"^^xsd:anyURI, + "http://qudt.org/2.1/vocab/dimensionvector"^^xsd:string ; ns2:usesNonImportedResource dc:contributor, dc:creator, dc:description, @@ -44924,7 +49705,8 @@ ns2:GMD_QUDT-DIMENSION-VECTORS a ns2:GraphMetaData ; rdfs:isDefinedBy . ns2:GMD_QUDT-PREFIXES a ns2:GraphMetaData ; - rdfs:label "QUDT Prefix Vocabulary Version Metadata 2.1.41"^^xsd:string ; + rdfs:label "QUDT Prefix Vocabulary Version Metadata 2.1.37"^^xsd:string, + "QUDT Prefix Vocabulary Version Metadata 2.1.41"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Michael Ringel"^^xsd:string, "Ralph Hodgson"^^xsd:string, @@ -44932,24 +49714,28 @@ ns2:GMD_QUDT-PREFIXES a ns2:GraphMetaData ; "Steve Ray"^^xsd:string ; dcterms:created "2020-07-15"^^xsd:date ; dcterms:creator "Steve Ray"^^xsd:string ; - dcterms:modified "2024-07-23T11:05:39.452000-04:00"^^xsd:dateTime ; + dcterms:modified "2024-03-22T17:08:06.843000-04:00"^^xsd:dateTime, + "2024-07-23T11:05:39.452000-04:00"^^xsd:dateTime ; dcterms:rights "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "Prefixes"^^xsd:string ; dcterms:title "QUDT Prefixes Version 2.1 Vocabulary"^^xsd:string ; ns2:description "The Prefixes vocabulary defines the prefixes commonly prepended to units to connote multiplication, either decimal or binary."^^xsd:string ; ns2:graphName "prefix"^^xsd:string ; - ns2:graphTitle "QUDT Prefixes Version 2.1.41"^^xsd:string ; + ns2:graphTitle "QUDT Prefixes Version 2.1.37"^^xsd:string, + "QUDT Prefixes Version 2.1.41"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:hasOwner ns2:QUDT.org ; ns2:hasSteward ns2:QUDT.org ; ns2:intent "Provides a vocabulary of prefixes for both human and machine use"^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2024/03/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/07/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; ns2:namespace "http://qudt.org/vocab/prefix/"^^xsd:anyURI ; ns2:namespacePrefix "prefix"^^xsd:string ; ns2:owner "QUDT.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2024/02/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/06/DOC_VOCAB-PREFIXES-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:specificity 1 ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/prefix"^^xsd:anyURI ; @@ -44963,31 +49749,37 @@ ns2:GMD_QUDT-PREFIXES a ns2:GraphMetaData ; rdfs:isDefinedBy . ns2:GMD_QUDT-QUANTITY-KINDS-ALL a ns2:GraphMetaData ; - rdfs:label "QUDT Quantity Kind Vocabulary Metadata Version 2.1.41"^^xsd:string ; + rdfs:label "QUDT Quantity Kind Vocabulary Metadata Version 2.1.41"^^xsd:string, + "QUDT Quantity Kind Vocabulary Metadata Version 2.1.46"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Simon J D Cox"^^xsd:string, "Steve Ray"^^xsd:string ; dcterms:created "2019-08-01T16:25:54.850000+00:00"^^xsd:dateTime ; dcterms:creator "Ralph Hodgson"^^xsd:string, "Steve Ray"^^xsd:string ; - dcterms:description "Provides the set of all quantity kinds."^^rdf:HTML ; - dcterms:modified "2024-07-23T10:30:11.801000-04:00"^^xsd:dateTime ; + dcterms:description "Provides the set of all quantity kinds."^^ns1:LatexString, + "Provides the set of all quantity kinds."^^rdf:HTML ; + dcterms:modified "2024-07-23T10:30:11.801000-04:00"^^xsd:dateTime, + "2024-10-26T14:11:16.049000-04:00"^^xsd:dateTime ; dcterms:rights "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "QUANTITY-KINDS-ALL"^^xsd:string ; dcterms:title "QUDT Quantity Kinds Version 2.1 Vocabulary"^^xsd:string ; ns2:applicableDiscipline "All disciplines"^^xsd:string ; ns2:applicableDomain "Science, Medicine and Engineering"^^xsd:string ; ns2:dateCreated "2019-08-01T21:26:38"^^xsd:dateTime ; - ns2:graphTitle "QUDT Quantity Kinds Version 2.1.41"^^xsd:string ; + ns2:graphTitle "QUDT Quantity Kinds Version 2.1.41"^^xsd:string, + "QUDT Quantity Kinds Version 2.1.46"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:intent "Provides a vocabulary of all quantity kinds."^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_VOCAB-QUANTITY-KINDS-ALL-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_VOCAB-QUANTITY-KINDS-ALL-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/12/DOC_VOCAB-QUANTITY-KINDS-ALL.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:string ; ns2:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; ns2:namespacePrefix "quantitykind"^^xsd:string ; ns2:owner "qudt.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_VOCAB-QUANTITY-KINDS-ALL-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_VOCAB-QUANTITY-KINDS-ALL-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/11/DOC_VOCAB-QUANTITY-KINDS-ALL.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:specificity 1 ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/quantitykind"^^xsd:anyURI ; @@ -45015,29 +49807,36 @@ ns2:GMD_QUDT-QUANTITY-KINDS-ALL a ns2:GraphMetaData ; rdfs:isDefinedBy . ns2:GMD_QUDT-SOU a ns2:GraphMetaData ; - rdfs:label "QUDT System of Units Vocabulary Metadata Version v2.1.32"^^xsd:string ; + rdfs:label "QUDT System of Units Vocabulary Metadata Version v2.1.27"^^xsd:string, + "QUDT System of Units Vocabulary Metadata Version v2.1.32"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Steve Ray"^^xsd:string ; dcterms:created "2016-07-04"^^xsd:date ; dcterms:creator "Ralph Hodgson"^^xsd:string ; - dcterms:description "QUDT Systems of Units Vocabulary Version 2.1.32"^^rdf:HTML ; - dcterms:modified "2023-10-19T12:30:31.152000-04:00"^^xsd:dateTime ; + dcterms:description "QUDT Systems of Units Vocabulary Version 2.1.32"^^rdf:HTML, + "QUDT Systems of Units Vocabulary Version 2.1.27"^^xsd:string ; + dcterms:modified "2023-05-10T20:49:14.216000-04:00"^^xsd:dateTime, + "2023-10-19T12:30:31.152000-04:00"^^xsd:dateTime ; dcterms:rights "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "Systems of Units"^^xsd:string ; dcterms:title "QUDT Systems of Units Version 2.1 Vocabulary"^^xsd:string ; - ns2:graphTitle "QUDT Systems of Units Version 2.1.32"^^xsd:string ; + ns2:graphTitle "QUDT Systems of Units Version 2.1.27"^^xsd:string, + "QUDT Systems of Units Version 2.1.32"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:hasOwner ns2:QUDT ; ns2:hasSteward ns2:QUDT ; ns2:intent "The intent of this graph is the specification of all Systems of Units"^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2023/10/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2023/05/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2023/10/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; ns2:name "sou"^^xsd:string ; - ns2:namespace "http://qudt.org/vocab/sou/"^^xsd:anyURI ; + ns2:namespace "http://qudt.org/vocab/sou/"^^xsd:anyURI, + "http://qudt.org/vocab/sou/"^^xsd:string ; ns2:namespacePrefix "sou"^^xsd:string ; ns2:owner "qudt.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2023/09/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2023/04/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2023/09/DOC_VOCAB-SYSTEMS-OF-UNITS-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/sou"^^xsd:anyURI ; ns2:usesNonImportedResource prov:wasInfluencedBy, @@ -45046,13 +49845,15 @@ ns2:GMD_QUDT-SOU a ns2:GraphMetaData ; owl:versionIRI . ns2:GMD_QUDT-UNITS-ALL a ns2:GraphMetaData ; - rdfs:label "QUDT Unit of Measure Vocabulary Metadata Version 2.1.32"^^xsd:string ; + rdfs:label "All Units Ontology Version 2.1.26"^^xsd:string, + "QUDT Unit of Measure Vocabulary Metadata Version 2.1.32"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Simon J D Cox"^^xsd:string, "Steve Ray"^^xsd:string ; dcterms:created "2019-07-30"^^xsd:date ; dcterms:creator "Steve Ray"^^xsd:string ; - dcterms:modified "2023-10-19T11:18:52.431000-04:00"^^xsd:dateTime ; + dcterms:modified "2023-04-12T15:32:07.606000-04:00"^^xsd:dateTime, + "2023-10-19T11:18:52.431000-04:00"^^xsd:dateTime ; dcterms:rights """ This product includes all or a portion of the UCUM table, UCUM codes, and UCUM definitions or is derived from it, subject to a license from Regenstrief Institute, Inc. and The UCUM Organization. Your use of the UCUM table, UCUM codes, UCUM definitions also is subject to this license, a copy of which is available at ​http://unitsofmeasure.org. The current complete UCUM table, UCUM Specification are available for download at ​http://unitsofmeasure.org. The UCUM table and UCUM codes are copyright © 1995-2009, Regenstrief Institute, Inc. and the Unified Codes for Units of Measures (UCUM) Organization. All rights reserved. @@ -45063,18 +49864,22 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE dcterms:title "QUDT Units Version 2.1 Vocabulary"^^xsd:string ; ns2:description "Standard units of measure for all units."^^xsd:string ; ns2:graphName "qudt"^^xsd:string ; - ns2:graphTitle "QUDT Units Version 2.1.32"^^xsd:string ; + ns2:graphTitle "QUDT Units Version 2.1.26"^^xsd:string, + "QUDT Units Version 2.1.32"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:hasOwner ns2:QUDT.org ; ns2:hasSteward ns2:QUDT.org ; ns2:intent "To provide a vocabulary of all units."^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2023/10/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2023/04/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2023/10/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; - ns2:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + ns2:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI, + "http://qudt.org/vocab/unit/"^^xsd:string ; ns2:namespacePrefix "unit"^^xsd:string ; ns2:owner "QUDT.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2023/09/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2023/03/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2023/09/DOC_VOCAB-UNITS-ALL-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/unit"^^xsd:anyURI ; ns2:usesNonImportedResource dcterms:abstract, @@ -45085,13 +49890,15 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE rdfs:isDefinedBy . ns2:GMD_QUDT-UNITS-CURRENCY a ns2:GraphMetaData ; - rdfs:label "QUDT Currency Unit Vocabulary Metadata Version 2.1.37"^^xsd:string ; + rdfs:label "Currency Units Ontology Version 2.1.26"^^xsd:string, + "QUDT Currency Unit Vocabulary Metadata Version 2.1.37"^^xsd:string ; dcterms:contributor "Jack Hodges"^^xsd:string, "Simon J D Cox"^^xsd:string, "Steve Ray"^^xsd:string ; dcterms:created "2023-03-14"^^xsd:date ; dcterms:creator "Steve Ray"^^xsd:string ; - dcterms:modified "2024-03-22T16:03:20.998000-04:00"^^xsd:dateTime ; + dcterms:modified "2023-04-12T15:47:31.979000-04:00"^^xsd:dateTime, + "2024-03-22T16:03:20.998000-04:00"^^xsd:dateTime ; dcterms:rights """ This product includes all or a portion of the UCUM table, UCUM codes, and UCUM definitions or is derived from it, subject to a license from Regenstrief Institute, Inc. and The UCUM Organization. Your use of the UCUM table, UCUM codes, UCUM definitions also is subject to this license, a copy of which is available at ​http://unitsofmeasure.org. The current complete UCUM table, UCUM Specification are available for download at ​http://unitsofmeasure.org. The UCUM table and UCUM codes are copyright © 1995-2009, Regenstrief Institute, Inc. and the Unified Codes for Units of Measures (UCUM) Organization. All rights reserved. @@ -45102,18 +49909,23 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE dcterms:title "Currency UNITS Version 2.1 Vocabulary"^^xsd:string ; ns2:description "Standard units of measure for currency units."^^xsd:string ; ns2:graphName "qudt"^^xsd:string ; - ns2:graphTitle "QUDT Currency Units Version 2.1.37"^^xsd:string ; + ns2:graphTitle "QUDT Currency Units Version 2.1.26"^^xsd:string, + "QUDT Currency Units Version 2.1.37"^^xsd:string ; ns2:hasGraphRole ns2:VocabularyGraph ; ns2:hasOwner ns2:QUDT.org ; ns2:hasSteward ns2:QUDT.org ; ns2:intent "To provide a vocabulary of currency units."^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2024/03/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2023/04/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/03/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; - ns2:namespace "http://qudt.org/vocab/currency/"^^xsd:anyURI ; - ns2:namespacePrefix "cur"^^xsd:string ; + ns2:namespace "http://qudt.org/vocab/currency/"^^xsd:anyURI, + "http://qudt.org/vocab/unit/"^^xsd:string ; + ns2:namespacePrefix "cur"^^xsd:string, + "unit"^^xsd:string ; ns2:owner "QUDT.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2024/02/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2023/03/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/02/DOC_VOCAB-UNITS-CURRENCY-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:turtleFileURL "http://qudt.org/2.1/vocab/currency"^^xsd:anyURI ; ns2:usesNonImportedResource dcterms:abstract, @@ -45124,7 +49936,8 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE rdfs:isDefinedBy . ns2:GMD_SHACLQUDT-SCHEMA a ns2:GraphMetaData ; - rdfs:label "QUDT SHACL Schema Metadata Version 2.1.27"^^xsd:string ; + rdfs:label "QUDT SHACL Schema Metadata Version 2.1.27"^^xsd:string, + "QUDT SHACL Schema Metadata Version 2.1.41"^^xsd:string ; dcterms:contributor "Daniel Mekonnen"^^xsd:string, "David Price"^^xsd:string, "Jack Hodges"^^xsd:string, @@ -45138,7 +49951,8 @@ ns2:GMD_SHACLQUDT-SCHEMA a ns2:GraphMetaData ;

Except for unit prefixes, all units are specified in separate vocabularies. Descriptions are provided in both HTML and LaTeX formats. A quantity is a measure of an observable phenomenon, that, when associated with something, becomes a property of that thing; a particular object, event, or physical system.

A quantity has meaning in the context of a measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Or, as stated at Wikipedia, in the language of measurement, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of these quantities are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time)."""^^rdf:HTML ; - dcterms:modified "2023-05-10T19:09:29.119000-04:00"^^xsd:dateTime ; + dcterms:modified "2023-05-10T19:09:29.119000-04:00"^^xsd:dateTime, + "2024-07-23T08:31:36.883000-04:00"^^xsd:dateTime ; dcterms:rights """ This product includes all or a portion of the UCUM table, UCUM codes, and UCUM definitions or is derived from it, subject to a license from Regenstrief Institute, Inc. and The UCUM Organization. Your use of the UCUM table, UCUM codes, UCUM definitions also is subject to this license, a copy of which is available at ​http://unitsofmeasure.org. The current complete UCUM table, UCUM Specification are available for download at ​http://unitsofmeasure.org. The UCUM table and UCUM codes are copyright © 1995-2009, Regenstrief Institute, Inc. and the Unified Codes for Units of Measures (UCUM) Organization. All rights reserved. @@ -45146,25 +49960,29 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE """^^xsd:string, "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; dcterms:subject "QUDT"^^xsd:string ; - dcterms:title "QUDT SHACL Schema - Version 2.1.27"^^xsd:string ; + dcterms:title "QUDT SHACL Schema - Version 2.1.27"^^xsd:string, + "QUDT SHACL Schema - Version 2.1.41"^^xsd:string ; ns1:informativeReference "http://unitsofmeasure.org/trac"^^xsd:anyURI, "http://www.bipm.org/en/publications/si-brochure"^^xsd:anyURI, "http://www.bipm.org/utils/common/documents/jcgm/JCGM_200_2008.pdf"^^xsd:anyURI, "https://books.google.com/books?id=pIlCAAAAIAAJ&dq=dimensional+analysis&hl=en"^^xsd:anyURI, "https://www.nist.gov/physical-measurement-laboratory/special-publication-811"^^xsd:anyURI ; ns2:graphName "qudt"^^xsd:string ; - ns2:graphTitle "Quantities, Units, Dimensions and Types (QUDT) SHACL Schema - Version 2.1.27"^^xsd:string ; + ns2:graphTitle "Quantities, Units, Dimensions and Types (QUDT) SHACL Schema - Version 2.1.27"^^xsd:string, + "Quantities, Units, Dimensions and Types (QUDT) SHACL Schema - Version 2.1.41"^^xsd:string ; ns2:hasGraphRole ns2:SHACLSchemaGraph ; ns2:hasOwner ns2:QUDT ; ns2:hasSteward ns2:QUDT ; ns2:intent "Specifies the schema for quantities, units and dimensions. Types are defined in other schemas."^^xsd:string ; ns2:isMetadataFor ; - ns2:latestPublishedVersion "https://qudt.org/doc/2023/05/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI ; + ns2:latestPublishedVersion "https://qudt.org/doc/2023/05/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/07/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI ; ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; ns2:namespace "http://qudt.org/schema/qudt/"^^xsd:string ; ns2:namespacePrefix "qudt"^^xsd:string ; ns2:owner "qudt.org"^^xsd:string ; - ns2:previousPublishedVersion "https://qudt.org/doc/2023/04/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI ; + ns2:previousPublishedVersion "https://qudt.org/doc/2023/04/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI, + "https://qudt.org/doc/2024/06/DOC_SCHEMA-SHACL-QUDT-v2.1.html"^^xsd:anyURI ; ns2:revision "2.1"^^xsd:string ; ns2:turtleFileURL "http://qudt.org/2.1/schema/shacl/qudt"^^xsd:anyURI ; ns2:usesNonImportedResource dcterms:abstract, @@ -45181,12 +49999,49 @@ THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDE rdfs:isDefinedBy ; owl:versionIRI . -ns2:Viewpoint a owl:Class ; - rdfs:label "ViewpointDimension"^^xsd:string ; - dcterms:description "Viewpoint is used to denote how a set of resources, or an individual resource, is relevant to a context of use. The term \"viewpoint\" is adopted from the ISO RM-ODP specifications and its more recent use in enterprise architecture descriptions. The RM-ODP introducesd the concept of viewpoint to describe a system from a particular set of concerns. RM-ODP defines five viewpoints. Together they provide a complete description of a system: enterprise viewpoint, information viewpoint, computational viewpoint, engineering viewpoint, and technology viewpoint. In VAEM, \"Viewpoint\" is used as a dimension for characterizing an ontology graph. The viewpoints of an ontology may not always correpsond directly to those of a system but the idea of describing a subject area of interest from distinct viewpoints is still relevant. A viewpoint can be further distinguished by \"aspects\". For example the \"information viewpoint\" of an application can be partitioned into separate graphs for the \"security\", \"operational\" and\"data retention\" aspects."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf ns2:Dimension . +ns2:GMD_SHACLQUDTOVERLAY-SCHEMA a ns2:GraphMetaData ; + rdfs:label "QUDT SHACL Schema Overlay Metadata Version 2.1.41"^^xsd:string ; + dcterms:contributor "Steve Ray"^^xsd:string ; + dcterms:created "2020-04-20"^^xsd:date ; + dcterms:creator "Ralph Hodgson"^^xsd:string ; + dcterms:description "

The QUDT, or \"Quantity, Unit, Dimension and Type\" schema defines the base classes properties, and restrictions used for modeling physical quantities, units of measure, and their dimensions in various measurement systems. This overlay graph provides additional properties that affect the display of entities in a user interface, as well as some SHACL rules."^^rdf:HTML ; + dcterms:modified "2024-07-23T08:32:09.436000-04:00"^^xsd:dateTime ; + dcterms:rights """ + This product includes all or a portion of the UCUM table, UCUM codes, and UCUM definitions or is derived from it, subject to a license from Regenstrief Institute, Inc. and The UCUM Organization. Your use of the UCUM table, UCUM codes, UCUM definitions also is subject to this license, a copy of which is available at ​http://unitsofmeasure.org. The current complete UCUM table, UCUM Specification are available for download at ​http://unitsofmeasure.org. The UCUM table and UCUM codes are copyright © 1995-2009, Regenstrief Institute, Inc. and the Unified Codes for Units of Measures (UCUM) Organization. All rights reserved. + +THE UCUM TABLE (IN ALL FORMATS), UCUM DEFINITIONS, AND SPECIFICATION ARE PROVIDED 'AS IS.' ANY EXPRESS OR IMPLIED WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. + """^^xsd:string, + "The QUDT Ontologies are issued under a Creative Commons Attribution 4.0 International License (CC BY 4.0), available at https://creativecommons.org/licenses/by/4.0/. Attribution should be made to QUDT.org"^^xsd:string ; + dcterms:subject "QUDT"^^xsd:string ; + dcterms:title "QUDT SHACL Schema Overlay - Version 2.1.41"^^xsd:string ; + ns2:graphName "qudtOverlay"^^xsd:string ; + ns2:graphTitle "Quantities, Units, Dimensions and Types (QUDT) SHACL Schema Overlay - Version 2.1.41"^^xsd:string ; + ns2:hasGraphRole ns2:SHACLSchemaOverlayGraph ; + ns2:hasOwner ns2:QUDT ; + ns2:hasSteward ns2:QUDT ; + ns2:intent "Specifies overlay properties and rules for the schema for quantities, units and dimensions. Types are defined in other schemas."^^xsd:string ; + ns2:isMetadataFor ; + ns2:latestPublishedVersion "https://qudt.org/doc/2024/07/DOC_SCHEMA-SHACL-QUDT-OVERLAY-v2.1.html"^^xsd:anyURI ; + ns2:logo "https://qudt.org/linkedmodels.org/assets/lib/lm/images/logos/qudt_logo-300x110.png"^^xsd:anyURI ; + ns2:namespace "http://qudt.org/schema/qudt/"^^xsd:string ; + ns2:namespacePrefix "qudt"^^xsd:string ; + ns2:owner "qudt.org"^^xsd:string ; + ns2:previousPublishedVersion "https://qudt.org/doc/2024/06/DOC_SCHEMA-SHACL-QUDT-OVERLAY-v2.1.html"^^xsd:anyURI ; + ns2:revision "2.1"^^xsd:string ; + ns2:turtleFileURL "http://qudt.org/2.1/schema/shacl/overlay/qudt"^^xsd:anyURI ; + ns2:usesNonImportedResource dcterms:abstract, + dcterms:contributor, + dcterms:created, + dcterms:description, + dcterms:modified, + dcterms:rights, + dcterms:source, + dcterms:subject, + dcterms:title, + ; + ns2:withAttributionTo ; + rdfs:isDefinedBy ; + owl:versionIRI . ns2:date a owl:DatatypeProperty ; rdfs:label "date"^^xsd:string ; @@ -45194,147 +50049,6 @@ ns2:date a owl:DatatypeProperty ; rdfs:isDefinedBy , . -ns2:filePrefix a owl:DatatypeProperty ; - rdfs:label "file prefix"^^xsd:string ; - dcterms:description "The property \"vaem:filePrefix\" is for specifying a preferred file prefix for a graph. For example a schema graph may be given the file prefix \"SCHEMA\" followed by an underscore \"_\"."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:string . - -ns2:hasAspect a owl:ObjectProperty ; - rdfs:label "has aspect "^^xsd:string ; - dcterms:description "The property \"vaem:hasAspect\" is used to distinguish among sets of features of a domain or subject area. The term is borrowed from \"aspect-oriented\" programming, where it is used to separate concerns. An ontology may be characterized by this dimension so as to parition features that are orthogonal. For example, in a systems ontology we can distinguish aspects for \"structure\", \"function\", \"behavior\" and \"interface\". The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subPropertyOf ns2:hasDimension . - -ns2:hasDiscipline a owl:ObjectProperty ; - rdfs:label "has discipline"^^xsd:string ; - dcterms:description "The property \"vaem:hasDiscipline\" is used to indicate relevance of a set of resources, or a resource itself, to a specific discipline of work or study. Examples of disciplines in the engineering domain are electrical engineering, mechanical engineering and, in the financial domain, risk assessment, investment analysis. In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subPropertyOf ns2:hasDimension . - -ns2:hasDomain a owl:ObjectProperty ; - rdfs:label "has domain"^^xsd:string ; - dcterms:description "The property \"vaem:hasDomain\" is used to specify how a set of resources, or an individual resource is grounded in a domain, that is, a subject area of interest. Examples of domains are \"enterprise\", \"process\", \"organization\" and \"system\". In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subPropertyOf ns2:hasDimension . - -ns2:hasGraphRole a owl:ObjectProperty ; - rdfs:label "has graph role"^^xsd:string ; - dcterms:description "The property \"lms:hasGraphRole\" is used to characterize how a resource participates in an ontology set. The property is used to specify the role that a graph plays, for example, an ontology graph can be a schema, vocabulary, dataset, script, or ruleset"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range ns2:GraphRole . - -ns2:hasIdentifier a owl:ObjectProperty ; - rdfs:label "has identifier"^^xsd:string ; - dcterms:description "The property \"vaemhasIdentifier\" is intended for general use as a means to specifiy a unique reference to something. This is an object property that is a sub-property of \"vame:id\""^^xsd:string ; - rdfs:isDefinedBy , - . - -ns2:hasLicenseType a owl:ObjectProperty ; - rdfs:label "has license type"@en-us ; - dcterms:description "The property \"vaem:hasLicenseType\" points to an entry in the VOAG ontology for licenses"^^xsd:string ; - rdfs:isDefinedBy , - . - -ns2:hasOwner a owl:ObjectProperty ; - rdfs:label "has owner"^^xsd:string ; - rdfs:isDefinedBy , - . - -ns2:hasViewpoint a owl:ObjectProperty ; - rdfs:label "has viewpoint"^^xsd:string ; - dcterms:description "The property \"vaem:hasViewpoint\" is used to denote how a set of resources, or an individual resource, is relevant to a context of use. The term \"viewpoint\" is adopted from the ISO RM-ODP specifications and its more recent use in enterprise architecture descriptions. In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subPropertyOf ns2:hasDimension . - -ns2:id a owl:DatatypeProperty ; - rdfs:label "id"^^xsd:string ; - dcterms:description "The property \"vaem:id\" is intended for general use as a means to specifiy an identifier. The type of this property is intentionally set to \"rdf:Property\" so that use of the property can allow both object and scaler values. For this reason, the property is rangeless"^^xsd:string ; - rdfs:isDefinedBy , - . - -ns2:intent a owl:DatatypeProperty ; - rdfs:label "intent"^^xsd:string ; - dcterms:description "The property \"vaem:intent\" is used to outline a statement of purpose. This typically expresses one or more desired outcomes"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:string . - -ns2:latestPublishedVersion a owl:DatatypeProperty ; - rdfs:label "latest published version"^^xsd:string ; - dcterms:description "The property \"vaem:latestPublishedVersion\"is a URL to documentation for the latest version of a graph."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - -ns2:namespace a owl:DatatypeProperty ; - rdfs:label "namespace"^^xsd:string ; - dcterms:description "The property \"vaem:namespace\" is the onotlogy URI with which a graph is primarily associated. The intent is to allow multiple graphs to define statements for resources in the same Ontology namespace. For example, a foundation level graph with the base URI of \"http://www.somesite.com/1.0/schema/OurOntology\" may define general concepts for \"OurOntology\". Another graph with the base URI \"http://www.somesite.com/1.0/schema/level2/OurOntology\" may add more specific details to the same \"OurOntology\". Each of these two graphs would carry the same value for \"vaem:namespace\", that is, \"http://www.somesite.com/schema/OurOntology\". In other words, an ontology URI is the URI associated with the resources of a controlled namespace. On the other hand the graph URIs (the base URIs) identify the graphs that hold resources that make up an ontology"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - -ns2:namespacePrefix a owl:DatatypeProperty ; - rdfs:label "namespace prefix"^^xsd:string ; - dcterms:description "The property \"vaem:namespacePrefix\" specifes a short handle or label for the URI of an Ontology. Multiple graphs can define statements for resources in the same Ontololgy namespace. For example, a foundation level graph with the base URI of \"http://www.somesite.com/1.0/schema/OurOntology\" may define general concepts for \"OurOntology\". Another graph with the base URI \"http://www.somesite.com/1.0/schema/level2/OurOntology\" may add more specific details to the same \"OurOntology\". Each of these two graphs would carry the same value for \"vaem:namespacePrefix\", for this example, perhaps, \"ourOntology\""^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:string . - -ns2:owner a owl:DatatypeProperty ; - rdfs:label "owner"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:string . - -ns2:previousPublishedVersion a owl:DatatypeProperty ; - rdfs:label "previous published version"^^xsd:string ; - dcterms:description "The property \"vaem:previousPublishedVersion\"is a URL to documentation for the previous version of a graph."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - -ns2:rdfxmlFileURL a owl:DatatypeProperty ; - rdfs:label "RDF/XML file URL"^^xsd:string ; - dcterms:description "The property \"vaem:rdfxmlFileURL\" is used to provide a link to the location of the ontology's RDF/XML file"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - -ns2:revision a owl:DatatypeProperty ; - rdfs:label "revision"^^xsd:string ; - dcterms:description "The property \"vaem:revision\" is a property intended for general use as the name implies."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:string . - -ns2:specificity a owl:DatatypeProperty ; - rdfs:label "specificity"^^xsd:string ; - dcterms:description "The property \"vaem:specificity\" is intended to specify the level of detail of an ontology. The values that can be set for this property are restriced to an integer from 1 to 5. An ontology at level 1 has concepts of more general applicability than one at level 5. By having graphs at different levels of specificity it is possible to support greater modularity for selective imports"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:nonNegativeInteger . - -ns2:turtleFileURL a owl:DatatypeProperty ; - rdfs:label "turtle file URL"^^xsd:string ; - dcterms:description "The property \"vaem:turtleFileURL\" is used to provide a link to the location of the ontology's turtle file"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - -ns2:url a owl:DatatypeProperty ; - rdfs:label "url"^^xsd:string ; - dcterms:description "The property \"vaem:url\" is intended for general use as the name implies. The range of the property is set as an XSD URI"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:range xsd:anyURI . - skos:OrderedCollection a owl:Class ; rdfs:label "Ordered Collection"@en ; rdfs:isDefinedBy ; @@ -45417,21 +50131,6 @@ sh:AndConstraintComponent-and a sh:Parameter ; rdfs:isDefinedBy sh: ; sh:path sh:and . -sh:BlankNode a sh:NodeKind ; - rdfs:label "Blank node"@en ; - rdfs:comment "The node kind of all blank nodes."@en ; - rdfs:isDefinedBy sh: . - -sh:BlankNodeOrIRI a sh:NodeKind ; - rdfs:label "Blank node or IRI"@en ; - rdfs:comment "The node kind of all blank nodes or IRIs."@en ; - rdfs:isDefinedBy sh: . - -sh:BlankNodeOrLiteral a sh:NodeKind ; - rdfs:label "Blank node or literal"@en ; - rdfs:comment "The node kind of all blank nodes or literals."@en ; - rdfs:isDefinedBy sh: . - sh:ClassConstraintComponent-class a sh:Parameter ; rdfs:isDefinedBy sh: ; sh:nodeKind sh:IRI ; @@ -45471,11 +50170,6 @@ sh:HasValueConstraintComponent-hasValue a sh:Parameter ; rdfs:isDefinedBy sh: ; sh:path sh:hasValue . -sh:IRIOrLiteral a sh:NodeKind ; - rdfs:label "IRI or literal"@en ; - rdfs:comment "The node kind of all IRIs or literals."@en ; - rdfs:isDefinedBy sh: . - sh:InConstraintComponent-in a sh:Parameter ; rdfs:isDefinedBy sh: ; sh:maxCount 1 ; @@ -45554,7 +50248,8 @@ sh:NodeConstraintComponent-node a sh:Parameter ; sh:NodeKindConstraintComponent-nodeKind a sh:Parameter ; rdfs:isDefinedBy sh: ; - sh:in ( sh:BlankNode sh:IRI sh:Literal sh:BlankNodeOrIRI sh:BlankNodeOrLiteral sh:IRIOrLiteral ) ; + sh:in ( sh:BlankNode sh:IRI sh:Literal sh:BlankNodeOrIRI sh:BlankNodeOrLiteral sh:IRIOrLiteral ), + ( sh:BlankNode sh:IRI sh:Literal sh:BlankNodeOrIRI sh:BlankNodeOrLiteral sh:IRIOrLiteral ) ; sh:maxCount 1 ; sh:path sh:nodeKind . @@ -45825,6 +50520,39 @@ sh:xone a rdf:Property ; rdfs:isDefinedBy sh: ; rdfs:range rdf:List . + a rdf:Property ; + rdfs:label "Device Identifier"^^xsd:string ; + rdfs:comment "The Object_Identifier property of the device object within the BACnet device. See ASHRAE 135-2020 Clause 12.11.1."^^xsd:string . + + a rdf:Property ; + rdfs:label "Device Name"^^xsd:string ; + rdfs:comment "The name of the BACnet device being referenced, more formally the Object_Name property of the device object within the BACnet device. See ASHRAE 135-2020 Clause 12.11.2."^^xsd:string . + + a rdf:Property ; + rdfs:label "object-identifier"^^xsd:string ; + rdfs:comment "The Object_Identifier property of the object being referenced. For example, for the object identifier of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.1."^^xsd:string . + + a rdf:Property ; + rdfs:label "Object Name"^^xsd:string ; + rdfs:comment "The Object_Name property of the object being referenced. For example, for the object name of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.2."^^xsd:string . + + a rdf:Property ; + rdfs:label "Priority for Writing"^^xsd:string ; + rdfs:comment """This parameter shall be an integer in the range 1..16, which indicates the priority assigned to the WriteProperty service. If an attempt +is made to write to a commandable property without specifying the bacnet:priority-for-writing, a default priority of 16 (the lowest priority) shall +be assumed. If an attempt is made to write to a property that is not commandable with a specified priority, the priority shall be +ignored. See ASHRAE 135-2020 Clause 15.9.1.1.5."""^^xsd:string . + + a rdf:Property ; + rdfs:label "Property Array Index"^^xsd:string ; + rdfs:comment """If the property identified is of datatype array, this optional property of type Unsigned shall indicate the array index of +the element of the property referenced by the ReadProperty service or the Read Access Specification of the ReadPropertyMultiple service. If the bacnet:property-array-index is omitted, this shall mean that the entire +array shall be referenced. See ASHRAE 135-2020 Clause 15.5.1.1.3 and Clause 15.7.1.1.1."""^^xsd:string . + + a rdf:Property ; + rdfs:label "Property Identifier"^^xsd:string ; + rdfs:comment "The Object_Identifier property of the object being referenced. For example, for the object identifier of an Analog Value Object, see ASHRAE 135-2020 Clause 12.4.1."^^xsd:string . + s223:Aspect-Effectiveness a s223:Aspect-Effectiveness, s223:Class, sh:NodeShape ; @@ -45832,24 +50560,27 @@ s223:Aspect-Effectiveness a s223:Aspect-Effectiveness, rdfs:comment "This class enumerates the possible states of effectiveness"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Aspect . -s223:Constituent-CO2 a s223:Class, - s223:Constituent-CO2, - sh:NodeShape ; - rdfs:label "Constituent-CO2"^^xsd:string ; - rdfs:comment "Constituent-CO2"^^xsd:string ; - rdfs:subClassOf s223:Medium-Constituent . - s223:CoolingCoil a s223:Class, sh:NodeShape ; rdfs:label "Cooling coil"^^xsd:string ; rdfs:comment "A subclass of Coil that is specifically used for coolinig air. "^^xsd:string ; rdfs:subClassOf s223:Coil ; sh:property [ rdfs:comment "A cooling coil must be related to the role 'Role-Cooling' using the relation 'hasRole'."^^xsd:string ; + sh:hasValue s223:Role-Cooling ; + sh:message "s223: A cooling coil must be related to the role 'Role-Cooling' using the relation 'hasRole'."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasRole ], + [ rdfs:comment "A cooling coil must be related to the role 'Role-Cooling' using the relation 'hasRole'."^^xsd:string ; sh:hasValue s223:Role-Cooling ; sh:message "s223: A cooling coil must be related to the role 'Role-Cooling' using the relation 'hasRole'."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasRole ] ; sh:rule [ a sh:TripleRule ; + rdfs:comment "Cooling coils will always have the role Role-Cooling"^^xsd:string ; + sh:object s223:Role-Cooling ; + sh:predicate s223:hasRole ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "Cooling coils will always have the role Role-Cooling"^^xsd:string ; sh:object s223:Role-Cooling ; sh:predicate s223:hasRole ; @@ -45975,28 +50706,6 @@ s223:DCPositiveVoltage-5.0V a s223:Class, rdfs:comment "DCPositiveVoltage-5.0V"^^xsd:string ; rdfs:subClassOf s223:DCVoltage-DCPositiveVoltage . -s223:DomainSpace a s223:Class, - sh:NodeShape ; - rdfs:label "Domain Space"^^xsd:string ; - rdfs:comment "A DomainSpace represents some portion of a PhysicalSpace that is affected by a building service associated with a Domain. DomainSpaces may represent an entire PhysicalSpace or any portion of a PhysicalSpace. Multiple DomainSpaces of the same Domain may overlap, and DomainSpaces of different Domains may also overlap. DomainSpaces may be grouped into Zones using the relation hasDomainSpace (see `s223:hasDomainSpace`)."^^xsd:string ; - rdfs:subClassOf s223:Connectable ; - sh:property [ rdfs:comment "A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; - sh:message "s223: A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; - sh:minCount 1 ; - sh:path [ sh:inversePath s223:encloses ] ; - sh:severity sh:Info ], - [ rdfs:comment "A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; - sh:class s223:EnumerationKind-Domain ; - sh:maxCount 1 ; - sh:message "s223: A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasDomain ] ; - sh:rule [ a sh:TripleRule ; - rdfs:comment "Infer a hasDomain relation by checking any enclosing Zone to determine the domain."^^xsd:string ; - sh:object [ sh:path ( [ sh:inversePath s223:hasDomainSpace ] s223:hasDomain ) ] ; - sh:predicate s223:hasDomain ; - sh:subject sh:this ] . - s223:EnumerableProperty a s223:Class, sh:NodeShape ; rdfs:label "Enumerable Property"^^xsd:string ; @@ -46021,21 +50730,27 @@ FILTER (NOT EXISTS {?value a/rdfs:subClassOf* ?kind}) . sh:maxCount 1 ; sh:message "s223: An EnumerableProperty must be associated with exactly one EnumerationKind using the relation hasEnumerationKind."^^xsd:string ; sh:minCount 1 ; - sh:path s223:hasEnumerationKind ] . - -s223:ExternalReference a s223:Class, - sh:NodeShape ; - rdfs:label "ExternalReference"^^xsd:string ; - s223:abstract true ; - rdfs:comment "ExternalReference is an abstract class that represents a thing that contains API or protocol parameter values necessary to associate a property with a value."^^xsd:string ; - rdfs:subClassOf s223:Concept . - -s223:Fluid-NaturalGas a s223:Class, - s223:Fluid-NaturalGas, - sh:NodeShape ; - rdfs:label "Fluid-NaturalGas"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of natural gas in various states."^^xsd:string ; - rdfs:subClassOf s223:Mix-Fluid . + sh:path s223:hasEnumerationKind ], + [ rdfs:comment "An EnumerableProperty must be associated with exactly one EnumerationKind using the relation hasEnumerationKind."^^xsd:string ; + sh:class s223:EnumerationKind ; + sh:maxCount 1 ; + sh:message "s223: An EnumerableProperty must be associated with exactly one EnumerationKind using the relation hasEnumerationKind."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasEnumerationKind ], + [ rdfs:comment "Checks for valid enumeration value consistent with the stated EnumerationKind."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Checks for valid enumeration value consistent with the stated EnumerationKind."^^xsd:string ; + sh:message "s223: {$this} has an enumeration value of {?value} which is not a valid {?kind}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?value ?kind +WHERE { +$this s223:hasValue ?value . +$this s223:hasEnumerationKind ?kind . +FILTER (NOT EXISTS {?value a/rdfs:subClassOf* ?kind}) . +} +"""^^xsd:string ] ] . s223:HeatingCoil a s223:Class, sh:NodeShape ; @@ -46043,23 +50758,26 @@ s223:HeatingCoil a s223:Class, rdfs:comment "A subclass of Coil that is used specifically for heating air. "^^xsd:string ; rdfs:subClassOf s223:Coil ; sh:property [ rdfs:comment "A heating coil must be related to the role 'Role-Heating' using the relation 'hasRole'."^^xsd:string ; + sh:hasValue s223:Role-Heating ; + sh:message "s223: A heating coil must be related to the role 'Role-Heating' using the relation 'hasRole'."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasRole ], + [ rdfs:comment "A heating coil must be related to the role 'Role-Heating' using the relation 'hasRole'."^^xsd:string ; sh:hasValue s223:Role-Heating ; sh:message "s223: A heating coil must be related to the role 'Role-Heating' using the relation 'hasRole'."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasRole ] ; sh:rule [ a sh:TripleRule ; + rdfs:comment "Heating coils will always have the role Role-Heating"^^xsd:string ; + sh:object s223:Role-Heating ; + sh:predicate s223:hasRole ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "Heating coils will always have the role Role-Heating"^^xsd:string ; sh:object s223:Role-Heating ; sh:predicate s223:hasRole ; sh:subject sh:this ] . -s223:Light-Infrared a s223:Class, - s223:Light-Infrared, - sh:NodeShape ; - rdfs:label "Light-Infrared"^^xsd:string ; - rdfs:comment "Light-Infrared"^^xsd:string ; - rdfs:subClassOf s223:EM-Light . - s223:Mix-PowerAndSignal a s223:Class, s223:Mix-PowerAndSignal, sh:NodeShape ; @@ -46081,37 +50799,6 @@ s223:Phase-Liquid a s223:Class, rdfs:comment "This class has enumerated subclasses of liquid in various thermodynamic states."^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Phase . -s223:PowerAndSignal-PoE a s223:Class, - s223:PowerAndSignal-PoE, - sh:NodeShape ; - rdfs:label "Power over Ethernet"^^xsd:string ; - s223:composedOf [ a s223:Property ; - rdfs:label "Unspecified"^^xsd:string ; - s223:ofConstituent s223:Signal-Ethernet ], - [ a s223:Property ; - rdfs:label "Unspecified"^^xsd:string ; - s223:ofConstituent s223:Electricity-DC ] ; - rdfs:comment "This class has enumerated subclasses of Power over Ethernet."^^xsd:string ; - rdfs:subClassOf s223:Mix-PowerAndSignal ; - sh:property [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; - sh:path s223:composedOf ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Property ; - sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; - sh:class s223:Electricity-DC ; - sh:path s223:ofConstituent ] ] ] ], - [ rdfs:comment "There must be at least two Properties that characterize the constituents of Power over Ethernet."^^xsd:string ; - sh:class s223:Property ; - sh:minCount 2 ; - sh:path s223:composedOf ], - [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; - sh:path s223:composedOf ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Property ; - sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; - sh:class s223:Signal-Ethernet ; - sh:path s223:ofConstituent ] ] ] ] . - s223:RadiantHeater a s223:Class, sh:NodeShape ; rdfs:label "Radiant heater"^^xsd:string ; @@ -46128,18 +50815,30 @@ s223:RadiantHeater a s223:Class, """^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:message "s223: A RadiantHeater must conform to exactly one of the two patterns: Pattern 1: Exactly one inlet using the medium Constituent-Electricity or Fluid-NaturalGas. Pattern 2: Exactly one inlet and one outlet using the medium Fluid-Water."^^xsd:string ; - sh:property [ rdfs:comment "A RadiantHeater shall have at least one outlet connection point using the medium Infrared."^^xsd:string ; + sh:property [ rdfs:comment "A radiant heater must hasRole Role-Heating."^^xsd:string ; + sh:message "s223: A radiant heater must hasRole Role-Heating."^^xsd:string ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ], + [ rdfs:comment "A radiant heater must hasRole Role-Heating."^^xsd:string ; + sh:message "s223: A radiant heater must hasRole Role-Heating."^^xsd:string ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ], + [ rdfs:comment "A RadiantHeater shall have at least one outlet connection point using the medium Infrared."^^xsd:string ; sh:message "s223: A RadiantHeater shall have at least one outlet connection point using the medium Infrared."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Light-Infrared ; sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A radiant heater must hasRole Role-Heating."^^xsd:string ; - sh:message "s223: A radiant heater must hasRole Role-Heating."^^xsd:string ; - sh:path s223:hasRole ; + [ rdfs:comment "A RadiantHeater shall have at least one outlet connection point using the medium Infrared."^^xsd:string ; + sh:message "s223: A RadiantHeater shall have at least one outlet connection point using the medium Infrared."^^xsd:string ; + sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ] . + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Light-Infrared ; + sh:path s223:hasMedium ] ] ] ] . s223:Radiator a s223:Class, sh:NodeShape ; @@ -46160,7 +50859,115 @@ s223:Radiator a s223:Class, sh:minCount 1 ; sh:path s223:hasRole ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ] . + sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ], + [ rdfs:comment "Radiators must have the role Role-Heating."^^xsd:string ; + sh:message "s223: Radiators must have the role Role-Heating."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ], + [ rdfs:comment "A Radiator shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:message "s223: A Radiator shall have at least one bidirectional connection point using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + +s223:System a s223:Class, + sh:NodeShape ; + rdfs:label "System"^^xsd:string ; + rdfs:comment "A System is a logical grouping of one or more Equipment or other Systems for some functional purpose."^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ a sh:PropertyShape ; + rdfs:comment "A System should be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; + sh:message "s223: A System must be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; + sh:minCount 1 ; + sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:System ] ) ; + sh:path s223:hasMember ; + sh:severity sh:Warning ], + [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:path s223:hasOptionalConnectionPoint ], + [ a sh:PropertyShape ; + rdfs:comment "A System should be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; + sh:message "s223: A System must be associated with at least one instance of Equipment or System using the relation hasMember."^^xsd:string ; + sh:minCount 1 ; + sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:System ] ) ; + sh:path s223:hasMember ; + sh:severity sh:Warning ], + [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:path s223:hasBoundaryConnectionPoint ], + [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasBoundaryConnectionPoint relation is used to reference those connection points of its equipment that must be connected, but in the context of validating the a model with the system by itself, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:path s223:hasBoundaryConnectionPoint ], + [ rdfs:comment "A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A System may be defined with a number of ConnectionPoints that are the \"boundary\" of the equipment. The hasOptionalConnectionPoint relation is used to reference those connection points of its equipment that may not be connected, the \"dangling ConnectionPoint\" should not generate a validation error."^^xsd:string ; + sh:path s223:hasOptionalConnectionPoint ], + [ rdfs:comment "If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present, it must associate the System with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ] ; + sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer the hasBoundaryConnectionPoint relation using hasOptionalConnectionPoint."^^xsd:string ; + sh:name "InferredSystemToBoundaryConnectionPointFromOptional"^^xsd:string ; + sh:object [ sh:path s223:hasOptionalConnectionPoint ] ; + sh:predicate s223:hasBoundaryConnectionPoint ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the hasBoundaryConnectionPoint relation using hasOptionalConnectionPoint."^^xsd:string ; + sh:name "InferredSystemToBoundaryConnectionPointFromOptional"^^xsd:string ; + sh:object [ sh:path s223:hasOptionalConnectionPoint ] ; + sh:predicate s223:hasBoundaryConnectionPoint ; + sh:subject sh:this ] ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that the Boundary CPs of a System belong to only members of that System"^^xsd:string ; + sh:message "s223: System {$this} hasBoundaryConnectionPoint {?cp}, belonging to {?con} that is not a member of {?this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp ?con +WHERE { +$this s223:hasBoundaryConnectionPoint ?cp . +?cp s223:isConnectionPointOf ?con . +FILTER NOT EXISTS {$this s223:hasMember+ ?con} +} +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that the Boundary CPs of a System belong to only members of that System"^^xsd:string ; + sh:message "s223: System {$this} hasBoundaryConnectionPoint {?cp}, belonging to {?con} that is not a member of {?this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp ?con +WHERE { +$this s223:hasBoundaryConnectionPoint ?cp . +?cp s223:isConnectionPointOf ?con . +FILTER NOT EXISTS {$this s223:hasMember+ ?con} +} +"""^^xsd:string ] . + +s223:ThermodynamicPhase-Gas a s223:Class, + s223:ThermodynamicPhase-Gas, + sh:NodeShape ; + rdfs:label "ThermodynamicPhase-Gas"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of gas in various thermodynamic states."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-ThermodynamicPhase . + +s223:ThermodynamicPhase-Liquid a s223:Class, + s223:ThermodynamicPhase-Liquid, + sh:NodeShape ; + rdfs:label "ThermodynamicPhase-Liquid"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of liquid in various thermodynamic states."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-ThermodynamicPhase . s223:Voltage-0V a s223:Class, s223:Voltage-0V, @@ -46422,6 +51229,44 @@ s223:Voltage-6600V a s223:Class, rdfs:comment "6600V Voltage"^^xsd:string ; rdfs:subClassOf s223:Numerical-Voltage . +s223:Window a s223:Class, + sh:NodeShape ; + rdfs:label "Window"^^xsd:string ; + rdfs:comment "A daylight opening on a vertical or nearly vertical area of a room envelope."^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:property [ rdfs:comment "A Window shall have at least one outlet using the medium Light."^^xsd:string ; + sh:message "s223: A Window shall have at least one outlet using the medium Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Window shall have at least one inlet using the medium Light."^^xsd:string ; + sh:message "s223: A Window shall have at least one inlet using the medium Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Window shall have at least one outlet using the medium Light."^^xsd:string ; + sh:message "s223: A Window shall have at least one outlet using the medium Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Window shall have at least one inlet using the medium Light."^^xsd:string ; + sh:message "s223: A Window shall have at least one inlet using the medium Light."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:EM-Light ; + sh:path s223:hasMedium ] ] ] ] . + s223:ZoneGroup a s223:Class, sh:NodeShape ; rdfs:label "Zone group"^^xsd:string ; @@ -46432,6 +51277,17 @@ s223:ZoneGroup a s223:Class, sh:message "s223: A ZoneGroup must be associated with at least one Zone using the relation hasZone."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasZone ], + [ rdfs:comment "A ZoneGroup must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:class s223:EnumerationKind-Domain ; + sh:maxCount 1 ; + sh:message "s223: A ZoneGroup must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "A ZoneGroup must be associated with at least one Zone using the relation hasZone."^^xsd:string ; + sh:class s223:Zone ; + sh:message "s223: A ZoneGroup must be associated with at least one Zone using the relation hasZone."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasZone ], [ rdfs:comment "A ZoneGroup must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; sh:class s223:EnumerationKind-Domain ; sh:maxCount 1 ; @@ -46439,53 +51295,169 @@ s223:ZoneGroup a s223:Class, sh:minCount 1 ; sh:path s223:hasDomain ] ; sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosed Zones to determine the domain."^^xsd:string ; + sh:object [ sh:path ( s223:hasZone s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ], + [ a sh:TripleRule ; rdfs:comment "Infer a hasDomain relation by checking any enclosed Zones to determine the domain."^^xsd:string ; sh:object [ sh:path ( s223:hasZone s223:hasDomain ) ] ; sh:predicate s223:hasDomain ; sh:subject sh:this ] . -s223:connectedThrough a rdf:Property ; - rdfs:label "connected through"^^xsd:string ; - rdfs:comment "The relation connectedThrough is used to associate a Connectable thing with a Connection without regard to the direction of flow. It is used to discover what connection links two connectable things."^^xsd:string . +s223:abstract a rdf:Property ; + rdfs:label "abstract"^^xsd:string ; + rdfs:comment "If the relation abstract has a value of true, the associated class cannot be instantiated. "^^xsd:string ; + rdfs:range xsd:boolean . -s223:encloses a rdf:Property ; - rdfs:label "encloses"^^xsd:string ; - rdfs:comment "The relation encloses is used to associate a PhysicalSpace with its DomainSpaces. "^^xsd:string . +s223:actuates a rdf:Property ; + rdfs:label "actuates"^^xsd:string ; + rdfs:comment "The relation actuates binds an Actuator to the Equipment that it actuates."^^xsd:string . -s223:hasBoundaryConnectionPoint a rdf:Property ; - rdfs:label "has Boundary Connection Point"^^xsd:string ; - rdfs:comment "The hasBoundaryConnectionPoint relation means the ConnectionPoint represents the boundary of a s223:System (`see s223:System`) defined by the modeler, such as a model fragment provided by the vendor of a collection of equipment intended for integration with another model. The presence of this relation is used to indicate that such a \"dangling ConnectionPoint\" should not generate a validation error in a non-integrated context but should generate an error in a integrated context."^^xsd:string . +s223:connectsFrom a rdf:Property ; + rdfs:label "connects from"^^xsd:string ; + rdfs:comment "The relation connectsFrom binds a Connectable thing to a Connection with an implied directionality. B connectsFrom A indicates a flow from A to B."^^xsd:string . -s223:hasElectricalPhase a rdf:Property ; - rdfs:label "has electrical phase"^^xsd:string ; - rdfs:comment "The relation hasElectricalPhase is used to indicate the electrical phase identifier or the relevant electrical phases for a voltage difference for AC electricity inside a Connection."^^xsd:string . +s223:connectsTo a rdf:Property ; + rdfs:label "connects to"^^xsd:string ; + rdfs:comment "The relation connectsTo binds a Connection to a Connectable thing with an implied directionality. A connectsTo B indicates a flow from A to B."^^xsd:string . -s223:hasInput a rdf:Property ; - rdfs:label "has input"^^xsd:string ; - rdfs:comment "The relation hasInput is used to relate a Function (see `s223:Function`) to a Property (see `s223:Property`) that is used as input."^^xsd:string . +s223:hasExternalReference a rdf:Property ; + rdfs:label "has external reference"^^xsd:string ; + rdfs:comment "The relation hasExternalReference is used to relate a Property to an external telemetry source."^^xsd:string . -s223:hasOptionalConnectionPoint a rdf:Property ; - rdfs:label "has Optional Connection Point"^^xsd:string ; - rdfs:comment "The hasOptionalConnectionPoint relation means the ConnectionPoint represents the boundary of a s223:System (`see s223:System`) defined by the modeler, such as a model fragment provided by the vendor of a collection of equipment intended for integration with another model. The presence of this relation is used to indicate that such a \"dangling ConnectionPoint\" should not generate a validation error in an integrated or non-integrated context."^^xsd:string . +s223:hasFreezingPoint a rdf:Property ; + rdfs:label "has freezing point"^^xsd:string ; + rdfs:comment "The relation hasFreezingPoint is used to associate a freezing point with a glycol solution, but could be used with other Mediums as appropriate. "^^xsd:string . -s223:ofSubstance a rdf:Property ; - rdfs:label "of substance"^^xsd:string ; - rdfs:comment "The ofSubstance relation is used on a Property being observed by a sensor. It links the Property to a Substance it characterizes within a specific Medium. For instance, to denote the concentration of a Substance in a Medium, 'ofSubstance' is used. Typically, there's also an ofMedium relation between the observed Property and the Medium. For example, to represent the concentration of CO2 in air, we use ofSubstance to relate to CO2 and ofMedium to relate to air. The term ofSubstance is broad enough to include situations where a sensor is used to detect constituents that should not be present in a medium, such as ammonia in air. Therefore, 'ofSubstance' is used to indicate the substance of interest, while 'ofConstituent' would indicate a constituent that is normally present in the composition of the mix."^^xsd:string . +s223:hasFrequency a rdf:Property ; + rdfs:label "has frequency"^^xsd:string ; + rdfs:comment "The relation hasFrequency is used to identify the frequency of an AC electricity enumeration kind. "^^xsd:string . + +s223:hasMeasurementResolution a rdf:Property ; + rdfs:label "has measurement resolution"^^xsd:string ; + rdfs:comment "The hasMeasurementResolution relation is used to link to a numerical property whose value indicates the smallest recognizable change in engineering units that the sensor is able to indicate. "^^xsd:string . + +s223:hasMember a rdf:Property ; + rdfs:label "has member"^^xsd:string ; + rdfs:comment "The relation hasMember is used to associate a System with its component Equipment and/or Systems."^^xsd:string . + +s223:hasNumberOfElectricalPhases a rdf:Property ; + rdfs:label "has number of electrical phases"^^xsd:string ; + rdfs:comment "The relation hasNumberOfElectricalPhases is used to identify the number of electrical phases in an AC electricity enumeration kind. "^^xsd:string . + +s223:hasPhysicalLocation a rdf:Property ; + rdfs:label "has Physical Location"^^xsd:string ; + rdfs:comment "The relation hasPhysicalLocation is used to indicate the PhysicalSpace (see `s223:PhysicalSpace`) where a piece of Equipment (see `s223:Equipment`) is located. The physical location of a piece of equipment is not necessarily the same as the location affected by the operation of the equipment. For example, an air handler may physically be on the roof, but its effect is to provide conditioned air to a Zone or DomainSpace within the building. By following the path of Connections, it can be determined what other equipment or spaces are possibly impacted by the equipment."^^xsd:string . + +s223:hasSetpoint a rdf:Property ; + rdfs:label "has setpoint"^^xsd:string ; + rdfs:comment "This relation binds a control setpoint to the quantifiable property indicating the desired value which the control process is trying to maintain."^^xsd:string . + +s223:hasThermodynamicPhase a rdf:Property ; + rdfs:label "has thermodynamic phase"^^xsd:string ; + rdfs:comment "The relation hasThermodynamicPhase is used to indicate the thermodynamic phase of the Medium inside a Connection."^^xsd:string . + +s223:ofMedium a rdf:Property ; + rdfs:label "of medium"^^xsd:string ; + rdfs:comment "The relation ofMedium is used to associate a Property with the specific Medium it describes. A property corresponding to the temperature of a medium would be associated with this medium using the relation ofMedium."^^xsd:string . dcterms:author a owl:AnnotationProperty ; rdfs:label "author"^^xsd:string ; rdfs:isDefinedBy dcterms: ; rdfs:range xsd:string . -ns1:BitEncoding a ns1:BitEncodingType ; - rdfs:label "Bit Encoding"^^xsd:string ; +dcterms:source a rdf:Property ; + rdfs:label "source"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:BooleanEncoding a ns1:BooleanEncodingType ; + rdfs:label "Boolean Encoding"^^xsd:string ; ns1:bits 1 ; rdfs:isDefinedBy . -ns1:ShortUnsignedIntegerEncoding a ns1:BooleanEncodingType, - ns1:IntegerEncodingType ; - rdfs:label "Short Unsigned Integer Encoding"^^xsd:string ; - ns1:bytes 2 ; +ns1:CT_COUNTABLY-INFINITE a ns1:CardinalityType ; + rdfs:label "Countably Infinite Cardinality Type"^^xsd:string ; + dcterms:description "A set of numbers is called countably infinite if there is a way to enumerate them. Formally this is done with a bijection function that associates each number in the set with exactly one of the positive integers. The set of all fractions is also countably infinite. In other words, any set $X$ that has the same cardinality as the set of the natural numbers, or $| X | \\; = \\; | \\mathbb N | \\; = \\; \\aleph0$, is said to be a countably infinite set."^^ns1:LatexString, + "A set of numbers is called countably infinite if there is a way to enumerate them. Formally this is done with a bijection function that associates each number in the set with exactly one of the positive integers. The set of all fractions is also countably infinite. In other words, any set \\(X\\) that has the same cardinality as the set of the natural numbers, or \\(| X | \\; = \\; | \\mathbb N | \\; = \\; \\aleph0\\), is said to be a countably infinite set."^^ns1:LatexString ; + ns1:informativeReference "http://www.math.vanderbilt.edu/~schectex/courses/infinity.pdf"^^xsd:anyURI ; + ns1:literal "countable"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:CT_FINITE a ns1:CardinalityType ; + rdfs:label "Finite Cardinality Type"^^xsd:string ; + dcterms:description "Any set $X$ with cardinality less than that of the natural numbers, or $| X | \\\\; < \\; | \\\\mathbb N | $, is said to be a finite set."^^ns1:LatexString, + "Any set \\(X\\) with cardinality less than that of the natural numbers, or \\(| X | \\\\; < \\; | \\\\mathbb N | \\), is said to be a finite set."^^ns1:LatexString ; + ns1:literal "finite"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:CharEncoding a ns1:BooleanEncodingType, + ns1:CharEncodingType ; + rdfs:label "Char Encoding"^^xsd:string ; + dc:description "7 bits of 1 octet"^^xsd:string ; + ns1:bytes 1 ; + rdfs:isDefinedBy . + +ns1:DoublePrecisionEncoding a ns1:FloatingPointEncodingType ; + rdfs:label "Single Precision Real Encoding"^^xsd:string ; + ns1:bytes 64 ; + rdfs:isDefinedBy . + +ns1:IEEE754_1985RealEncoding a ns1:FloatingPointEncodingType ; + rdfs:label "IEEE 754 1985 Real Encoding"^^xsd:string ; + ns1:bytes 32 ; + rdfs:isDefinedBy . + +ns1:LongUnsignedIntegerEncoding a ns1:IntegerEncodingType ; + rdfs:label "Long Unsigned Integer Encoding"^^xsd:string ; + ns1:bytes 8 ; + rdfs:isDefinedBy . + +ns1:OctetEncoding a ns1:BooleanEncodingType, + ns1:ByteEncodingType ; + rdfs:label "OCTET Encoding"^^xsd:string ; + ns1:bytes 1 ; + rdfs:isDefinedBy . + +ns1:PartiallyOrdered a ns1:OrderedType ; + rdfs:label "Partially Ordered"^^xsd:string ; + ns1:literal "partial"^^xsd:string ; + ns1:plainTextDescription "Partial ordered structure."^^xsd:string ; + rdfs:isDefinedBy . + +ns1:SIGNED a ns1:SignednessType ; + rdfs:label "Signed"^^xsd:string ; + ns3:literal "signed"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:SignedIntegerEncoding a ns1:IntegerEncodingType ; + rdfs:label "Signed Integer Encoding"^^xsd:string ; + ns1:bytes 4 ; + rdfs:isDefinedBy . + +ns1:SinglePrecisionRealEncoding a ns1:FloatingPointEncodingType ; + rdfs:label "Single Precision Real Encoding"^^xsd:string ; + ns1:bytes 32 ; + rdfs:isDefinedBy . + +ns1:TotallyOrdered a ns1:OrderedType ; + rdfs:label "Totally Ordered"^^xsd:string ; + ns1:literal "total"^^xsd:string ; + ns1:plainTextDescription "Totally ordered structure."^^xsd:string ; + rdfs:isDefinedBy . + +ns1:UCUMcs a rdfs:Datatype, + sh:NodeShape ; + rdfs:label "case-sensitive UCUM code"^^xsd:string ; + dcterms:source ; + rdfs:comment "Lexical pattern for the case-sensitive version of UCUM code"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + rdfs:subClassOf xsd:string . + +ns1:UNSIGNED a ns1:SignednessType ; + rdfs:label "Unsigned"^^xsd:string ; + ns3:literal "unsigned"^^xsd:string ; rdfs:isDefinedBy . ns1:UnitConversionGroup a sh:PropertyGroup ; @@ -46493,10 +51465,16 @@ ns1:UnitConversionGroup a sh:PropertyGroup ; rdfs:isDefinedBy ; sh:order 60.0 . -ns1:applicableSystem a rdf:Property ; - rdfs:label "applicable system"^^xsd:string ; - dcterms:description "This property relates a unit of measure with a unit system that may or may not define the unit, but within which the unit is compatible."^^rdf:HTML ; - rdfs:isDefinedBy . +ns1:Unordered a ns1:OrderedType ; + rdfs:label "Unordered"^^xsd:string ; + ns1:literal "unordered"^^xsd:string ; + ns1:plainTextDescription "Unordered structure."^^xsd:string ; + rdfs:isDefinedBy . + +ns1:UnsignedIntegerEncoding a ns1:IntegerEncodingType ; + rdfs:label "Unsigned Integer Encoding"^^xsd:string ; + ns1:bytes 4 ; + rdfs:isDefinedBy . ns1:bits a rdf:Property ; rdfs:label "bits"^^xsd:string ; @@ -46508,7 +51486,8 @@ ns1:bytes a rdf:Property ; ns1:coherentUnitOfSystem a rdf:Property ; rdfs:label "is coherent unit of system"^^xsd:string ; - dcterms:description "A coherent unit of measurement for a unit system is a defined unit that may be expressed as a product of powers of the system's base units with the proportionality factor of one. A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. For example, the 'newton' and the 'joule'. These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per second per second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per second per second, and the work done by 1 dyne acting over 1 centimetre. So \\(1 newton = 10^5\\,dyne\\), \\(1 joule = 10^7\\,erg\\), making each of the four compatible in a decimal sense within its respective other system, but not coherent therein."^^ns1:LatexString ; + dcterms:description "A coherent unit of measurement for a unit system is a defined unit that may be expressed as a product of powers of the system's base units with the proportionality factor of one. A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. For example, the 'newton' and the 'joule'. These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per second per second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per second per second, and the work done by 1 dyne acting over 1 centimetre. So $1 newton = 10^5\\,dyne$, $1 joule = 10^7\\,erg$, making each of the four compatible in a decimal sense within its respective other system, but not coherent therein."^^ns1:LatexString, + "A coherent unit of measurement for a unit system is a defined unit that may be expressed as a product of powers of the system's base units with the proportionality factor of one. A system of units is coherent with respect to a system of quantities and equations if the system of units is chosen in such a way that the equations between numerical values have exactly the same form (including the numerical factors) as the corresponding equations between the quantities. For example, the 'newton' and the 'joule'. These two are, respectively, the force that causes one kilogram to be accelerated at 1 metre per second per second, and the work done by 1 newton acting over 1 metre. Being coherent refers to this consistent use of 1. In the old c.g.s. system , with its base units the centimetre and the gram, the corresponding coherent units were the dyne and the erg, respectively the force that causes 1 gram to be accelerated at 1 centimetre per second per second, and the work done by 1 dyne acting over 1 centimetre. So \\(1 newton = 10^5\\,dyne\\), \\(1 joule = 10^7\\,erg\\), making each of the four compatible in a decimal sense within its respective other system, but not coherent therein."^^ns1:LatexString ; ns1:deprecated true ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:definedUnitOfSystem . @@ -46517,24 +51496,29 @@ ns1:dataStructure a rdf:Property ; rdfs:label "data structure"^^xsd:string ; rdfs:isDefinedBy . -ns1:deprecated a rdf:Property ; - rdfs:label "deprecated"^^xsd:string ; +ns1:dbpediaMatch a rdf:Property ; + rdfs:label "dbpedia match"^^xsd:string ; rdfs:isDefinedBy . -ns1:derivedUnitOfSystem a rdf:Property ; - rdfs:label "is derived unit of system"^^xsd:string ; - dcterms:description "This property relates a unit of measure to the system of units in which it is defined as a derived unit. That is, the derived unit is defined as a product of the base units for the system raised to some rational power."^^rdf:HTML ; +ns1:definedUnitOfSystem a rdf:Property ; + rdfs:label "defined unit of system"^^xsd:string ; + dcterms:description "This property relates a unit of measure with the unit system that defines the unit."^^rdf:HTML ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:isUnitOfSystem . +ns1:exactConstant a rdf:Property ; + rdfs:label "exact constant"^^xsd:string ; + rdfs:isDefinedBy . + ns1:expression a rdf:Property ; rdfs:label "expression"^^xsd:string ; dcterms:description "An 'expression' is a finite combination of symbols that are well-formed according to rules that apply to units of measure, quantity kinds and their dimensions."^^rdf:HTML ; rdfs:isDefinedBy . -ns1:hasDimensionVector a rdf:Property ; - rdfs:label "has dimension vector"^^xsd:string ; - rdfs:isDefinedBy . +ns1:hasBaseQuantityKind a rdf:Property ; + rdfs:label "has base quantity kind"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns1:hasQuantityKind . ns1:hasUnitSystem a rdf:Property ; rdfs:label "has unit system"^^xsd:string ; @@ -46545,15 +51529,101 @@ ns1:id a rdf:Property ; dcterms:description "The \"qudt:id\" is an identifier string that uniquely identifies a QUDT concept. The identifier is constructed using a prefix. For example, units are coded using the pattern: \"UCCCENNNN\", where \"CCC\" is a numeric code or a category and \"NNNN\" is a digit string for a member element of that category. For scaled units there may be an addition field that has the format \"QNN\" where \"NN\" is a digit string representing an exponent power, and \"Q\" is a qualifier that indicates with the code \"P\" that the power is a positive decimal exponent, or the code \"N\" for a negative decimal exponent, or the code \"B\" for binary positive exponents."^^rdf:HTML ; rdfs:isDefinedBy . +ns1:inferredApplicableUnit a ns6:MagicProperty ; + rdfs:label "applicable units for a QuantityKind instance"^^xsd:string ; + ns6:body [ a ns5:Select ; + ns5:distinct true ; + ns5:resultVariables ( [ ns5:varName "unit"^^xsd:string ] ) ; + ns5:where ( [ a ns5:Union ; + ns5:elements ( ( [ ns5:object ns6:_arg1 ; + ns5:predicate ns1:hasQuantityKind ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] [ a ns5:Filter ; + ns5:expression [ a ns5:notExists ; + ns5:elements ( [ ns5:object true ; + ns5:predicate ns1:deprecated ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ] ] [ a ns5:TriplePath ; + ns5:object ns1:Unit ; + ns5:path [ a ns5:SeqPath ; + ns5:path1 rdf:type ; + ns5:path2 [ a ns5:ModPath ; + ns5:modMax -2 ; + ns5:modMin 0 ; + ns5:subPath rdfs:subClassOf ] ] ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ( [ a ns5:NotExists ; + ns5:elements ( [ ns5:object ns6:_arg1 ; + ns5:predicate ns1:hasQuantityKind ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] [ a ns5:TriplePath ; + ns5:object ns1:Unit ; + ns5:path [ a ns5:SeqPath ; + ns5:path1 rdf:type ; + ns5:path2 [ a ns5:ModPath ; + ns5:modMax -2 ; + ns5:modMin 0 ; + ns5:subPath rdfs:subClassOf ] ] ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ] [ ns5:object [ ns5:varName "parent1"^^xsd:string ] ; + ns5:predicate skos:broader ; + ns5:subject ns6:_arg1 ] [ ns5:object [ ns5:varName "unit"^^xsd:string ] ; + ns5:predicate ns1:inferredApplicableUnit ; + ns5:subject [ ns5:varName "parent1"^^xsd:string ] ] ) ) ] ) ], + [ a ns5:Select ; + ns5:distinct true ; + ns5:resultVariables ( [ ns5:varName "unit"^^xsd:string ] ) ; + ns5:where ( [ a ns5:Union ; + ns5:elements ( ( [ ns5:object ns6:_arg1 ; + ns5:predicate ns1:hasQuantityKind ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] [ a ns5:Filter ; + ns5:expression [ a ns5:notExists ; + ns5:elements ( [ ns5:object true ; + ns5:predicate ns1:deprecated ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ] ] [ a ns5:TriplePath ; + ns5:object ns1:Unit ; + ns5:path [ a ns5:SeqPath ; + ns5:path1 rdf:type ; + ns5:path2 [ a ns5:ModPath ; + ns5:modMax -2 ; + ns5:modMin 0 ; + ns5:subPath rdfs:subClassOf ] ] ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ( [ a ns5:NotExists ; + ns5:elements ( [ ns5:object ns6:_arg1 ; + ns5:predicate ns1:hasQuantityKind ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] [ a ns5:TriplePath ; + ns5:object ns1:Unit ; + ns5:path [ a ns5:SeqPath ; + ns5:path1 rdf:type ; + ns5:path2 [ a ns5:ModPath ; + ns5:modMax -2 ; + ns5:modMin 0 ; + ns5:subPath rdfs:subClassOf ] ] ; + ns5:subject [ ns5:varName "unit"^^xsd:string ] ] ) ] [ ns5:object [ ns5:varName "parent1"^^xsd:string ] ; + ns5:predicate skos:broader ; + ns5:subject ns6:_arg1 ] [ ns5:object [ ns5:varName "unit"^^xsd:string ] ; + ns5:predicate ns1:inferredApplicableUnit ; + ns5:subject [ ns5:varName "parent1"^^xsd:string ] ] ) ) ] ) ] ; + ns6:constraint [ a ns4:Argument ; + ns4:predicate ns5:arg1 ; + ns4:valueType ns1:QuantityKind ; + rdfs:comment "The QuantityKind instance"^^xsd:string ], + [ a ns4:Argument ; + ns4:predicate ns5:arg1 ; + ns4:valueType ns1:QuantityKind ; + rdfs:comment "The QuantityKind instance"^^xsd:string ] ; + ns6:returnType rdfs:Class ; + rdfs:comment """A magic property that returns all units that are "applicable" to a given QuantityKind, found by examining the incoming qudt:hasQuantityKind property for the provided QuantityKind. If there are none found, recurse up the skos:broader relation until such a QuantityKind is found. + +Example use: +quantitykind:Power qudt:inferredApplicableUnit ?unit . """^^xsd:string ; + rdfs:subClassOf ns6:MagicProperties . + +ns1:isoNormativeReference a rdf:Property ; + rdfs:label "normative reference (ISO)"^^xsd:string ; + dcterms:description "Provides a way to reference the ISO unit definition."^^rdf:HTML ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns1:normativeReference . + ns1:lowerBound a rdf:Property ; rdfs:label "lower bound"^^xsd:string ; rdfs:isDefinedBy . -ns1:normativeReference a rdf:Property ; - rdfs:label "normative reference"^^xsd:string ; - dcterms:description "Provides a way to reference information that is an authorative source providing a standard definition"^^rdf:HTML ; - rdfs:isDefinedBy . - ns1:permissibleMaths a rdf:Property ; rdfs:label "permissible maths"^^xsd:string ; rdfs:isDefinedBy . @@ -46562,6 +51632,11 @@ ns1:permissibleTransformation a rdf:Property ; rdfs:label "permissible transformation"^^xsd:string ; rdfs:isDefinedBy . +ns1:prefix a rdf:Property ; + rdfs:label "prefix"^^xsd:string ; + rdfs:comment "Associates a unit with the appropriate prefix, if any."^^xsd:string ; + rdfs:isDefinedBy . + ns1:qkdvDenominator a rdf:Property ; rdfs:label "denominator dimension vector"^^xsd:string ; rdfs:isDefinedBy . @@ -46570,10 +51645,6 @@ ns1:qkdvNumerator a rdf:Property ; rdfs:label "numerator dimension vector"^^xsd:string ; rdfs:isDefinedBy . -ns1:quantityValue a rdf:Property ; - rdfs:label "quantity value"^^xsd:string ; - rdfs:isDefinedBy . - ns1:rationale a rdf:Property ; rdfs:label "rationale"^^xsd:string ; rdfs:isDefinedBy . @@ -46640,7 +51711,8 @@ ns1:url a rdf:Property ; ns1:standardUncertainty 47000000000000000000.0 ; ns1:standardUncertaintySN 4.7e+19 ; ns1:value 26867774000000000000000000.0 ; - ns1:valueSN 2.686777e+25 ; + ns1:valueSN 2.686777e+25, + 2.686777e+25 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?n0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -46648,7 +51720,8 @@ ns1:url a rdf:Property ; ns1:hasUnit ; ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; ns1:value 0.0000012566370614 ; - ns1:valueSN 1.256637e-06 ; + ns1:valueSN 1.256637e-06, + 1.256637e-06 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mu0#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -46658,7 +51731,8 @@ ns1:url a rdf:Property ; ns1:standardUncertainty 0.000015 ; ns1:standardUncertaintySN 1.5e-05 ; ns1:value 8.31446261815324 ; - ns1:valueSN 8.314463e+00 ; + ns1:valueSN 8.314463e+00, + 8.314463e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?r#mid"^^xsd:anyURI . a ns1:ConstantValue ; @@ -46668,7 +51742,8 @@ ns1:url a rdf:Property ; ns1:standardUncertainty 0.0000000000000000000000000000000000000000053 ; ns1:standardUncertaintySN 5.3e-42 ; ns1:value 0.0000000000000000000000000000000001054571628 ; - ns1:valueSN 1.054572e-34 ; + ns1:valueSN 1.054572e-34, + 1.054572e-34 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?hbar#mid"^^xsd:anyURI . a ns1:QuantityKindDimensionVector_ISO, @@ -46684,7 +51759,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-1 N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-1 N^-1$"^^ns1:LatexString, + "\\(L^2 M T^-1 N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46700,7 +51776,24 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M T^-2 N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M T^-2 N^-1$"^^ns1:LatexString, + "\\(L^3 M T^-2 N^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A-1E2L0I0M-1H0T3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance -1 ; + ns1:dimensionExponentForElectricCurrent 2 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 3 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$N^-1 E^2 M^-1 T^3 $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46716,7 +51809,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-1 I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^-1 I^-1$"^^ns1:LatexString, + "\\(M T^-1 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46732,7 +51826,25 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-3 I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^-3 I^-1$"^^ns1:LatexString, + "\\(M T^-3 I^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E-1L1I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L I^-1$"^^ns1:LatexString, + "\\(L I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46748,7 +51860,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -4 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M T^-4 I^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M T^-4 I^-2$"^^ns1:LatexString, + "\\(L^3 M T^-4 I^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -46766,6 +51879,43 @@ ns1:url a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-0dot5I0M1H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -0.5 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-0.5 M T^-2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-0pt5I0M1H0T-2D0"^^xsd:string ; + dcterms:isReplacedBy ; + ns1:deprecated true ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -0.5 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-0.5 M T^-2$"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -46779,8 +51929,10 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 Θ^-1\\)"^^ns1:LatexString ; - ns1:latexSymbol "\\(L^{-1} \\Theta^{-1}\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 Θ^-1$"^^ns1:LatexString, + "\\(L^-1 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexSymbol "$L^{-1} \\Theta^{-1}$"^^ns1:LatexString, + "\\(L^{-1} \\Theta^{-1}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -46798,6 +51950,20 @@ ns1:url a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M-1H0T3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 3 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -46825,7 +51991,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(U L^-2 M^-1 T^3 J\\)"^^ns1:LatexString ; + ns1:latexDefinition "$U L^-2 M^-1 T^3 J$"^^ns1:LatexString, + "\\(U L^-2 M^-1 T^3 J\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46840,7 +52007,24 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-2 J T\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 J T$"^^ns1:LatexString, + "\\(L^-2 J T\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I1M0H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 1 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$I T $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -46870,6 +52054,7 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L T $"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -46900,7 +52085,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 Θ^-1$"^^ns1:LatexString, + "\\(L^2 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46915,7 +52101,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature -1 ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^2 M T^-3 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-3 Θ^-1$"^^ns1:LatexString, + "\\(L^2 M T^-3 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -46930,7 +52117,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^3 M^-1 T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M^-1 T^-2$"^^ns1:LatexString, + "\\(L^3 M^-1 T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -46961,7 +52149,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime -4 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^4 M^2 T^-4\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^4 M^2 T^-4$"^^ns1:LatexString, + "\\(L^4 M^2 T^-4\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -47007,7 +52196,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^{-1} M^{-1} T^2 I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^{-1} M^{-1} T^2 I$"^^ns1:LatexString, + "\\(L^{-1} M^{-1} T^2 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -47023,7 +52213,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-1 T^3 I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^-1 T^3 I$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^3 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -47041,35 +52232,37 @@ ns1:url a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector, + ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L0I0M-1H1T2D0"^^xsd:string ; + rdfs:label "A0E1L0I0M-1H0T2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 1 ; ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M^-1 T^2 I Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$E M^-1 T^2 $"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L0I0M0H-1T0D0"^^xsd:string ; + rdfs:label "A0E1L0I0M-1H1T2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 1 ; ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature -1 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M^-1 T^2 I Θ$"^^ns1:LatexString, + "\\(M^-1 T^2 I Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -47085,7 +52278,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T I$"^^ns1:LatexString, + "\\(L^2 T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -47100,7 +52294,8 @@ ns1:url a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-2 M^-1 T^2 I^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^-1 T^2 I^2$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^2 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -47188,78 +52383,6 @@ ns1:url a rdf:Property ; ns1:ucumCode "Z"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Absolute Humidity"@en ; - dcterms:description "\"Absolute Humidity\" is an amount of water vapor, usually discussed per unit volume. Absolute humidity in air ranges from zero to roughly 30 grams per cubic meter when the air is saturated at $30 ^\\circ C$. The absolute humidity changes as air temperature or pressure changes. This is very inconvenient for chemical engineering calculations, e.g. for clothes dryers, where temperature can vary considerably. As a result, absolute humidity is generally defined in chemical engineering as mass of water vapor per unit mass of dry air, also known as the mass mixing ratio, which is much more rigorous for heat and mass balance calculations. Mass of water per unit volume as in the equation above would then be defined as volumetric humidity. Because of the potential confusion."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Humidity"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Humidity#Absolute_humidity"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition """$AH = \\frac{\\mathcal{M}_\\omega}{\\vee_{net}}$, -where $\\mathcal{M}_\\omega$ is the mass of water vapor per unit volume of total air and $\\vee_{net}$ is water vapor mixture."""^^ns1:LatexString ; - ns1:symbol "AH"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Acidity"@en ; dcterms:description """ @@ -47272,24 +52395,30 @@ where $\\mathcal{M}_\\omega$ is the mass of water vapor per unit volume of total "https://en.wikipedia.org/wiki/PH"^^xsd:anyURI, "https://iupac.org/wp-content/uploads/2019/05/IUPAC-GB3-2012-2ndPrinting-PDFsearchable.pdf"^^xsd:anyURI ; ns1:plainTextDescription "Chemicals or substances having a pH less than 7 are said to be acidic; lower pH means higher acidity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Acidity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Acoustic Impediance"@en ; - dcterms:description "Acoustic impedance at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface."^^rdf:HTML ; + dcterms:description """ + $\\textit{Acoustic Impedance}$ at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface. + """^^ns1:LatexString, + "Acoustic impedance at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Acoustic_impedance"^^xsd:anyURI ; ns1:latexDefinition "$Z_a= \\frac{p}{q} = \\frac{p}{vS}$, where $p$ is the sound pressure, $q$ is the sound volume velocity, $v$ is sound particle velocity, and $S$ is the surface area through which an acoustic wave of frequence $f$ propagates."^^ns1:LatexString ; ns1:plainTextDescription "Acoustic impedance at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface."^^xsd:string ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AcousticImpedance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Fractional Amount of Substance"@en ; - dcterms:description "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ; + dcterms:description "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^ns1:LatexString, + "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_fraction"^^xsd:anyURI ; @@ -47297,13 +52426,38 @@ where $\\mathcal{M}_\\omega$ is the mass of water vapor per unit volume of total ns1:latexDefinition "$x_B = \\frac{n_B}{n}$, where $n_B$ is the amount of substance $B$ and $n$ is the total amount of substance."^^ns1:LatexString ; ns1:plainTextDescription "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^xsd:string ; ns1:symbol "X_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AmountOfSubstanceFraction"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Amount of Substance per Mass"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:AmountOfSubstancePerMass"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molar Mass variation due to Pressure"@en ; - dcterms:description "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^rdf:HTML ; + dcterms:description "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^ns1:LatexString, + "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^rdf:HTML ; + dcterms:isReplacedBy ; ns1:applicableUnit , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:plainTextDescription "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^xsd:string ; rdfs:isDefinedBy . @@ -47319,7 +52473,8 @@ where $\\mathcal{M}_\\omega$ is the mass of water vapor per unit volume of total "liczba falowa kątowa"@pl, "número de onda angular"@pt, "角波数"@zh ; - dcterms:description "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector."^^rdf:HTML ; + dcterms:description "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector."^^ns1:LatexString, + "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -47333,6 +52488,7 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron ns1:plainTextDescription "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector."^^xsd:string ; ns1:symbol "k"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularWavenumber"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "تكرار زاوى"@ar, "Kreiswellenzahl"@de, @@ -47371,6 +52527,7 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$\\left | \\underline{S} \\right | = UI$, where $U$ is rms value of voltage and $I$ is rms value of electric current."^^ns1:LatexString ; ns1:latexSymbol "$\\left | \\underline{S} \\right |$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ComplexPower"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , ; @@ -47379,21 +52536,25 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron a ns1:QuantityKind ; rdfs:label "Area Thermal Expansion"@en ; - dcterms:description "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion."^^rdf:HTML ; + dcterms:description "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion."^^ns1:LatexString, + "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/area_thermal_expansion"^^xsd:anyURI ; ns1:plainTextDescription "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AreaThermalExpansion"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Atmospheric Hydroxylation Rate"@en ; - dcterms:description "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical."^^rdf:HTML ; + dcterms:description "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical."^^ns1:LatexString, + "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical."^^rdf:HTML ; ns1:applicableUnit , , ; ns1:hasDimensionVector ; ns1:plainTextDescription "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AtmosphericHydroxylationRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -47409,32 +52570,76 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron "https://en.wikipedia.org/wiki/PH"^^xsd:anyURI, "https://iupac.org/wp-content/uploads/2019/05/IUPAC-GB3-2012-2ndPrinting-PDFsearchable.pdf"^^xsd:anyURI ; ns1:plainTextDescription "Chemicals or substances having a pH higher than 7 are said to be basic; higher pH means higher basicity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Basicity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Blood Glucose Level"@en ; - dcterms:description "The blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and other animals. Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. The body tightly regulates blood glucose levels as a part of metabolic homeostasis. Glucose is stored in skeletal muscle and liver cells in the form of glycogen;[2] in fasted individuals, blood glucose is maintained at a constant level at the expense of glycogen stores in the liver and skeletal muscle. [Wikipedia] $\\\\$ There are two main methods of describing concentrations: by weight, and by molecular count. Weights are in grams, molecular counts in moles. A mole is $6.022\\times 10^{23}$ molecules.) In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, and is always $per$ some volume, often a liter. Conversion factors depend on the molecular weight of the substance in question. $\\\\$ $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. Specifically, it is the designated SI (Systeme International) unit. 'World standard' is not universal; not only the US but a number of other countries use mg/dl. A mole is about $6\\times 10^{23}$ molecules. $\\\\$ $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring bG (blood glucose). There is a trend toward using $mmol/L$ however mg/dL is much in practice. Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL|)."^^ns1:LatexString ; + dcterms:description """ + Blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and animals. + Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. + Stored in skeletal muscle and liver cells in the form of glycogen, the body tightly regulates blood glucose levels as a part of metabolic homeostasis. + During fasting blood glucose is maintained at a constant level at the expense of the glycogen stores in the liver and skeletal muscle. + There are two main methods of describing concentrations: by weight, and by molecular count. + Weights are in grams and molecular counts in moles. + A mole is $6.022\\times 10^{23}$ molecules. + In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, + and is always $per$ some volume, often a litre. + Conversion factors depend on the molecular weight of the substance in question. + $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. + Specifically, it is the designated SI (Systeme International) unit. + Some countries use $mg/dl$. + A mole is about $6\\times 10^{23}$ molecules. + $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring $bG$ (blood glucose). + There is a trend toward using $mmol/L$ however $mg/dL$ is much in practice. + Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. + This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL$. + """^^ns1:LatexString, + "The blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and other animals. Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. The body tightly regulates blood glucose levels as a part of metabolic homeostasis. Glucose is stored in skeletal muscle and liver cells in the form of glycogen;[2] in fasted individuals, blood glucose is maintained at a constant level at the expense of glycogen stores in the liver and skeletal muscle. [Wikipedia] $\\\\$ There are two main methods of describing concentrations: by weight, and by molecular count. Weights are in grams, molecular counts in moles. A mole is $6.022\\times 10^{23}$ molecules.) In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, and is always $per$ some volume, often a liter. Conversion factors depend on the molecular weight of the substance in question. $\\\\$ $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. Specifically, it is the designated SI (Systeme International) unit. 'World standard' is not universal; not only the US but a number of other countries use mg/dl. A mole is about $6\\times 10^{23}$ molecules. $\\\\$ $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring bG (blood glucose). There is a trend toward using $mmol/L$ however mg/dL is much in practice. Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL|)."^^ns1:LatexString ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.faqs.org/faqs/diabetes/faq/part1/section-9.html"^^xsd:anyURI ; - rdfs:comment "citation: https://en.wikipedia.org/wiki/Blood_sugar_level"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BloodGlucoseLevel"^^xsd:string, + "citation: https://en.wikipedia.org/wiki/Blood_sugar_level"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Blood Glucose Level by Mass"@en ; - dcterms:description "The blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and other animals. Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. The body tightly regulates blood glucose levels as a part of metabolic homeostasis. Glucose is stored in skeletal muscle and liver cells in the form of glycogen;[2] in fasted individuals, blood glucose is maintained at a constant level at the expense of glycogen stores in the liver and skeletal muscle. [Wikipedia] $\\\\$ There are two main methods of describing concentrations: by weight, and by molecular count. Weights are in grams, molecular counts in moles. A mole is $6.022\\times 10^{23}$ molecules.) In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, and is always $per$ some volume, often a liter. Conversion factors depend on the molecular weight of the substance in question. $\\\\$ $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. Specifically, it is the designated SI (Systeme International) unit. 'World standard' is not universal; not only the US but a number of other countries use mg/dl. A mole is about $6\\times 10^{23}$ molecules. $\\\\$ $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring bG (blood glucose). There is a trend toward using $mmol/L$ however mg/dL is much in practice. Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL|)."^^ns1:LatexString ; + dcterms:description """ + Blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and animals. + Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. + Stored in skeletal muscle and liver cells in the form of glycogen, the body tightly regulates blood glucose levels as a part of metabolic homeostasis. + During fasting blood glucose is maintained at a constant level at the expense of the glycogen stores in the liver and skeletal muscle. + There are two main methods of describing concentrations: by weight, and by molecular count. + Weights are in grams and molecular counts in moles. + A mole is $6.022\\times 10^{23}$ molecules. + In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, + and is always $per$ some volume, often a litre. + Conversion factors depend on the molecular weight of the substance in question. + $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. + Specifically, it is the designated SI (Systeme International) unit. + Some countries use $mg/dl$. + A mole is about $6\\times 10^{23}$ molecules. + $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring $bG$ (blood glucose). + There is a trend toward using $mmol/L$ however $mg/dL$ is much in practice. + Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. + This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL$. + """^^ns1:LatexString, + "The blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and other animals. Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. The body tightly regulates blood glucose levels as a part of metabolic homeostasis. Glucose is stored in skeletal muscle and liver cells in the form of glycogen;[2] in fasted individuals, blood glucose is maintained at a constant level at the expense of glycogen stores in the liver and skeletal muscle. [Wikipedia] $\\\\$ There are two main methods of describing concentrations: by weight, and by molecular count. Weights are in grams, molecular counts in moles. A mole is $6.022\\times 10^{23}$ molecules.) In both cases, the unit is usually modified by $milli-$ or $micro-$ or other prefix, and is always $per$ some volume, often a liter. Conversion factors depend on the molecular weight of the substance in question. $\\\\$ $mmol/L$ is millimoles/liter, and is the world standard unit for measuring glucose in blood. Specifically, it is the designated SI (Systeme International) unit. 'World standard' is not universal; not only the US but a number of other countries use mg/dl. A mole is about $6\\times 10^{23}$ molecules. $\\\\$ $mg/dL$ (milligrams/deciliter) is the traditional unit for measuring bG (blood glucose). There is a trend toward using $mmol/L$ however mg/dL is much in practice. Some use is made of $mmol/L$ as the primary unit with $mg/dL$ quoted in parentheses. This acknowledges the large base of health care providers, researchers and patients who are already familiar with $mg/dL|)."^^ns1:LatexString ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.faqs.org/faqs/diabetes/faq/part1/section-9.html"^^xsd:anyURI ; - rdfs:comment "citation: https://en.wikipedia.org/wiki/Blood_sugar_level"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BloodGlucoseLevel_Mass"^^xsd:string, + "citation: https://en.wikipedia.org/wiki/Blood_sugar_level"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Bulk Modulus"@en ; - dcterms:description "The bulk modulus of a substance measures the substance's resistance to uniform compression. It is defined as the ratio of the infinitesimal pressure increase to the resulting relative decrease of the volume."^^rdf:HTML ; + dcterms:description "The bulk modulus of a substance measures the substance's resistance to uniform compression. It is defined as the ratio of the infinitesimal pressure increase to the resulting relative decrease of the volume."^^ns1:LatexString, + "The bulk modulus of a substance measures the substance's resistance to uniform compression. It is defined as the ratio of the infinitesimal pressure increase to the resulting relative decrease of the volume."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -47443,11 +52648,13 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron ns1:latexDefinition "$K = \\frac{p}{\\vartheta}$, where $p$ is pressure and $\\vartheta$ is volume strain."^^ns1:LatexString ; ns1:plainTextDescription "The bulk modulus of a substance measures the substance's resistance to uniform compression. It is defined as the ratio of the infinitesimal pressure increase to the resulting relative decrease of the volume."^^xsd:string ; ns1:symbol "K"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BulkModulus"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Circulation"@en ; - dcterms:description "In fluid dynamics, circulation is the line integral around a closed curve of the fluid velocity. It has dimensions of length squared over time."^^rdf:HTML ; + dcterms:description "In fluid dynamics, circulation is the line integral around a closed curve of the fluid velocity. It has dimensions of length squared over time."^^ns1:LatexString, + "In fluid dynamics, circulation is the line integral around a closed curve of the fluid velocity. It has dimensions of length squared over time."^^rdf:HTML ; ns1:applicableUnit , , , @@ -47459,29 +52666,34 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron ns1:hasDimensionVector ; ns1:latexSymbol "$\\Gamma$"^^ns1:LatexString ; ns1:plainTextDescription "In fluid dynamics, circulation is the line integral around a closed curve of the fluid velocity. It has dimensions of length squared over time."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AreaPerTime"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Conduction Speed"@en ; - dcterms:description "\"Conduction Speed\" is the speed of impulses in nerve fibers."^^rdf:HTML ; + dcterms:description "\"Conduction Speed\" is the speed of impulses in nerve fibers."^^ns1:LatexString, + "\"Conduction Speed\" is the speed of impulses in nerve fibers."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; ns1:plainTextDescription "\"Conduction Speed\" is the speed of impulses in nerve fibers."^^xsd:string ; ns1:symbol "c"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ConductionSpeed"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Correlated Colour Temperature"@en, "Correlated Color Temperature"@en-us ; - dcterms:description "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity."^^rdf:HTML ; + dcterms:description "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity."^^ns1:LatexString, + "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "https://www.lrc.rpi.edu/programs/nlpip/lightinganswers/lightsources/whatiscct.asp#:~:text=Correlated%20color%20temperature%20(CCT)%20is,required%20to%20specify%20a%20chromaticity."^^xsd:anyURI ; ns1:plainTextDescription "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CorrelatedColorTemperature"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . @@ -47511,13 +52723,22 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron "Точка Кюри"@ru, "Curie sıcaklığı"@tr, "居里点"@zh ; - dcterms:description "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet."^^rdf:HTML ; + dcterms:description "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet."^^ns1:LatexString, + "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Curie_temperature"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet."^^xsd:string ; ns1:symbol "T_C"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; + skos:broader ; skos:closeMatch , . @@ -47527,12 +52748,14 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:CurrencyPerFlight"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Displacement Current"@en ; - dcterms:description "\"Displacement Current\" is a quantity appearing in Maxwell's equations that is defined in terms of the rate of change of electric displacement field. Displacement current has the units of electric current density, and it has an associated magnetic field just as actual currents do. However it is not an electric current of moving charges, but a time-varying electric field. In materials, there is also a contribution from the slight motion of charges bound in atoms, dielectric polarization."^^rdf:HTML ; + dcterms:description "\"Displacement Current\" is a quantity appearing in Maxwell's equations that is defined in terms of the rate of change of electric displacement field. Displacement current has the units of electric current density, and it has an associated magnetic field just as actual currents do. However it is not an electric current of moving charges, but a time-varying electric field. In materials, there is also a contribution from the slight motion of charges bound in atoms, dielectric polarization."^^ns1:LatexString, + "\"Displacement Current\" is a quantity appearing in Maxwell's equations that is defined in terms of the rate of change of electric displacement field. Displacement current has the units of electric current density, and it has an associated magnetic field just as actual currents do. However it is not an electric current of moving charges, but a time-varying electric field. In materials, there is also a contribution from the slight motion of charges bound in atoms, dielectric polarization."^^rdf:HTML ; ns1:applicableUnit , , , @@ -47545,6 +52768,7 @@ $k = \\frac{p}{\\hbar}$, where $p$ is the linear momentum of quasi free electron ns1:latexDefinition "$I_D= \\int_S J_D \\cdot e_n dA$, over a surface $S$, where $J_D$ is displacement current density and $e_n dA$ is the vector surface element."^^ns1:LatexString ; ns1:plainTextDescription "\"Displacement Current\" is a quantity appearing in Maxwell's equations that is defined in terms of the rate of change of electric displacement field. Displacement current has the units of electric current density, and it has an associated magnetic field just as actual currents do. However it is not an electric current of moving charges, but a time-varying electric field. In materials, there is also a contribution from the slight motion of charges bound in atoms, dielectric polarization."^^xsd:string ; ns1:symbol "I_D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DisplacementCurrent"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -47562,6 +52786,7 @@ $\\text{Displacement Current Density}$ is the time rate of change of the $\\text "http://www.maxwells-equations.com/math/partial-electric-flux.php"^^xsd:anyURI ; ns1:latexDefinition "$J_D = \\frac{\\partial D}{\\partial t}$, where $D$ is electric flux density and $t$ is time."^^ns1:LatexString ; ns1:latexSymbol "$J_D$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:DisplacementCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -47572,22 +52797,28 @@ $\\text{Displacement Current Density}$ is the time rate of change of the $\\text ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI ; ns1:latexSymbol "$\\lambda$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargeLineDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Current per Unit Length"@en ; + dcterms:isReplacedBy ; + ns1:deprecated true ; ns1:hasDimensionVector ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Current per Unit Temperature"@en ; - dcterms:description "\"Electric Current per Unit Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^rdf:HTML ; + dcterms:description "\"Electric Current per Unit Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^ns1:LatexString, + "\"Electric Current per Unit Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^rdf:HTML ; + dcterms:isReplacedBy ; ns1:applicableUnit , , , , , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Electric Current per Unit Temperature\" is used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^xsd:string ; rdfs:isDefinedBy . @@ -47596,12 +52827,14 @@ $\\text{Displacement Current Density}$ is the time rate of change of the $\\text rdfs:label "Cubic Electric Dipole Moment per Square Energy"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ElectricDipoleMoment_CubicPerEnergy_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Quartic Electric Dipole Moment per Cubic Energy"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ElectricDipoleMoment_QuarticPerEnergy_Cubic"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -47688,12 +52921,16 @@ $\\text{Displacement Current Density}$ is the time rate of change of the $\\text ns1:hasDimensionVector ; ns1:latexDefinition "$p = ui$, where $u$ is instantaneous voltage and $i$ is instantaneous electric current."^^ns1:LatexString ; ns1:symbol "P_E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Electromagnetic Energy Density"@en ; dcterms:description """ +$\\textit{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\text{Volumic Electromagnetic Energy}}$, is the energy associated with an electromagnetic field, per unit volume of the field. + """^^ns1:LatexString, + """ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\text{Volumic Electromagnetic Energy}}$, is the energy associated with an electromagnetic field, per unit volume of the field. """^^ns1:LatexString ; ns1:applicableUnit ; @@ -47703,6 +52940,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$w = (1/2) ( \\mathbf{E} \\cdot \\mathbf{D} + \\mathbf{B} \\cdot \\mathbf{H})$, where $\\mathbf{E}$ is electric field strength, $\\mathbf{D}$ is electric flux density, $\\mathbf{M}$ is magnetic flux density, and $\\mathbf{H}$ is magnetic field strength."^^ns1:LatexString ; ns1:symbol "w"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectromagneticEnergyDensity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -47711,7 +52949,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Energy Fluence"@en ; - dcterms:description "\"Energy Fluence\" can be used to describe the energy delivered per unit area"^^rdf:HTML ; + dcterms:description "\"Energy Fluence\" can be used to describe the energy delivered per unit area"^^ns1:LatexString, + "\"Energy Fluence\" can be used to describe the energy delivered per unit area"^^rdf:HTML ; ns1:applicableUnit , , , @@ -47722,6 +52961,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$\\Psi = \\frac{dR}{dA}$, where $dR$ describes the sum of radiant energies, exclusive of rest energy, of all particles incident on a small spherical domain, and $dA$ describes the cross-sectional area of that domain."^^ns1:LatexString ; ns1:latexSymbol "$\\Psi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Energy Fluence\" can be used to describe the energy delivered per unit area"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyFluence"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -47799,6 +53039,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Internal_energy"^^xsd:anyURI ; ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "thermodynamische Energie"@de, "thermodynamic energy"@en, @@ -47809,15 +53050,18 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Energy Per Square Magnetic Flux Density"@en ; - dcterms:description "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^rdf:HTML ; + dcterms:description "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^ns1:LatexString, + "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerMagneticFluxDensity_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy Per Square Magnetic Flux Density"@en ; - dcterms:description "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^rdf:HTML ; + dcterms:description "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^ns1:LatexString, + "\"Energy Per Square Magnetic Flux Density\" is a measure of energy for a unit of magnetic flux density."^^rdf:HTML ; dcterms:isReplacedBy ; ns1:deprecated true ; ns1:hasDimensionVector ; @@ -47826,7 +53070,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Exposure Rate"@en ; - dcterms:description "\"Exposure Rate\" expresses the rate of charge production per unit mass of air and is commonly expressed in roentgens per hour (R/h) or milliroentgens per hour (mR/h)."^^rdf:HTML ; + dcterms:description "\"Exposure Rate\" expresses the rate of charge production per unit mass of air and is commonly expressed in roentgens per hour (R/h) or milliroentgens per hour (mR/h)."^^ns1:LatexString, + "\"Exposure Rate\" expresses the rate of charge production per unit mass of air and is commonly expressed in roentgens per hour (R/h) or milliroentgens per hour (mR/h)."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -47836,17 +53081,20 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$\\dot{X} = \\frac{dX}{dt}$, where $X$ is the increment of exposure during time interval with duration $t$."^^ns1:LatexString ; ns1:latexSymbol "$\\dot{X}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Exposure Rate\" expresses the rate of charge production per unit mass of air and is commonly expressed in roentgens per hour (R/h) or milliroentgens per hour (mR/h)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ExposureRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Force per Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Friction"@en ; - dcterms:description "\"Friction\" is the force of two surfaces In contact, or the force of a medium acting on a moving object (that is air on an aircraft). When contacting surfaces move relative to each other, the friction between the two objects converts kinetic energy into thermal energy."^^rdf:HTML ; + dcterms:description "\"Friction\" is the force of two surfaces In contact, or the force of a medium acting on a moving object (that is air on an aircraft). When contacting surfaces move relative to each other, the friction between the two objects converts kinetic energy into thermal energy."^^ns1:LatexString, + "\"Friction\" is the force of two surfaces In contact, or the force of a medium acting on a moving object (that is air on an aircraft). When contacting surfaces move relative to each other, the friction between the two objects converts kinetic energy into thermal energy."^^rdf:HTML ; ns1:applicableUnit , , , @@ -47875,6 +53123,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:informativeReference "http://en.wikipedia.org/wiki/Friction"^^xsd:anyURI, "http://wiki.answers.com/Q/What_is_the_symbol_of_friction"^^xsd:anyURI ; ns1:plainTextDescription "\"Friction\" is the force of two surfaces In contact, or the force of a medium acting on a moving object (that is air on an aircraft). When contacting surfaces move relative to each other, the friction between the two objects converts kinetic energy into thermal energy."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -47894,7 +53143,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "fugacitate"@ro, "fügasite"@tr, "逸度"@zh ; - dcterms:description "\"Fugacity\" of a real gas is an effective pressure which replaces the true mechanical pressure in accurate chemical equilibrium calculations. It is equal to the pressure of an ideal gas which has the same chemical potential as the real gas."^^rdf:HTML ; + dcterms:description "\"Fugacity\" of a real gas is an effective pressure which replaces the true mechanical pressure in accurate chemical equilibrium calculations. It is equal to the pressure of an ideal gas which has the same chemical potential as the real gas."^^ns1:LatexString, + "\"Fugacity\" of a real gas is an effective pressure which replaces the true mechanical pressure in accurate chemical equilibrium calculations. It is equal to the pressure of an ideal gas which has the same chemical potential as the real gas."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -47902,11 +53152,88 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexSymbol "$\\tilde{p}_B$"^^ns1:LatexString ; ns1:plainTextDescription "\"Fugacity\" of a real gas is an effective pressure which replaces the true mechanical pressure in accurate chemical equilibrium calculations. It is equal to the pressure of an ideal gas which has the same chemical potential as the real gas."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Fugacity"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Gauge Pressure"@en ; + dcterms:description """Gauge Pressure is the pressure of a system relative to the pressure of the surrounding atmosphere. +It is the difference between the absolute pressure and the atmospheric pressure. Gauge pressure is positive for pressures +above atmospheric pressure and negative for pressures below it. A Quantity in QUDT having a QuantityKind of GaugePressure +would typically also assert the value of qudt:isDeltaQuantity to be true, indicating that the value is a difference between +two pressures."""^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Gravitational Attraction"@en ; - dcterms:description "The force of attraction between all masses in the universe; especially the attraction of the earth's mass for bodies near its surface; the more remote the body the less the gravity; the gravitation between two bodies is proportional to the product of their masses and inversely proportional to the square of the distance between them."^^rdf:HTML ; + dcterms:description "The force of attraction between all masses in the universe; especially the attraction of the earth's mass for bodies near its surface; the more remote the body the less the gravity; the gravitation between two bodies is proportional to the product of their masses and inversely proportional to the square of the distance between them."^^ns1:LatexString, + "The force of attraction between all masses in the universe; especially the attraction of the earth's mass for bodies near its surface; the more remote the body the less the gravity; the gravitation between two bodies is proportional to the product of their masses and inversely proportional to the square of the distance between them."^^rdf:HTML ; ns1:applicableUnit , , , @@ -47934,12 +53261,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:informativeReference "http://www.thefreedictionary.com/gravitational+attraction"^^xsd:anyURI ; ns1:plainTextDescription "The force of attraction between all masses in the universe; especially the attraction of the earth's mass for bodies near its surface; the more remote the body the less the gravity; the gravitation between two bodies is proportional to the product of their masses and inversely proportional to the square of the distance between them."^^xsd:string ; ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Group Speed of Sound"@en ; - dcterms:description "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. The group speed of sound describes the propagation of the disturbance."^^rdf:HTML ; + dcterms:description "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. The group speed of sound describes the propagation of the disturbance."^^ns1:LatexString, + "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. The group speed of sound describes the propagation of the disturbance."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -47948,46 +53277,10 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. The group speed of sound describes the propagation of the disturbance."^^xsd:string ; ns1:symbol "c"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:GroupSpeedOfSound"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "شدة الضوء"@ar, - "Осветеност"@bg, - "Intenzita osvětlení"@cs, - "Beleuchtungsstärke"@de, - "illuminance"@en, - "luminosidad"@es, - "شدت روشنایی"@fa, - "éclairement lumineux"@fr, - "הארה (שטף ליחידת שטח)"@he, - "प्रदीपन"@hi, - "megvilágítás"@hu, - "illuminamento"@it, - "照度"@ja, - "Pencahayaan"@ms, - "natężenie oświetlenia"@pl, - "iluminamento"@pt, - "iluminare"@ro, - "Освещённость"@ru, - "osvetljenost"@sl, - "aydınlanma şiddeti"@tr, - "照度"@zh ; - dcterms:description "Illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of the intensity of the incident light, wavelength-weighted by the luminosity function to correlate with human brightness perception."^^rdf:HTML ; - ns1:applicableUnit , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Illuminance"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD062"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Illuminance"^^xsd:anyURI ; - ns1:latexDefinition "$E_v = \\frac{d\\Phi}{dA}$, where $d\\Phi$ is the luminous flux incident on an element of the surface with area $dA$."^^ns1:LatexString ; - ns1:plainTextDescription "Illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of the intensity of the incident light, wavelength-weighted by the luminosity function to correlate with human brightness perception."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - skos:altLabel "éclairement"@fr ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Inverse Energy"@en ; ns1:applicableUnit , @@ -47995,12 +53288,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD156"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:InverseEnergy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Inverse Permittivity"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InversePermittivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48010,14 +53305,10 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:hasDimensionVector ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Inverse Time"@en ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "Ionization Energy"@en ; - dcterms:description "\"Ionization Energy\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The amount of energy required to remove an electron from that atom or molecule in the gas phase."^^rdf:HTML ; + dcterms:description "\"Ionization Energy\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The amount of energy required to remove an electron from that atom or molecule in the gas phase."^^ns1:LatexString, + "\"Ionization Energy\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The amount of energy required to remove an electron from that atom or molecule in the gas phase."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48072,12 +53363,16 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Ionization Energy\" is the energy difference between an electron at rest at infinity and an electron at a certain energy level. The amount of energy required to remove an electron from that atom or molecule in the gas phase."^^xsd:string ; ns1:symbol "E_i"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Isentropic Compressibility"@en ; - dcterms:description "Isentropic compressibility is the extent to which a material reduces its volume when it is subjected to compressive stresses at a constant value of entropy."^^rdf:HTML ; + dcterms:description """ + $\\textit{Isentropic compressibility}$ is the extent to which a material reduces its volume when it is subjected to compressive stresses at a constant value of entropy. + """^^ns1:LatexString, + "Isentropic compressibility is the extent to which a material reduces its volume when it is subjected to compressive stresses at a constant value of entropy."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -48086,6 +53381,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$\\varkappa_S = \\frac{1}{V}\\left (\\frac{\\partial V}{\\partial p} \\right )_S$, where $V$ is volume, $p$ is $pressure$, and $S$ is entropy,"^^ns1:LatexString ; ns1:latexSymbol "$\\varkappa_S$"^^ns1:LatexString ; ns1:plainTextDescription "Isentropic compressibility is the extent to which a material reduces its volume when it is subjected to compressive stresses at a constant value of entropy."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:IsentropicCompressibility"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48104,7 +53400,12 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "adiabatni eksponent"@sl, "ısı sığası oranı; adyabatik indeks"@tr, "绝热指数"@zh ; - dcterms:description "Isentropic exponent is a variant of \"Specific Heat Ratio Capacities}. For an ideal gas \\textit{Isentropic Exponent\"$, \\varkappa$. is equal to $\\gamma$, the ratio of its specific heat capacities $c_p$ and $c_v$ under steady pressure and volume."^^ns1:LatexString ; + dcterms:description """ + $\\textit{Isentropic Exponent}$ is a variant of $\\textit{Specific Heat Ratio Capacities}$. + For an ideal gas $\\textit{Isentropic Exponent}$, $\\varkappa$. is equal to $\\gamma$, + the ratio of its specific heat capacities $c_p$ and $c_v$ under steady pressure and volume. + """^^ns1:LatexString, + "Isentropic exponent is a variant of \"Specific Heat Ratio Capacities}. For an ideal gas \\textit{Isentropic Exponent\"$, \\varkappa$. is equal to $\\gamma$, the ratio of its specific heat capacities $c_p$ and $c_v$ under steady pressure and volume."^^ns1:LatexString ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.citizendium.org/wiki/Specific_heat_ratio"^^xsd:anyURI, @@ -48112,14 +53413,39 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$\\varkappa = -\\frac{V}{p}\\left \\{ \\frac{\\partial p}{\\partial V}\\right \\}_S$, where $V$ is volume, $p$ is pressure, and $S$ is entropy."^^ns1:LatexString ; ns1:latexSymbol "$\\varkappa$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:IsentropicExponent"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:altLabel "indice adiabatique"@fr, "indice adiabatico"@it . + a ns1:QuantityKind ; + rdfs:label "Length Ratio"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Linear Density"@en ; - dcterms:description "The Linear density, linear mass density or linear mass is a measure of mass per unit of length, and it is a characteristic of strings or other one-dimensional objects."^^rdf:HTML ; + dcterms:description "The Linear density, linear mass density or linear mass is a measure of mass per unit of length, and it is a characteristic of strings or other one-dimensional objects."^^ns1:LatexString, + "The Linear density, linear mass density or linear mass is a measure of mass per unit of length, and it is a characteristic of strings or other one-dimensional objects."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -48128,11 +53454,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$\\rho_l = \\frac{dm}{dl}$, where $m$ is mass and $l$ is length."^^ns1:LatexString ; ns1:latexSymbol "$\\rho_l$"^^ns1:LatexString ; ns1:plainTextDescription "The Linear density, linear mass density or linear mass is a measure of mass per unit of length, and it is a characteristic of strings or other one-dimensional objects."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Magnetic Tension"@en ; - dcterms:description "\"Magnetic Tension} is a scalar quantity equal to the line integral of the magnetic field strength \\mathbf{H\" along a specified path linking two points a and b."^^rdf:HTML ; + dcterms:description "\"Magnetic Tension\" is a scalar quantity equal to the line integral of the magnetic field strength $\\mathbf{H}$ along a specified path linking two points a and b."^^ns1:LatexString, + "\"Magnetic Tension} is a scalar quantity equal to the line integral of the magnetic field strength \\mathbf{H\" along a specified path linking two points a and b."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48143,8 +53471,10 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=121-11-57"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$U_m = \\int_{r_a(C)}^{r_b} \\mathbf{H} \\cdot dr$, where $\\mathbf{H}$ is magnetic field strength and $r$ is the position vector along a given curve $C$ from point $a$ to point $b$."^^ns1:LatexString ; - ns1:plainTextDescription "\"Magnetic Tension} is a scalar quantity equal to the line integral of the magnetic field strength \\mathbf{H\" along a specified path linking two points a and b."^^xsd:string ; + ns1:plainTextDescription "\"Magnetic Tension} is a scalar quantity equal to the line integral of the magnetic field strength \\mathbf{H\" along a specified path linking two points a and b."^^xsd:string, + "Magnetic Tension is a scalar quantity equal to the line integral of the magnetic field strength H along a specified path linking two points a and b."^^xsd:string ; ns1:symbol "U_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticTension"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -48159,7 +53489,9 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "magnetyzacia"@pl, "magnetização"@pt, "намагниченность"@ru ; - dcterms:description "\"Magnetization\" is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^rdf:HTML ; + dcterms:description "\"Magnetization\" is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^ns1:LatexString, + "\"Magnetization\" is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^rdf:HTML ; + ns1:altSymbol "H_i"^^xsd:string ; ns1:applicableUnit , , , @@ -48173,6 +53505,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "\"Magnetization\" is defined as the ratio of magnetic moment per unit volume. It is a vector-valued quantity."^^xsd:string ; ns1:symbol "H_i"^^xsd:string, "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearElectricCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -48183,25 +53516,31 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Mass Fraction of Dry Matter"@en ; - dcterms:description "\"Mass Fraction of Dry Matter} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Fraction of Dry Matter\" is one of a number of $\\textit{Concentration}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Fraction of Dry Matter} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$w_d= 1 - w_{h2o}$, where $w_{h2o}$ is mass fraction of water."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Fraction of Dry Matter} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Fraction of Dry Matter\" is one of a number of Concentration quantities defined by ISO 80000."^^xsd:string, + "\"Mass Fraction of Dry Matter} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string ; ns1:symbol "w_d"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassFractionOfDryMatter"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Mass Fraction of Water"@en ; - dcterms:description "\"Mass Fraction of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; + dcterms:description "\"Mass Fraction of Water\" is one of a number of $\\textit{Concentration}$ quantities defined by ISO 80000."^^ns1:LatexString, + "\"Mass Fraction of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$w_{H_2o} = \\frac{u}{1+u}$, where $u$ is mass ratio of water to dry water."^^ns1:LatexString ; - ns1:plainTextDescription "\"Mass Fraction of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string ; + ns1:plainTextDescription "\"Mass Fraction of Water} is one of a number of \\textit{Concentration\" quantities defined by ISO 8000."^^xsd:string, + "Mass Fraction of Water is one of a number of Concentration quantities defined by ISO 80000."^^xsd:string ; ns1:symbol "w_{H_2o}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassFractionOfWater"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -48211,11 +53550,30 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mass-to-charge_ratio"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:MassPerElectricCharge"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Massic Activity"@en ; + dcterms:description "\"Massic Activity\" is the activity divided by the total mass of the sample."^^ns1:LatexString, + "\"Massic Activity\" is the activity divided by the total mass of the sample."^^rdf:HTML ; + ns1:applicableUnit , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD110"^^xsd:string ; + ns1:informativeReference "http://www.encyclo.co.uk/define/massic%20activity"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:plainTextDescription "\"Massic Activity\" is the activity divided by the total mass of the sample."^^xsd:string ; + ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassicActivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mean Mass Range"@en ; - dcterms:description "\"Mean Mass Range\" is the mean linear range multiplied by the mass density of the material."^^rdf:HTML ; + dcterms:description "\"Mean Mass Range\" is the mean linear range multiplied by the mass density of the material."^^ns1:LatexString, + "\"Mean Mass Range\" is the mean linear range multiplied by the mass density of the material."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48227,11 +53585,37 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$R_\\rho = R\\rho$, where $R$ is the mean linear range and $\\rho$ is the mass density of the sample."^^ns1:LatexString ; ns1:latexSymbol "$R_\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "\"Mean Mass Range\" is the mean linear range multiplied by the mass density of the material."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MeanMassRange"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "قابلية التحرك"@ar, + "Beweglichkeit"@de, + "mobility"@en, + "movilidad"@es, + "mobilité"@fr, + "mobilità"@it, + "移動度"@ja, + "mobilność"@pl, + "mobilidade"@pt, + "迁移率"@zh ; + dcterms:description "\"Mobility\" characterizes how quickly a particle can move through a metal or semiconductor, when pulled by an electric field. The average drift speed imparted to a charged particle in a medium by an electric field, divided by the electric field strength."^^ns1:LatexString, + "\"Mobility\" characterizes how quickly a particle can move through a metal or semiconductor, when pulled by an electric field. The average drift speed imparted to a charged particle in a medium by an electric field, divided by the electric field strength."^^rdf:HTML ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Electron_mobility"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + ns1:plainTextDescription "\"Mobility\" characterizes how quickly a particle can move through a metal or semiconductor, when pulled by an electric field. The average drift speed imparted to a charged particle in a medium by an electric field, divided by the electric field strength."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mobility"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "Mobilität"@de . + a ns1:QuantityKind ; rdfs:label "Molar Absorption Coefficient"@en ; - dcterms:description "\"Molar Absorption Coefficient\" is a spectrophotometric unit indicating the light a substance absorbs with respect to length, usually centimeters, and concentration, usually moles per liter."^^rdf:HTML ; + dcterms:description "\"Molar Absorption Coefficient\" is a spectrophotometric unit indicating the light a substance absorbs with respect to length, usually centimeters, and concentration, usually moles per liter."^^ns1:LatexString, + "\"Molar Absorption Coefficient\" is a spectrophotometric unit indicating the light a substance absorbs with respect to length, usually centimeters, and concentration, usually moles per liter."^^rdf:HTML ; ns1:applicableUnit ; ns1:exactMatch ; ns1:hasDimensionVector ; @@ -48239,11 +53623,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$x = aV_m$, where $a$ is the linear absorption coefficient and $V_m$ is the molar volume."^^ns1:LatexString ; ns1:plainTextDescription "\"Molar Absorption Coefficient\" is a spectrophotometric unit indicating the light a substance absorbs with respect to length, usually centimeters, and concentration, usually moles per liter."^^xsd:string ; ns1:symbol "x"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarAbsorptionCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Neel Temperature"@en ; - dcterms:description "\"Neel Temperature\" is the critical thermodynamic temperature of an antiferromagnet."^^rdf:HTML ; + dcterms:description "\"Neel Temperature\" is the critical thermodynamic temperature of an antiferromagnet."^^ns1:LatexString, + "\"Neel Temperature\" is the critical thermodynamic temperature of an antiferromagnet."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48255,6 +53641,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Neel Temperature\" is the critical thermodynamic temperature of an antiferromagnet."^^xsd:string ; ns1:symbol "T_C"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch , @@ -48262,7 +53649,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Nuclear Quadrupole Moment"@en ; - dcterms:description "\"Nuclear Quadrupole Moment\" is a quantity that characterizes the deviation from spherical symmetry of the electrical charge distribution in an atomic nucleus."^^rdf:HTML ; + dcterms:description "\"Nuclear Quadrupole Moment\" is a quantity that characterizes the deviation from spherical symmetry of the electrical charge distribution in an atomic nucleus."^^ns1:LatexString, + "\"Nuclear Quadrupole Moment\" is a quantity that characterizes the deviation from spherical symmetry of the electrical charge distribution in an atomic nucleus."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -48272,11 +53660,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$Q = (\\frac{1}{e}) \\int (3z^2 - r^2)\\rho(x, y, z)dV$, in the quantum state with the nuclear spin in the field direction $(z)$, where $\\rho(x, y, z)$ is the nuclear electric charge density, $e$ is the elementary charge, $r^2 = x^2 + y^2 + z^2$, and $dV$ is the volume element $dx$ $dy$ $dz$."^^ns1:LatexString ; ns1:plainTextDescription "\"Nuclear Quadrupole Moment\" is a quantity that characterizes the deviation from spherical symmetry of the electrical charge distribution in an atomic nucleus."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NuclearQuadrupoleMoment"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Phase speed of sound"@en ; - dcterms:description "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. Each frequency component propagates at its own Phase Velocity of Sound."^^rdf:HTML ; + dcterms:description "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. Each frequency component propagates at its own Phase Velocity of Sound."^^ns1:LatexString, + "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. Each frequency component propagates at its own Phase Velocity of Sound."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -48285,23 +53675,15 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "In a dispersive medium sound speed is a function of sound frequency, through the dispersion relation. The spatial and temporal distribution of a propagating disturbance will continually change. Each frequency component propagates at its own Phase Velocity of Sound."^^xsd:string ; ns1:symbol "c"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PhaseSpeedOfSound"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Population"@en ; - dcterms:description "Population typically refers to the number of people in a single area, whether it be a city or town, region, country, continent, or the world, but can also represent the number of any kind of entity."^^rdf:HTML ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Population"^^xsd:anyURI ; - ns1:plainTextDescription "Population typically refers to the number of people in a single area, whether it be a city or town, region, country, continent, or the world, but can also represent the number of any kind of entity."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Power Area per Solid Angle"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:PowerAreaPerSolidAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48315,6 +53697,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "If $\\underline{Z} = R + jX$, then $Q = \\left | X \\right |/R$, where $\\underline{Z}$ is impedance, $R$ is resistance, and $X$ is reactance."^^ns1:LatexString ; ns1:symbol "Q"^^xsd:string ; ns2:todo "Resolve Quality Facor - electronics and also doses"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:QualityFactor"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . @@ -48328,7 +53711,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Radiant Fluence"@en ; - dcterms:description "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^rdf:HTML ; + dcterms:description "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^ns1:LatexString, + "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48337,11 +53721,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$H_0 = \\int_{0}^{\\Delta t}{E_0}{dt}$, where $E_0$ is the spherical radiance acting during time interval with duration $\\Delta t$."^^ns1:LatexString ; ns1:plainTextDescription "Radiant fluence rate, or spherical irradiance, is equal to the total radiant flux incident on a small sphere divided by the area of the diametrical cross-section of the sphere."^^xsd:string ; ns1:symbol "H_e,0"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RadiantFluence"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Radiant Intensity"@en ; - dcterms:description "Radiant Intensity is a measure of the intensity of electromagnetic radiation. It is defined as power per unit solid angle."^^rdf:HTML ; + dcterms:description "Radiant Intensity is a measure of the intensity of electromagnetic radiation. It is defined as power per unit solid angle."^^ns1:LatexString, + "Radiant Intensity is a measure of the intensity of electromagnetic radiation. It is defined as power per unit solid angle."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD151"^^xsd:string ; @@ -48350,11 +53736,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "Radiant Intensity is a measure of the intensity of electromagnetic radiation. It is defined as power per unit solid angle."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RadiantIntensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Radius"@en ; - dcterms:description "In classical geometry, the \"Radius\" of a circle or sphere is any line segment from its center to its perimeter the radius of a circle or sphere is the length of any such segment."^^rdf:HTML ; + dcterms:description "In classical geometry, the \"Radius\" of a circle or sphere is any line segment from its center to its perimeter the radius of a circle or sphere is the length of any such segment."^^ns1:LatexString, + "In classical geometry, the \"Radius\" of a circle or sphere is any line segment from its center to its perimeter the radius of a circle or sphere is the length of any such segment."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48401,12 +53789,21 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$r = \\frac{d}{2}$, where $d$ is the circle diameter."^^ns1:LatexString ; ns1:plainTextDescription "In classical geometry, the \"Radius\" of a circle or sphere is any line segment from its center to its perimeter the radius of a circle or sphere is the length of any such segment."^^xsd:string ; ns1:symbol "r"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Reactance"@en ; - dcterms:description "\"Reactance\" is the opposition of a circuit element to a change of electric current or voltage, due to that element's inductance or capacitance. A built-up electric field resists the change of voltage on the element, while a magnetic field resists the change of current. The notion of reactance is similar to electrical resistance, but they differ in several respects. Capacitance and inductance are inherent properties of an element, just like resistance."^^rdf:HTML ; + dcterms:description """ + $\\textit{Reactance}$ is the opposition of a circuit element to a change of electric current or voltage, + due to that element's inductance or capacitance. + A built-up electric field resists the change of voltage on the element, + while a magnetic field resists the change of current. + The notion of reactance is similar to electrical resistance, but they differ in several respects. + Capacitance and inductance are inherent properties of an element, just like resistance. + """^^ns1:LatexString, + "\"Reactance\" is the opposition of a circuit element to a change of electric current or voltage, due to that element's inductance or capacitance. A built-up electric field resists the change of voltage on the element, while a magnetic field resists the change of current. The notion of reactance is similar to electrical resistance, but they differ in several respects. Capacitance and inductance are inherent properties of an element, just like resistance."^^rdf:HTML ; ns1:applicableUnit ; ns1:dbpediaMatch "http://dbpedia.org/resource/Electrical_reactance"^^xsd:anyURI ; ns1:hasDimensionVector ; @@ -48416,12 +53813,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$X = im \\underline{Z}$, where $\\underline{Z}$ is impedance and $im$ denotes the imaginary part."^^ns1:LatexString ; ns1:plainTextDescription "\"Reactance\" is the opposition of a circuit element to a change of electric current or voltage, due to that element's inductance or capacitance. A built-up electric field resists the change of voltage on the element, while a magnetic field resists the change of current. The notion of reactance is similar to electrical resistance, but they differ in several respects. Capacitance and inductance are inherent properties of an element, just like resistance."^^xsd:string ; ns1:symbol "X"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Reactance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Resistivity"@en ; - dcterms:description "\"Resistivity\" is the inverse of the conductivity when this inverse exists."^^rdf:HTML ; + dcterms:description "\"Resistivity\" is the inverse of the conductivity when this inverse exists."^^ns1:LatexString, + "\"Resistivity\" is the inverse of the conductivity when this inverse exists."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48441,12 +53840,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$\\rho = \\frac{1}{\\sigma}$, if it exists, where $\\sigma$ is conductivity."^^ns1:LatexString ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "\"Resistivity\" is the inverse of the conductivity when this inverse exists."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Resistivity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Second Polar Moment of Area"@en ; - dcterms:description "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^rdf:HTML ; + dcterms:description "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^ns1:LatexString, + "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48459,6 +53860,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$I_p = \\int r^2_Q dA$, where $r_Q$ is the radial distance from a $Q-axis$ and $A$ is area."^^ns1:LatexString ; ns1:plainTextDescription "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^xsd:string ; ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SecondPolarMomentOfArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48466,8 +53868,10 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:SerumOrPlasmaLevel"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader , + . a ns1:QuantityKind ; rdfs:label "سرعة جسيم"@ar, @@ -48479,7 +53883,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "粒子速度"@ja, "prędkość akustyczna"@pl, "velocidade acústica de uma partícula"@pt ; - dcterms:description "Sound Particle velocity is the velocity v of a particle (real or imagined) in a medium as it transmits a wave. In many cases this is a longitudinal wave of pressure as with sound, but it can also be a transverse wave as with the vibration of a taut string. When applied to a sound wave through a medium of a fluid like air, particle velocity would be the physical speed of a parcel of fluid as it moves back and forth in the direction the sound wave is travelling as it passes."^^rdf:HTML ; + dcterms:description "Sound Particle velocity is the velocity v of a particle (real or imagined) in a medium as it transmits a wave. In many cases this is a longitudinal wave of pressure as with sound, but it can also be a transverse wave as with the vibration of a taut string. When applied to a sound wave through a medium of a fluid like air, particle velocity would be the physical speed of a parcel of fluid as it moves back and forth in the direction the sound wave is travelling as it passes."^^ns1:LatexString, + "Sound Particle velocity is the velocity v of a particle (real or imagined) in a medium as it transmits a wave. In many cases this is a longitudinal wave of pressure as with sound, but it can also be a transverse wave as with the vibration of a taut string. When applied to a sound wave through a medium of a fluid like air, particle velocity would be the physical speed of a parcel of fluid as it moves back and forth in the direction the sound wave is travelling as it passes."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -48488,6 +53893,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "Sound Particle velocity is the velocity v of a particle (real or imagined) in a medium as it transmits a wave. In many cases this is a longitudinal wave of pressure as with sound, but it can also be a transverse wave as with the vibration of a taut string. When applied to a sound wave through a medium of a fluid like air, particle velocity would be the physical speed of a parcel of fluid as it moves back and forth in the direction the sound wave is travelling as it passes."^^xsd:string ; ns1:symbol "v"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundParticleVelocity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "prędkość cząstki"@pl ; skos:broader . @@ -48497,27 +53903,51 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:SpecificAcousticImpedance"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Specific Electric Charge"@en ; + dcterms:description "Electric charge (often capacity in the context of electrochemical cells) relativ to the mass (often only active components). capacity "^^ns1:LatexString, + "Electric charge (often capacity in the context of electrochemical cells) relativ to the mass (often only active components). capacity "^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Electric charge (often capacity in the context of electrochemical cells) relativ to the mass (often only active components). capacity "^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificElectricCharge"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Specific Electrical Current"@en ; + dcterms:description "\"Specific Electric Current\" is a measure to specify the applied current relative to a corresponding mass. This measure is often used for standardization within electrochemistry."^^ns1:LatexString ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:SpecificElectricCurrent"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Heat Pressure"@en ; - dcterms:description "Specific heat at a constant pressure."^^rdf:HTML ; + dcterms:description "Specific heat at a constant pressure."^^ns1:LatexString, + "Specific heat at a constant pressure."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Specific heat at a constant pressure."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatPressure"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Heat Volume"@en ; - dcterms:description "Specific heat per constant volume."^^rdf:HTML ; + dcterms:description "Specific heat per constant volume."^^ns1:LatexString, + "Specific heat per constant volume."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "Specific heat per constant volume."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatVolume"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Surface Area"@en ; - dcterms:description "Specific surface area (SSA) is a property of solids defined as the total surface area (SA) of a material per unit mass, (with units of m2/kg or m2/g). It is a physical value that can be used to determine the type and properties of a material (e.g. soil or snow). It has a particular importance for adsorption, heterogeneous catalysis, and reactions on surfaces."^^rdf:HTML ; + dcterms:description "Specific surface area (SSA) is a property of solids defined as the total surface area (SA) of a material per unit mass, (with units of m2/kg or m2/g). It is a physical value that can be used to determine the type and properties of a material (e.g. soil or snow). It has a particular importance for adsorption, heterogeneous catalysis, and reactions on surfaces."^^ns1:LatexString, + "Specific surface area (SSA) is a property of solids defined as the total surface area (SA) of a material per unit mass, (with units of m2/kg or m2/g). It is a physical value that can be used to determine the type and properties of a material (e.g. soil or snow). It has a particular importance for adsorption, heterogeneous catalysis, and reactions on surfaces."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -48526,6 +53956,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:latexDefinition "$SSA = \\frac{SA}{\\m}$, where $SA$ is the surface area of an object and $\\m$ is the mass density of the object."^^ns1:LatexString ; ns1:latexSymbol "$SSA$"^^ns1:LatexString ; ns1:plainTextDescription "Specific surface area (SSA) is a property of solids defined as the total surface area (SA) of a material per unit mass, (with units of m²/kg or m²/g). It is a physical value that can be used to determine the type and properties of a material (e.g. soil or snow). It has a particular importance for adsorption, heterogeneous catalysis, and reactions on surfaces."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificSurfaceArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48547,7 +53978,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "Hitrost zvoka"@sl, "Ses hızı"@tr, "音速"@zh ; - dcterms:description "The speed of sound is the distance travelled during a unit of time by a sound wave propagating through an elastic medium."^^rdf:HTML ; + dcterms:description "The speed of sound is the distance travelled during a unit of time by a sound wave propagating through an elastic medium."^^ns1:LatexString, + "The speed of sound is the distance travelled during a unit of time by a sound wave propagating through an elastic medium."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48567,6 +53999,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "The speed of sound is the distance travelled during a unit of time by a sound wave propagating through an elastic medium."^^xsd:string ; ns1:symbol "c"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Speed"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Schallausbreitungsgeschwindigkeit"@de, "célérité du son"@fr ; @@ -48642,24 +54075,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:informativeReference "http://www.freestudy.co.uk/mech%20prin%20h2/stress.pdf"^^xsd:anyURI ; ns1:latexDefinition "${\\rm{Stress}} = \\frac{F}{A}$"^^ns1:LatexString ; ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Stress Intensity Factor"@en ; - dcterms:description "In fracture mechanics, the stress intensity factor (K) is used to predict the stress state (\"stress intensity\") near the tip of a crack or notch caused by a remote load or residual stresses. It is a theoretical construct usually applied to a homogeneous, linear elastic material and is useful for providing a failure criterion for brittle materials, and is a critical technique in the discipline of damage tolerance. The concept can also be applied to materials that exhibit small-scale yielding at a crack tip."^^rdf:HTML ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Stress_intensity_factor"^^xsd:anyURI ; - ns1:latexSymbol "$\\K$"^^ns1:LatexString ; - ns1:plainTextDescription "In fracture mechanics, the stress intensity factor (K) is used to predict the stress state (\"stress intensity\") near the tip of a crack or notch caused by a remote load or residual stresses. It is a theoretical construct usually applied to a homogeneous, linear elastic material and is useful for providing a failure criterion for brittle materials, and is a critical technique in the discipline of damage tolerance. The concept can also be applied to materials that exhibit small-scale yielding at a crack tip."^^xsd:string ; - ns1:symbol "K"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "Superconduction Transition Temperature"@en ; - dcterms:description "\"Superconduction Transition Temperature\" is the critical thermodynamic temperature of a superconductor."^^rdf:HTML ; + dcterms:description "\"Superconduction Transition Temperature\" is the critical thermodynamic temperature of a superconductor."^^ns1:LatexString, + "\"Superconduction Transition Temperature\" is the critical thermodynamic temperature of a superconductor."^^rdf:HTML ; ns1:applicableUnit , , , @@ -48671,6 +54094,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; ns1:plainTextDescription "\"Superconduction Transition Temperature\" is the critical thermodynamic temperature of a superconductor."^^xsd:string ; ns1:symbol "T_c"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch , @@ -48678,12 +54102,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Temperature Gradient"@en ; - dcterms:description "The temperature gradient measures the difference of a temperature per length, as for instance used in an external wall or its layers. It is usually measured in K/m."^^rdf:HTML ; + dcterms:description "The temperature gradient measures the difference of a temperature per length, as for instance used in an external wall or its layers. It is usually measured in K/m."^^ns1:LatexString, + "The temperature gradient measures the difference of a temperature per length, as for instance used in an external wall or its layers. It is usually measured in K/m."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/RELEASE/IFC4/ADD1/HTML/link/ifctemperaturegradientmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The temperature gradient measures the difference of a temperature per length, as for instance used in an external wall or its layers. It is usually measured in K/m."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TemperatureGradient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48743,6 +54169,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "For a closed thermodynamic system, $\\Delta U = Q + W$, where $Q$ is amount of heat transferred to the system and $W$ is work done on the system provided that no chemical reactions occur."^^ns1:LatexString ; ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -48753,6 +54180,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ; ns1:dbpediaMatch "http://dbpedia.org/resource/Time_Squared"^^xsd:anyURI ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Time_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48762,11 +54190,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TorquePerAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Voltage Phasor"@en ; - dcterms:description "\"Voltage Phasor\" is a representation of voltage as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^rdf:HTML ; + dcterms:description "\"Voltage Phasor\" is a representation of voltage as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^ns1:LatexString, + "\"Voltage Phasor\" is a representation of voltage as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^rdf:HTML ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-11-26"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; @@ -48780,11 +54210,119 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:VolumePerArea"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Volume per Time"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:VolumePerTime"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Volumetric Flux"@en ; - dcterms:description "In fluid dynamics, the volumetric flux is the rate of volume flow across a unit area (m3·s−1·m−2).[Wikipedia]"^^rdf:HTML ; + dcterms:description "In fluid dynamics, the volumetric flux is the rate of volume flow across a unit area (m3·s−1·m−2).[Wikipedia]"^^ns1:LatexString, + "In fluid dynamics, the volumetric flux is the rate of volume flow across a unit area (m3·s−1·m−2).[Wikipedia]"^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -48792,6 +54330,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:plainTextDescription "In fluid dynamics, the volumetric flux is the rate of volume flow across a unit area (m3·s−1·m−2).[Wikipedia]"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:VolumetricFlux"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -48804,6 +54343,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$w = (1/2) ( \\mathbf{E} \\cdot \\mathbf{D} + \\mathbf{B} \\cdot \\mathbf{H})$, where $\\mathbf{E}$ is electric field strength, $\\mathbf{D}$ is electric flux density, $\\mathbf{M}$ is magnetic flux density, and $\\mathbf{H}$ is magnetic field strength."^^ns1:LatexString ; ns1:latexSymbol "$w$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:VolumicElectromagneticEnergy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -48812,14 +54352,113 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:QuantityKind ; rdfs:label "Warping Moment"@en ; - dcterms:description "The warping moment measure is a measure for the warping moment, which occurs in warping torsional analysis. It is usually measured in kNm²."^^rdf:HTML ; + dcterms:description "The warping moment measure is a measure for the warping moment, which occurs in warping torsional analysis. It is usually measured in kNm²."^^ns1:LatexString, + "The warping moment measure is a measure for the warping moment, which occurs in warping torsional analysis. It is usually measured in kNm²."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/RELEASE/IFC4/ADD1/HTML/link/ifcwarpingmomentmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The warping moment measure is a measure for the warping moment, which occurs in warping torsional analysis. It is usually measured in kNm²."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:WarpingMoment"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "práce"@cs, + "Arbeit"@de, + "work"@en, + "trabajo"@es, + "کار"@fa, + "travail"@fr, + "कार्य"@hi, + "lavoro"@it, + "仕事量"@ja, + "kerja"@ms, + "praca"@pl, + "trabalho"@pt, + "lucru mecanic"@ro, + "delo"@sl, + "iş"@tr, + "功"@zh ; + dcterms:description """ + $\\textit{Work}$ or $net\\ work$ is equal to the change in kinetic energy. + This relationship is called the work-energy theorem: + $$Wnet = K. E._f K. E._o $$ + where $K. E._f$ is the final kinetic energy and $K. E._o$ is the original kinetic energy. + Potential energy, also referred to as stored energy, is the ability of a system to do work due to its position or internal structure. + Change in potential energy is equal to work. + The potential energy equations can also be derived from the integral form of work: + $$\\Delta P. E. = W = \\int F \\cdot dx$$. + """^^ns1:LatexString, + """$\\textit{Work}$ or $net\\ work$ is equal to the change in kinetic energy. + This relationship is called the work-energy theorem: + $$Wnet = K. E._f K. E._o $$$ + where $K. E._f$ is the final kinetic energy and $K. E._o$ is the original kinetic energy. + Potential energy, also referred to as stored energy, is the ability of a system to do work due + to its position or internal structure. + Change in potential energy is equal to work. + The potential energy equations can also be derived from the integral form of work: + $$\\Delta P. E. = W = \\int F \\cdot dx$$. + """^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Work_(physics)"^^xsd:anyURI, + "http://www.cliffsnotes.com/study_guide/Work-and-Energy.topicArticleId-10453,articleId-10418.html"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:latexDefinition "$A = \\int Pdt$, where $P$ is power and $t$ is time."^^ns1:LatexString ; + ns1:plainTextDescription "A force is said to do Work when it acts on a body so that there is a displacement of the point of application, however small, in the direction of the force. The concepts of work and energy are closely tied to the concept of force because an applied force can do work on an object and cause a change in energy. Energy is defined as the ability to do work. Work is done on an object when an applied force moves it through a distance. Kinetic energy is the energy of an object in motion. The net work is equal to the change in kinetic energy."^^xsd:string ; + ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Ampere Square Metre"@en, @@ -48841,26 +54480,27 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "A5"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ampere per Joule"@en ; - dcterms:description "The inverse measure of \\(joule-per-ampere\\) or \\(weber\\). The measure for the reciprical of magnetic flux."^^ns1:LatexString ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Ampere per Degree Celsius"@en ; + dcterms:description "A measure used to express how a current is subject to temperature. Originally used in Wien's Law to describe phenomena related to filaments. One use today is to express how a current generator derates with temperature."^^rdf:HTML ; + ns1:applicableSystem , ; - ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(A/J\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "A/J"^^xsd:string ; - ns1:ucumCode "A.J-1"^^ns1:UCUMcs, - "A/J"^^ns1:UCUMcs ; + ns1:conversionMultiplier 57.2957795 ; + ns1:expression "\\(A/degC\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://books.google.com/books?id=zkErAAAAYAAJ&pg=PA60&lpg=PA60&dq=ampere+per+degree"^^xsd:anyURI, + "http://web.mit.edu/course/21/21.guide/use-tab.htm"^^xsd:anyURI ; + ns1:symbol "A/°C"^^xsd:string ; + ns1:ucumCode "A.Cel-1"^^ns1:UCUMcs, + "A/Cel"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Ampere Turn per Inch"@en ; - dcterms:description "The \\(\\textit{Ampere Turn per Inch}\\) is a measure of magnetic field intensity and is equal to 12.5664 Oersted."^^ns1:LatexString ; + dcterms:description "The \\(\\textit{Ampere Turn per Inch}\\) is a measure of magnetic field intensity and is equal to 12.5664 Oersted."^^ns1:LatexString, + "The \\(\\textit{Ampere Turn per Inch}\\) is a measure of magnetic field intensity and is eual to 12.5664 Oersted."^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 39.3700787 ; ns1:expression "\\(At/in\\)"^^ns1:LatexString ; @@ -48890,7 +54530,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "\"Abampere Square centimeter\" is the unit of magnetic moment in the electromagnetic centimeter-gram-second system."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:expression "\\(aAcm2\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -48905,7 +54546,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "\"Statampere\" (statA) is a unit in the category of Electric current. It is also known as statamperes. This unit is commonly used in the cgs unit system. Statampere (statA) has a dimension of I where I is electric current. It can be converted to the corresponding standard SI unit A by multiplying its value by a factor of 3.355641E-010."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 3.335641e-10 ; + ns1:conversionMultiplier 3.335641e-10, + 0.0000000003335641 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -48958,105 +54600,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "J63"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Becquerel per Kilogram"@en ; - dcterms:description "The only unit in the category of Specific radioactivity. It is also known as becquerels per kilogram, becquerel/kilogram. This unit is commonly used in the SI unit system. Becquerel Per Kilogram (Bq/kg) has a dimension of \\(M{-1}T{-1}\\) where \\(M\\) is mass, and \\(T\\) is time. It essentially the same as the corresponding standard SI unit \\(/kg/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(Bq/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA112"^^xsd:string ; - ns1:informativeReference "http://www.efunda.com/glossary/units/units--specific_radioactivity--becquerel_per_kilogram.cfm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:plainTextDescription "\"Becquerel per Kilogram\" is used to describe radioactivity, which is often expressed in becquerels per unit of volume or weight, to express how much radioactive material is contained in a sample."^^xsd:string ; - ns1:symbol "Bq/kg"^^xsd:string ; - ns1:ucumCode "Bq.kg-1"^^ns1:UCUMcs, - "Bq/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A18"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "British Thermal Unit (international Table) Inch Per Hour Square Foot Degree Fahrenheit"@en ; - dcterms:description "\\(BTU_{th}\\) Inch per Square Foot Hour Degree Fahrenheit is an Imperial unit for 'Thermal Conductivity' expressed as \\(Btu_{it}-in/(hr-ft^{2}-degF)\\). An International British thermal unit inch per second per square foot per degree Fahrenheit is a unit of thermal conductivity in the US Customary Units and British Imperial Units. \\(1 Btu_{it} \\cdot in/(hr \\cdot ft^{2} \\cdot degF)\\) shows that one thermochemical BTU of heat per one hour moves through one square foot of material, which is one foot thick due to a temperature difference of one degree Fahrenheit."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.144227889 ; - ns1:exactMatch ; - ns1:expression "\\(Btu(it)-in-per-hr-ft2-degF\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA117"^^xsd:string ; - ns1:informativeReference "http://www.translatorscafe.com/cafe/EN/units-converter/thermal-conductivity/c/"^^xsd:anyURI ; - ns1:latexSymbol "\\(Btu_{it} \\cdot in/(hr \\cdot ft^{2} \\cdot degF)\\)"^^ns1:LatexString ; - ns1:plainTextDescription "BTU (th) Inch per Square Foot Hour Degree Fahrenheit is an Imperial unit for 'Thermal Conductivity', an International British thermal unit inch per second per square foot per degree Fahrenheit is a unit of thermal conductivity in the US Customary Units and British Imperial Units."^^xsd:string ; - ns1:symbol "Btu{IT}⋅in/(ft²⋅hr⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[in_i].[ft_i]-2.h-1.[degF]-1"^^ns1:UCUMcs, - "[Btu_IT].[in_i]/([ft_i]2.h.[degF])"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J41"^^xsd:string ; - ns2:comment "qudt:exactMatch: unit:BTU_IT-IN-PER-HR-FT2-DEG_F"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU (IT) Inch per Square Foot Second Degree Fahrenheit"@en ; - dcterms:description "\\(BTU_{IT}\\), Inch per Square Foot Second Degree Fahrenheit, is an Imperial unit for 'Thermal Conductivity' expressed as \\(Btu_{it}-in/(ft^{2}-s-degF)\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 519.220399911 ; - ns1:exactMatch ; - ns1:expression "\\(Btu(it)-in-per-s-ft2-degF\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA118"^^xsd:string ; - ns1:informativeReference "http://www.translatorscafe.com/cafe/EN/units-converter/thermal-conductivity/c/"^^xsd:anyURI ; - ns1:plainTextDescription "British thermal unit (international table) inch per second Square foot degree Fahrenheit is the unit of the thermal conductivity according to the Imperial system of units."^^xsd:string ; - ns1:symbol "Btu{IT}⋅in/(ft²⋅s⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[in_i].[ft_i]-2.s-1.[degF]-1"^^ns1:UCUMcs, - "[Btu_IT].[in_i]/([ft_i]2.s.[degF])"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J42"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "British Thermal Unit (international Table) Inch Per Hour Square Foot degree Fahrenheit"@en ; - dcterms:description "unit of the thermal conductivity according to the Imperial system of units"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.1442279 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA117"^^xsd:string ; - ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units"^^xsd:string ; - ns1:symbol "Btu{IT}⋅in/(hr⋅ft²⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[in_i].h-1.[ft_i]-2.[degF]-1"^^ns1:UCUMcs, - "[Btu_IT].[in_i]/(h.[ft_i]2.[degF])"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J41"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "British Thermal Unit (international Table) Inch Per Second Square Foot degree Fahrenheit"@en ; - dcterms:description "unit of the thermal conductivity according to the Imperial system of units"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 519.2204 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA118"^^xsd:string ; - ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units"^^xsd:string ; - ns1:symbol "Btu{IT}⋅in/(s⋅ft²⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[in_i].s-1.[ft_i]-2.[degF]-1"^^ns1:UCUMcs, - "[Btu_IT].[in_i]/(s.[ft_i]2.[degF])"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J42"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "BTU per Pound Degree Rankine"@en ; @@ -49072,22 +54615,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "[Btu_IT]/([lb_av].[degR])"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "British Thermal Unit (international Table) Per Minute"@en ; - dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 17.58 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA120"^^xsd:string ; - ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^xsd:string ; - ns1:symbol "Btu{IT}/min"^^xsd:string ; - ns1:ucumCode "[Btu_IT].min-1"^^ns1:UCUMcs, - "[Btu_IT]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J44"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "British Thermal Unit (mean)"@en ; dcterms:description "unit of the heat energy according to the Imperial system of units"^^rdf:HTML ; @@ -49103,55 +54630,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "J39"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "British Thermal Unit (thermochemical) Per Hour"@en ; - dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.2929 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA124"^^xsd:string ; - ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^xsd:string ; - ns1:symbol "Btu{th}/hr"^^xsd:string ; - ns1:ucumCode "[Btu_th].h-1"^^ns1:UCUMcs, - "[Btu_th]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J47"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "British Thermal Unit (thermochemical) Per Minute"@en ; - dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 17.573 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA128"^^xsd:string ; - ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^xsd:string ; - ns1:symbol "Btu{th}/min"^^xsd:string ; - ns1:ucumCode "[Btu_th].min-1"^^ns1:UCUMcs, - "[Btu_th]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J51"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "British Thermal Unit (thermochemical) Per Second"@en ; - dcterms:description "unit of the heat energy according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1054.35 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA129"^^xsd:string ; - ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "Btu{th}/s"^^xsd:string ; - ns1:ucumCode "[Btu_th].s-1"^^ns1:UCUMcs, - "[Btu_th]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J52"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:CountingUnit, ns1:DerivedUnit, ns1:Unit ; @@ -49182,6 +54660,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "كولوم متر"@ar, "coulomb metr"@cs, "Coulombmeter"@de, + "Coulomb Metre"@en, "coulomb metre"@en, "Coulomb Meter"@en-us, "culombio metro"@es, @@ -49214,6 +54693,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:Unit ; rdfs:label "Coulomb mal Quadratmeter"@de, + "Coulomb Square Metre"@en, "coulomb square metre"@en, "Coulomb Square Meter"@en-us, "کولن متر مربع"@fa, @@ -49285,10 +54765,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ; ns1:conversionMultiplier 1.0 ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(C^{3} m J^{-2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; + ns1:expression "\\(C^{3} m J^{-2}\\)"^^ns1:LatexString, + "\\(C^{3} m^{3} J^{-2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector , + ; ns1:hasQuantityKind ; - ns1:symbol "C³⋅m/J²"^^xsd:string ; + ns1:symbol "C³⋅m/J²"^^xsd:string, + "C³⋅m³/J²"^^xsd:string ; ns1:ucumCode "C3.m.J-2"^^ns1:UCUMcs, "C3.m/J2"^^ns1:UCUMcs ; rdfs:isDefinedBy . @@ -49343,46 +54826,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "J75"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Calorie (thermochemical) Per Minute"@en ; - dcterms:description "unit calorie divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 0.06973 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA368"^^xsd:string ; - ns1:plainTextDescription "unit calorie divided by the unit minute"^^xsd:string ; - ns1:symbol "cal{th}/min"^^xsd:string ; - ns1:ucumCode "cal_th.min-1"^^ns1:UCUMcs, - "cal_th/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J81"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Calorie (thermochemical) Per Second"@en ; - dcterms:description "unit calorie divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4.184 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA369"^^xsd:string ; - ns1:plainTextDescription "unit calorie divided by the SI base unit second"^^xsd:string ; - ns1:symbol "cal{th}/s"^^xsd:string ; - ns1:ucumCode "cal_th.s-1"^^ns1:UCUMcs, - "cal_th/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J82"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "قنديلة"@ar, "кандела"@bg, "kandela"@cs, "Candela"@de, "καντέλα"@el, + "Candela"@en, "candela"@en, "candela"@es, "کاندلا"@fa, @@ -49423,7 +54873,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "Cubic Centimeter Per Mole"@en-us ; dcterms:description "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit mol"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -49441,7 +54892,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "Cubic Centimeter per Mole Second"@en-us ; dcterms:description "A unit that is the 0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit mol multiplied by the SI base unit second."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 0.000001 ; + ns1:conversionMultiplier 0.000001, + 1.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -49536,7 +54988,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "A rate of change of temperature expressed on the Celsius scale over a period of an average calendar year (365.25 days)."@en ; ns1:applicableSystem , ; - ns1:conversionMultiplier 3.168809e-08 ; + ns1:conversionMultiplier 0.0000000316880878140289, + 3.168809e-08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "°C/yr"^^xsd:string ; @@ -49636,17 +55089,21 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "J30"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Dots Per Inch"@en ; - dcterms:description "point density as amount of the picture base element divided by the unit inch according to the Anglo-American and the Imperial system of units"^^rdf:HTML ; - ns1:conversionMultiplier 39.37008 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA421"^^xsd:string ; - ns1:plainTextDescription "point density as amount of the picture base element divided by the unit inch according to the Anglo-American and the Imperial system of units"^^xsd:string ; - ns1:symbol "DPI"^^xsd:string ; - ns1:ucumCode "{dot}/[in_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E39"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Dyne Second Per Cubic Centimetre"@en, + "Dyne Second Per Cubic Centimeter"@en-us ; + dcterms:description "CGS unit of the acoustic image impedance of the medium"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 10.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB102"^^xsd:string ; + ns1:plainTextDescription "CGS unit of the acoustic image impedance of the medium"^^xsd:string ; + ns1:symbol "dyn⋅s/cm³"^^xsd:string ; + ns1:ucumCode "dyn.s.cm-3"^^ns1:UCUMcs, + "dyn.s/cm3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A50"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -49679,23 +55136,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:symbol "dS"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Erg Per Gram Second"@en ; - dcterms:description "CGS unit of the mass-related power"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB147"^^xsd:string ; - ns1:plainTextDescription "CGS unit of the mass-related power"^^xsd:string ; - ns1:symbol "erg/(g⋅s)"^^xsd:string ; - ns1:ucumCode "erg.g-1.s-1"^^ns1:UCUMcs, - "erg/(g.s)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A62"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Erlang"@en ; dcterms:description "The \"Erlang\" is a dimensionless unit that is used in telephony as a measure of offered load or carried load on service-providing elements such as telephone circuits or telephone switching equipment."^^rdf:HTML ; @@ -49722,7 +55162,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "Electron Volt per Kelvin"@en ; dcterms:description "\\(\\textbf{Electron Volt per Kelvin} is a unit for 'Heat Capacity' expressed as \\(ev/K\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.602177e-19 ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; ns1:expression "\\(ev/K\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49743,7 +55184,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.545177e+18 ; + ns1:conversionMultiplier 5.545177e+18, + 5545177444479562475.3378569716654 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Exabyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49765,7 +55207,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 6.393154e+18 ; + ns1:conversionMultiplier 6.393154e+18, + 6393154322601327829.8943153498712 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Exbibyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49775,6 +55218,79 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "E59"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Femtomoles per kilogram"@en ; + dcterms:description "A 10**15 part quantity of substance of the measurand per kilogram mass of matrix."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "fmol/kg"^^xsd:string ; + ns1:ucumCode "fmol.kg-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Grams per square centimetre per year"@en ; + dcterms:description "A rate of change of 0.001 of the SI unit of mass over 0.00001 of the SI unit of area in a period of an average calendar year (365.25 days)"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000316880878140289, + 3.168809e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "g/(cm²⋅yr)"^^xsd:string ; + ns1:ucumCode "g.cm-2.a-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "grams per square metre per day"@en, + "grams per square meter per day"@en-us ; + dcterms:description "A metric unit of volume over time indicating the amount generated across one square meter over a day."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.157407e-08, + 0.000000011574073 ; + ns1:expression "\\(g-m^{-2}-day^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A metric unit of volume over time indicating the amount generated across one square meter over a day."^^xsd:string ; + ns1:symbol "g/(m²⋅day)"^^xsd:string ; + ns1:ucumCode "g.m-2.d-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "grams Carbon per square metre per day"@en, + "grams Carbon per square meter per day"@en-us ; + dcterms:description "A metric unit of volume over time indicating the amount generated across one square meter over a day. Used to express productivity of an ecosystem."^^rdf:HTML ; + ns1:conversionMultiplier 1.157407e-08, + 0.000000011574073 ; + ns1:expression "\\(g C-m^{-2}-day^{-1}\\)."^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A metric unit of volume over time indicating the amount generated across one square meter over a day. Used to express productivity of an ecosystem."^^xsd:string ; + ns1:symbol "g{carbon}/(m²⋅day)"^^xsd:string ; + ns1:ucumCode "g.m-2.d-1{C}"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "grams Nitrogen per square metre per day"@en, + "grams Nitrogen per square meter per day"@en-us ; + dcterms:description "A metric unit of volume over time indicating the amount of Nitrogen generated across one square meter over a day. Used to express productivity of an ecosystem."^^rdf:HTML ; + ns1:conversionMultiplier 1.157407e-08, + 0.000000011574073 ; + ns1:expression "\\(g N-m^{-2}-day^{-1}\\)."^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A metric unit of volume over time indicating the amount of Nitrogen generated across one square meter over a day. Used to express productivity of an ecosystem."^^xsd:string ; + ns1:symbol "g{nitrogen}/(m²⋅day)"^^xsd:string ; + ns1:ucumCode "g.m-2.d-1{N}"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:CountingUnit, ns1:Unit ; rdfs:label "GibiByte"@en ; @@ -49787,7 +55303,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.954089e+09 ; + ns1:conversionMultiplier 5954088943.6391441429912255610071, + 5.954089e+09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Gibibyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49800,7 +55317,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ a ns1:CountingUnit, ns1:Unit ; rdfs:label "GigaByte"@en ; - dcterms:description "The gigabyte is a multiple of the unit byte for digital information storage. The prefix giga means \\(10^9\\) in the International System of Units (SI), therefore 1 gigabyte is \\(1,000,000,000 \\; bytes\\). The unit symbol for the gigabyte is \\(GB\\) or \\(Gbyte\\), but not \\(Gb\\) (lower case b) which is typically used for the gigabit. Historically, the term has also been used in some fields of computer science and information technology to denote the \\(gibibyte\\), or \\(1073741824 \\; bytes\\)."^^ns1:LatexString ; + dcterms:description "The gigabyte is a multiple of the unit byte for digital information storage. The prefix giga means 10 in the International System of Units (SI), therefore 1 gigabyte is \\(1,000,000,000 \\; bytes\\). The unit symbol for the gigabyte is \\(GB\\) or \\(Gbyte\\), but not \\(Gb\\) (lower case b) which is typically used for the gigabit. Historically, the term has also been used in some fields of computer science and information technology to denote the \\(gibibyte\\), or \\(1073741824 \\; bytes\\)."^^ns1:LatexString, + "The gigabyte is a multiple of the unit byte for digital information storage. The prefix giga means \\(10^9\\) in the International System of Units (SI), therefore 1 gigabyte is \\(1,000,000,000 \\; bytes\\). The unit symbol for the gigabyte is \\(GB\\) or \\(Gbyte\\), but not \\(Gb\\) (lower case b) which is typically used for the gigabit. Historically, the term has also been used in some fields of computer science and information technology to denote the \\(gibibyte\\), or \\(1073741824 \\; bytes\\)."^^ns1:LatexString ; ns1:applicableSystem , , , @@ -49809,7 +55327,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.545177e+09 ; + ns1:conversionMultiplier 5.545177e+09, + 5545177444.47956 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Gigabyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49829,6 +55348,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "henry"@cs, "Henry"@de, "χένρι"@el, + "Henry"@en, "henry"@en, "henrio"@es, "هنری"@fa, @@ -49893,7 +55413,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "Abhenry is the centimeter-gram-second electromagnetic unit of inductance, equal to one billionth of a henry."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Abhenry"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -49909,7 +55430,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "\"Stathenry\" (statH) is a unit in the category of Electric inductance. It is also known as stathenries. This unit is commonly used in the cgs unit system. Stathenry (statH) has a dimension of \\(ML^2T^{-2}I^{-2}\\) where M is mass, L is length, T is time, and I is electric current. It can be converted to the corresponding standard SI unit H by multiplying its value by a factor of \\(8.987552 \\times 10^{11}\\) ."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 8.9876e+11 ; + ns1:conversionMultiplier 898760000000.0, + 8.9876e+11 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -49924,7 +55446,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "The Stathenry per Centimeter is a unit of measure for the absolute permeability of free space."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 8.9876e+13 ; + ns1:conversionMultiplier 89876000000000.0, + 8.9876e+13 ; ns1:derivedUnitOfSystem ; ns1:expression "\\(stath-per-cm\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -49933,6 +55456,21 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:symbol "statH/cm"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "International Unit per milligram"@en ; + dcterms:description """ +

International Unit per milligramme. +The magnitude of one IU/L depends on the material, so there is no single conversion multiplier. +(See IU for more information). +"""^^rdf:HTML ; + ns1:conversionMultiplier 1e-06 ; + ns1:conversionOffset 0e+00 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "International Units per milligramme."^^xsd:string ; + ns1:symbol "IU/mg"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Joule Metre per Mole"@en, "Joule Meter per Mole"@en-us ; @@ -50042,24 +55580,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "F12"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kayser"@en ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 100.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kayser"^^xsd:anyURI ; - ns1:derivedUnitOfSystem , - ; - ns1:expression "\\(\\(cm^{-1}\\)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kayser?oldid=458489166"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "K"^^xsd:string ; - ns1:ucumCode "Ky"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:CountingUnit, ns1:Unit ; rdfs:label "KibiByte"@en ; @@ -50097,21 +55617,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "B22"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilo British Thermal Unit (thermochemical) Per Hour"@en ; - dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 292.9 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^xsd:string ; - ns1:symbol "kBtu{th}/hr"^^xsd:string ; - ns1:ucumCode "k[Btu_th].h-1"^^ns1:UCUMcs, - "k[Btu_th]/h"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:CountingUnit, ns1:Unit ; rdfs:label "Kilo Byte"@en ; @@ -50184,59 +55689,12 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "K53"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilocalorie (thermochemical) Per Hour"@en ; - dcterms:description "1 000-fold of the non-legal unit thermochemical calorie divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.162230555555556 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB184"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the non-legal unit thermochemical calorie divided by the unit hour"^^xsd:string ; - ns1:symbol "kcal{th}/hr"^^xsd:string ; - ns1:ucumCode "kcal_th.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E15"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilocalorie (thermochemical) Per Minute"@en ; - dcterms:description "1000-fold of the unit calorie divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 69.73383333333334 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA591"^^xsd:string ; - ns1:plainTextDescription "1000-fold of the unit calorie divided by the unit minute"^^xsd:string ; - ns1:symbol "kcal{th}/min"^^xsd:string ; - ns1:ucumCode "kcal_th.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K54"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilocalorie (thermochemical) Per Second"@en ; - dcterms:description "1000-fold of the unit calorie divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4184.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA592"^^xsd:string ; - ns1:plainTextDescription "1000-fold of the unit calorie divided by the SI base unit second"^^xsd:string ; - ns1:symbol "kcal{th}/s"^^xsd:string ; - ns1:ucumCode "kcal_th.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K55"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilocurie"@en ; dcterms:description "1,000-fold of the unit curie"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.7e+13 ; + ns1:conversionMultiplier 37000000000000.0, + 3.7e+13 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -50267,21 +55725,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "E93"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilograms per square kilometre"@en ; - dcterms:description "One SI standard unit of mass over the square of one thousand standard unit of length."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "kg/km²"^^xsd:string ; - ns1:ucumCode "kg.km-2"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Kilogram per Metre"@en, @@ -50336,36 +55779,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "N37"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilograms per square metre per Pascal per second"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; - ns1:symbol "kg/(m²⋅s⋅Pa)"^^xsd:string ; - rdfs:isDefinedBy ; - owl:sameAs . - - a ns1:Unit ; - rdfs:label "Kilograms per square metre per second"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kg/(m²⋅s)"^^xsd:string ; - ns1:ucumCode "kg.m-2.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H56"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilogram Per Millimetre"@en, "Kilogram Per Millimeter"@en-us ; @@ -50407,27 +55820,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "KGS"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilogram Per Second Per Square Metre"@en, - "Kilogram Per Second Per Square Meter"@en-us ; - dcterms:description "SI base unit kilogram divided by the product of the power of the SI base unit metre with the exponent 2 and the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA618"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the product of the power of the SI base unit metre with the exponent 2 and the SI base unit second"^^xsd:string ; - ns1:symbol "kg/(s⋅m²)"^^xsd:string ; - ns1:ucumCode "kg.(s.m2)-1"^^ns1:UCUMcs, - "kg.s-1.m-2"^^ns1:UCUMcs, - "kg/(s.m2)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H56"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilojoule Per Kelvin"@en ; dcterms:description "1 000-fold of the SI derived unit joule divided by the SI base unit kelvin"^^rdf:HTML ; @@ -50700,6 +56092,27 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "D22"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Quadratmeter je Volt und Sekunde"@de, + "Square Metre per Volt Second"@en, + "square metre per volt second"@en, + "Square Meter per Volt Second"@en-us, + "metro quadrato al volt e al secondo"@it ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(m^2/v-s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA748"^^xsd:string ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:symbol "m²/(V⋅s)"^^xsd:string ; + ns1:ucumCode "m2.V-1.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D26"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Cubic Metre per Kilogram Square Second"@en, @@ -50733,37 +56146,39 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:symbol "m³/(mol⋅s)"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mesh"@en ; - dcterms:description "\"Mesh\" is a measure of particle size or fineness of a woven product."@en ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Mesh_(scale)"^^xsd:anyURI ; - ns1:symbol "mesh"^^xsd:string ; - ns1:ucumCode "[mesh_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "57"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Mole per Kilogram Pascal"@en ; + dcterms:description "Mole Per Kilogram Pascal (\\(mol/kg-pa\\)) is a unit of Molar Mass variation due to Pressure."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(mol/(kg.pa)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB317"^^xsd:string ; + ns1:symbol "mol/(kg⋅Pa)"^^xsd:string ; + ns1:ucumCode "mol.kg-1.Pa-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P51"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Statmho"@en ; - dcterms:description "\"StatMHO\" is the unit of conductance, admittance, and susceptance in the C.G.S e.s.u system of units. One \\(statmho\\) is the conductance between two points in a conductor when a constant potential difference of \\(1 \\; statvolt\\) applied between the points produces in the conductor a current of \\(1 \\; statampere\\), the conductor not being the source of any electromotive force, approximately \\(1.1126 \\times 10^{-12} mho\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.1126e-12 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://www.sizes.com/units/statmho.htm"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "stat℧"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Mol per Tonne"@en ; + dcterms:description "Mole Per Tonne (mol/t) is a unit of Molality"^^rdf:HTML ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "Mole Per Tonne (mol/t) is a unit of Molality"^^xsd:string ; + ns1:symbol "mol/t"^^xsd:string ; + ns1:ucumCode "mol.t-1"^^ns1:UCUMcs, + "mol/t"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "Maxwell"@en ; dcterms:description "\"Maxwell\" is a C.G.S System unit for 'Magnetic Flux' expressed as \\(Mx\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-08 ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Maxwell"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -50787,7 +56202,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.81454e+05 ; + ns1:conversionMultiplier 5.81454e+05, + 5814539.984022601702139868711921 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "https://en.wikipedia.org/wiki/Byte#Multiple-byte_units"^^xsd:anyURI ; @@ -50803,11 +56219,13 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA202"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the SI base unit ampere"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the SI base unit ampere"^^xsd:string, + "1,000,000-fold of the SI base unit ampere"^^xsd:string ; ns1:prefix ; ns1:symbol "MA"^^xsd:string ; ns1:ucumCode "MA"^^ns1:UCUMcs ; @@ -50826,7 +56244,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.545177e+06 ; + ns1:conversionMultiplier 5.545177e+06, + 5545177.44447956 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Megabyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -50862,7 +56281,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1.602177e-28 ; + ns1:conversionMultiplier 0.0000000000000000000000000001602176634, + 1.602177e-28 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:prefix ; @@ -50890,7 +56310,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA222"^^xsd:string ; @@ -50906,7 +56327,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA057"^^xsd:string ; @@ -50917,6 +56339,20 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "B84"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Micrograms per square metre per day"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.157407e-14, + 0.0000000000000115740740740741 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "µg/(m²⋅day)"^^xsd:string ; + ns1:ucumCode "ug.m-2.d-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Microhenry"@en ; @@ -50924,7 +56360,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA066"^^xsd:string ; @@ -50941,7 +56378,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -50958,7 +56396,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1.157407e-08 ; + ns1:conversionMultiplier 1.157407e-08, + 0.0000000115740740740741 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "µm/(L⋅day)"^^xsd:string ; @@ -50969,7 +56408,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "Micromho"@en ; dcterms:description "0.000001-fold of the obsolete unit mho of the electric conductance"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB201"^^xsd:string ; @@ -50984,7 +56424,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "Micromole"@en ; dcterms:description "0.000001-fold of the SI base unit mol"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA093"^^xsd:string ; @@ -50995,12 +56436,25 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "FH"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Micromoles per kilogram"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "µmol/kg"^^xsd:string ; + ns1:ucumCode "umol.kg-1"^^ns1:UCUMcs, + "umol/kg"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Micropoise"@en ; dcterms:description "0.000001-fold of the CGS unit of the dynamic viscosity poise"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-07 ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -51018,7 +56472,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -51063,6 +56518,48 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C8"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Milligrams per square metre per day"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.157407e-11, + 0.0000000000115740740740741 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "mg/(m²⋅day)"^^xsd:string ; + ns1:ucumCode "mg.m-2.d-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Milligrams per square metre per hour"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000000277777777777778, + 2.777778e-10 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "mg/(m²⋅hr)"^^xsd:string ; + ns1:ucumCode "mg.m-2.h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Milligrams per square metre per second"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "mg/(m²⋅s)"^^xsd:string ; + ns1:ucumCode "mg.m-2.s-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Millihenry"@en ; @@ -51095,37 +56592,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C18"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millimole Per Gram"@en ; - dcterms:description "0.001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA878"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "mmol/g"^^xsd:string ; - ns1:ucumCode "mmol.g-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H68"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millimole Per Kilogram"@en ; - dcterms:description "0.001-fold of the SI base unit mol divided by the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA879"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit mol divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "mmol/kg"^^xsd:string ; - ns1:ucumCode "mmol.kg-1"^^ns1:UCUMcs, - "mmol/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D87"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Millipascal Second"@en ; dcterms:description "0.001-fold of the product of the SI derived unit pascal and the SI base unit second"^^rdf:HTML ; @@ -51151,7 +56617,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 2.58e-07 ; + ns1:conversionMultiplier 0.000000258, + 2.58e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA898"^^xsd:string, @@ -51248,27 +56715,27 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:symbol "N⋅m⋅s/m"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Newton Metre Squared per Ampere"@en, - "Newton Meter Squared per Ampere"@en-us ; + a ns1:Unit ; + rdfs:label "Newton Per Ampere"@en ; + dcterms:description "SI derived unit newton divided by the SI base unit ampere"^^rdf:HTML ; ns1:applicableSystem , , ; ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "N⋅m²/A"^^xsd:string ; - ns1:ucumCode "N.m2.A-1"^^ns1:UCUMcs, - "N.m2/A"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P49"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA236"^^xsd:string ; + ns1:plainTextDescription "SI derived unit newton divided by the SI base unit ampere"^^xsd:string ; + ns1:symbol "N/A"^^xsd:string ; + ns1:ucumCode "N.A-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H40"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "نيوتن ثانية"@ar, "newton sekunda"@cs, "Newtonsekunde"@de, + "Newton Second"@en, "newton second"@en, "newton segundo"@es, "نیوتون ثانیه"@fa, @@ -51319,20 +56786,14 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "Q16"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per metre"@en ; - dcterms:description "Unavailable."@en ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/m"^^xsd:string ; - ns1:ucumCode "/m"^^ns1:UCUMcs, - "{#}.m-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "nanoampere"@en ; - ns1:conversionMultiplier 1e-09 ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA901"^^xsd:string ; @@ -51342,6 +56803,20 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C39"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Nanograms per square metre per Pascal per second"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; + ns1:symbol "kg/(m²⋅s⋅Pa)"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Nanohenry Per Metre"@en, "Nanohenry Per Meter"@en-us ; @@ -51349,7 +56824,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -51360,6 +56836,18 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C44"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Nanomoles per kilogram"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "nmol/kg"^^xsd:string ; + ns1:ucumCode "nmol.kg-1"^^ns1:UCUMcs, + "nmol/kg"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "NanoSiemens"@en ; ns1:applicableSystem , @@ -51395,6 +56883,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "أوم متر"@ar, "ohm metr"@cs, "Ohmmeter"@de, + "Ohm Metre"@en, "ohm metre"@en, "Ohm Meter"@en-us, "ohmio metro"@es, @@ -51428,6 +56917,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "باسكال ثانية"@ar, "pascal sekunda"@cs, "Pascalsekunde"@de, + "Pascal Second"@en, "pascal second"@en, "pascal segundo"@es, "نیوتون ثانیه"@fa, @@ -51483,36 +56973,38 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C67"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Angstrom"@en ; - dcterms:description "reciprocal of the unit angstrom"^^rdf:HTML ; - ns1:conversionMultiplier 0.0000000001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB058"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the unit angstrom"^^xsd:string ; - ns1:symbol "/Å"^^xsd:string ; - ns1:ucumCode "Ao-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C85"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Centimetre"@en, - "Reciprocal Centimeter"@en-us ; - dcterms:description "reciprocal of the 0.01-fold of the SI base unit metre"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Centimetre"@en, + "Reciprocal Cubic Centimeter"@en-us ; + dcterms:description "reciprocal of the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA382"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the 0.01-fold of the SI base unit metre"^^xsd:string ; - ns1:symbol "/cm"^^xsd:string ; - ns1:ucumCode "/cm"^^ns1:UCUMcs, - "cm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E90"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA383"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "/cm³"^^xsd:string ; + ns1:ucumCode "cm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H50"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Foot"@en ; + dcterms:description "reciprocal value of the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 35.31466 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA453"^^xsd:string ; + ns1:plainTextDescription "reciprocal value of the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; + ns1:symbol "/ft³"^^xsd:string ; + ns1:ucumCode "[cft_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K20"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -51522,7 +57014,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 3.895644e+19 ; + ns1:conversionMultiplier 3.895644e+19, + 38956440500000000000.0 ; ns1:expression "\\(/GeV^2\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -51530,6 +57023,40 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:ucumCode "GeV-2"^^ns1:UCUMcs ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Inch"@en ; + dcterms:description "reciprocal value of the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 61023.76 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA546"^^xsd:string ; + ns1:plainTextDescription "reciprocal value of the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; + ns1:symbol "/in³"^^xsd:string ; + ns1:ucumCode "[cin_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K49"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Reciprocal Litre"@en, + "Reciprocal Liter"@en-us ; + dcterms:description "reciprocal value of the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA667"^^xsd:string ; + ns1:plainTextDescription "reciprocal value of the unit litre"^^xsd:string ; + ns1:symbol "/L"^^xsd:string ; + ns1:ucumCode "/L"^^ns1:UCUMcs, + "L-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K63"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Reciprocal Metre Kelvin"@en, "Reciprocal Meter Kelvin"@en-us ; @@ -51584,11 +57111,49 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C87"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Reciprocal Millilitre"@en, + "Reciprocal Milliliter"@en-us ; + dcterms:description "reciprocal value of the unit Millilitre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "reciprocal value of the unit millilitre"^^xsd:string ; + ns1:symbol "/mL"^^xsd:string ; + ns1:ucumCode "/mL"^^ns1:UCUMcs, + "mL-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Millimetre"@en, + "Reciprocal Cubic Millimeter"@en-us ; + dcterms:description "reciprocal value of the 0.000000001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA870"^^xsd:string ; + ns1:plainTextDescription "reciprocal value of the 0.000000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "/mm³"^^xsd:string ; + ns1:ucumCode "/mm3"^^ns1:UCUMcs, + "mm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L20"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Inverse Square Planck Mass"@en ; dcterms:description "In physics, the Planck mass, denoted by \\(m_P\\), is the unit of mass in the system of natural units known as Planck units. It is defined so that \\(\\approx 1.2209 \\times 10 GeV/c_0 = 2.17651(13) \\times 10 kg\\), (or \\(21.7651 \\mu g\\)), where \\(c_0\\) is the speed of light in a vacuum, \\(G\\) is the gravitational constant, and \\(\\hbar\\) is the reduced Planck constant. Particle physicists and cosmologists often use the reduced Planck mass, which is \\(\\approx 4.341 \\times 10 kg = 2.435 \\times 10 GeV/c\\). The added factor of \\(1/{\\sqrt{8\\pi}}\\) simplifies a number of equations in general relativity. Quantum effects are typified by the magnitude of Planck's constant."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.111089e+15 ; + ns1:conversionMultiplier 2111089000000000.0, + 2.111089e+15 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_mass"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -51629,6 +57194,45 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:ucumCode "Wb-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Yard"@en ; + dcterms:description "reciprocal value of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1.307951 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB033"^^xsd:string ; + ns1:plainTextDescription "reciprocal value of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; + ns1:symbol "/yd³"^^xsd:string ; + ns1:ucumCode "[cyd_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M10"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Metric Perm"@en, + "U.S. Perm"@en ; + dcterms:description "A perm is a unit of permeance or \"water vapor transmission\" given a certain differential in partial pressures on either side of a material or membrane. The metric perm (not an SI unit) is defined as 1 gram of water vapor per day, per square meter, per millimeter of mercury."@en ; + ns1:conversionMultiplier 0.0000000000868127, + 8.68127e-11 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; + ns1:symbol "perm{Metric}"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "U.S. Perm"@en ; + dcterms:description "A perm is a unit of permeance or \"water vapor transmission\" given a certain differential in partial pressures on either side of a material or membrane. The U.S. perm is defined as 1 grain of water vapor per hour, per square foot, per inch of mercury."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 5.72135e-11, + 0.0000000000572135 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; + ns1:symbol "perm{US}"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Acidity"@en ; dcterms:description "the negative decadic logarithmus of the concentration of free protons (or hydronium ions) expressed in 1 mol/l."@en ; @@ -51682,7 +57286,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 6.243315e+15 ; + ns1:conversionMultiplier 6243314768165359.2088811673338586, + 6.243315e+15 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Pebibyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -51705,7 +57310,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.545177e+15 ; + ns1:conversionMultiplier 5.545177e+15, + 5545177444479562.4753378569716654 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Petabyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -51723,7 +57329,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA928"^^xsd:string ; @@ -51739,7 +57346,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA932"^^xsd:string ; @@ -51750,11 +57358,23 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "C73"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Picomoles per kilogram"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "pmol/kg"^^xsd:string ; + ns1:ucumCode "pmol.kg-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Planck Current"@en ; dcterms:description "The Planck current is the unit of electric current, denoted by IP, in the system of natural units known as Planck units. \\(\\approx 3.479 \\times 10 A\\), where: the Planck time is the permittivity in vacuum and the reduced Planck constant G is the gravitational constant c is the speed of light in vacuum. The Planck current is that current which, in a conductor, carries a Planck charge in Planck time. Alternatively, the Planck current is that constant current which, if maintained in two straight parallel conductors of infinite length and negligible circular cross-section, and placed a Planck length apart in vacuum, would produce between these conductors a force equal to a Planck force per Planck length."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 3.4789e+25 ; + ns1:conversionMultiplier 34789000000000000000000000.0, + 3.4789e+25 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_current"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -51784,7 +57404,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 2.58e-04 ; + ns1:conversionMultiplier 2.58e-04, + 0.000258 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Roentgen"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -51857,6 +57478,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ "sievert"@cs, "Sievert"@de, "σίβερτ"@el, + "Sievert"@en, "sievert"@en, "sievert"@es, "سیورت"@fa, @@ -51898,93 +57520,33 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "D13"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Statsiemens"@en ; - dcterms:description "The unit of conductance, admittance, and susceptance in the centimeter-gram-second electrostatic system of units."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.11265e-12 ; - ns1:derivedUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://www.knowledgedoor.com/2/units_and_constants_handbook/statsiemens.html"^^xsd:anyURI, - "http://www.sizes.com/units/statmho.htm"^^xsd:anyURI, - "http://www3.wolframalpha.com/input/?i=statsiemens"^^xsd:anyURI ; - ns1:symbol "statS"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "statmho"^^xsd:string . - - a ns1:Unit ; - rdfs:label "Tonne Per Day"@en ; - dcterms:description "metric unit tonne divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.011574074074074 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA991"^^xsd:string ; - ns1:plainTextDescription "metric unit tonne divided by the unit for time day"^^xsd:string ; - ns1:symbol "t/day"^^xsd:string ; - ns1:ucumCode "t.d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L71"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne Per Hour"@en ; - dcterms:description "unit tonne divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.277777777777778 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB994"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the unit for time hour"^^xsd:string ; - ns1:symbol "t/hr"^^xsd:string ; - ns1:ucumCode "t.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E18"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne Per Minute"@en ; - dcterms:description "unit tonne divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "T-M"@en ; + ns1:applicableSystem , , ; - ns1:conversionMultiplier 16.666666666666668 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB000"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the unit for time minute"^^xsd:string ; - ns1:symbol "t/min"^^xsd:string ; - ns1:ucumCode "t.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L78"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "T⋅m"^^xsd:string ; + ns1:ucumCode "T.m"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Tonne Per Second"@en ; - dcterms:description "unit tonne divided by the SI base unit second"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "tonne per hectare per year"@en ; + dcterms:description "A measure of density equivalent to 1000kg per hectare per year or one Megagram per hectare per year, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB003"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the SI base unit second"^^xsd:string ; - ns1:symbol "t/s"^^xsd:string ; - ns1:ucumCode "t.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L81"^^xsd:string ; + ns1:conversionMultiplier 0.00000000317, + 3.17e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare per year or one Megagram per hectare per year, typically used to express a volume of biomass or crop yield."^^xsd:string ; + ns1:symbol "t/(ha⋅year)"^^xsd:string, + "t/ha/year"^^xsd:string ; + ns1:ucumCode "t.har-1.year-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:Unit ; @@ -51999,95 +57561,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:informativeReference "http://en.wikipedia.org/wiki/Ton_of_refrigeration?oldid=494342824"^^xsd:anyURI ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Tonne Per Day"@en ; - dcterms:description "metric unit ton divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.011574074074074 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA991"^^xsd:string ; - ns1:plainTextDescription "metric unit ton divided by the unit for time day"^^xsd:string ; - ns1:symbol "t/day"^^xsd:string ; - ns1:ucumCode "t.d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L71"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne Per Hour"@en ; - dcterms:description "unit tonne divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.277777777777778 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB994"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the unit for time hour"^^xsd:string ; - ns1:symbol "t/hr"^^xsd:string ; - ns1:ucumCode "t.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E18"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne Per Minute"@en ; - dcterms:description "unit ton divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 16.666666666666668 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB000"^^xsd:string ; - ns1:plainTextDescription "unit ton divided by the unit for time minute"^^xsd:string ; - ns1:symbol "t/min"^^xsd:string ; - ns1:ucumCode "t.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L78"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne Per Second (metric Ton)"@en ; - dcterms:description "unit ton divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB003"^^xsd:string ; - ns1:plainTextDescription "unit ton divided by the SI base unit second"^^xsd:string ; - ns1:symbol "t/s"^^xsd:string ; - ns1:ucumCode "t.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L81"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ton (US) Per Hour"@en ; - dcterms:description "unit ton divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.251944444444444 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA994"^^xsd:string, - "0112/2///62720#UAB019"^^xsd:string ; - ns1:plainTextDescription "unit ton divided by the unit for time hour"^^xsd:string ; - ns1:symbol "ton{US}/hr"^^xsd:string ; - ns1:ucumCode "[ston_av].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "4W"^^xsd:string, - "E18"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:CountingUnit, ns1:Unit ; rdfs:label "TebiByte"@en ; @@ -52100,7 +57573,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 6.096987e+12 ; + ns1:conversionMultiplier 6.096987e+12, + 6096987078286.4836024230149744713 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tebibyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -52122,7 +57596,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ , , ; - ns1:conversionMultiplier 5.545177e+12 ; + ns1:conversionMultiplier 5.545177e+12, + 5545177444479.5624753378569716654 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Terabyte"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -52145,7 +57620,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ rdfs:label "Unit Pole"@en ; dcterms:description "A magnetic pole is a unit pole if it exerts a force of one dyne on another pole of equal strength at a distance of 1 cm. The strength of any given pole in cgs units is therefore numerically equal to the force in dynes which it exerts on a unit pole 1 cm away."^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.256637e-07 ; + ns1:conversionMultiplier 0.0000001256637, + 1.256637e-07 ; ns1:expression "\\(U/nWb\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -52192,7 +57668,8 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ dcterms:description "The magnetic flux whose expenditure in 1 second produces 1 abvolt per turn of a linked circuit. Technically defined in a three-dimensional system, it corresponds in the four-dimensional electromagnetic sector of the SI system to 10 nWb, and is an impractically small unit. In use for some years, the name was agreed by the International Electrotechnical Committee in 1930, along with a corresponding practical unit, the pramaxwell (or pro-maxwell) = \\(10^{8}\\) maxwell."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-08 ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; ns1:derivedUnitOfSystem ; ns1:expression "\\(abv-sec\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -52228,25 +57705,6 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:ucumCode "W.m2.sr-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Watt Per Kilogram"@en ; - dcterms:description "SI derived unit watt divided by the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA316"^^xsd:string ; - ns1:plainTextDescription "SI derived unit watt divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "W/kg"^^xsd:string ; - ns1:ucumCode "W.kg-1"^^ns1:UCUMcs, - "W/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "WA"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Watt per Square Metre Quartic Kelvin"@en, @@ -52262,25 +57720,7 @@ $\\text{Electromagnetic Energy Density}$, also known as the $\\color{indigo} {\\ ns1:uneceCommonCode "D56"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Weber Metre"@en, - "Weber Meter"@en-us ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB333"^^xsd:string ; - ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI ; - ns1:symbol "Wb⋅m"^^xsd:string ; - ns1:ucumCode "Wb.m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P50"^^xsd:string ; - rdfs:isDefinedBy . - -ns4:CompositeCodeList a owl:Class ; +ns3:CompositeCodeList a owl:Class ; rdfs:label "Composite Code List"^^xsd:string ; dcterms:description """ A composite codelist is a codelist made up of other codelists. @@ -52288,13 +57728,16 @@ It does not introduce any new codes. """^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ns4:CodeList ; - owl:onProperty ns4:compositeOf ], - ns4:CodeList ; - owl:disjointWith ns4:DerivedCodeList, - ns4:SimpleCodeList . + owl:allValuesFrom ns3:CodeList ; + owl:onProperty ns3:compositeOf ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:CodeList ; + owl:onProperty ns3:compositeOf ], + ns3:CodeList ; + owl:disjointWith ns3:DerivedCodeList, + ns3:SimpleCodeList . -ns4:DerivedCodeList a owl:Class ; +ns3:DerivedCodeList a owl:Class ; rdfs:label "Derived Code List"^^xsd:string ; dcterms:description """ A derived codelist is a sublist of another codelist. @@ -52302,95 +57745,103 @@ The members that it has must be members of the source list. """^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ns4:ValueReference ; - owl:onProperty ns4:hasMember ], + owl:maxCardinality 1 ; + owl:onProperty ns3:derivedFrom ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:ValueReference ; + owl:onProperty ns3:hasMember ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:ValueReference ; + owl:onProperty ns3:hasMember ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:CodeList ; + owl:onProperty ns3:derivedFrom ], [ a owl:Restriction ; owl:maxCardinality 1 ; - owl:onProperty ns4:derivedFrom ], + owl:onProperty ns3:derivedFrom ], [ a owl:Restriction ; - owl:allValuesFrom ns4:CodeList ; - owl:onProperty ns4:derivedFrom ], - ns4:CodeList ; - owl:disjointWith ns4:CompositeCodeList, - ns4:SimpleCodeList . + owl:allValuesFrom ns3:CodeList ; + owl:onProperty ns3:derivedFrom ], + ns3:CodeList ; + owl:disjointWith ns3:CompositeCodeList, + ns3:SimpleCodeList . -ns4:SimpleCodeList a owl:Class ; +ns3:SimpleCodeList a owl:Class ; rdfs:label "Simple Code List"^^xsd:string ; dcterms:description "A simple codelist is one made up only of enumerated values."^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ns4:EnumeratedValue ; - owl:onProperty ns4:hasMember ], - ns4:CodeList ; - owl:disjointWith ns4:CompositeCodeList, - ns4:DerivedCodeList . - -ns4:defaultObjectValue a owl:ObjectProperty ; - rdfs:label "default object value"^^xsd:string ; - dcterms:description """ -The property "dtype:defaultValue" is a general property for specifying an object value in situations where -none is specified. -"""^^xsd:string ; - rdfs:isDefinedBy . - -ns4:derivedFrom a owl:ObjectProperty ; - rdfs:label "derived from"^^xsd:string ; - dcterms:description "A property for specifying a derivation relationship."^^xsd:string ; - rdfs:isDefinedBy . - -ns4:hasMember a owl:ObjectProperty ; - rdfs:label "has member"^^xsd:string ; - dcterms:description "A property for specifying how member elements make up a data structure."^^xsd:string ; - rdfs:isDefinedBy . + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:hasMember ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:hasMember ], + ns3:CodeList ; + owl:disjointWith ns3:CompositeCodeList, + ns3:DerivedCodeList . -ns4:literal a owl:DatatypeProperty ; - rdfs:label "literal"^^xsd:string ; +ns3:ValueReference a owl:Class ; + rdfs:label "Value Reference"^^xsd:string ; dcterms:description """ -A general purpose property for holding string literals as a machine-readable string for how the -enumerated value can be referred to. -This can be used when the code value is numeric, as an alternative to using a code. -Literal is not the same as label which is intended for human readable display. -For example, a code for January may be 1, the literal may be 'J' or 'jan' and the label 'January'. +A value reference is a pointer to an Enumerated Value. +The original order of the value can be overridden by the "order" attribute. """^^xsd:string ; - rdfs:comment ""^^xsd:string ; rdfs:isDefinedBy ; - rdfs:range xsd:string . + rdfs:subClassOf [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:refersTo ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:refersTo ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns3:refersTo ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns3:refersTo ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:order ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:order ], + owl:Thing . -ns4:order a owl:DatatypeProperty ; - rdfs:label "order"^^xsd:string ; +ns3:code a owl:DatatypeProperty ; + rdfs:label "code"^^xsd:string ; dcterms:description """ -The property "dtype:order" provides a means to specify a precedence. -One use of order is in specifying ordered enumerations such as "voag:ConfidentialityLevel". -A similar property, but with an important type difference, is "vaem:orderIndex". -This is for use on property occurrences in class axioms where it can be placed on a restriction -to specify how that property may be transformed into other representations where ordering has some -importance, for example, in XML Schema sequences. -Whereas "vaem:order" is a datatype property, "vaem:orderIndex" is an annotation property. -The "order" property specifies a value that can establish precedence and ordinality. -One use of order is in make an enumeration an ordinal type. -For example "RiskLevel" might have the values "very low", "low", "medium", "high" and "very high". -A query that asks for all risks that are greater than "medium" would use the ordinal values and return -those resources that have “medium”, “high” and “very high” ordinality. +A property for expressing a unique value for a member of an enumeration. +The range has been set to "xsd:anySimpleType" to allow for any scalar datatype. """^^xsd:string ; + rdfs:comment "A unique value that is assigned to an enumeration member."^^xsd:string ; rdfs:isDefinedBy ; - rdfs:range xsd:integer ; - rdfs:seeAlso ns4:orderIndex . + rdfs:range xsd:anySimpleType . -ns4:refersTo a owl:ObjectProperty ; - rdfs:label "refers to"^^xsd:string ; - dcterms:description """ -An indirection pointer for relating a slot in am occurrence data structure, such as "dtype:ValueReference" with another resource. -"""^^xsd:string ; +ns3:compositeOf a owl:ObjectProperty ; + rdfs:label "composite of"^^xsd:string ; + dcterms:description "A property for constructing composite data structures"^^xsd:string ; rdfs:isDefinedBy . -ns4:value a owl:DatatypeProperty ; - rdfs:label "value"^^xsd:string ; - dcterms:description """ -The property "dtype:value" is a general property for specifying a literal value in situations where -none is specified. -"""^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:range xsd:anySimpleType . +ns2:Aspect a owl:Class ; + rdfs:label "Aspect Dimension"^^xsd:string ; + dcterms:description "Aspect is used to distinguish among sets of features of a domain or subject area. The term is borrowed from \"aspect-oriented\" programming, where it is used to separate concerns. An ontology may be characterized by this dimension so as to parition features that are orthogonal. For example, in a systems ontology there may be aspects for \"structure\", \"function\", \"behavior\" and \"interface\" or \"interoperability\". A viewpoint can be distinguished by \"aspects\". For example the \"information viewpoint\" of an application can be partitioned into separate graphs for the \"security\", \"operational\" and\"data retention\" aspects."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf ns2:Dimension . + +ns2:Discipline a owl:Class ; + rdfs:label "Discipline Dimension"^^xsd:string ; + dcterms:description "A discipline is a specific area of work or study. Examples of disciplines in the engineering domain are electrical engineering, mechanical engineering and, in the financial domain, risk assessment, investment analysis. In VAEM, discipline is used as a dimension for characterizing an ontology graph"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf ns2:Dimension . + +ns2:Domain a owl:Class ; + rdfs:label "Domain Dimension"^^xsd:string ; + dcterms:description "A domain is a subject area of interest. Examples of domains are \"enterprise\", \"process\", \"organization\" and \"system\". In VAEM, \"Domain\" is used as a dimension for characterizing an ontology graph"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf ns2:Dimension . ns2:GMD_VAEM a ns2:GraphMetaData ; rdfs:label "VAEM Schema Version 2.0 Metadata"^^xsd:string ; @@ -52430,35 +57881,153 @@ ns2:SchemaGraph a ns2:GraphRole ; rdfs:isDefinedBy , . -ns2:description a owl:DatatypeProperty ; - rdfs:label "description"^^xsd:string ; +ns2:Viewpoint a owl:Class ; + rdfs:label "ViewpointDimension"^^xsd:string ; + dcterms:description "Viewpoint is used to denote how a set of resources, or an individual resource, is relevant to a context of use. The term \"viewpoint\" is adopted from the ISO RM-ODP specifications and its more recent use in enterprise architecture descriptions. The RM-ODP introducesd the concept of viewpoint to describe a system from a particular set of concerns. RM-ODP defines five viewpoints. Together they provide a complete description of a system: enterprise viewpoint, information viewpoint, computational viewpoint, engineering viewpoint, and technology viewpoint. In VAEM, \"Viewpoint\" is used as a dimension for characterizing an ontology graph. The viewpoints of an ontology may not always correpsond directly to those of a system but the idea of describing a subject area of interest from distinct viewpoints is still relevant. A viewpoint can be further distinguished by \"aspects\". For example the \"information viewpoint\" of an application can be partitioned into separate graphs for the \"security\", \"operational\" and\"data retention\" aspects."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf ns2:Dimension . + +ns2:filePrefix a owl:DatatypeProperty ; + rdfs:label "file prefix"^^xsd:string ; + dcterms:description "The property \"vaem:filePrefix\" is for specifying a preferred file prefix for a graph. For example a schema graph may be given the file prefix \"SCHEMA\" followed by an underscore \"_\"."^^xsd:string ; rdfs:isDefinedBy , ; rdfs:range xsd:string . -ns2:hasMetadata a owl:ObjectProperty ; - rdfs:label "has metadata"^^xsd:string ; - dcterms:description "The property \"hasMetadata\" is used to reference a metadata information structure."^^xsd:string ; +ns2:hasAspect a owl:ObjectProperty ; + rdfs:label "has aspect "^^xsd:string ; + dcterms:description "The property \"vaem:hasAspect\" is used to distinguish among sets of features of a domain or subject area. The term is borrowed from \"aspect-oriented\" programming, where it is used to separate concerns. An ontology may be characterized by this dimension so as to parition features that are orthogonal. For example, in a systems ontology we can distinguish aspects for \"structure\", \"function\", \"behavior\" and \"interface\". The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subPropertyOf ns2:hasDimension . + +ns2:hasDiscipline a owl:ObjectProperty ; + rdfs:label "has discipline"^^xsd:string ; + dcterms:description "The property \"vaem:hasDiscipline\" is used to indicate relevance of a set of resources, or a resource itself, to a specific discipline of work or study. Examples of disciplines in the engineering domain are electrical engineering, mechanical engineering and, in the financial domain, risk assessment, investment analysis. In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subPropertyOf ns2:hasDimension . + +ns2:hasDomain a owl:ObjectProperty ; + rdfs:label "has domain"^^xsd:string ; + dcterms:description "The property \"vaem:hasDomain\" is used to specify how a set of resources, or an individual resource is grounded in a domain, that is, a subject area of interest. Examples of domains are \"enterprise\", \"process\", \"organization\" and \"system\". In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subPropertyOf ns2:hasDimension . + +ns2:hasGraphRole a owl:ObjectProperty ; + rdfs:label "has graph role"^^xsd:string ; + dcterms:description "The property \"lms:hasGraphRole\" is used to characterize how a resource participates in an ontology set. The property is used to specify the role that a graph plays, for example, an ontology graph can be a schema, vocabulary, dataset, script, or ruleset"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range ns2:GraphRole . + +ns2:hasIdentifier a owl:ObjectProperty ; + rdfs:label "has identifier"^^xsd:string ; + dcterms:description "The property \"vaemhasIdentifier\" is intended for general use as a means to specifiy a unique reference to something. This is an object property that is a sub-property of \"vame:id\""^^xsd:string ; rdfs:isDefinedBy , . -ns2:hasSteward a owl:ObjectProperty ; - rdfs:label "has steward"^^xsd:string ; - dcterms:description "A property that is used to refer to a \"Steward\", that is, the party or role that is responsible for maintaining an asset, in the case of VAEM, an ontology graph."^^xsd:string ; +ns2:hasLicenseType a owl:ObjectProperty ; + rdfs:label "has license type"@en-us ; + dcterms:description "The property \"vaem:hasLicenseType\" points to an entry in the VOAG ontology for licenses"^^xsd:string ; rdfs:isDefinedBy , . -ns2:name a owl:DatatypeProperty ; - rdfs:label "name"^^xsd:string ; - dcterms:description "The property \"vaem:name\" is intended for general use. In many cases \"rdfs:label\" could be used give names to resources. In the case where compliance with a specific naming rule is needed, \"vaem:name\" allows a resource to carry a name that is used in more specific contexts."^^xsd:string ; +ns2:hasOwner a owl:ObjectProperty ; + rdfs:label "has owner"^^xsd:string ; + rdfs:isDefinedBy , + . + +ns2:hasViewpoint a owl:ObjectProperty ; + rdfs:label "has viewpoint"^^xsd:string ; + dcterms:description "The property \"vaem:hasViewpoint\" is used to denote how a set of resources, or an individual resource, is relevant to a context of use. The term \"viewpoint\" is adopted from the ISO RM-ODP specifications and its more recent use in enterprise architecture descriptions. In VAEM, the property is used as a dimension for characterizing an ontology graph. The property is an \"rdf:Property\" to allow both scalar and object values"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subPropertyOf ns2:hasDimension . + +ns2:id a owl:DatatypeProperty ; + rdfs:label "id"^^xsd:string ; + dcterms:description "The property \"vaem:id\" is intended for general use as a means to specifiy an identifier. The type of this property is intentionally set to \"rdf:Property\" so that use of the property can allow both object and scaler values. For this reason, the property is rangeless"^^xsd:string ; + rdfs:isDefinedBy , + . + +ns2:intent a owl:DatatypeProperty ; + rdfs:label "intent"^^xsd:string ; + dcterms:description "The property \"vaem:intent\" is used to outline a statement of purpose. This typically expresses one or more desired outcomes"^^xsd:string ; rdfs:isDefinedBy , ; rdfs:range xsd:string . -rdfs:comment a rdf:Property ; - rdfs:label "comment"^^xsd:string ; - rdfs:comment "Description of constraints for s223."^^xsd:string ; - rdfs:subPropertyOf rdfs:comment . +ns2:latestPublishedVersion a owl:DatatypeProperty ; + rdfs:label "latest published version"^^xsd:string ; + dcterms:description "The property \"vaem:latestPublishedVersion\"is a URL to documentation for the latest version of a graph."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . + +ns2:namespace a owl:DatatypeProperty ; + rdfs:label "namespace"^^xsd:string ; + dcterms:description "The property \"vaem:namespace\" is the onotlogy URI with which a graph is primarily associated. The intent is to allow multiple graphs to define statements for resources in the same Ontology namespace. For example, a foundation level graph with the base URI of \"http://www.somesite.com/1.0/schema/OurOntology\" may define general concepts for \"OurOntology\". Another graph with the base URI \"http://www.somesite.com/1.0/schema/level2/OurOntology\" may add more specific details to the same \"OurOntology\". Each of these two graphs would carry the same value for \"vaem:namespace\", that is, \"http://www.somesite.com/schema/OurOntology\". In other words, an ontology URI is the URI associated with the resources of a controlled namespace. On the other hand the graph URIs (the base URIs) identify the graphs that hold resources that make up an ontology"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . + +ns2:namespacePrefix a owl:DatatypeProperty ; + rdfs:label "namespace prefix"^^xsd:string ; + dcterms:description "The property \"vaem:namespacePrefix\" specifes a short handle or label for the URI of an Ontology. Multiple graphs can define statements for resources in the same Ontololgy namespace. For example, a foundation level graph with the base URI of \"http://www.somesite.com/1.0/schema/OurOntology\" may define general concepts for \"OurOntology\". Another graph with the base URI \"http://www.somesite.com/1.0/schema/level2/OurOntology\" may add more specific details to the same \"OurOntology\". Each of these two graphs would carry the same value for \"vaem:namespacePrefix\", for this example, perhaps, \"ourOntology\""^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:string . + +ns2:owner a owl:DatatypeProperty ; + rdfs:label "owner"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:string . + +ns2:previousPublishedVersion a owl:DatatypeProperty ; + rdfs:label "previous published version"^^xsd:string ; + dcterms:description "The property \"vaem:previousPublishedVersion\"is a URL to documentation for the previous version of a graph."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . + +ns2:rdfxmlFileURL a owl:DatatypeProperty ; + rdfs:label "RDF/XML file URL"^^xsd:string ; + dcterms:description "The property \"vaem:rdfxmlFileURL\" is used to provide a link to the location of the ontology's RDF/XML file"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . + +ns2:revision a owl:DatatypeProperty ; + rdfs:label "revision"^^xsd:string ; + dcterms:description "The property \"vaem:revision\" is a property intended for general use as the name implies."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:string . + +ns2:specificity a owl:DatatypeProperty ; + rdfs:label "specificity"^^xsd:string ; + dcterms:description "The property \"vaem:specificity\" is intended to specify the level of detail of an ontology. The values that can be set for this property are restriced to an integer from 1 to 5. An ontology at level 1 has concepts of more general applicability than one at level 5. By having graphs at different levels of specificity it is possible to support greater modularity for selective imports"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:nonNegativeInteger . + +ns2:turtleFileURL a owl:DatatypeProperty ; + rdfs:label "turtle file URL"^^xsd:string ; + dcterms:description "The property \"vaem:turtleFileURL\" is used to provide a link to the location of the ontology's turtle file"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . + +ns2:url a owl:DatatypeProperty ; + rdfs:label "url"^^xsd:string ; + dcterms:description "The property \"vaem:url\" is intended for general use as the name implies. The range of the property is set as an XSD URI"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:anyURI . skos:broaderTransitive a rdf:Property, owl:ObjectProperty, @@ -52500,6 +58069,26 @@ skos:narrowerTransitive a rdf:Property, skos:definition "skos:narrowerTransitive is a transitive superproperty of skos:narrower."^^xsd:string ; skos:scopeNote "By convention, skos:narrowerTransitive is not used to make assertions. Rather, the properties can be used to draw inferences about the transitive closure of the hierarchical relation, which is useful e.g. when implementing a simple query expansion algorithm in a search application."@en . +sh:BlankNode a sh:NodeKind ; + rdfs:label "Blank node"@en ; + rdfs:comment "The node kind of all blank nodes."@en ; + rdfs:isDefinedBy sh: . + +sh:BlankNodeOrIRI a sh:NodeKind ; + rdfs:label "Blank node or IRI"@en ; + rdfs:comment "The node kind of all blank nodes or IRIs."@en ; + rdfs:isDefinedBy sh: . + +sh:BlankNodeOrLiteral a sh:NodeKind ; + rdfs:label "Blank node or literal"@en ; + rdfs:comment "The node kind of all blank nodes or literals."@en ; + rdfs:isDefinedBy sh: . + +sh:IRIOrLiteral a sh:NodeKind ; + rdfs:label "IRI or literal"@en ; + rdfs:comment "The node kind of all IRIs or literals."@en ; + rdfs:isDefinedBy sh: . + sh:qualifiedValueShape a rdf:Property ; rdfs:label "qualified value shape"@en ; rdfs:comment "The shape that a specified number of values must conform to."@en ; @@ -52519,6 +58108,34 @@ s223:Aspect-DayOfWeek a s223:Aspect-DayOfWeek, rdfs:comment "This class has enumerated subclasses of Monday, Tuesday, Wednesday, Thursday, Friday, Saturday and Sunday. The Weekend and Weekday EnumerationKinds define subsets of this EnumerationKind for Mon-Fri and Sat,Sun, respectively"^^xsd:string ; rdfs:subClassOf s223:EnumerationKind-Aspect . +s223:Binary-Logical a s223:Binary-Logical, + s223:Class, + sh:NodeShape ; + rdfs:label "Binary Logical"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of True and False used to describe the possible values of a logical property"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Binary . + +s223:Binary-OnOff a s223:Binary-OnOff, + s223:Class, + sh:NodeShape ; + rdfs:label "OnOff enumeration"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of states of either on or off."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Binary . + +s223:Binary-Position a s223:Binary-Position, + s223:Class, + sh:NodeShape ; + rdfs:label "Position"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of position such as closed or open."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Binary . + +s223:Constituent-CO2 a s223:Class, + s223:Constituent-CO2, + sh:NodeShape ; + rdfs:label "Constituent-CO2"^^xsd:string ; + rdfs:comment "Constituent-CO2"^^xsd:string ; + rdfs:subClassOf s223:Medium-Constituent . + s223:DCNegativeVoltage-12.0V a s223:Class, s223:DCNegativeVoltage-12.0V, sh:NodeShape ; @@ -52585,14 +58202,8 @@ s223:DayOfWeek-Weekend a s223:Class, rdfs:label "Day of week-Weekend"^^xsd:string, "Weekend"^^xsd:string ; rdfs:comment "This class defines the EnumerationKind values of Saturday and Sunday"^^xsd:string ; - rdfs:subClassOf s223:Aspect-DayOfWeek . - -s223:Domain-HVAC a s223:Class, - s223:Domain-HVAC, - sh:NodeShape ; - rdfs:label "Domain-HVAC"^^xsd:string ; - rdfs:comment "The domain HVAC represents equipment used to provide space conditioning and ventilation within a building. Example equipment that might fall within an HVAC domain include fans, pumps, air-handling units, and variable air volume boxes. "^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Domain . + rdfs:subClassOf s223:Aspect-DayOfWeek, + s223:EnumerationKind-DayOfWeek . s223:ElectricResistanceElement a s223:Class, sh:NodeShape ; @@ -52600,7 +58211,19 @@ s223:ElectricResistanceElement a s223:Class, rdfs:comment "Electric resistance elements provide electrical resistance heating, for example an electric heating coil within a Fan Coil Unit. It shall have one electricity InletConnectionPoint, plus fit one of the following two patterns: Pattern 1: An ElectricResistanceElement shall have exactly one Bidirectional ConnectionPoint using the medium Fluid. Pattern 2: An ElectricResistanceElement shall have one inlet and one outlet using the medium Fluid."^^xsd:string ; rdfs:subClassOf s223:Equipment ; sh:message "s223: An ElectricResistanceElement shall have one electricity InletConnectionPoint, plus fit one of the following two patterns: Pattern 1: An ElectricResistanceElement shall have exactly one Bidirectional ConnectionPoint using the medium Fluid. Pattern 2: An ElectricResistanceElement shall have one inlet and one outlet using the medium Fluid."^^xsd:string ; - sh:property [ rdfs:comment "An ElectricResistanceElement shall have the role Role-Heating."^^xsd:string ; + sh:property [ rdfs:comment "An ElectricResistanceElement shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:message "s223: An ElectricResistanceElement shall have at least one inlet using the medium Electricity."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "An ElectricResistanceElement shall have the role Role-Heating."^^xsd:string ; + sh:message "s223: An ElectricResistanceElement shall have the role Role-Heating."^^xsd:string ; + sh:path s223:hasRole ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Role-Heating ] ], + [ rdfs:comment "An ElectricResistanceElement shall have the role Role-Heating."^^xsd:string ; sh:message "s223: An ElectricResistanceElement shall have the role Role-Heating."^^xsd:string ; sh:path s223:hasRole ; sh:qualifiedMinCount 1 ; @@ -52613,6 +58236,30 @@ s223:ElectricResistanceElement a s223:Class, sh:node [ sh:property [ sh:class s223:Constituent-Electricity ; sh:path s223:hasMedium ] ] ] ] ; sh:xone ( [ sh:property [ rdfs:comment "Pattern 1: An ElectricResistanceElement shall have exactly one Bidirectional ConnectionPoint using the medium Fluid."^^xsd:string ; + sh:message "s223: Pattern 1: An ElectricResistanceElement requires exactly one BidirectionalConnectionPoint using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ] ] [ sh:property [ rdfs:comment "Pattern 2: An ElectricResistanceElement shall have one inlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "Pattern 2: An ElectricResistanceElement shall have one outlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ] ] ), + ( [ sh:property [ rdfs:comment "Pattern 1: An ElectricResistanceElement shall have exactly one Bidirectional ConnectionPoint using the medium Fluid."^^xsd:string ; sh:message "s223: Pattern 1: An ElectricResistanceElement requires exactly one BidirectionalConnectionPoint using the medium Fluid."^^xsd:string ; sh:path s223:hasConnectionPoint ; sh:qualifiedMaxCount 1 ; @@ -52637,287 +58284,127 @@ s223:ElectricResistanceElement a s223:Class, sh:path s223:hasMedium ] ] ] ; sh:qualifiedValueShapesDisjoint true ] ] ) . -s223:Fluid-Oil a s223:Class, - s223:Fluid-Oil, +s223:EnumerationKind-DayOfWeek a s223:Class, + s223:EnumerationKind-DayOfWeek, sh:NodeShape ; - rdfs:label "Fluid-Oil"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of oil."^^xsd:string ; + rdfs:label "Day of Week"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of Monday, Tuesday, Wednesday, Thursday, Friday, Saturday and Sunday. The Weekend and Weekday EnumerationKinds define subsets of this EnumerationKind for Mon-Fri and Sat,Sun, respectively"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . + +s223:EnumerationKind-ElectricalVoltagePhases a s223:Class, + s223:EnumerationKind-ElectricalVoltagePhases, + sh:NodeShape ; + rdfs:label "Aspect-Electrical Voltage Phases"^^xsd:string ; + rdfs:comment "This class enumerates the relevant electrical phases for a voltage difference for AC electricity inside a Connection."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . + +s223:ExternalReference a s223:Class, + sh:NodeShape ; + rdfs:label "ExternalReference"^^xsd:string ; + s223:abstract true ; + rdfs:comment "ExternalReference is an abstract class that represents a thing that contains API or protocol parameter values necessary to associate a property with a value."^^xsd:string ; + rdfs:subClassOf s223:Concept . + +s223:Fluid-NaturalGas a s223:Class, + s223:Fluid-NaturalGas, + sh:NodeShape ; + rdfs:label "Fluid-NaturalGas"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of natural gas in various states."^^xsd:string ; rdfs:subClassOf s223:Mix-Fluid . -s223:HeatPump a s223:Class, +s223:Light-Infrared a s223:Class, + s223:Light-Infrared, sh:NodeShape ; - rdfs:label "HeatPump"^^xsd:string ; - rdfs:comment "A device that can heat or cool by transferring thermal energy using a reversible refrigeration cycle."^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A HeatPump shall have at least one inlet using the medium Air."^^xsd:string ; - sh:message "s223: A HeatPump shall have at least one inlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; + rdfs:label "Light-Infrared"^^xsd:string ; + rdfs:comment "Light-Infrared"^^xsd:string ; + rdfs:subClassOf s223:EM-Light . + +s223:LightSensor a s223:Class, + sh:NodeShape ; + rdfs:label "Light sensor"^^xsd:string ; + rdfs:comment "A LightSensor is a specialization of a Sensor that observes a QuantifiableObservableProperty that represents a measurement of some attribute of light, as specified by the quantity kind of the Property being observed."^^xsd:string ; + rdfs:subClassOf s223:Sensor . + +s223:LineNeutralVoltage-24V a s223:Class, + s223:LineNeutralVoltage-24V, + sh:NodeShape ; + rdfs:label "24V Line-Neutral Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-24V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "24V Line-Neutral Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineNeutralVoltage . + +s223:Medium-Mix a s223:Class, + s223:Medium-Mix, + sh:NodeShape ; + rdfs:label "Medium-Mix"^^xsd:string ; + rdfs:comment "Medium-Mix"^^xsd:string ; + rdfs:subClassOf s223:Substance-Medium . + +s223:OccupancySensor a s223:Class, + sh:NodeShape ; + rdfs:label "Occupancy sensor"^^xsd:string ; + rdfs:comment "An OccupancySensor is a subclass of a Sensor that observes a Property that represents measurement of occupancy in a space."^^xsd:string ; + rdfs:subClassOf s223:Sensor . + +s223:PowerAndSignal-PoE a s223:Class, + s223:PowerAndSignal-PoE, + sh:NodeShape ; + rdfs:label "Power over Ethernet"^^xsd:string ; + s223:composedOf [ a s223:Property ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Electricity-DC ], + [ a s223:Property ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Signal-Ethernet ], + [ a s223:Property ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Signal-Ethernet ], + [ a s223:Property ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Electricity-DC ] ; + rdfs:comment "This class has enumerated subclasses of Power over Ethernet."^^xsd:string ; + rdfs:subClassOf s223:Mix-PowerAndSignal ; + sh:property [ rdfs:comment "There must be at least two Properties that characterize the constituents of Power over Ethernet."^^xsd:string ; + sh:class s223:Property ; + sh:minCount 2 ; + sh:path s223:composedOf ], + [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; + sh:path s223:composedOf ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A HeatPump shall have at least one outlet using the medium Air."^^xsd:string ; - sh:message "s223: A HeatPump shall have at least one outlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; + sh:class s223:Electricity-DC ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; + sh:path s223:composedOf ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ] . + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; + sh:class s223:Signal-Ethernet ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "There must be at least two Properties that characterize the constituents of Power over Ethernet."^^xsd:string ; + sh:class s223:Property ; + sh:minCount 2 ; + sh:path s223:composedOf ], + [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; + sh:path s223:composedOf ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be DC electrical power."^^xsd:string ; + sh:class s223:Electricity-DC ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; + sh:path s223:composedOf ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Property ; + sh:node [ sh:property [ rdfs:comment "One of the constituents of PoE must be Ethernet."^^xsd:string ; + sh:class s223:Signal-Ethernet ; + sh:path s223:ofConstituent ] ] ] ] . -s223:Junction a s223:Class, - sh:NodeShape ; - rdfs:label "Junction"^^xsd:string ; - rdfs:comment """A Junction is a modeling construct used when a branching point within a Connection (see `s223:Connection`) is of significance, -such as specifying the observation location of a Sensor. When a Junction is used, what might have been modeled as a single, branched Connection -is separated into three or more separate Connections, all tied together with the Junction and its associated ConnectionPoints. -Junction is a subClassOf Connectable, which gives it the ability to have connection points, but unlike Equipment (and like Connection) -it is not allowed to change the Medium that passes through it. This is why Junction is a sibling class to Equipment and not a subclass."""^^xsd:string ; - rdfs:subClassOf s223:Connectable ; - sh:property [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints with a medium with constituents and a pure medium."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m1 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp2 s223:hasMedium ?m2 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case5: Two ConnectionPoints with pure mediums."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m1 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -FILTER (?cp1 != ?cp2 ) . -?cp2 s223:hasMedium ?m2 . -FILTER (?m1 != ?m2 ) . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS {?m2 s223:composedOf ?c2} -FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . -FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m1 . -$this s223:hasMedium ?m2 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "Ensure compatibility - Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents"^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:message "s223: Junction {$this} with Medium {?m1} is incompatible with {?cp} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m2 . -$this s223:hasMedium ?m1 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; - sh:class s223:Substance-Medium ; - sh:maxCount 1 ; - sh:message "s223: A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasMedium ], - [ rdfs:comment "Incompatible Medium. Case1: A Junction with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; - sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m1 . -$this s223:hasMedium ?m2 . -FILTER (?m1 != ?m2 ) . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS {?m2 s223:composedOf ?c2} -FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . -FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m1 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp2 s223:hasMedium ?m2 . - ?m1 s223:composedOf/s223:ofConstituent ?s1 . - ?m2 s223:composedOf/s223:ofConstituent ?s2 . - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s11 . - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - FILTER (?s11 = ?s12) . - } - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s21 . - ?m2 s223:composedOf/s223:ofConstituent ?s22 . - {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . - } -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m1 . -$this s223:hasMedium ?m2 . - ?m1 s223:composedOf/s223:ofConstituent ?s1 . - ?m2 s223:composedOf/s223:ofConstituent ?s2 . - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s11 . - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - FILTER (?s11 = ?s12) . - } - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s21 . - ?m2 s223:composedOf/s223:ofConstituent ?s22 . - {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . - } -} -"""^^xsd:string ] ] . - -s223:LightSensor a s223:Class, - sh:NodeShape ; - rdfs:label "Light sensor"^^xsd:string ; - rdfs:comment "A LightSensor is a specialization of a Sensor that observes a QuantifiableObservableProperty that represents a measurement of some attribute of light, as specified by the quantity kind of the Property being observed."^^xsd:string ; - rdfs:subClassOf s223:Sensor . - -s223:LineNeutralVoltage-24V a s223:Class, - s223:LineNeutralVoltage-24V, - sh:NodeShape ; - rdfs:label "24V Line-Neutral Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-24V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "24V Line-Neutral Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineNeutralVoltage . - -s223:Medium-Mix a s223:Class, - s223:Medium-Mix, - sh:NodeShape ; - rdfs:label "Medium-Mix"^^xsd:string ; - rdfs:comment "Medium-Mix"^^xsd:string ; - rdfs:subClassOf s223:Substance-Medium . - -s223:Medium-ThermalContact a s223:Class, - s223:Medium-ThermalContact, - sh:NodeShape ; - rdfs:label "Medium-ThermalContact"^^xsd:string ; - rdfs:comment "Medium-ThermalContact"^^xsd:string ; - rdfs:subClassOf s223:Substance-Medium . - -s223:ObservableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Observable Property"^^xsd:string ; - rdfs:comment """The term "observable" implies that reading the Property value will return the result of a physical observation, usually by a Sensor. - In contrast, the term "actuatable" (see `s223:ActuatableProperty`) implies that writing to the Property value will directly trigger a physical actuation."""^^xsd:string ; - rdfs:subClassOf s223:Property ; - sh:property [ rdfs:comment "An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; - sh:class s223:Sensor ; - sh:message "s223: An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; - sh:minCount 1 ; - sh:path [ sh:inversePath s223:observes ] ; - sh:severity sh:Warning ] . - -s223:OccupancySensor a s223:Class, - sh:NodeShape ; - rdfs:label "Occupancy sensor"^^xsd:string ; - rdfs:comment "An OccupancySensor is a subclass of a Sensor that observes a Property that represents measurement of occupancy in a space."^^xsd:string ; - rdfs:subClassOf s223:Sensor . - -s223:PhysicalSpace a s223:Class, - sh:NodeShape ; - rdfs:label "Physical Space"^^xsd:string ; - rdfs:comment "A PhysicalSpace is an architectural concept representing a room, a part of a room, a collection of rooms, or any other physical region in a building. PhysicalSpaces may be grouped to define larger PhysicalSpaces using the relation contains (see `s223:contains`)."^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; - sh:class s223:PhysicalSpace ; - sh:message "s223: If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; - sh:path s223:contains ], - [ rdfs:comment "If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; - sh:class s223:DomainSpace ; - sh:message "s223: If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; - sh:path s223:encloses ] . - -s223:Role-Controller a s223:Class, - s223:Role-Controller, +s223:Role-Controller a s223:Class, + s223:Role-Controller, sh:NodeShape ; rdfs:label "Role-Controller"^^xsd:string ; rdfs:comment "Role-Controller"^^xsd:string ; @@ -52979,12 +58466,25 @@ s223:Water-GlycolSolution a s223:Class, s223:ofConstituent s223:Constituent-Glycol ; ns1:hasQuantityKind ; ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Constituent-Glycol ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Unspecified"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], [ a s223:QuantifiableProperty ; rdfs:label "Unspecified"^^xsd:string ; s223:ofConstituent s223:Constituent-H2O ; ns1:hasQuantityKind ; ns1:hasUnit ] ; s223:hasFreezingPoint [ a s223:QuantifiableProperty ; + rdfs:label "Freezing point"^^xsd:string ; + ns1:hasQuantityKind ], + [ a s223:QuantifiableProperty ; rdfs:label "Freezing point"^^xsd:string ; ns1:hasQuantityKind ] ; rdfs:comment "This class has enumerated subclasses of water-glycol solutions in various concentrations."^^xsd:string ; @@ -52993,22 +58493,52 @@ s223:Water-GlycolSolution a s223:Class, sh:class s223:QuantifiableProperty ; sh:minCount 2 ; sh:path s223:composedOf ], - [ rdfs:comment "If the relation hasFreezingPoint is used, the object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; - sh:class s223:QuantifiableProperty ; - sh:message "The object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; - sh:node [ sh:property [ sh:hasValue ; - sh:path ns1:hasQuantityKind ] ] ; - sh:path s223:hasFreezingPoint ], [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-H2O."^^xsd:string ; sh:path s223:composedOf ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:QuantifiableProperty ; - sh:node [ sh:property [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-H2O."^^xsd:string ; + sh:node [ sh:property [ rdfs:comment "The quantity kind of the constituent must be VolumeFraction."^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-H2O."^^xsd:string ; sh:hasValue s223:Constituent-H2O ; - sh:path s223:ofConstituent ], - [ rdfs:comment "The quantity kind of the constituent must be VolumeFraction."^^xsd:string ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-Glycol."^^xsd:string ; + sh:path s223:composedOf ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableProperty ; + sh:node [ sh:property [ rdfs:comment "The quantity kind of the constituent must be VolumeFraction."^^xsd:string ; sh:hasValue ; - sh:path ns1:hasQuantityKind ] ] ] ], + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-Glycol."^^xsd:string ; + sh:hasValue s223:Constituent-Glycol ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-H2O."^^xsd:string ; + sh:path s223:composedOf ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:QuantifiableProperty ; + sh:node [ sh:property [ rdfs:comment "The quantity kind of the constituent must be VolumeFraction."^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-H2O."^^xsd:string ; + sh:hasValue s223:Constituent-H2O ; + sh:path s223:ofConstituent ] ] ] ], + [ rdfs:comment "If the relation hasFreezingPoint is used, the object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "The object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ; + sh:path s223:hasFreezingPoint ], + [ rdfs:comment "If the relation hasFreezingPoint is used, the object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "The object must be a QuantifiableProperty with a quantity kind of Temperature."^^xsd:string ; + sh:node [ sh:property [ sh:hasValue ; + sh:path ns1:hasQuantityKind ] ] ; + sh:path s223:hasFreezingPoint ], + [ rdfs:comment "There must be at least two QuantifiableProperties that characterize the constituents of a Water-GlycolSolution."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:minCount 2 ; + sh:path s223:composedOf ], [ rdfs:comment "One of the constituents of a Water-GlycolSolution must be Constituent-Glycol."^^xsd:string ; sh:path s223:composedOf ; sh:qualifiedMinCount 1 ; @@ -53020,110 +58550,26 @@ s223:Water-GlycolSolution a s223:Class, sh:hasValue ; sh:path ns1:hasQuantityKind ] ] ] ] . -s223:Zone a s223:Class, - sh:NodeShape ; - rdfs:label "Zone"^^xsd:string ; - rdfs:comment "A Zone is a logical grouping of one or more DomainSpaces for a specific domain for some building service or control-related purpose. Zones may be grouped into ZoneGroups (see `s223:ZoneGroup`)."^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; - sh:class s223:EnumerationKind-Domain ; - sh:maxCount 1 ; - sh:message "s223: A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasDomain ], - [ rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; - sh:path s223:hasDomain ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; - sh:message "s223: Zone {$this} has a Domain of {?domain}, but it contains a DomainSpace {?ds} which has a Domain of {?dsdomain}. These should be the same."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT DISTINCT $this ?domain ?ds ?dsdomain -WHERE { -$this a s223:Zone . -$this s223:hasDomain ?domain . -$this s223:contains ?ds . -?ds s223:hasDomain ?dsdomain . -FILTER (?domain != ?dsdomain) -} -"""^^xsd:string ] ], - [ rdfs:comment "A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; - sh:class s223:DomainSpace ; - sh:message "s223: A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasDomainSpace ] ; - sh:rule [ a sh:TripleRule ; - rdfs:comment "Infer a hasDomain relation by checking any enclosed DomainSpaces to determine the domain."^^xsd:string ; - sh:object [ sh:path ( s223:hasDomainSpace s223:hasDomain ) ] ; - sh:predicate s223:hasDomain ; - sh:subject sh:this ], - [ a sh:TripleRule ; - rdfs:comment "Infer a hasDomain relation by checking any enclosing ZoneGroup to determine the domain."^^xsd:string ; - sh:object [ sh:path ( [ sh:inversePath s223:hasZone ] s223:hasDomain ) ] ; - sh:predicate s223:hasDomain ; - sh:subject sh:this ] . - -s223:actuatedByProperty a rdf:Property ; - rdfs:label "commanded by Property"^^xsd:string ; - rdfs:comment """The relation actuatedByProperty binds an Equipment to the ActuatableProperty that it responds to. If the Equipment -is an Actuator (a subclass of Equipment), actuatedByProperty is a required relation. An Actuator may also identify another piece of -Equipment being actuated. (see `s223:actuates`)."""^^xsd:string . - -s223:connected a s223:SymmetricProperty, - rdf:Property ; - rdfs:label "connected"^^xsd:string ; - rdfs:comment "The relation connected indicates that two connectable things are connected without regard to any directionality of a process flow. "^^xsd:string . - -s223:executes a rdf:Property ; - rdfs:label "executes"^^xsd:string ; - rdfs:comment "The relation executes is used to specify that a Controller (see `s223:Controller`) is responsible for the execution of a Function (see `s223:Function`). "^^xsd:string . - -s223:hasDomainSpace a rdf:Property ; - rdfs:label "has domain space"^^xsd:string ; - rdfs:comment "The relation hasDomainSpace is used to associate a Zone with its component DomainSpaces."^^xsd:string . - -s223:hasInternalReference a rdf:Property ; - rdfs:label "has internal reference"^^xsd:string ; - rdfs:comment """The relation hasInternalReference is used to relate a Property to another candidate equivalent Property. For example, -a Property that represents a Zone temperature could have one or more hasInternalReference relations to Properties that are measurements by -different sensors."""^^xsd:string . - -s223:hasOutput a rdf:Property ; - rdfs:label "has output"^^xsd:string ; - rdfs:comment "The relation hasOutput is used to relate a Function (see `s223:Function`) to a Property (see `s223:Property`) that is calculated by the Function."^^xsd:string . - -s223:hasZone a rdf:Property ; - rdfs:label "has zone"^^xsd:string ; - rdfs:comment "The relation hasZone is used to associate a ZoneGroup with its component Zones."^^xsd:string . - -s223:isConnectionPointOf a rdf:Property ; - rdfs:label "is connection point of"^^xsd:string ; - s223:inverseOf s223:hasConnectionPoint ; - rdfs:comment "The relation isConnectionPointOf is part of a pair of relations that bind a ConnectionPoint to a Connectable thing. It is the inverse of the relation hasConnectionPoint (see `s223:hasConnectionPoint`)."^^xsd:string . - -dcterms:contributor a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "contributor"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:string . - -dcterms:rights a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "rights"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:string . - -dcterms:subject a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "subject"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:string . - ns1:abbreviation a rdf:Property ; rdfs:label "abbreviation"^^xsd:string ; dcterms:description "An abbreviation for a unit is a short ASCII string that is used in place of the full name for the unit in contexts where non-ASCII characters would be problematic, or where using the abbreviation will enhance readability. When a power of abase unit needs to be expressed, such as squares this can be done using abbreviations rather than symbols. For example, sq ft means square foot, and cu ft means cubic foot."^^rdf:HTML ; rdfs:isDefinedBy . +ns1:applicableSystem a rdf:Property ; + rdfs:label "applicable system"^^xsd:string ; + dcterms:description "This property relates a unit of measure with a unit system that may or may not define the unit, but within which the unit is compatible."^^rdf:HTML ; + rdfs:isDefinedBy . + +ns1:deprecated a rdf:Property ; + rdfs:label "deprecated"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:derivedUnitOfSystem a rdf:Property ; + rdfs:label "is derived unit of system"^^xsd:string ; + dcterms:description "This property relates a unit of measure to the system of units in which it is defined as a derived unit. That is, the derived unit is defined as a product of the base units for the system raised to some rational power."^^rdf:HTML ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns1:isUnitOfSystem . + ns1:hasCoherentUnit a rdf:Property ; rdfs:label "coherent unit"^^xsd:string ; dcterms:description "A coherent unit of measurement for a unit system is a defined unit that may be expressed as a product of powers of the system's base units with the proportionality factor of one."^^rdf:HTML ; @@ -53135,20 +58581,44 @@ ns1:hasDerivedUnit a rdf:Property ; dcterms:description "This property relates a system of units to a unit of measure that is defined within the system in terms of the base units for the system. That is, the derived unit is defined as a product of the base units for the system raised to some rational power."^^rdf:HTML ; rdfs:isDefinedBy . -ns1:isDeltaQuantity a rdf:Property ; - rdfs:label "is Delta Quantity"^^xsd:string ; - rdfs:comment "This property is used to identify a Quantity instance that is a measure of a change, or interval, of some property, rather than a measure of its absolute value. This is important for measurements such as temperature differences where the conversion among units would be calculated differently because of offsets."^^xsd:string ; +ns1:hasDimensionVector a rdf:Property ; + rdfs:label "has dimension vector"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:iec61360Code a rdf:Property ; + rdfs:label "iec-61360 code"^^xsd:string ; + rdfs:isDefinedBy . + +ns1:informativeReference a rdf:Property ; + rdfs:label "informative reference"^^xsd:string ; + dcterms:description "Provides a way to reference a source that provided useful but non-normative information."^^rdf:HTML ; rdfs:isDefinedBy . ns1:isQuantityKindOf a rdf:Property ; rdfs:label "is quantity kind of"^^xsd:string ; + dcterms:description "`qudt:isQuantityKindOf` was a strict inverse of `qudt:hasQuantityKind` but is now deprecated."^^rdf:HTML ; + ns1:deprecated true ; rdfs:isDefinedBy . +ns1:literal a rdf:Property ; + rdfs:label "literal"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns3:literal . + ns1:mathMLdefinition a rdf:Property ; rdfs:label "mathML definition"^^xsd:string ; rdfs:isDefinedBy ; rdfs:subPropertyOf ns1:mathDefinition . +ns1:normativeReference a rdf:Property ; + rdfs:label "normative reference"^^xsd:string ; + dcterms:description "Provides a way to reference information that is an authorative source providing a standard definition"^^rdf:HTML ; + rdfs:isDefinedBy . + +ns1:quantityValue a rdf:Property ; + rdfs:label "quantity value"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:ConstantValue ; rdfs:label "Value for Sackur-Tetrode constant 1 K 101.325 kPa"^^xsd:string ; ns1:hasUnit ; @@ -53156,7 +58626,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:standardUncertainty 0.0000044 ; ns1:standardUncertaintySN 4.4e-06 ; ns1:value -1.1648677 ; - ns1:valueSN -1.164868e+00 ; + ns1:valueSN -1.164868e+00, + -1.164868e+00 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd#mid"^^xsd:anyURI . a ns1:QuantityKindDimensionVector_CGS, @@ -53217,7 +58688,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M T^-3 I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M T^-3 I^-1$"^^ns1:LatexString, + "\\(L^3 M T^-3 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -53248,7 +58720,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-1 T^3 Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^-1 T^3 Θ$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^3 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -53279,7 +58752,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^-1 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$T^-1 Θ^-1$"^^ns1:LatexString, + "\\(T^-1 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -53296,7 +58770,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$T^2$"^^ns1:LatexString, + "\\(T^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53312,7 +58787,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^-2 Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$T^-2 Θ$"^^ns1:LatexString, + "\\(T^-2 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53328,8 +58804,10 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^{-3}.H^{-4}\\)"^^ns1:LatexString ; - ns1:latexSymbol "\\(M T^{-3}.\\Theta^{-4}\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^{-3}.H^{-4}$"^^ns1:LatexString, + "\\(M T^{-3}.H^{-4}\\)"^^ns1:LatexString ; + ns1:latexSymbol "$M T^{-3}.\\Theta^{-4}$"^^ns1:LatexString, + "\\(M T^{-3}.\\Theta^{-4}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53345,7 +58823,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 Θ$"^^ns1:LatexString, + "\\(L^2 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53361,7 +58840,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T Θ$"^^ns1:LatexString, + "\\(L^2 T Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53377,7 +58857,23 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 T^-2$"^^ns1:LatexString, + "\\(L^3 T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L0I0M0H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53393,39 +58889,40 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L T I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L T I$"^^ns1:LatexString, + "\\(L T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E2L0I0M-1H0T4D0"^^xsd:string ; + rdfs:label "A0E2L2I0M-1H0T2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 2 ; - ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass -1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 4 ; + ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M^-1 T^4 I^2\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M^-1 T^2 I^2$"^^ns1:LatexString, + "\\(L^2 M^-1 T^2 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E2L2I0M-1H0T2D0"^^xsd:string ; + rdfs:label "A0E3L-3I0M-2H0T7D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 2 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForElectricCurrent 3 ; + ns1:dimensionExponentForLength -3 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForMass -2 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 2 ; + ns1:dimensionExponentForTime 7 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M^-1 T^2 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -53441,7 +58938,8 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionExponentForTime 10 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-3 T^10 I^4\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^-3 T^10 I^4$"^^ns1:LatexString, + "\\(L^-2 M^-3 T^10 I^4\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -53459,72 +58957,103 @@ ns1:mathMLdefinition a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L1I0M-2H0T2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -2 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Angular Cross-section"@en ; - dcterms:description "\"Angular Cross-section\" is the cross-section for ejecting or scattering a particle into an elementary cone, divided by the solid angle $d\\Omega$ of that cone."^^ns1:LatexString ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD007"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Cross_section_(physics)"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "$\\sigma = \\int \\sigma_\\Omega d\\Omega$"^^ns1:LatexString ; - ns1:latexSymbol "$\\sigma_\\Omega$"^^ns1:LatexString ; - rdfs:isDefinedBy ; - skos:closeMatch . - - a ns1:QuantityKind ; - rdfs:label "تردد زاوى"@ar, - "Kreisfrequenz"@de, - "angular frequency"@en, - "pulsación"@es, - "Pulsación"@fr, - "frequenza angolare"@it, - "角振動数"@ja, - "pulsacja"@pl, - "frequência angular"@pt, - "角频率"@zh ; - dcterms:description "\"Angular frequency\", symbol $\\omega$ (also referred to by the terms angular speed, radial frequency, circular frequency, orbital frequency, radian frequency, and pulsatance) is a scalar measure of rotation rate. Angular frequency (or angular speed) is the magnitude of the vector quantity angular velocity."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_frequency"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Angular_frequency"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:latexDefinition "$\\omega = 2\\pi f$, where $f$ is frequency."^^ns1:LatexString ; - ns1:latexSymbol "$\\omega$"^^ns1:LatexString ; - ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Absolute Humidity"@en ; + dcterms:description """ + $\\textit{Absolute Humidity}$ is an amount of water vapor, usually discussed per unit volume. + Absolute humidity in air ranges from zero to roughly 30 grams per cubic meter when the air is saturated at $30 ^\\circ C$. + The absolute humidity changes as air temperature or pressure changes. + $$$$ + This is very inconvenient for chemical engineering calculations, e.g. for clothes dryers, where temperature can vary considerably. + As a result, absolute humidity is generally defined in chemical engineering as mass of water vapor per unit mass of dry air, + also known as the mass mixing ratio, which is much more rigorous for heat and mass balance calculations. + $$$$ + Mass of water per unit volume as in the equation above would then be defined as volumetric humidity, because of the potential confusion. + """^^ns1:LatexString, + "\"Absolute Humidity\" is an amount of water vapor, usually discussed per unit volume. Absolute humidity in air ranges from zero to roughly 30 grams per cubic meter when the air is saturated at $30 ^\\circ C$. The absolute humidity changes as air temperature or pressure changes. This is very inconvenient for chemical engineering calculations, e.g. for clothes dryers, where temperature can vary considerably. As a result, absolute humidity is generally defined in chemical engineering as mass of water vapor per unit mass of dry air, also known as the mass mixing ratio, which is much more rigorous for heat and mass balance calculations. Mass of water per unit volume as in the equation above would then be defined as volumetric humidity. Because of the potential confusion."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Humidity"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Humidity#Absolute_humidity"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition """$AH = \\frac{\\mathcal{M}_\\omega}{\\vee_{net}}$, +where $\\mathcal{M}_\\omega$ is the mass of water vapor per unit volume of total air and $\\vee_{net}$ is water vapor mixture."""^^ns1:LatexString ; + ns1:symbol "AH"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Density"^^xsd:string ; rdfs:isDefinedBy ; - skos:altLabel "نابض"@ar, - "Pulsatanzpulsation"@de, - "pulsatance"@en, - "pulsazione"@it, - "角周波数"@ja, - "pulsação"@pt, - "角速度"@zh ; - skos:broader . + rdfs:seeAlso ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Angular Cross-section"@en ; + dcterms:description "\"Angular Cross-section\" is the cross-section for ejecting or scattering a particle into an elementary cone, divided by the solid angle $d\\Omega$ of that cone."^^ns1:LatexString ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD007"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Cross_section_(physics)"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition "$\\sigma = \\int \\sigma_\\Omega d\\Omega$"^^ns1:LatexString ; + ns1:latexSymbol "$\\sigma_\\Omega$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:AngularCrossSection"^^xsd:string ; + rdfs:isDefinedBy ; + skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Area Ratio"@en ; @@ -53533,6 +59062,7 @@ ns1:mathMLdefinition a rdf:Property ; ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:AreaRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -53541,6 +59071,7 @@ ns1:mathMLdefinition a rdf:Property ; ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AreaTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -53548,11 +59079,13 @@ ns1:mathMLdefinition a rdf:Property ; ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AreaTimeTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Canonical Partition Function"@en ; - dcterms:description "A \"Canonical Partition Function\" applies to a canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and number of particles."^^rdf:HTML ; + dcterms:description "A \"Canonical Partition Function\" applies to a canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and number of particles."^^ns1:LatexString, + "A \"Canonical Partition Function\" applies to a canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and number of particles."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Partition_function_(statistical_mechanics)"^^xsd:anyURI ; @@ -53560,11 +59093,13 @@ ns1:mathMLdefinition a rdf:Property ; ns1:latexDefinition "$Z = \\sum_r e^{-\\frac{E_r}{kT}}$, where the sum is over all quantum states consistent with given energy, volume, external fields, and content, $E_r$ is the energy in the $rth$ quantum state, $k$ is the Boltzmann constant, and $T$ is thermodynamic temperature."^^ns1:LatexString ; ns1:plainTextDescription "A \"Canonical Partition Function\" applies to a canonical ensemble, in which the system is allowed to exchange heat with the environment at fixed temperature, volume, and number of particles."^^xsd:string ; ns1:symbol "Z"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CanonicalPartitionFunction"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Catalytic Activity"@en ; - dcterms:description "An index of the actual or potential activity of a catalyst. The catalytic activity of an enzyme or an enzyme-containing preparation is defined as the property measured by the increase in the rate of conversion of a specified chemical reaction that the enzyme produces in a specified assay system. Catalytic activity is an extensive quantity and is a property of the enzyme, not of the reaction mixture; it is thus conceptually different from rate of conversion although measured by and equidimensional with it. The unit for catalytic activity is the \\(katal\\); it may also be expressed in mol \\(s^{-1}\\). Dimensions: \\(N T^{-1}\\). Former terms such as catalytic ability, catalytic amount, and enzymic activity are no er recommended. Derived quantities are molar catalytic activity, specific catalytic activity, and catalytic activity concentration. Source(s): www.answers.com"^^ns1:LatexString ; + dcterms:description "An index of the actual or potential activity of a catalyst. The catalytic activity of an enzyme or an enzyme-containing preparation is defined as the property measured by the increase in the rate of conversion of a specified chemical reaction that the enzyme produces in a specified assay system. Catalytic activity is an extensive quantity and is a property of the enzyme, not of the reaction mixture; it is thus conceptually different from rate of conversion although measured by and equidimensional with it. The unit for catalytic activity is the $katal$; it may also be expressed in mol $s^{-1}$. Dimensions: $N T^{-1}$. Former terms such as catalytic ability, catalytic amount, and enzymic activity are no er recommended. Derived quantities are molar catalytic activity, specific catalytic activity, and catalytic activity concentration. Source(s): www.answers.com"^^ns1:LatexString, + "An index of the actual or potential activity of a catalyst. The catalytic activity of an enzyme or an enzyme-containing preparation is defined as the property measured by the increase in the rate of conversion of a specified chemical reaction that the enzyme produces in a specified assay system. Catalytic activity is an extensive quantity and is a property of the enzyme, not of the reaction mixture; it is thus conceptually different from rate of conversion although measured by and equidimensional with it. The unit for catalytic activity is the \\(katal\\); it may also be expressed in mol \\(s^{-1}\\). Dimensions: \\(N T^{-1}\\). Former terms such as catalytic ability, catalytic amount, and enzymic activity are no er recommended. Derived quantities are molar catalytic activity, specific catalytic activity, and catalytic activity concentration. Source(s): www.answers.com"^^ns1:LatexString ; ns1:applicableUnit , , , @@ -53575,11 +59110,13 @@ ns1:mathMLdefinition a rdf:Property ; ns1:iec61360Code "0112/2///62720#UAD022"^^xsd:string, "0112/2///62720#UAD367"^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:CatalyticActivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Cross-section"@en ; - dcterms:description "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence."^^rdf:HTML ; + dcterms:description "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence."^^ns1:LatexString, + "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence."^^rdf:HTML ; ns1:applicableUnit , , , @@ -53606,6 +59143,7 @@ ns1:mathMLdefinition a rdf:Property ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence."^^xsd:string ; ns1:symbol "σ"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -53618,23 +59156,14 @@ ns1:mathMLdefinition a rdf:Property ; ns1:informativeReference "http://en.wikipedia.org/wiki/Curvature"^^xsd:anyURI ; ns1:plainTextDescription """The canonical example of extrinsic curvature is that of a circle, which has curvature equal to the inverse of its radius everywhere. Smaller circles bend more sharply, and hence have higher curvature. The curvature of a smooth curve is defined as the curvature of its osculating circle at each point. The osculating circle of a sufficiently smooth plane curve at a given point on the curve is the circle whose center lies on the inner normal line and whose curvature is the same as that of the given curve at that point. This circle is tangent to the curve at the given point. That is, given a point P on a smooth curve C, the curvature of C at P is defined to be 1/R where R is the radius of the osculating circle of C at P. The magnitude of curvature at points on physical curves can be measured in diopters (also spelled dioptre) — this is the convention in optics. [Wikipedia],"""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Curvature"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Delta u,v"@en ; - dcterms:description "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^rdf:HTML ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://www.waveformlighting.com/tech/calculate-duv-from-cie-1931-xy-coordinates"^^xsd:anyURI, - "https://www1.eere.energy.gov/buildings/publications/pdfs/ssl/led-color-characteristics-factsheet.pdf"^^xsd:anyURI ; - ns1:plainTextDescription "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . - a ns1:QuantityKind ; rdfs:label "Electric Charge Surface Density"@en ; - dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; + dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^ns1:LatexString, + "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; ns1:applicableUnit , ; ns1:expression "$surface-charge-density$"^^ns1:LatexString ; @@ -53644,18 +59173,38 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$\\rho_A = \\frac{dQ}{dA}$, where $Q$ is electric charge and $A$ is Area."^^ns1:LatexString ; ns1:latexSymbol "$\\rho_A$"^^ns1:LatexString ; ns1:plainTextDescription "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargeSurfaceDensity"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso . + rdfs:seeAlso ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Electric Current per Length"@en ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:LinearElectricCurrentDensity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . a ns1:QuantityKind ; rdfs:label "Electric Current per Unit Energy"@en ; + dcterms:isReplacedBy ; ns1:applicableUnit ; + ns1:deprecated true ; ns1:hasDimensionVector ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Current Phasor"@en ; - dcterms:description "\"Electric Current Phasor\" is a representation of current as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^rdf:HTML ; + dcterms:description "\"Electric Current Phasor\" is a representation of current as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^ns1:LatexString, + "\"Electric Current Phasor\" is a representation of current as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^rdf:HTML ; ns1:applicableUnit , , , @@ -53669,11 +59218,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "When $i = \\hat{I} \\cos{(\\omega t + \\alpha)}$, where $i$ is the electric current, $\\omega$ is angular frequence, $t$ is time, and $\\alpha$ is initial phase, then $\\underline{I} = Ie^{ja}$."^^ns1:LatexString ; ns1:latexSymbol "$\\underline{I}$"^^ns1:LatexString ; ns1:plainTextDescription "\"Electric Current Phasor\" is a representation of current as a sinusoidal integral quantity using a complex quantity whose argument is equal to the initial phase and whose modulus is equal to the root-mean-square value. A phasor is a constant complex number, usually expressed in exponential form, representing the complex amplitude (magnitude and phase) of a sinusoidal function of time. Phasors are used by electrical engineers to simplify computations involving sinusoids, where they can often reduce a differential equation problem to an algebraic one."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrentPhasor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Flux"@en ; - dcterms:description "\"Electric Flux\" through an area is defined as the electric field multiplied by the area of the surface projected in a plane perpendicular to the field. Electric Flux is a scalar-valued quantity."^^rdf:HTML ; + dcterms:description "\"Electric Flux\" through an area is defined as the electric field multiplied by the area of the surface projected in a plane perpendicular to the field. Electric Flux is a scalar-valued quantity."^^ns1:LatexString, + "\"Electric Flux\" through an area is defined as the electric field multiplied by the area of the surface projected in a plane perpendicular to the field. Electric Flux is a scalar-valued quantity."^^rdf:HTML ; ns1:applicableUnit , ; ns1:dbpediaMatch "http://dbpedia.org/resource/Electric_flux"^^xsd:anyURI ; @@ -53683,6 +59234,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$\\Psi = \\int_S D \\cdot e_n dA$, over a surface $S$, where $D$ is electric flux density and $e_n dA$ is the vector surface element."^^ns1:LatexString ; ns1:latexSymbol "$\\Psi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Electric Flux\" through an area is defined as the electric field multiplied by the area of the surface projected in a plane perpendicular to the field. Electric Flux is a scalar-valued quantity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricFlux"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -53697,7 +59249,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "polaryzacja elektryczna"@pl, "polarização eléctrica"@pt, "электрическая поляризация"@ru ; - dcterms:description "\"Electric Polarization\" is the relative shift of positive and negative electric charge in opposite directions within an insulator, or dielectric, induced by an external electric field. Polarization occurs when an electric field distorts the negative cloud of electrons around positive atomic nuclei in a direction opposite the field. This slight separation of charge makes one side of the atom somewhat positive and the opposite side somewhat negative. In some materials whose molecules are permanently polarized by chemical forces, such as water molecules, some of the polarization is caused by molecules rotating into the same alignment under the influence of the electric field. One of the measures of polarization is electric dipole moment, which equals the distance between the slightly shifted centres of positive and negative charge multiplied by the amount of one of the charges. Polarization P in its quantitative meaning is the amount of dipole moment p per unit volume V of a polarized material, P = p/V."^^rdf:HTML ; + dcterms:description "\"Electric Polarization\" is the relative shift of positive and negative electric charge in opposite directions within an insulator, or dielectric, induced by an external electric field. Polarization occurs when an electric field distorts the negative cloud of electrons around positive atomic nuclei in a direction opposite the field. This slight separation of charge makes one side of the atom somewhat positive and the opposite side somewhat negative. In some materials whose molecules are permanently polarized by chemical forces, such as water molecules, some of the polarization is caused by molecules rotating into the same alignment under the influence of the electric field. One of the measures of polarization is electric dipole moment, which equals the distance between the slightly shifted centres of positive and negative charge multiplied by the amount of one of the charges. Polarization P in its quantitative meaning is the amount of dipole moment p per unit volume V of a polarized material, P = p/V."^^ns1:LatexString, + "\"Electric Polarization\" is the relative shift of positive and negative electric charge in opposite directions within an insulator, or dielectric, induced by an external electric field. Polarization occurs when an electric field distorts the negative cloud of electrons around positive atomic nuclei in a direction opposite the field. This slight separation of charge makes one side of the atom somewhat positive and the opposite side somewhat negative. In some materials whose molecules are permanently polarized by chemical forces, such as water molecules, some of the polarization is caused by molecules rotating into the same alignment under the influence of the electric field. One of the measures of polarization is electric dipole moment, which equals the distance between the slightly shifted centres of positive and negative charge multiplied by the amount of one of the charges. Polarization P in its quantitative meaning is the amount of dipole moment p per unit volume V of a polarized material, P = p/V."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -53708,6 +59261,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$P =\\frac{dp}{dV}$, where $p$ is electic charge density and $V$ is volume."^^ns1:LatexString ; ns1:plainTextDescription "\"Electric Polarization\" is the relative shift of positive and negative electric charge in opposite directions within an insulator, or dielectric, induced by an external electric field. Polarization occurs when an electric field distorts the negative cloud of electrons around positive atomic nuclei in a direction opposite the field. This slight separation of charge makes one side of the atom somewhat positive and the opposite side somewhat negative. In some materials whose molecules are permanently polarized by chemical forces, such as water molecules, some of the polarization is caused by molecules rotating into the same alignment under the influence of the electric field. One of the measures of polarization is electric dipole moment, which equals the distance between the slightly shifted centres of positive and negative charge multiplied by the amount of one of the charges. Polarization P in its quantitative meaning is the amount of dipole moment p per unit volume V of a polarized material, P = p/V."^^xsd:string ; ns1:symbol "P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricPolarization"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . @@ -53726,19 +59280,23 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "Электрический квадрупольный момент"@ru, "elektrik kuadrupol momenti"@tr, "电四极矩"@zh ; - dcterms:description "The Electric Quadrupole Moment is a quantity which describes the effective shape of the ellipsoid of nuclear charge distribution. A non-zero quadrupole moment Q indicates that the charge distribution is not spherically symmetric. By convention, the value of Q is taken to be positive if the ellipsoid is prolate and negative if it is oblate. In general, the electric quadrupole moment is tensor-valued."^^rdf:HTML ; + dcterms:description "The Electric Quadrupole Moment is a quantity which describes the effective shape of the ellipsoid of nuclear charge distribution. A non-zero quadrupole moment Q indicates that the charge distribution is not spherically symmetric. By convention, the value of Q is taken to be positive if the ellipsoid is prolate and negative if it is oblate. In general, the electric quadrupole moment is tensor-valued."^^ns1:LatexString, + "The Electric Quadrupole Moment is a quantity which describes the effective shape of the ellipsoid of nuclear charge distribution. A non-zero quadrupole moment Q indicates that the charge distribution is not spherically symmetric. By convention, the value of Q is taken to be positive if the ellipsoid is prolate and negative if it is oblate. In general, the electric quadrupole moment is tensor-valued."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "The Electric Quadrupole Moment is a quantity which describes the effective shape of the ellipsoid of nuclear charge distribution. A non-zero quadrupole moment Q indicates that the charge distribution is not spherically symmetric. By convention, the value of Q is taken to be positive if the ellipsoid is prolate and negative if it is oblate. In general, the electric quadrupole moment is tensor-valued."^^xsd:string ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricQuadrupoleMoment"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy Per Area Electric Charge"@en ; - dcterms:description "\"Energy Per Area Electric Charge\" is the amount of electric energy associated with a unit of area."^^rdf:HTML ; + dcterms:description "\"Energy Per Area Electric Charge\" is the amount of electric energy associated with a unit of area."^^ns1:LatexString, + "\"Energy Per Area Electric Charge\" is the amount of electric energy associated with a unit of area."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Energy Per Area Electric Charge\" is the amount of electric energy associated with a unit of area."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerAreaElectricCharge"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -53766,11 +59324,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:hasDimensionVector ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:symbol "S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Entropy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Equilibrium Constant"@en ; - dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; + dcterms:description "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^ns1:LatexString, + "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Equilibrium_constant"^^xsd:anyURI ; @@ -53778,13 +59338,15 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$K^\\Theta = \\Pi_B(\\lambda_B^\\Theta)^{-\\nu_B}$, where $\\Pi_B$ denotes the product for all substances $B$, $\\lambda_B^\\Theta$ is the standard absolute activity of substance $B$, and $\\nu_B$ is the stoichiometric number of the substance $B$."^^ns1:LatexString ; ns1:latexSymbol "$K^\\Theta$"^^ns1:LatexString ; ns1:plainTextDescription "The \"Equlilbrium Constant\", also known as the thermodynamic equilibrium constant, is an expression that gives us a ratio of the products and reactants of a reaction at equilibrium with respect to a specific unit."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EquilibriumConstant"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . a ns1:QuantityKind ; rdfs:label "Flux"@en ; - dcterms:description "Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. [Wikipedia]"^^rdf:HTML ; + dcterms:description "Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. [Wikipedia]"^^ns1:LatexString, + "Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. [Wikipedia]"^^rdf:HTML ; ns1:applicableUnit , , , @@ -53793,6 +59355,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Flux"^^xsd:anyURI ; ns1:plainTextDescription "Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. [Wikipedia]"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Flux"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -53813,7 +59376,14 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "Prosta entalpija"@sl, "Gibbs Serbest Enerjisi"@tr, "吉布斯自由能"@zh ; - dcterms:description "\"Gibbs Energy} is one of the potentials are used to measure energy changes in systems as they evolve from an initial state to a final state. The potential used depends on the constraints of the system, such as constant temperature or pressure. \\textit{Internal Energy} is the internal energy of the system, \\textit{Enthalpy} is the internal energy of the system plus the energy related to pressure-volume work, and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. The name \\textit{Gibbs Free Energy\" is also used."^^rdf:HTML ; + dcterms:description """ + $\\textit{Internal Energy}$ is one of the potentials are used to measure energy changes in systems as they evolve from an initial state to a final state. + The potential used depends on the constraints of the system, such as constant temperature or pressure. + $\\textit{Internal Energy}$ is the internal energy of the system, $\\textit{Enthalpy}$ is the internal energy of the system plus the energy related to pressure-volume work, + and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. + The name $\\textit{Gibbs Free Energy}$ is also used. + """^^ns1:LatexString, + "\"Gibbs Energy} is one of the potentials are used to measure energy changes in systems as they evolve from an initial state to a final state. The potential used depends on the constraints of the system, such as constant temperature or pressure. \\textit{Internal Energy} is the internal energy of the system, \\textit{Enthalpy} is the internal energy of the system plus the energy related to pressure-volume work, and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. The name \\textit{Gibbs Free Energy\" is also used."^^rdf:HTML ; ns1:applicableUnit , , , @@ -53867,8 +59437,10 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:informativeReference "http://en.citizendium.org/wiki/Thermodynamics"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$G = H - T \\cdot S$, where $H$ is enthalpy, $T$ is thermodynamic temperature and $S$ is entropy."^^ns1:LatexString ; - ns1:plainTextDescription "\"Gibbs Energy} is one of the potentials are used to measure energy changes in systems as they evolve from an initial state to a final state. The potential used depends on the constraints of the system, such as constant temperature or pressure. \\textit{Internal Energy} is the internal energy of the system, \\textit{Enthalpy} is the internal energy of the system plus the energy related to pressure-volume work, and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. The name \\textit{Gibbs Free Energy\" is also used."^^xsd:string ; + ns1:plainTextDescription "\"Gibbs Energy} is one of the potentials are used to measure energy changes in systems as they evolve from an initial state to a final state. The potential used depends on the constraints of the system, such as constant temperature or pressure. \\textit{Internal Energy} is the internal energy of the system, \\textit{Enthalpy} is the internal energy of the system plus the energy related to pressure-volume work, and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. The name \\textit{Gibbs Free Energy\" is also used."^^xsd:string, + "Gibbs Energy is one of the potentials used to measure energy changes in systems as they evolve from an initial state to a final state. The potential used depends on the constraints of the system, such as constant temperature or pressure. $\\textit{Internal Energy} is the internal energy of the system, Enthalpy is the internal energy of the system plus the energy related to pressure-volume work, and Helmholtz and Gibbs free energy are the energies available in a system to do useful work when the temperature and volume or the pressure and temperature are fixed, respectively. The name Gibbs Free Energy is also used."^^xsd:string ; ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -53952,6 +59524,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$H = U - T \\cdot S$, where $U$ is internal energy, $T$ is thermodynamic temperature and $S$ is entropy."^^ns1:LatexString ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -53964,9 +59537,61 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined " Helmholtz fonksiyonu"@tr ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "شدة الضوء"@ar, + "Осветеност"@bg, + "Intenzita osvětlení"@cs, + "Beleuchtungsstärke"@de, + "illuminance"@en, + "luminosidad"@es, + "شدت روشنایی"@fa, + "éclairement lumineux"@fr, + "הארה (שטף ליחידת שטח)"@he, + "प्रदीपन"@hi, + "megvilágítás"@hu, + "illuminamento"@it, + "照度"@ja, + "Pencahayaan"@ms, + "natężenie oświetlenia"@pl, + "iluminamento"@pt, + "iluminare"@ro, + "Освещённость"@ru, + "osvetljenost"@sl, + "aydınlanma şiddeti"@tr, + "照度"@zh ; + dcterms:description "Illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of the intensity of the incident light, wavelength-weighted by the luminosity function to correlate with human brightness perception."^^ns1:LatexString, + "Illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of the intensity of the incident light, wavelength-weighted by the luminosity function to correlate with human brightness perception."^^rdf:HTML ; + ns1:applicableUnit , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Illuminance"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD062"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Illuminance"^^xsd:anyURI ; + ns1:latexDefinition "$E_v = \\frac{d\\Phi}{dA}$, where $d\\Phi$ is the luminous flux incident on an element of the surface with area $dA$."^^ns1:LatexString ; + ns1:plainTextDescription "Illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of the intensity of the incident light, wavelength-weighted by the luminosity function to correlate with human brightness perception."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:LuminousFluxPerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "éclairement"@fr ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Instantaneous Power"@en ; - dcterms:description "\"Instantaneous Power}, for a two-terminal element or a two-terminal circuit with terminals A and B, is the product of the voltage $u_{AB}$ between the terminals and the electric current i in the element or circuit: $p = $u_{AB} \\cdot i$, where $u_{AB\" is the line integral of the electric field strength from A to B, and where the electric current in the element or circuit is taken positive if its direction is from A to B and negative in the opposite case. For an n-terminal circuit, it is the sum of the instantaneous powers relative to the n - 1 pairs of terminals when one of the terminals is chosen as a common terminal for the pairs. For a polyphase element, it is the sum of the instantaneous powers in all phase elements of a polyphase element. For a polyphase line consisting of m line conductors and one neutral conductor, it is the sum of the m instantaneous powers expressed for each line conductor by the product of the polyphase line-to-neutral voltage and the corresponding line current."^^ns1:LatexString ; + dcterms:description """ + For a two-terminal element or a two-terminal circuit with terminals A and B, + $\\textit{Instantaneous Power}$ is the product of the voltage $u_{AB}$ between the terminals and the electric current i in the element or circuit: + $$p = u_{AB} \\cdot i$$ + Where $u_{AB}$ is the line integral of the electric field strength from A to B, + and where the electric current in the element or circuit is taken positive if its direction is from A to B and negative in the opposite case. + $$$$ + For an n-terminal circuit, it is the sum of the instantaneous powers relative to the n - 1 pairs of terminals when one of the terminals is chosen as a common terminal for the pairs. + $$$$ + For a polyphase element, it is the sum of the instantaneous powers in all phase elements of a polyphase element. + $$$$ + For a polyphase line consisting of m line conductors and one neutral conductor, it is the sum of the m instantaneous powers expressed for each line conductor by the product of the polyphase line-to-neutral voltage and the corresponding line current. + """^^ns1:LatexString, + "\"Instantaneous Power}, for a two-terminal element or a two-terminal circuit with terminals A and B, is the product of the voltage $u_{AB}$ between the terminals and the electric current i in the element or circuit: $p = $u_{AB} \\cdot i$, where $u_{AB\" is the line integral of the electric field strength from A to B, and where the electric current in the element or circuit is taken positive if its direction is from A to B and negative in the opposite case. For an n-terminal circuit, it is the sum of the instantaneous powers relative to the n - 1 pairs of terminals when one of the terminals is chosen as a common terminal for the pairs. For a polyphase element, it is the sum of the instantaneous powers in all phase elements of a polyphase element. For a polyphase line consisting of m line conductors and one neutral conductor, it is the sum of the m instantaneous powers expressed for each line conductor by the product of the polyphase line-to-neutral voltage and the corresponding line current."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -54041,6 +59666,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$p = ui$, where $u$ is instantaneous voltage and $i$ is instantaneous electric current."^^ns1:LatexString ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54048,12 +59674,14 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined rdfs:label "Inverse amount of substance"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseAmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Inverse Length Temperature"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseLengthTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54061,6 +59689,12 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseMass_Squared"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Inverse Time"@en ; + ns1:hasDimensionVector ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54092,6 +59726,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:latexDefinition "$\\nu = \\frac{\\eta}{\\rho}$, where $\\eta$ is dynamic viscosity and $\\rho$ is mass density."^^ns1:LatexString ; ns1:latexSymbol "$\\nu$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:KinematicViscosity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , ; @@ -54101,17 +59736,20 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined rdfs:label "Length Energy"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:LengthEnergy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Length Molar Energy"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:LengthMolarEnergy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Linear Energy Transfer"@en ; - dcterms:description "\"Linear Energy Transfer\" (LET) is the linear density of energy lost by a charged ionizing particle travelling through matter.Typically, this measure is used to quantify the effects of ionizing radiation on biological specimens or electronic devices."^^rdf:HTML ; + dcterms:description "\"Linear Energy Transfer\" (LET) is the linear density of energy lost by a charged ionizing particle travelling through matter.Typically, this measure is used to quantify the effects of ionizing radiation on biological specimens or electronic devices."^^ns1:LatexString, + "\"Linear Energy Transfer\" (LET) is the linear density of energy lost by a charged ionizing particle travelling through matter.Typically, this measure is used to quantify the effects of ionizing radiation on biological specimens or electronic devices."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -54123,11 +59761,14 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexSymbol "$L_\\Delta$"^^ns1:LatexString, "$L_\\bigtriangleup$"^^ns1:LatexString ; ns1:plainTextDescription "\"Linear Energy Transfer\" (LET) is the linear density of energy lost by a charged ionizing particle travelling through matter.Typically, this measure is used to quantify the effects of ionizing radiation on biological specimens or electronic devices."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearEnergyTransfer"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Luminous Energy"@en ; - dcterms:description "Luminous Energy is the perceived energy of light. This is sometimes also called the quantity of light."^^rdf:HTML ; + dcterms:description "Luminous Energy is the perceived energy of light. This is sometimes also called the quantity of light."^^ns1:LatexString, + "Luminous Energy is the perceived energy of light. This is sometimes also called the quantity of light."^^rdf:HTML ; + ns1:altSymbol "Qv"^^xsd:string ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -54137,6 +59778,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:plainTextDescription "Luminous Energy is the perceived energy of light. This is sometimes also called the quantity of light."^^xsd:string ; ns1:symbol "Q_v"^^xsd:string, "Qv"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:closeMatch . @@ -54164,7 +59806,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "svetilnost"@sl, "ışık şiddeti"@tr, "发光强度"@zh ; - dcterms:description "Luminous Intensity is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle. The weighting is determined by the luminosity function, a standardized model of the sensitivity of the human eye to different wavelengths."^^rdf:HTML ; + dcterms:description "Luminous Intensity is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle. The weighting is determined by the luminosity function, a standardized model of the sensitivity of the human eye to different wavelengths."^^ns1:LatexString, + "Luminous Intensity is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle. The weighting is determined by the luminosity function, a standardized model of the sensitivity of the human eye to different wavelengths."^^rdf:HTML ; ns1:applicableUnit , , , @@ -54177,6 +59820,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:plainTextDescription "Luminous Intensity is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle. The weighting is determined by the luminosity function, a standardized model of the sensitivity of the human eye to different wavelengths."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "J"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LuminousIntensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54202,6 +59846,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ; ns1:hasDimensionVector ; ns1:plainTextDescription "Mass per Energy is a physical quantity that can be used to relate the energy of a system to its mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassPerEnergy"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54209,11 +59854,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://cvika.grimoar.cz/callen/callen_21.pdf"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:MolarAngularMomentum"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molar Attenuation Coefficient"@en ; - dcterms:description "\"Molar Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per amount of substance."^^rdf:HTML ; + dcterms:description "\"Molar Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per amount of substance."^^ns1:LatexString, + "\"Molar Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per amount of substance."^^rdf:HTML ; ns1:applicableUnit ; ns1:exactMatch ; ns1:hasDimensionVector ; @@ -54223,18 +59870,21 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$\\mu_c = -\\frac{\\mu}{c}$, where $\\mu$ is the linear attenuation coefficient and $c$ is the amount-of-substance concentration."^^ns1:LatexString ; ns1:latexSymbol "$\\mu_c$"^^ns1:LatexString ; ns1:plainTextDescription "\"Molar Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per amount of substance."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarAttenuationCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:closeMatch . a ns1:QuantityKind ; rdfs:label "Multiplication Factor"@en ; - dcterms:description "The \"Multiplication Factor\" is the ratio of the total number of fission or fission-dependent neutrons produced in a time interval to the total number of neutrons lost by absorption and leakage during the same interval."^^rdf:HTML ; + dcterms:description "The \"Multiplication Factor\" is the ratio of the total number of fission or fission-dependent neutrons produced in a time interval to the total number of neutrons lost by absorption and leakage during the same interval."^^ns1:LatexString, + "The \"Multiplication Factor\" is the ratio of the total number of fission or fission-dependent neutrons produced in a time interval to the total number of neutrons lost by absorption and leakage during the same interval."^^rdf:HTML ; ns1:applicableUnit ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Neutron_multiplication_factor"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:plainTextDescription "The \"Multiplication Factor\" is the ratio of the total number of fission or fission-dependent neutrons produced in a time interval to the total number of neutrons lost by absorption and leakage during the same interval."^^xsd:string ; ns1:symbol "k"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MultiplicationFactor"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54248,10 +59898,23 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:plainTextDescription "A measure of a body's dynamic (or coupled) imbalance resulting in a precession when rotating about an axis other than the body's principal axis."^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Population"@en ; + dcterms:description "Population typically refers to the number of people in a single area, whether it be a city or town, region, country, continent, or the world, but can also represent the number of any kind of entity."^^ns1:LatexString, + "Population typically refers to the number of people in a single area, whether it be a city or town, region, country, continent, or the world, but can also represent the number of any kind of entity."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Population"^^xsd:anyURI ; + ns1:plainTextDescription "Population typically refers to the number of people in a single area, whether it be a city or town, region, country, continent, or the world, but can also represent the number of any kind of entity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Population"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Power per area quartic temperature"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerAreaQuarticTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54285,6 +59948,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$Q = lm \\underline{S}$, where $\\underline{S}$ is complex power. Alternatively expressed as: $Q = S \\cdot \\sin \\psi$, where $\\psi$ is the displacement angle."^^ns1:LatexString ; ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ReactivePower"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso ; skos:broader . @@ -54296,10 +59960,51 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:latexDefinition "$\\varphi = p / p_{sat}$, where $p$ is partial pressure of vapour, $p_{sat}$ is thermodynamic temperature and $V$ is its partial pressure at saturation (at the same temperature). Relative partial pressure is often referred to as $RH$ and expressed in percent. $\\textit{Relative Partial Pressure}$ is also referred to as $\\textit{Relative Humidity}$."^^ns1:LatexString ; ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:RelativePartialPressure"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "RH"^^xsd:string ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "RotationalFrequency"@en ; + dcterms:description "A measure of the number of cycles that an item revolves per time period."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://standards.buildingsmart.org/IFC/DEV/IFC4_2/FINAL/HTML/link/ifcrotationalfrequencymeasure.htm"^^xsd:anyURI ; + ns1:plainTextDescription "IfcRotationalFrequencyMeasure is a measure of the number of cycles that an item revolves in unit time. Usually measured in cycles/s."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:RotationalFrequency"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + . + + a ns1:QuantityKind ; + rdfs:label "RotationalFrequency"@en ; + dcterms:description "A measure of the number of cycles that an item revolves per time period."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://standards.buildingsmart.org/IFC/DEV/IFC4_2/FINAL/HTML/link/ifcrotationalfrequencymeasure.htm"^^xsd:anyURI ; + ns1:plainTextDescription "IfcRotationalFrequencyMeasure is a measure of the number of cycles that an item revolves in unit time. Usually measured in cycles/s."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:RotationalVelocity"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + . + a ns1:QuantityKind ; rdfs:label "الزاوية الصلبة"@ar, "Пространствен ъгъл"@bg, @@ -54324,7 +60029,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "prostorski kot"@sl, "katı cisimdeki açı"@tr, "立体角度"@zh ; - dcterms:description "The solid angle subtended by a surface S is defined as the surface area of a unit sphere covered by the surface S's projection onto the sphere. A solid angle is related to the surface of a sphere in the same way an ordinary angle is related to the circumference of a circle. Since the total surface area of the unit sphere is 4*pi, the measure of solid angle will always be between 0 and 4*pi."^^rdf:HTML ; + dcterms:description "The solid angle subtended by a surface S is defined as the surface area of a unit sphere covered by the surface S's projection onto the sphere. A solid angle is related to the surface of a sphere in the same way an ordinary angle is related to the circumference of a circle. Since the total surface area of the unit sphere is 4*pi, the measure of solid angle will always be between 0 and 4*pi."^^ns1:LatexString, + "The solid angle subtended by a surface S is defined as the surface area of a unit sphere covered by the surface S's projection onto the sphere. A solid angle is related to the surface of a sphere in the same way an ordinary angle is related to the circumference of a circle. Since the total surface area of the unit sphere is 4*pi, the measure of solid angle will always be between 0 and 4*pi."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -54335,6 +60041,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:qkdvDenominator ; ns1:qkdvNumerator ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:SolidAngle"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54352,6 +60059,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$L_E = 10 \\log_{10} \\frac{E}{E_0} dB$, where $E$ is sound power and the reference value is $E_0 = 400 \\mu Pa^2 s$."^^ns1:LatexString ; ns1:symbol "L"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundExposureLevel"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54383,12 +60091,14 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$L_P = 10 \\log_{10} \\frac{p^2}{p_0^2} dB$, where $p$ is sound pressure and the reference value in airborne acoustics is $p_0 = 20 \\mu Pa$."^^ns1:LatexString ; ns1:symbol "L"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundPressureLevel"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Tahap tekanan bunyi"@ms . a ns1:QuantityKind ; rdfs:label "Sound reduction index"@en ; - dcterms:description "The Sound Reduction Index is used to measure the level of sound insulation provided by a structure such as a wall, window, door, or ventilator."^^rdf:HTML ; + dcterms:description "The Sound Reduction Index is used to measure the level of sound insulation provided by a structure such as a wall, window, door, or ventilator."^^ns1:LatexString, + "The Sound Reduction Index is used to measure the level of sound insulation provided by a structure such as a wall, window, door, or ventilator."^^rdf:HTML ; ns1:applicableUnit , , , @@ -54401,11 +60111,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:plainTextDescription "The Sound Reduction Index is used to measure the level of sound insulation provided by a structure such as a wall, window, door, or ventilator."^^xsd:string ; ns1:symbol "R"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundReductionIndex"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Entropy"@en ; - dcterms:description "\"Specific Entropy\" is entropy per unit of mass."^^rdf:HTML ; + dcterms:description "\"Specific Entropy\" is entropy per unit of mass."^^ns1:LatexString, + "\"Specific Entropy\" is entropy per unit of mass."^^rdf:HTML ; ns1:applicableUnit , , , @@ -54424,6 +60136,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexDefinition "$s = S/m$, where $S$ is entropy and $m$ is mass."^^ns1:LatexString ; ns1:plainTextDescription "\"Specific Entropy\" is entropy per unit of mass."^^xsd:string ; ns1:symbol "s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEntropy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -54437,6 +60150,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; ns1:latexDefinition "$\\sigma = \\int \\sigma_E dE$"^^ns1:LatexString ; ns1:latexSymbol "$\\sigma_E$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:SpectralCrossSection"^^xsd:string ; rdfs:isDefinedBy ; skos:closeMatch . @@ -54449,11 +60163,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Standard_gravitational_parameter"^^xsd:anyURI ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:StandardGravitationalParameter"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Strain"@en ; - dcterms:description "In any branch of science dealing with materials and their behaviour, strain is the geometrical expression of deformation caused by the action of stress on a physical body. Strain is calculated by first assuming a change between two body states: the beginning state and the final state. Then the difference in placement of two points in this body in those two states expresses the numerical value of strain. Strain therefore expresses itself as a change in size and/or shape. [Wikipedia]"^^rdf:HTML ; + dcterms:description "In any branch of science dealing with materials and their behaviour, strain is the geometrical expression of deformation caused by the action of stress on a physical body. Strain is calculated by first assuming a change between two body states: the beginning state and the final state. Then the difference in placement of two points in this body in those two states expresses the numerical value of strain. Strain therefore expresses itself as a change in size and/or shape. [Wikipedia]"^^ns1:LatexString, + "In any branch of science dealing with materials and their behaviour, strain is the geometrical expression of deformation caused by the action of stress on a physical body. Strain is calculated by first assuming a change between two body states: the beginning state and the final state. Then the difference in placement of two points in this body in those two states expresses the numerical value of strain. Strain therefore expresses itself as a change in size and/or shape. [Wikipedia]"^^rdf:HTML ; ns1:applicableUnit , , , @@ -54474,12 +60190,28 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:informativeReference "http://www.freestudy.co.uk/mech%20prin%20h2/stress.pdf"^^xsd:anyURI ; ns1:latexSymbol "$\\epsilon$"^^ns1:LatexString ; ns1:plainTextDescription "In any branch of science dealing with materials and their behaviour, strain is the geometrical expression of deformation caused by the action of stress on a physical body. Strain is calculated by first assuming a change between two body states: the beginning state and the final state. Then the difference in placement of two points in this body in those two states expresses the numerical value of strain. Strain therefore expresses itself as a change in size and/or shape. [Wikipedia]"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "Stress Intensity Factor"@en ; + dcterms:description "In fracture mechanics, the stress intensity factor (K) is used to predict the stress state (\"stress intensity\") near the tip of a crack or notch caused by a remote load or residual stresses. It is a theoretical construct usually applied to a homogeneous, linear elastic material and is useful for providing a failure criterion for brittle materials, and is a critical technique in the discipline of damage tolerance. The concept can also be applied to materials that exhibit small-scale yielding at a crack tip."^^ns1:LatexString, + "In fracture mechanics, the stress intensity factor (K) is used to predict the stress state (\"stress intensity\") near the tip of a crack or notch caused by a remote load or residual stresses. It is a theoretical construct usually applied to a homogeneous, linear elastic material and is useful for providing a failure criterion for brittle materials, and is a critical technique in the discipline of damage tolerance. The concept can also be applied to materials that exhibit small-scale yielding at a crack tip."^^rdf:HTML ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Stress_intensity_factor"^^xsd:anyURI ; + ns1:latexSymbol "$\\K$"^^ns1:LatexString ; + ns1:plainTextDescription "In fracture mechanics, the stress intensity factor (K) is used to predict the stress state (\"stress intensity\") near the tip of a crack or notch caused by a remote load or residual stresses. It is a theoretical construct usually applied to a homogeneous, linear elastic material and is useful for providing a failure criterion for brittle materials, and is a critical technique in the discipline of damage tolerance. The concept can also be applied to materials that exhibit small-scale yielding at a crack tip."^^xsd:string ; + ns1:symbol "K"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:StressIntensityFactor"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Surface Density"@en ; - dcterms:description "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area."^^rdf:HTML ; + dcterms:description "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area."^^ns1:LatexString, + "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area."^^rdf:HTML ; ns1:applicableUnit , , , @@ -54494,6 +60226,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:latexSymbol "$\\rho_A$"^^ns1:LatexString ; ns1:plainTextDescription "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:SurfaceDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54501,6 +60234,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TemperatureAmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54508,6 +60242,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TemperaturePerTime_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -54519,6 +60254,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:TemperatureRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54527,11 +60263,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ThermalEnergyLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Expansion Coefficient"@en ; - dcterms:description "The \"Thermal Expansion Coefficient\" is a measure of the thermal expansion coefficient of a material, which expresses its elongation (as a ratio) per temperature difference. It is usually measured in 1/K. A positive elongation per (positive) rise of temperature is expressed by a positive value."^^rdf:HTML ; + dcterms:description "The \"Thermal Expansion Coefficient\" is a measure of the thermal expansion coefficient of a material, which expresses its elongation (as a ratio) per temperature difference. It is usually measured in 1/K. A positive elongation per (positive) rise of temperature is expressed by a positive value."^^ns1:LatexString, + "The \"Thermal Expansion Coefficient\" is a measure of the thermal expansion coefficient of a material, which expresses its elongation (as a ratio) per temperature difference. It is usually measured in 1/K. A positive elongation per (positive) rise of temperature is expressed by a positive value."^^rdf:HTML ; ns1:applicableUnit , , , @@ -54545,6 +60283,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:iec61360Code "0112/2///62720#UAD188"^^xsd:string ; ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifcthermalexpansioncoefficientmeasure.htm"^^xsd:anyURI ; ns1:plainTextDescription "The \"Thermal Expansion Coefficient\" is a measure of the thermal expansion coefficient of a material, which expresses its elongation (as a ratio) per temperature difference. It is usually measured in 1/K. A positive elongation per (positive) rise of temperature is expressed by a positive value."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalExpansionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54571,6 +60310,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:informativeReference "http://en.wikipedia.org/wiki/Thermal_resistance"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalResistance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -54584,6 +60324,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:hasDimensionVector ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:ThrustToMassRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54626,6 +60367,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ; ns1:hasDimensionVector ; ns1:symbol "V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -54668,11 +60410,28 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "A10"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Ampere per Joule"@en ; + dcterms:description "The inverse measure of \\(joule-per-ampere\\) or \\(weber\\). The measure for the reciprical of magnetic flux."^^ns1:LatexString ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(A/J\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "A/J"^^xsd:string ; + ns1:ucumCode "A.J-1"^^ns1:UCUMcs, + "A/J"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "أمبير في المتر المربع"@ar, "ampér na metr čtvereční"@cs, "Ampere je Quadratmeter"@de, + "Ampere per Square Metre"@en, "ampere per square metre"@en, "Ampere per Square Meter"@en-us, "amperio por metro cuadrado"@es, @@ -54748,34 +60507,15 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "Cubic Angstrom"@en-us ; dcterms:description "A unit that is a non-SI unit, specifically a CGS unit, of polarizability known informally as polarizability volume. The SI defined units for polarizability are C*m^2/V and can be converted to \\(Angstr\\ddot{o}m\\)^3 by multiplying the SI value by 4 times pi times the vacuum permittivity and then converting the resulting m^3 to \\(Angstr\\ddot{o}m\\)^3 through the SI base 10 conversion (multiplying by 10^-30)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-40 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; + ns1:conversionMultiplier 1e-40, + 0.0000000000000000000000000000000000000001 ; + ns1:hasDimensionVector , + ; + ns1:hasQuantityKind , + ; ns1:symbol "ų"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Abampere"@en ; - dcterms:description "The Abampere (aA), also called the biot after Jean-Baptiste Biot, is the basic electromagnetic unit of electric current in the emu-cgs system of units (electromagnetic cgs). One abampere is equal to ten amperes in the SI system of units. An abampere is the constant current that produces, when maintained in two parallel conductors of negligible circular section and of infinite length placed 1 centimetre apart, a force of 2 dynes per centimetre between the two conductors."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 10.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Abampere"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Abampere?oldid=489318583"^^xsd:anyURI, - "http://wordinfo.info/results/abampere"^^xsd:anyURI, - "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-13?rskey=i2kRRz"^^xsd:anyURI ; - ns1:latexDefinition "\\(1\\,abA = 10\\,A\\)"^^ns1:LatexString ; - ns1:omUnit ; - ns1:plainTextDescription "The Abampere (aA), also called the biot after Jean-Baptiste Biot, is the basic electromagnetic unit of electric current in the emu-cgs system of units (electromagnetic cgs). One abampere is equal to ten amperes in the SI system of units. An abampere is the constant current that produces, when maintained in two parallel conductors of negligible circular section and of infinite length placed 1 centimetre apart, a force of 2 dynes per centimetre between the two conductors."^^xsd:string ; - ns1:symbol "abA"^^xsd:string ; - ns1:ucumCode "Bi"^^ns1:UCUMcs ; - rdfs:isDefinedBy ; - skos:altLabel "biot"^^xsd:string . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "AttoCoulomb"@en ; @@ -54785,7 +60525,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -54823,62 +60564,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "J57"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Barrel (UK Petroleum) Per Day"@en ; - dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.841587e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA331"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit day"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}/day"^^xsd:string ; - ns1:uneceCommonCode "J59"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (UK Petroleum) Per Hour"@en ; - dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.41981e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA332"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit hour"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}/hr"^^xsd:string ; - ns1:uneceCommonCode "J60"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (UK Petroleum) Per Minute"@en ; - dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.002651886 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA330"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit minute"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}/min"^^xsd:string ; - ns1:uneceCommonCode "J58"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (UK Petroleum) Per Second"@en ; - dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.1591132 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA333"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}"^^xsd:string ; - ns1:uneceCommonCode "J61"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Barrel (US)"@en ; dcterms:description "unit of the volume for crude oil according to the Anglo-American system of units"^^rdf:HTML ; @@ -54894,70 +60579,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "BLL"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Barrel (US) Per Day"@en ; - dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.84e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA335"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit day"^^xsd:string ; - ns1:symbol "bsh{US petroleum}/day"^^xsd:string ; - ns1:ucumCode "[bbl_us].d-1"^^ns1:UCUMcs, - "[bbl_us]/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B1"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (US) Per Minute"@en ; - dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0026498 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA337"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit minute"^^xsd:string ; - ns1:symbol "bbl{US petroleum}/min"^^xsd:string ; - ns1:ucumCode "[bbl_us].min-1"^^ns1:UCUMcs, - "[bbl_us]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "5A"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (US Petroleum) Per Hour"@en ; - dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.4163e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA336"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit hour"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}/hr"^^xsd:string ; - ns1:ucumCode "[bbl_us].h-1"^^ns1:UCUMcs, - "[bbl_us]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J62"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Barrel (US Petroleum) Per Second"@en ; - dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.1589873 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA338"^^xsd:string ; - ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bbl{UK petroleum}/s"^^xsd:string ; - ns1:ucumCode "[bbl_us].s-1"^^ns1:UCUMcs, - "[bbl_us]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J62"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Beaufort"@en ; dcterms:description "unit for classification of winds according to their speed, developed by Sir Francis Beaufort as measure for the over-all behaviour of a ship's sail at different wind speeds"^^rdf:HTML ; @@ -54970,6 +60591,110 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "M19"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Becquerel per Kilogram"@en ; + dcterms:description "The only unit in the category of Specific radioactivity. It is also known as becquerels per kilogram, becquerel/kilogram. This unit is commonly used in the SI unit system. Becquerel Per Kilogram (Bq/kg) has a dimension of \\(M{-1}T{-1}\\) where \\(M\\) is mass, and \\(T\\) is time. It essentially the same as the corresponding standard SI unit \\(/kg/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(Bq/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA112"^^xsd:string ; + ns1:informativeReference "http://www.efunda.com/glossary/units/units--specific_radioactivity--becquerel_per_kilogram.cfm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:plainTextDescription "\"Becquerel per Kilogram\" is used to describe radioactivity, which is often expressed in becquerels per unit of volume or weight, to express how much radioactive material is contained in a sample."^^xsd:string ; + ns1:symbol "Bq/kg"^^xsd:string ; + ns1:ucumCode "Bq.kg-1"^^ns1:UCUMcs, + "Bq/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A18"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "British Thermal Unit (international Table) Inch Per Hour Square Foot Degree Fahrenheit"@en ; + dcterms:description "\\(BTU_{th}\\) Inch per Square Foot Hour Degree Fahrenheit is an Imperial unit for 'Thermal Conductivity' expressed as \\(Btu_{it}-in/(hr-ft^{2}-degF)\\). An International British thermal unit inch per second per square foot per degree Fahrenheit is a unit of thermal conductivity in the US Customary Units and British Imperial Units. \\(1 Btu_{it} \\cdot in/(hr \\cdot ft^{2} \\cdot degF)\\) shows that one thermochemical BTU of heat per one hour moves through one square foot of material, which is one foot thick due to a temperature difference of one degree Fahrenheit."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.144227889 ; + ns1:exactMatch ; + ns1:expression "\\(Btu(it)-in-per-hr-ft2-degF\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA117"^^xsd:string ; + ns1:informativeReference "http://www.translatorscafe.com/cafe/EN/units-converter/thermal-conductivity/c/"^^xsd:anyURI ; + ns1:latexSymbol "\\(Btu_{it} \\cdot in/(hr \\cdot ft^{2} \\cdot degF)\\)"^^ns1:LatexString ; + ns1:plainTextDescription "BTU (th) Inch per Square Foot Hour Degree Fahrenheit is an Imperial unit for 'Thermal Conductivity', an International British thermal unit inch per second per square foot per degree Fahrenheit is a unit of thermal conductivity in the US Customary Units and British Imperial Units."^^xsd:string ; + ns1:symbol "Btu{IT}⋅in/(ft²⋅hr⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[in_i].[ft_i]-2.h-1.[degF]-1"^^ns1:UCUMcs, + "[Btu_IT].[in_i]/([ft_i]2.h.[degF])"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J41"^^xsd:string ; + ns2:comment "owl:sameAs: unit:BTU_IT-IN-PER-HR-FT2-DEG_F"^^xsd:string, + "qudt:exactMatch: unit:BTU_IT-IN-PER-HR-FT2-DEG_F"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU (IT) Inch per Square Foot Second Degree Fahrenheit"@en ; + dcterms:description "\\(BTU_{IT}\\), Inch per Square Foot Second Degree Fahrenheit, is an Imperial unit for 'Thermal Conductivity' expressed as \\(Btu_{it}-in/(ft^{2}-s-degF)\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 519.220399911 ; + ns1:exactMatch ; + ns1:expression "\\(Btu(it)-in-per-s-ft2-degF\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA118"^^xsd:string ; + ns1:informativeReference "http://www.translatorscafe.com/cafe/EN/units-converter/thermal-conductivity/c/"^^xsd:anyURI ; + ns1:plainTextDescription "British thermal unit (international table) inch per second Square foot degree Fahrenheit is the unit of the thermal conductivity according to the Imperial system of units."^^xsd:string ; + ns1:symbol "Btu{IT}⋅in/(ft²⋅s⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[in_i].[ft_i]-2.s-1.[degF]-1"^^ns1:UCUMcs, + "[Btu_IT].[in_i]/([ft_i]2.s.[degF])"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J42"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (international Table) Inch Per Hour Square Foot degree Fahrenheit"@en ; + dcterms:description "unit of the thermal conductivity according to the Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.1442279 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA117"^^xsd:string ; + ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units"^^xsd:string ; + ns1:symbol "Btu{IT}⋅in/(hr⋅ft²⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[in_i].h-1.[ft_i]-2.[degF]-1"^^ns1:UCUMcs, + "[Btu_IT].[in_i]/(h.[ft_i]2.[degF])"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J41"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (international Table) Inch Per Second Square Foot degree Fahrenheit"@en ; + dcterms:description "unit of the thermal conductivity according to the Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 519.2204 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA118"^^xsd:string ; + ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units"^^xsd:string ; + ns1:symbol "Btu{IT}⋅in/(s⋅ft²⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[in_i].s-1.[ft_i]-2.[degF]-1"^^ns1:UCUMcs, + "[Btu_IT].[in_i]/(s.[ft_i]2.[degF])"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J42"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "BTU per Square Foot"@en ; @@ -55088,136 +60813,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "N59"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Bushel (UK) Per Day"@en ; - dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4.209343e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA345"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "bsh{UK}/day"^^xsd:string ; - ns1:ucumCode "[bu_br].d-1"^^ns1:UCUMcs, - "[bu_br]/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J64"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (UK) Per Hour"@en ; - dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.010242e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA346"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "bsh{UK}/hr"^^xsd:string ; - ns1:uneceCommonCode "J65"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (UK) Per Minute"@en ; - dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0006061453 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA347"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "bsh{UK}/min"^^xsd:string ; - ns1:ucumCode "[bu_br].min-1"^^ns1:UCUMcs, - "[bu_br]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J66"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (UK) Per Second"@en ; - dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.03636872 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA348"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bsh{UK}/s"^^xsd:string ; - ns1:ucumCode "[bu_br].s-1"^^ns1:UCUMcs, - "[bu_br]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J67"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (US Dry) Per Day"@en ; - dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.0786e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA349"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "bsh{US}/day"^^xsd:string ; - ns1:ucumCode "[bu_us].d-1"^^ns1:UCUMcs, - "[bu_us]/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J68"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (US Dry) Per Hour"@en ; - dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 9.789e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA350"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "bsh{US}/hr"^^xsd:string ; - ns1:ucumCode "[bu_us].h-1"^^ns1:UCUMcs, - "[bu_us]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J69"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (US Dry) Per Minute"@en ; - dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.00058732 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA351"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "bsh{US}/min"^^xsd:string ; - ns1:ucumCode "[bu_us].min-1"^^ns1:UCUMcs, - "[bu_us]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J70"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Bushel (US Dry) Per Second"@en ; - dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.03523907 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA352"^^xsd:string ; - ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bsh{US}/s"^^xsd:string ; - ns1:ucumCode "[bu_us].s-1"^^ns1:UCUMcs, - "[bu_us]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J71"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Coulomb per Cubic Metre"@en, @@ -55336,7 +60931,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:expression "\\(cubic-cm\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -55348,86 +60944,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "CMQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Centimetre Per Day"@en, - "Cubic Centimeter Per Day"@en-us ; - dcterms:description "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-11 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA388"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit day"^^xsd:string ; - ns1:symbol "cm³/day"^^xsd:string ; - ns1:ucumCode "cm3.d-1"^^ns1:UCUMcs, - "cm3/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G47"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Centimetre Per Hour"@en, - "Cubic Centimeter Per Hour"@en-us ; - dcterms:description "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 2.777778e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA391"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^xsd:string ; - ns1:symbol "cm³/hr"^^xsd:string ; - ns1:ucumCode "cm3.h-1"^^ns1:UCUMcs, - "cm3/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G48"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Centimetre Per Minute"@en, - "Cubic Centimeter Per Minute"@en-us ; - dcterms:description "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.666667e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA395"^^xsd:string ; - ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit minute"^^xsd:string ; - ns1:symbol "cm³/min"^^xsd:string ; - ns1:ucumCode "cm3.min-1"^^ns1:UCUMcs, - "cm3/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G49"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Centimetre Per Second"@en, - "Cubic Centimeter Per Second"@en-us ; - dcterms:description "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA399"^^xsd:string ; - ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "cm³/s"^^xsd:string ; - ns1:ucumCode "cm3.s-1"^^ns1:UCUMcs, - "cm3/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2J"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "CentiMole"@en ; ns1:applicableSystem ; @@ -55438,21 +60954,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:symbol "cmol"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centimole per kilogram"@en ; - dcterms:description "1/100 of SI unit of amount of substance per kilogram"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.01 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:plainTextDescription "1/100 of SI unit of amount of substance per kilogram"^^xsd:string ; - ns1:symbol "cmol/kg"^^xsd:string ; - ns1:ucumCode "cmol.kg-1"^^ns1:UCUMcs, - "cmol/kg"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Centinewton Metre"@en, "Centinewton Meter"@en-us ; @@ -55489,7 +60990,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined dcterms:description "\"Dyne Centimeter\" is a C.G.S System unit for 'Torque' expressed as \\(dyn-cm\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-07 ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; ns1:derivedUnitOfSystem , ; ns1:expression "\\(dyn-cm\\)"^^ns1:LatexString ; @@ -55519,24 +61021,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "DX"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Dalton"@en ; - dcterms:description "The unified atomic mass unit (symbol: \\(\\mu\\)) or dalton (symbol: Da) is a unit that is used for indicating mass on an atomic or molecular scale. It is defined as one twelfth of the rest mass of an unbound atom of carbon-12 in its nuclear and electronic ground state, and has a value of \\(1.660538782(83) \\times 10^{-27} kg\\). One \\(Da\\) is approximately equal to the mass of one proton or one neutron. The CIPM have categorised it as a \"non-SI unit whose values in SI units must be obtained experimentally\"."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.660539e-27 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Dalton"^^xsd:anyURI ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_mass_unit"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Dalton?oldid=495038954"^^xsd:anyURI ; - ns1:symbol "Da"^^xsd:string ; - ns1:ucumCode "u"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D43"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "atomic-mass-unit"^^xsd:string . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "DecaCoulomb"@en ; @@ -55668,86 +61152,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "DMQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Decimetre Per Day"@en, - "Cubic Decimeter Per Day"@en-us ; - dcterms:description "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA415"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time day"^^xsd:string ; - ns1:symbol "dm³/day"^^xsd:string ; - ns1:ucumCode "dm3.d-1"^^ns1:UCUMcs, - "dm3/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J90"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Decimetre Per Hour"@en, - "Cubic Decimeter Per Hour"@en-us ; - dcterms:description "0.001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 2.777778e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA416"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^xsd:string ; - ns1:symbol "dm³/hr"^^xsd:string ; - ns1:ucumCode "dm3.h-1"^^ns1:UCUMcs, - "dm3/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E92"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Decimetre Per Minute"@en, - "Cubic Decimeter Per Minute"@en-us ; - dcterms:description "0.001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.666667e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA418"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time minute"^^xsd:string ; - ns1:symbol "dm³/min"^^xsd:string ; - ns1:ucumCode "dm3.min-3"^^ns1:UCUMcs, - "dm3/min3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J92"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Decimetre Per Second"@en, - "Cubic Decimeter Per Second"@en-us ; - dcterms:description "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA420"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time second"^^xsd:string ; - ns1:symbol "dm³/s"^^xsd:string ; - ns1:ucumCode "dm3.s-1"^^ns1:UCUMcs, - "dm3/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J93"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Decinewton Metre"@en, "Decinewton Meter"@en-us ; @@ -55770,7 +61174,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined a ns1:Unit ; rdfs:label "Elementary Charge"@en ; dcterms:description "\"Elementary Charge\", usually denoted as \\(e\\), is the electric charge carried by a single proton, or equivalently, the negation (opposite) of the electric charge carried by a single electron. This elementary charge is a fundamental physical constant. To avoid confusion over its sign, e is sometimes called the elementary positive charge. This charge has a measured value of approximately \\(1.602176634 \\times 10^{-19} coulombs\\). In the cgs system, \\(e\\) is \\(4.80320471257026372 \\times 10^{-10} statcoulombs\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 1.602177e-19 ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "e"^^xsd:string ; @@ -55804,7 +61209,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1.602177e-19 ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "e"^^xsd:string ; @@ -55820,7 +61226,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e+18 ; + ns1:conversionMultiplier 1000000000000000000.0, + 1e+18 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -55889,7 +61296,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined dcterms:description "\\(\\textbf{Square Foot per Hour} is an Imperial unit for \\(\\textit{Kinematic Viscosity}\\) and \\(\\textit{Thermal Diffusivity}\\) expressed as \\(ft^{2}/hr\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 2.58064e-05 ; + ns1:conversionMultiplier 0.0000258064, + 2.58064e-05 ; ns1:definedUnitOfSystem , ; ns1:expression "\\(ft^{2}/hr\\)"^^ns1:LatexString ; @@ -55937,60 +61345,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "FTQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Foot Per Day"@en ; - dcterms:description "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 3.277413e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA458"^^xsd:string ; - ns1:plainTextDescription "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^xsd:string ; - ns1:symbol "ft³/day"^^xsd:string ; - ns1:ucumCode "[cft_i].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K22"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Foot Per Hour"@en ; - dcterms:description "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 7.865792e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA459"^^xsd:string ; - ns1:plainTextDescription "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^xsd:string ; - ns1:symbol "ft³/hr"^^xsd:string ; - ns1:ucumCode "[cft_i].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2K"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Foot per Minute"@en ; - dcterms:description "\"Cubic Foot per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(ft^3/min\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0004719474432000001 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft^{3}/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA461"^^xsd:string ; - ns1:symbol "ft³/min"^^xsd:string ; - ns1:ucumCode "[cft_i].min-1"^^ns1:UCUMcs, - "[cft_i]/min"^^ns1:UCUMcs, - "[ft_i]3.min-1"^^ns1:UCUMcs, - "[ft_i]3/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2L"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Cubic Foot Per Minute Square Foot"@en ; dcterms:description "unit of the volume flow rate according to the Anglio-American and imperial system of units cubic foot per minute related to the transfer area according to the Anglian American and Imperial system of units square foot"^^rdf:HTML ; @@ -56006,28 +61360,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "36"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Foot per Second"@en ; - dcterms:description "\"Cubic Foot per Second\" is an Imperial unit for \\( \\textit{Volume Per Unit Time}\\) expressed as \\(ft^3/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.028316846592000004 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft^{3}/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA462"^^xsd:string ; - ns1:symbol "ft³/s"^^xsd:string ; - ns1:ucumCode "[cft_i].s-1"^^ns1:UCUMcs, - "[cft_i]/s"^^ns1:UCUMcs, - "[ft_i]3.s-1"^^ns1:UCUMcs, - "[ft_i]3/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E17"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "FemtoCoulomb"@en ; @@ -56037,7 +61369,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -56055,7 +61388,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "0.000000000000001-fold of the unit litre"^^xsd:string ; @@ -56075,129 +61409,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:ucumCode "fmol"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gallon (UK) Per Day"@en ; - dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 5.261678e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA501"^^xsd:string ; - ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit day"^^xsd:string ; - ns1:symbol "gal{UK}/day"^^xsd:string ; - ns1:ucumCode "[gal_br].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K26"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gallon (UK) Per Hour"@en ; - dcterms:description "unit gallon (UK dry or Liq.) according to the Imperial system of units divided by the SI unit hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.262803e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA502"^^xsd:string ; - ns1:plainTextDescription "unit gallon (UK dry or Liq.) according to the Imperial system of units divided by the SI unit hour"^^xsd:string ; - ns1:symbol "gal{UK}/hr"^^xsd:string ; - ns1:ucumCode "[gal_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K27"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gallon (UK) Per Minute"@en ; - dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 7.576817e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA503"^^xsd:string ; - ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit minute"^^xsd:string ; - ns1:symbol "gal{UK}/min"^^xsd:string ; - ns1:ucumCode "[gal_br].m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G3"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gallon (UK) Per Second"@en ; - dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.00454609 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA504"^^xsd:string ; - ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "gal{UK}/s"^^xsd:string ; - ns1:ucumCode "[gal_br].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K28"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "US Gallon per Day"@en ; - dcterms:description "\"US Gallon per Day\" is a unit for 'Volume Per Unit Time' expressed as \\(gal/d\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.381264e-08 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(gal/d\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "gal/day"^^xsd:string ; - ns1:ucumCode "[gal_us].d-1"^^ns1:UCUMcs, - "[gal_us]/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GB"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gallon (US) Per Hour"@en ; - dcterms:description "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI unit hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.051503e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA507"^^xsd:string ; - ns1:plainTextDescription "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI unit hour"^^xsd:string ; - ns1:symbol "gal{US}/hr"^^xsd:string ; - ns1:ucumCode "[gal_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G50"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "US Gallon per Minute"@en ; - dcterms:description "\"US Gallon per Minute\" is a C.G.S System unit for 'Volume Per Unit Time' expressed as \\(gal/min\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 6.30902e-05 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(gal/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "gal/min"^^xsd:string ; - ns1:ucumCode "[gal_us].min-1"^^ns1:UCUMcs, - "[gal_us]/min"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gallon (US Liquid) Per Second"@en ; - dcterms:description "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.003785412 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA509"^^xsd:string ; - ns1:plainTextDescription "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "gal{US}/s"^^xsd:string ; - ns1:ucumCode "[gal_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K30"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Gill (UK)"@en ; dcterms:description "unit of the volume for fluids according to the Imperial system of units (1/32 Imperial Gallon)"^^rdf:HTML ; @@ -56212,66 +61423,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "GII"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gill (UK) Per Day"@en ; - dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.644274e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA512"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "gill{UK}/day"^^xsd:string ; - ns1:ucumCode "[gil_br].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K32"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gill (UK) Per Hour"@en ; - dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.946258e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA513"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "gill{UK}/hr"^^xsd:string ; - ns1:ucumCode "[gil_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K33"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gill (UK) Per Minute"@en ; - dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.367755e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA514"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "gill{UK}/min"^^xsd:string ; - ns1:ucumCode "[gil_br].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K34"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gill (UK) Per Second"@en ; - dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0001420653 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA515"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "gill{UK}/s"^^xsd:string ; - ns1:ucumCode "[gil_br].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K35"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Gill (US)"@en ; dcterms:description "unit of the volume according the Anglo-American system of units (1/32 US Gallon)"^^rdf:HTML ; @@ -56286,64 +61437,42 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "GIA"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gill (US) Per Day"@en ; - dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.369145e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA517"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "gill{US}/day"^^xsd:string ; - ns1:ucumCode "[gil_us].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K36"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gill (US) Per Hour"@en ; - dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.285947e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA518"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "gill{US}/hr"^^xsd:string ; - ns1:ucumCode "[gil_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K37"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gill (US) Per Minute"@en ; - dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.971568e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA519"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "gill{US}/min"^^xsd:string ; - ns1:ucumCode "[gil_us].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K38"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Gram Per Square Centimetre"@en, + "Gram Per Square Centimeter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre and exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 10.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB103"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre and exponent 2"^^xsd:string ; + ns1:symbol "g/cm²"^^xsd:string ; + ns1:ucumCode "g.cm-2"^^ns1:UCUMcs, + "g/cm2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "25"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gill (US) Per Second"@en ; - dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0001182941 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA520"^^xsd:string ; - ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "gill{US}/s"^^xsd:string ; - ns1:ucumCode "[gil_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K39"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Gram Per Square Metre"@en, + "Gram Per Square Meter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA486"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "g/m²"^^xsd:string ; + ns1:ucumCode "g.m-2"^^ns1:UCUMcs, + "g/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GM"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -56353,6 +61482,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined "gray"@cs, "Gray"@de, "γκρέι"@el, + "Gray"@en, "gray"@en, "gray"@es, "گری"@fa, @@ -56393,28 +61523,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "A95"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Gray per Second"@en ; - dcterms:description "\"Gray per Second\" is a unit for 'Absorbed Dose Rate' expressed as \\(Gy/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(Gy/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA164"^^xsd:string ; - ns1:symbol "Gy/s"^^xsd:string ; - ns1:ucumCode "Gy.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A96"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "GigaCoulomb"@en ; @@ -56423,7 +61531,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -56433,27 +61542,6 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined rdfs:isDefinedBy ; prov:wasDerivedFrom . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Gigahertz"@en ; - dcterms:description "The hertz (symbol Hz) is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon. A GigaHertz is \\(10^{9} hz\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e+09 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Hertz"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA150"^^xsd:string ; - ns1:prefix ; - ns1:symbol "GHz"^^xsd:string ; - ns1:ucumCode "GHz"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A86"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Hertz Metre"@en, "Hertz Meter"@en-us ; @@ -56476,6 +61564,7 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined rdfs:label "هرتز لكل كلفن"@ar, "hertz na kelvin"@cs, "Hertz je Kelvin"@de, + "Hertz per Kelvin"@en, "hertz per kelvin"@en, "hercio por kelvin"@es, "هرتز بر کلوین"@fa, @@ -56588,7 +61677,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined dcterms:description "The cubic inch is a unit of measurement for volume in the Imperial units and United States customary units systems. It is the volume of a cube with each of its three sides being one inch long. The cubic inch and the cubic foot are still used as units of volume in the United States, although the common SI units of volume, the liter, milliliter, and cubic meter, are continually replacing them, especially in manufacturing and high technology. One cubic foot is equal to exactly 1728 cubic inches."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.638706e-05 ; + ns1:conversionMultiplier 1.638706e-05, + 0.000016387064 ; ns1:definedUnitOfSystem , ; ns1:expression "\\(in^{3}\\)"^^ns1:LatexString ; @@ -56601,66 +61691,13 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined ns1:uneceCommonCode "INQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Inch Per Hour"@en ; - dcterms:description "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4.551961e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA550"^^xsd:string ; - ns1:plainTextDescription "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^xsd:string ; - ns1:symbol "in³/hr"^^xsd:string ; - ns1:ucumCode "[cin_i].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G56"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Inch per Minute"@en ; - dcterms:description "\"Cubic Inch per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(in^{3}/min\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 2.731177e-07 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(in^{3}/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA551"^^xsd:string ; - ns1:symbol "in³/min"^^xsd:string ; - ns1:ucumCode "[cin_i].min-1"^^ns1:UCUMcs, - "[cin_i]/min"^^ns1:UCUMcs, - "[in_i]3.min-1"^^ns1:UCUMcs, - "[in_i]3/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G57"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Inch Per Second"@en ; - dcterms:description "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.638706e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA552"^^xsd:string ; - ns1:plainTextDescription "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "in³/s"^^xsd:string ; - ns1:ucumCode "[cin_i].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G58"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Quartic Inch"@en ; dcterms:description "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 4"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 4.162314e-07 ; + ns1:conversionMultiplier 0.0000004162314, + 4.162314e-07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA545"^^xsd:string ; @@ -56672,7 +61709,8 @@ That is, given a point P on a smooth curve C, the curvature of C at P is defined a ns1:Unit ; rdfs:label "International Unit"@en ; - dcterms:description """ + dcterms:description "

International Unit is a unit for \\textit{'Amount Of Substance'} expressed as \\(IU\\)

."^^ns1:LatexString, + """

International Unit is a unit for Amount Of Substance expressed as IU. Note that the magnitude depends on the substance, thus there is no fixed conversion multiplier. """^^rdf:HTML ; @@ -56762,7 +61800,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:applicableSystem , , ; - ns1:conversionMultiplier 4.184e-07 ; + ns1:conversionMultiplier 4.184e-07, + 0.0000004184 ; ns1:expression "\\(kcal/cm^{2}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -56770,21 +61809,70 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "kcal.cm-2"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie per Mole"@en ; - dcterms:description "The kilocalorie per mole is a derived unit of energy per Avogadro's number of particles. It is the quotient of a kilocalorie (1000 thermochemical gram calories) and a mole, mainly used in the United States. In SI units, it is equal to \\(4.184 kJ/mol\\), or \\(6.9477 \\times 10 J per molecule\\). At room temperature it is equal to 1.688 . Physical quantities measured in \\(kcal\\cdot mol\\) are usually thermodynamical quantities; mostly free energies such as: Heat of vaporization Heat of fusion

."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Kilogram Per Square Centimetre"@en, + "Kilogram Per Square Centimeter"@en-us ; + dcterms:description "SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; ns1:applicableSystem , - , + , + , + ; + ns1:conversionMultiplier 10000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB174"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; + ns1:symbol "kg/cm²"^^xsd:string ; + ns1:ucumCode "kg.cm-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D5"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilogram Per Square Foot"@en ; + dcterms:description "SI base unit kilogram divided by the square of the imperial foot"^^rdf:HTML ; + ns1:applicableSystem , + , ; - ns1:conversionMultiplier 4184.0 ; - ns1:expression "\\(kcal/mol\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kcal/mol"^^xsd:string ; - ns1:ucumCode "kcal.mol-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 10.763910416709722 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "SI base unit kilogram divided by the square of the imperial foot"^^xsd:string ; + ns1:symbol "kg/ft²"^^xsd:string ; + ns1:ucumCode "kg.ft-2"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilogram per Hectare"@en ; + dcterms:description "Kilogram Per Hectare is a unit of mass per area. Kilogram Per Hectare (kg/ha) has a dimension of ML-2 where M is mass, and L is length. It can be converted to the corresponding standard SI unit kg/m2 by multiplying its value by a factor of 0.0001."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0001 ; + ns1:expression "\\(kg/hare\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kg/ha"^^xsd:string ; + ns1:ucumCode "kg.har-1"^^ns1:UCUMcs, + "kg/har"^^ns1:UCUMcs ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Kilograms per square metre per Pascal per second"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Perm_(unit)"^^xsd:anyURI ; + ns1:symbol "kg/(m²⋅s⋅Pa)"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Kilogram per Square Second"@en ; @@ -56805,7 +61893,9 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:isDefinedBy . a ns1:Unit ; - rdfs:label "Kilogram_force Metre"@en, + rdfs:label "Kilogram?force Metre"@en, + "Kilogram_force Metre"@en, + "Kilogram?force Meter"@en-us, "Kilogram_force Meter"@en-us ; dcterms:description "product of the unit kilogram-force and the SI base unit metre"^^rdf:HTML ; ns1:conversionMultiplier 9.80665 ; @@ -56821,7 +61911,9 @@ Note that the magnitude depends on the substance, thus there is no fixed convers a ns1:Unit ; rdfs:label "Kilogram Force Metre Per Square Centimetre"@en, - "Kilogram Force Meter Per Square Centimeter"@en-us ; + "Kilogram?force Metre Per Square Centimetre"@en, + "Kilogram Force Meter Per Square Centimeter"@en-us, + "Kilogram?force Meter Per Square Centimeter"@en-us ; dcterms:description "product of the unit kilogram-force and the SI base unit metre divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; ns1:conversionMultiplier 98066.5 ; ns1:hasDimensionVector ; @@ -56833,40 +61925,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "E44"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilohertz"@en ; - dcterms:description "\"Kilohertz\" is a C.G.S System unit for 'Frequency' expressed as \\(KHz\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA566"^^xsd:string ; - ns1:prefix ; - ns1:symbol "kHz"^^xsd:string ; - ns1:ucumCode "kHz"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KHZ"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilojoule Per Mole"@en ; - dcterms:description "1 000-fold of the SI derived unit joule divided by the SI base unit mol"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA572"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the SI base unit mol"^^xsd:string ; - ns1:symbol "kJ/mol"^^xsd:string ; - ns1:ucumCode "kJ.mol-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B44"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilolitre"@en, "Kilolitre"@en-us ; @@ -56885,25 +61943,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "K6"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilolitre Per Hour"@en, - "Kilolitre Per Hour"@en-us ; - dcterms:description "unit of the volume kilolitres divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.00277777777778 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB121"^^xsd:string ; - ns1:plainTextDescription "unit of the volume kilolitres divided by the unit hour"^^xsd:string ; - ns1:symbol "kL/hr"^^xsd:string ; - ns1:ucumCode "kL.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "4X"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Pound Force Per Foot"@en ; dcterms:description "unit of the length-related force"^^rdf:HTML ; @@ -56919,24 +61958,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "F17"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilomol per Kilogram"@en ; - dcterms:description "Kilomole Per Kilogram (\\(kmol/kg\\)) is a unit of Molality"^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(kmol/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "kmol/kg"^^xsd:string ; - ns1:ucumCode "kmol.kg-1"^^ns1:UCUMcs, - "kmol/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P47"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilonewton Metre"@en, "Kilonewton Meter"@en-us ; @@ -56981,108 +62002,27 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , ; ns1:conversionMultiplier 3.6e+06 ; - ns1:conversionOffset 0.0 ; + ns1:conversionOffset 0.0, + 0e+00 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "A unit of energy per unit area, equivalent to 3 600 000 joules per square metre."^^xsd:string ; ns1:symbol "kW⋅h/m²"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Litre Per Day"@en, - "Liter Per Day"@en-us ; - dcterms:description "unit litre divided by the unit day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.157407e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA652"^^xsd:string ; - ns1:plainTextDescription "unit litre divided by the unit day"^^xsd:string ; - ns1:symbol "L/day"^^xsd:string ; - ns1:ucumCode "L.d-1"^^ns1:UCUMcs, - "L/d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "LD"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Litre Per Hour"@en, - "Liter Per Hour"@en-us ; - dcterms:description "Unit litre divided by the unit hour"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 2.777778e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA655"^^xsd:string ; - ns1:plainTextDescription "Unit litre divided by the unit hour"^^xsd:string ; - ns1:symbol "L/hr"^^xsd:string ; - ns1:ucumCode "L.h-1"^^ns1:UCUMcs, - "L/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E32"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Litre Per Minute"@en, - "Liter Per Minute"@en-us ; - dcterms:description "unit litre divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.666667e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA659"^^xsd:string ; - ns1:plainTextDescription "unit litre divided by the unit minute"^^xsd:string ; - ns1:symbol "L/min"^^xsd:string ; - ns1:ucumCode "L.min-1"^^ns1:UCUMcs, - "L/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L2"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Litre Per Second"@en, - "Liter Per Second"@en-us ; - dcterms:description "unit litre divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA664"^^xsd:string ; - ns1:plainTextDescription "unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "L/s"^^xsd:string ; - ns1:ucumCode "L.s-1"^^ns1:UCUMcs, - "L/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G51"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pound (avoirdupois) Per Square Inch"@en ; - dcterms:description "unit of the areal-related mass as avoirdupois pound according to the avoirdupois system of units related to the area square inch according to the Anglo-American and Imperial system of units"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Pound Mass (avoirdupois) Per Square Foot"@en ; + dcterms:description "unit for areal-related mass as a unit pound according to the avoirdupois system of units divided by the power of the unit foot according to the Anglo-American and Imperial system of units by exponent 2"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 703.06957963916 ; + ns1:conversionMultiplier 4.882428 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAB137"^^xsd:string ; - ns1:plainTextDescription "unit of the areal-related mass as avoirdupois pound according to the avoirdupois system of units related to the area square inch according to the Anglo-American and Imperial system of units"^^xsd:string ; - ns1:symbol "lb/in²"^^xsd:string ; - ns1:ucumCode "[lb_av].[sin_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "80"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB262"^^xsd:string ; + ns1:plainTextDescription "unit for areal-related mass as a unit pound according to the avoirdupois system of units divided by the power of the unit foot according to the Anglo-American and Imperial system of units by exponent 2"^^xsd:string ; + ns1:symbol "lb/ft²"^^xsd:string ; + ns1:ucumCode "[lb_av].[ft_i]-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "FP"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -57137,6 +62077,7 @@ Note that the magnitude depends on the substance, thus there is no fixed convers a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Meter mal Kelvin"@de, + "Metre Kelvin"@en, "metre kelvin"@en, "Meter Kelvin"@en-us, "متر کلوین"@fa, @@ -57168,101 +62109,41 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "m2.Hz"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Metre Per Day"@en, - "Cubic Meter Per Day"@en-us ; - dcterms:description "power of the SI base unit metre with the exponent 3 divided by the unit day"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Quartic Metre"@en, + "Quartic Meter"@en-us ; + dcterms:description "A unit associated with area moments of inertia."^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.157407e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA760"^^xsd:string ; - ns1:plainTextDescription "power of the SI base unit metre with the exponent 3 divided by the unit day"^^xsd:string ; - ns1:symbol "m³/day"^^xsd:string ; - ns1:ucumCode "m3.d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G52"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Quartic_metre"^^xsd:anyURI ; + ns1:expression "\\(m^{4}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "m⁴"^^xsd:string ; + ns1:ucumCode "m4"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B83"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Metre per Hour"@en, - "Cubic Meter per Hour"@en-us ; - dcterms:description "Cubic Meter Per Hour (m3/h) is a unit in the category of Volume flow rate. It is also known as cubic meters per hour, cubic metre per hour, cubic metres per hour, cubic meter/hour, cubic metre/hour, cubic meter/hr, cubic metre/hr, flowrate. Cubic Meter Per Hour (m3/h) has a dimension of L3T-1 where L is length, and T is time. It can be converted to the corresponding standard SI unit m3/s by multiplying its value by a factor of 0.00027777777."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Statmho"@en ; + dcterms:description "\"StatMHO\" is the unit of conductance, admittance, and susceptance in the C.G.S e.s.u system of units. One \\(statmho\\) is the conductance between two points in a conductor when a constant potential difference of \\(1 \\; statvolt\\) applied between the points produces in the conductor a current of \\(1 \\; statampere\\), the conductor not being the source of any electromotive force, approximately \\(1.1126 \\times 10^{-12} mho\\)."^^ns1:LatexString ; ns1:applicableSystem , - , - , ; - ns1:conversionMultiplier 0.0002777777777777778 ; - ns1:expression "\\(m^{3}/h\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA763"^^xsd:string ; - ns1:symbol "m³/hr"^^xsd:string ; - ns1:ucumCode "m3.h-1"^^ns1:UCUMcs, - "m3/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MQH"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Metre Per Minute"@en, - "Cubic Meter Per Minute"@en-us ; - dcterms:description "power of the SI base unit metre with the exponent 3 divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.01666667 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA768"^^xsd:string ; - ns1:plainTextDescription "power of the SI base unit metre with the exponent 3 divided by the unit minute"^^xsd:string ; - ns1:symbol "m³/min"^^xsd:string ; - ns1:ucumCode "m3.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G53"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Quartic Metre"@en, - "Quartic Meter"@en-us ; - dcterms:description "A unit associated with area moments of inertia."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Quartic_metre"^^xsd:anyURI ; - ns1:expression "\\(m^{4}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "m⁴"^^xsd:string ; - ns1:ucumCode "m4"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B83"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Mho"@en ; - dcterms:description "\"Mho\" is a C.G.S System unit for 'Electric Conductivity' expressed as \\(mho\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Siemens_%28unit%29"^^xsd:anyURI ; - ns1:exactMatch ; + ns1:conversionMultiplier 1.1126e-12, + 0.0000000000011126 ; + ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB200"^^xsd:string ; - ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "℧"^^xsd:string ; - ns1:ucumCode "mho"^^ns1:UCUMcs ; - ns1:uneceCommonCode "NQ"^^xsd:string ; - rdfs:isDefinedBy . + ns1:informativeReference "http://www.sizes.com/units/statmho.htm"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "stat℧"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . a ns1:DerivedUnit, ns1:Unit ; @@ -57270,7 +62151,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers dcterms:description "A cubic mile is an imperial / U.S. customary unit of volume, used in the United States, Canada, and the United Kingdom. It is defined as the volume of a cube with sides of 1 mile in length. "^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 4.168182e+09 ; + ns1:conversionMultiplier 4168181830.0, + 4.168182e+09 ; ns1:definedUnitOfSystem ; ns1:expression "\\(mi^{3}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -57280,25 +62162,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "M69"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Mol per Kilogram"@en ; - dcterms:description "Mole Per Kilogram (\\(mol/kg\\)) is a unit of Molality"^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(mol/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "mol/kg"^^xsd:string ; - ns1:ucumCode "mol.kg-1"^^ns1:UCUMcs, - "mol/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C19"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "MegaCoulomb"@en ; @@ -57308,7 +62171,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -57331,44 +62195,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "MeV.[c]-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megagram Per Hectare"@en, - "Megagram Per Hectare"@en-us ; - dcterms:description "1 000-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.1 ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "1 000-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "Mg/ha"^^xsd:string ; - ns1:ucumCode "Mg.har-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Megahertz"@en ; - dcterms:description "\"Megahertz\" is a C.G.S System unit for 'Frequency' expressed as \\(MHz\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA209"^^xsd:string ; - ns1:prefix ; - ns1:symbol "MHz"^^xsd:string ; - ns1:ucumCode "MHz"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MHZ"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Megahertz Metre"@en, "Megahertz Meter"@en-us ; @@ -57377,11 +62203,13 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA210"^^xsd:string ; - ns1:plainTextDescription "product of the 1,000,000-fold of the SI derived unit hertz and the 1 000-fold of the SI base unit metre"^^xsd:string ; + ns1:plainTextDescription "product of the 1 000 000-fold of the SI derived unit hertz and the 1 000-fold of the SI base unit metre"^^xsd:string, + "product of the 1,000,000-fold of the SI derived unit hertz and the 1 000-fold of the SI base unit metre"^^xsd:string ; ns1:symbol "MHz⋅m"^^xsd:string ; ns1:ucumCode "MHz.m"^^ns1:UCUMcs ; ns1:uneceCommonCode "H39"^^xsd:string ; @@ -57395,7 +62223,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA212"^^xsd:string ; @@ -57431,7 +62260,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -57449,7 +62279,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA223"^^xsd:string ; @@ -57468,7 +62299,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -57488,7 +62320,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA088"^^xsd:string ; @@ -57504,7 +62337,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:prefix ; @@ -57512,21 +62346,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "um3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Micromoles per gram"@en ; - dcterms:description "Micromole Per Gram (\\(umol/g\\)) is a unit of Molality"^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:plainTextDescription "0.000001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "µmol/g"^^xsd:string ; - ns1:ucumCode "umol.g-1"^^ns1:UCUMcs, - "umol/g"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Micronewton Metre"@en, "Micronewton Meter"@en-us ; @@ -57535,7 +62354,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -57553,7 +62373,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA079"^^xsd:string ; @@ -57600,60 +62421,78 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:isDefinedBy ; prov:wasDerivedFrom . - a ns1:Unit ; - rdfs:label "Millilitre"@en, - "Millilitre"@en-us ; - dcterms:description "0.001-fold of the unit litre"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Milligram Per Square Centimetre"@en, + "Milligram Per Square Centimeter"@en-us ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA844"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit litre"^^xsd:string ; - ns1:symbol "mL"^^xsd:string ; - ns1:ucumCode "mL"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MLT"^^xsd:string ; + ns1:conversionMultiplier 0.01 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA818"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 0.0001-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "mg/cm²"^^xsd:string ; + ns1:ucumCode "mg.cm-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H63"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millilitre Per Day"@en, - "Millilitre Per Day"@en-us ; - dcterms:description "0.001-fold of the unit litre divided by the unit day"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Milligram Per Hectare"@en ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.157407e-11 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA847"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit day"^^xsd:string ; - ns1:symbol "mL/day"^^xsd:string ; - ns1:ucumCode "mL.d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G54"^^xsd:string ; + ns1:conversionMultiplier 0.0000000001, + 1e-10 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA818"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "mg/ha"^^xsd:string ; + ns1:ucumCode "mg.har-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millilitre Per Hour"@en, - "Millilitre Per Hour"@en-us ; - dcterms:description "0.001-fold of the unit litre divided by the unit hour"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Milligram Per Square Metre"@en, + "Milligram Per Square Meter"@en-us ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 2.777778e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA850"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit hour"^^xsd:string ; - ns1:symbol "mL/hr"^^xsd:string ; - ns1:ucumCode "mL.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G55"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA829"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "mg/m²"^^xsd:string ; + ns1:ucumCode "mg.m-2"^^ns1:UCUMcs, + "mg/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GO"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millilitre"@en, + "Millilitre"@en-us ; + dcterms:description "0.001-fold of the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA844"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit litre"^^xsd:string ; + ns1:symbol "mL"^^xsd:string ; + ns1:ucumCode "mL"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MLT"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -57664,7 +62503,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB095"^^xsd:string ; @@ -57675,45 +62515,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "KX"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millilitre Per Minute"@en, - "Millilitre Per Minute"@en-us ; - dcterms:description "0.001-fold of the unit litre divided by the unit minute"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.666667e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA855"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit minute"^^xsd:string ; - ns1:symbol "mL/min"^^xsd:string ; - ns1:ucumCode "mL.min-1"^^ns1:UCUMcs, - "mL/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "41"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millilitre Per Second"@en, - "Millilitre Per Second"@en-us ; - dcterms:description "0.001-fold of the unit litre divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA859"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "mL/s"^^xsd:string ; - ns1:ucumCode "mL.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "40"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Square Millimetre Per Second"@en, "Square Millimeter Per Second"@en-us ; @@ -57722,7 +62523,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA872"^^xsd:string ; @@ -57741,7 +62543,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:definedUnitOfSystem ; ns1:expression "\\(mm^{3}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -57761,7 +62564,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -57773,6 +62577,37 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "G77"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Millimole Per Gram"@en ; + dcterms:description "0.001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA878"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "mmol/g"^^xsd:string ; + ns1:ucumCode "mmol.g-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H68"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millimole Per Kilogram"@en ; + dcterms:description "0.001-fold of the SI base unit mol divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA879"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit mol divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "mmol/kg"^^xsd:string ; + ns1:ucumCode "mmol.kg-1"^^ns1:UCUMcs, + "mmol/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D87"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Millinewton Metre"@en, "Millinewton Meter"@en-us ; @@ -57810,17 +62645,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "C22"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millirads per hour"@en ; - dcterms:description "One thousandth part of an absorbed ionizing radiation dose equal to 100 ergs per gram of irradiated material received per hour."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.777778e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "mrad/hr"^^xsd:string ; - ns1:ucumCode "mRAD.h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Millivolt Per Metre"@en, "Millivolt Per Meter"@en-us ; @@ -57838,24 +62662,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "C30"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milliwatt per Milligram"@en ; - dcterms:description "SI derived unit milliwatt divided by the SI derived unit milligram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "SI derived unit milliwatt divided by the SI derived unit milligram"^^xsd:string ; - ns1:symbol "mW/mg"^^xsd:string ; - ns1:ucumCode "mW.mg-1"^^ns1:UCUMcs, - "mW/mg"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Newton Centimetre"@en, "Newton Centimeter"@en-us ; @@ -57893,6 +62699,24 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "M93"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Newton Metre Squared per Ampere"@en, + "Newton Meter Squared per Ampere"@en-us ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "N⋅m²/A"^^xsd:string ; + ns1:ucumCode "N.m2.A-1"^^ns1:UCUMcs, + "N.m2/A"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P49"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:Unit ; rdfs:label "Newton Square Metre Per Square Kilogram"@en, "Newton Square Meter Per Square Kilogram"@en-us ; @@ -57934,6 +62758,7 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, "newtonů na metr"@cs, "Newton je Meter"@de, + "Newton per Metre"@en, "newton per metre"@en, "Newton per Meter"@en-us, "newton por metro"@es, @@ -58004,37 +62829,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:symbol "N/rad"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per hour"@en ; - ns1:conversionMultiplier 0.000277777777777778 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/hr"^^xsd:string ; - ns1:ucumCode "{#}.h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Counts per second"@en ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/s"^^xsd:string ; - ns1:ucumCode "{#}.s-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Number per Year"@en ; - dcterms:description "\"Number per Year\" is a unit for 'Frequency' expressed as \\(\\#/yr\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.168809e-08 ; - ns1:expression "\\(\\#/yr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "#/yr"^^xsd:string ; - ns1:ucumCode "{#}.a-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "NanoCoulomb"@en ; @@ -58044,7 +62838,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -58062,7 +62857,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -58082,7 +62878,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "0.000000001-fold of the unit litre"^^xsd:string ; @@ -58101,6 +62898,36 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:symbol "nmol"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Imperial Mass Ounce per Square Foot"@en ; + dcterms:description "\"Ounce per Square Foot\" is an Imperial unit for 'Mass Per Area' expressed as \\(oz/ft^{2}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.305151727 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "oz/ft^{2}"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "oz/ft²{US}"^^xsd:string ; + ns1:ucumCode "[oz_av].[sft_i]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Imperial Mass Ounce per Square Yard"@en ; + dcterms:description "\"Ounce per Square Yard\" is an Imperial unit for 'Mass Per Area' expressed as \\(oz/yd^{2}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0339057474748823 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "oz/yd^{2}"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "oz/yd³{US}"^^xsd:string ; + ns1:ucumCode "[oz_av].[syd_i]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Imperial Ounce Force Inch"@en ; dcterms:description "\"Ounce Force Inch\" is an Imperial unit for 'Torque' expressed as \\(ozf-in\\)."^^ns1:LatexString ; @@ -58121,7 +62948,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:label "Fluid Ounce (UK)"@en ; dcterms:description "\\(\\textit{Imperial Ounce}\\) is an Imperial unit for 'Liquid Volume' expressed as \\(oz\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.841306e-05 ; + ns1:conversionMultiplier 2.841306e-05, + 0.0000284130625 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA431"^^xsd:string ; @@ -58131,131 +62959,12 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "OZI"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ounce (UK Fluid) Per Day"@en ; - dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 7.87487e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA432"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "oz{UK}/day"^^xsd:string ; - ns1:ucumCode "[foz_br].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J95"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (UK Fluid) Per Hour"@en ; - dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 7.87487e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA433"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "oz{UK}/hr"^^xsd:string ; - ns1:ucumCode "[foz_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J96"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (UK Fluid) Per Minute"@en ; - dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.00472492 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA434"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "oz{UK}/min"^^xsd:string ; - ns1:ucumCode "[foz_br].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J97"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (UK Fluid) Per Second"@en ; - dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.84e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA435"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "oz{UK}/s"^^xsd:string ; - ns1:ucumCode "[foz_br].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J98"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (US Fluid) Per Day"@en ; - dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.42286e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA436"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by unit for time day"^^xsd:string ; - ns1:symbol "oz{US}/day"^^xsd:string ; - ns1:ucumCode "[foz_us].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J99"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (US Fluid) Per Hour"@en ; - dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 8.214869e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA437"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "oz{US}/hr"^^xsd:string ; - ns1:ucumCode "[foz_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K10"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (US Fluid) Per Minute"@en ; - dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.92892e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA438"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "oz{US}/min"^^xsd:string ; - ns1:ucumCode "[foz_us].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K11"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce (US Fluid) Per Second"@en ; - dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.957353e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA439"^^xsd:string ; - ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "oz{US}/s"^^xsd:string ; - ns1:ucumCode "[foz_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K12"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal Bar"@en ; dcterms:description "reciprocal of the metrical unit with the name bar"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -58267,85 +62976,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "F58"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Day"@en ; - dcterms:description "reciprocal of the unit day"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1.157407e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA408"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the unit day"^^xsd:string ; - ns1:symbol "/day"^^xsd:string ; - ns1:ucumCode "/d"^^ns1:UCUMcs, - "d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E91"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Reciprocal Hour"@en ; - dcterms:description "A reciprocal unit of time for \\(\\textit{reciprocal hour}\\) or \"inverse hour\"."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 360.0 ; - ns1:expression "\\(m^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/hr"^^xsd:string ; - ns1:ucumCode "/h"^^ns1:UCUMcs, - "h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H10"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Reciprocal Minute"@en ; - dcterms:description "A reciprocal unit of time for \\(\\textit{reciprocal minute}\\) or \\(\\textit{inverse minute}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 60.0 ; - ns1:expression "\\(m^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/min"^^xsd:string ; - ns1:ucumCode "/min"^^ns1:UCUMcs, - "min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C94"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Month"@en ; - dcterms:description "reciprocal of the unit month"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 3.919351e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA881"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the unit month"^^xsd:string ; - ns1:symbol "/month"^^xsd:string ; - ns1:ucumCode "mo-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H11"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Reciprocal Mole"@en ; @@ -58363,21 +62993,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "C95"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal millisecond"@en ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/ms"^^xsd:string ; - ns1:ucumCode "ms-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Reciprocal Psi"@en ; dcterms:description "reciprocal value of the composed unit for pressure (pound-force per square inch)"^^rdf:HTML ; @@ -58411,73 +63026,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "T-1.m-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Week"@en ; - dcterms:description "reciprocal of the unit week"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1.653439e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA099"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the unit week"^^xsd:string ; - ns1:symbol "/week"^^xsd:string ; - ns1:ucumCode "wk-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H85"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Year"@en ; - dcterms:description "reciprocal of the unit year"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 3.170979e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB027"^^xsd:string ; - ns1:plainTextDescription "reciprocal of the unit year"^^xsd:string ; - ns1:symbol "/yr"^^xsd:string ; - ns1:ucumCode "/a"^^ns1:UCUMcs, - "a-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H09"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Percent per day"@en ; - ns1:conversionMultiplier 1.157407e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "%/day"^^xsd:string ; - ns1:ucumCode "%.d-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Percent per hour"@en ; - ns1:conversionMultiplier 0.000277777777777778 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "%/day"^^xsd:string ; - ns1:ucumCode "%.h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Percent per week"@en ; - dcterms:description "A rate of change in percent over a period of 7 days"@en ; - ns1:conversionMultiplier 1.653439e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "%/wk"^^xsd:string ; - ns1:ucumCode "%.wk-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Imperial Pint"@en ; dcterms:description "\"Imperial Pint\" is an Imperial unit for 'Volume' expressed as \\(pint\\)."^^ns1:LatexString ; @@ -58505,127 +63053,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "PTI"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pint (UK) Per Day"@en ; - dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 6.577098e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA953"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "pt{UK}/day"^^xsd:string ; - ns1:ucumCode "[pt_br].d"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L53"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (UK) Per Hour"@en ; - dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.578504e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA954"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "pt{UK}/hr"^^xsd:string ; - ns1:ucumCode "[pt_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L54"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (UK) Per Minute"@en ; - dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 9.471022e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA955"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "pt{UK}/min"^^xsd:string ; - ns1:ucumCode "[pt_br].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L55"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (UK) Per Second"@en ; - dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0005682613 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA956"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "pt{UK}/s"^^xsd:string ; - ns1:ucumCode "[pt_br].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L56"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (US Liquid) Per Day"@en ; - dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 5.47658e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA958"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "pt{US}/day"^^xsd:string ; - ns1:ucumCode "[pt_us].d-1"^^ns1:UCUMcs ; - ns1:udunitsCode "kg"^^xsd:string ; - ns1:uneceCommonCode "L57"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (US Liquid) Per Hour"@en ; - dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.314379e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA959"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "pt{US}/hr"^^xsd:string ; - ns1:ucumCode "[pt_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L58"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (US Liquid) Per Minute"@en ; - dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 7.886275e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA960"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "pt{US}/min"^^xsd:string ; - ns1:ucumCode "[pt_us].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L59"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pint (US Liquid) Per Second"@en ; - dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0004731765 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA961"^^xsd:string ; - ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "pt{US}/s"^^xsd:string ; - ns1:ucumCode "[pt_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L60"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Peck (UK)"@en ; dcterms:description "unit of the volume according to the Imperial system of units"^^rdf:HTML ; @@ -58640,135 +63067,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "L43"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Peck (UK) Per Day"@en ; - dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.052336e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA940"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "peck{UK}/day"^^xsd:string ; - ns1:ucumCode "[pk_br].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L44"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (UK) Per Hour"@en ; - dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.525606e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA941"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "peck{UK}/hr"^^xsd:string ; - ns1:ucumCode "[pk_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L45"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (UK) Per Minute"@en ; - dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.00015153635 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA942"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "peck{UK}/min"^^xsd:string ; - ns1:ucumCode "[pk_br].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L46"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (UK) Per Second"@en ; - dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.009092181 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA943"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "peck{UK}/s"^^xsd:string ; - ns1:ucumCode "[pk_br].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L47"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (US Dry) Per Day"@en ; - dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.019649e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA944"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "peck{US}/day"^^xsd:string ; - ns1:ucumCode "[pk_us].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L48"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (US Dry) Per Hour"@en ; - dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.447158e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA945"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "peck{US}/hr"^^xsd:string ; - ns1:ucumCode "[pk_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L49"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (US Dry) Per Minute"@en ; - dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.000146829459067 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA946"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "peck{US}/min"^^xsd:string ; - ns1:ucumCode "[pk_us].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L50"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Peck (US Dry) Per Second"@en ; - dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.00880976754 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA947"^^xsd:string ; - ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "peck{US}/s"^^xsd:string ; - ns1:ucumCode "[pk_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L51"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Parts per thousand per hour"@en ; - ns1:conversionMultiplier 2.777778e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "‰/hr"^^xsd:string ; - ns1:ucumCode "[ppth].h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "PetaCoulomb"@en ; @@ -58778,7 +63076,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+15 ; + ns1:conversionMultiplier 1000000000000000.0, + 1e+15 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -58797,7 +63096,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -58817,7 +63117,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "0.000000000001-fold of the unit litre"^^xsd:string ; @@ -58849,18 +63150,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:symbol "pS"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Frequency"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.85487e+43 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_angular_frequency"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_angular_frequency?oldid=493641308"^^xsd:anyURI ; - ns1:symbol "planckfrequency"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Planck Volume"@en ; ns1:applicableSystem ; @@ -58885,188 +63174,89 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "QTI"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Quart (UK Liquid) Per Day"@en ; - dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.31542e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA710"^^xsd:string ; - ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "qt{UK}/day"^^xsd:string ; - ns1:ucumCode "[qt_br].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K94"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Quart (UK Liquid) Per Hour"@en ; - dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.157007e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA711"^^xsd:string ; - ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "qt{UK}/hr"^^xsd:string ; - ns1:ucumCode "[qt_br].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K95"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, + "radiánů na metr"@cs, + "Radiant je Meter"@de, + "Radian per Metre"@en, + "radian per metre"@en, + "Radian per Meter"@en-us, + "radián por metro"@es, + "رادیان بر متر"@fa, + "radian par mètre"@fr, + "प्रति मीटर वर्ग मीटर"@hi, + "radiante al metro"@it, + "ラジアン毎メートル"@ja, + "radian per meter"@ms, + "radian na metr"@pl, + "radiano por metro"@pt, + "radiane pe metru"@ro, + "радиан на метр"@ru, + "radyan bölü metre"@tr, + "弧度每米"@zh ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(rad/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA967"^^xsd:string ; + ns1:informativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; + ns1:symbol "rad/m"^^xsd:string ; + ns1:ucumCode "rad.m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C84"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Quart (UK Liquid) Per Minute"@en ; - dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Slug per Square Foot"@en ; + dcterms:description "\"Slug per Square Foot\" is an Imperial unit for 'Mass Per Area' expressed as \\(slug/ft^{2}\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.894205e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA712"^^xsd:string ; - ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "qt{UK}/min"^^xsd:string ; - ns1:ucumCode "[qt_br].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K96"^^xsd:string ; + ns1:conversionMultiplier 157.08746452215124 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(slug/ft^{2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "slug/ft²"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Quart (UK Liquid) Per Second"@en ; - dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0011365225 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA713"^^xsd:string ; - ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "qt{UK}/s"^^xsd:string ; - ns1:ucumCode "[qt_br].h-1.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K97"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Stere"@en ; + dcterms:description "The stere is a unit of volume in the original metric system equal to one cubic metre. The stere is typically used for measuring large quantities of firewood or other cut wood, while the cubic meter is used for uncut wood. It is not part of the modern metric system (SI). In Dutch there's also a kuub, short for kubieke meter which is similar but different."^^rdf:HTML ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/St%C3%A8re"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA987"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Stère?oldid=393570287"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "st"^^xsd:string ; + ns1:ucumCode "st"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G26"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Quart (US Liquid) Per Day"@en ; - dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.095316e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA714"^^xsd:string ; - ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; - ns1:symbol "qt{US}/day"^^xsd:string ; - ns1:ucumCode "[qt_us].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K98"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Quart (US Liquid) Per Hour"@en ; - dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.628758e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA715"^^xsd:string ; - ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; - ns1:symbol "qt{US}/hr"^^xsd:string ; - ns1:ucumCode "[qt_us].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K99"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Quart (US Liquid) Per Minute"@en ; - dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.577255e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA716"^^xsd:string ; - ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; - ns1:symbol "qt{US}/min"^^xsd:string ; - ns1:ucumCode "[qt_us].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L10"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Quart (US Liquid) Per Second"@en ; - dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 9.46353e-04 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA717"^^xsd:string ; - ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "qt{US}/s"^^xsd:string ; - ns1:ucumCode "[qt_us].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L11"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, - "radiánů na metr"@cs, - "Radiant je Meter"@de, - "radian per metre"@en, - "Radian per Meter"@en-us, - "radián por metro"@es, - "رادیان بر متر"@fa, - "radian par mètre"@fr, - "प्रति मीटर वर्ग मीटर"@hi, - "radiante al metro"@it, - "ラジアン毎メートル"@ja, - "radian per meter"@ms, - "radian na metr"@pl, - "radiano por metro"@pt, - "radiane pe metru"@ro, - "радиан на метр"@ru, - "radyan bölü metre"@tr, - "弧度每米"@zh ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(rad/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA967"^^xsd:string ; - ns1:informativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; - ns1:symbol "rad/m"^^xsd:string ; - ns1:ucumCode "rad.m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C84"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Sample per second"@en ; - dcterms:description "The number of discrete samples of some thing per second."^^rdf:HTML ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(sample-per-sec\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "sample/s"^^xsd:string ; - ns1:ucumCode "s-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Stere"@en ; - dcterms:description "The stere is a unit of volume in the original metric system equal to one cubic metre. The stere is typically used for measuring large quantities of firewood or other cut wood, while the cubic meter is used for uncut wood. It is not part of the modern metric system (SI). In Dutch there's also a kuub, short for kubieke meter which is similar but different."^^rdf:HTML ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/St%C3%A8re"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA987"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Stère?oldid=393570287"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "st"^^xsd:string ; - ns1:ucumCode "st"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G26"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:label "Statsiemens"@en ; + dcterms:description "The unit of conductance, admittance, and susceptance in the centimeter-gram-second electrostatic system of units."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.11265e-12, + 0.0000000000011126500561 ; + ns1:derivedUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://www.knowledgedoor.com/2/units_and_constants_handbook/statsiemens.html"^^xsd:anyURI, + "http://www.sizes.com/units/statmho.htm"^^xsd:anyURI, + "http://www3.wolframalpha.com/input/?i=statsiemens"^^xsd:anyURI ; + ns1:symbol "statS"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs ; + skos:altLabel "statmho"^^xsd:string . a ns1:Unit ; rdfs:label "Standard"@en ; @@ -59086,7 +63276,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers dcterms:description "In the US and parts of Canada, a tablespoon is the largest type of spoon used for eating from a bowl. In the UK and most Commonwealth countries, a tablespoon is a type of large spoon usually used for serving. In countries where a tablespoon is a serving spoon, the nearest equivalent to the US tablespoon is either the dessert spoon or the soup spoon. A tablespoonful, nominally the capacity of one tablespoon, is commonly used as a measure of volume in cooking. It is abbreviated as T, tb, tbs, tbsp, tblsp, or tblspn. The capacity of ordinary tablespoons is not regulated by law and is subject to considerable variation. In most countries one level tablespoon is approximately 15 mL; in Australia it is 20 mL."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.478677e-05 ; + ns1:conversionMultiplier 0.0000147867656, + 1.478677e-05 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Tablespoon"^^xsd:anyURI ; ns1:definedUnitOfSystem , ; @@ -59104,41 +63295,157 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "G24"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "tonne per hectare"@en ; - dcterms:description "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Tonne Per Day"@en ; + dcterms:description "metric unit tonne divided by the unit for time day"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.1 ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^xsd:string ; - ns1:symbol "t/ha"^^xsd:string ; - ns1:ucumCode "t.har-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 0.011574074074074 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA991"^^xsd:string ; + ns1:plainTextDescription "metric unit tonne divided by the unit for time day"^^xsd:string ; + ns1:symbol "t/day"^^xsd:string ; + ns1:ucumCode "t.d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L71"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "metric tonne per hectare"@en ; - dcterms:description "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Tonne Per Hour"@en ; + dcterms:description "unit tonne divided by the unit for time hour"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.1 ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^xsd:string ; - ns1:symbol "t/ha"^^xsd:string ; - ns1:ucumCode "t.har-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 0.277777777777778 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB994"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the unit for time hour"^^xsd:string ; + ns1:symbol "t/hr"^^xsd:string ; + ns1:ucumCode "t.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E18"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Minute"@en ; + dcterms:description "unit tonne divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 16.666666666666668 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB000"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the unit for time minute"^^xsd:string ; + ns1:symbol "t/min"^^xsd:string ; + ns1:ucumCode "t.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L78"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Second"@en ; + dcterms:description "unit tonne divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB003"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the SI base unit second"^^xsd:string ; + ns1:symbol "t/s"^^xsd:string ; + ns1:ucumCode "t.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L81"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Day"@en ; + dcterms:description "metric unit ton divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.011574074074074 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA991"^^xsd:string ; + ns1:plainTextDescription "metric unit ton divided by the unit for time day"^^xsd:string ; + ns1:symbol "t/day"^^xsd:string ; + ns1:ucumCode "t.d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L71"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Hour"@en ; + dcterms:description "unit tonne divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.277777777777778 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB994"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the unit for time hour"^^xsd:string ; + ns1:symbol "t/hr"^^xsd:string ; + ns1:ucumCode "t.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E18"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Minute"@en ; + dcterms:description "unit ton divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 16.666666666666668 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB000"^^xsd:string ; + ns1:plainTextDescription "unit ton divided by the unit for time minute"^^xsd:string ; + ns1:symbol "t/min"^^xsd:string ; + ns1:ucumCode "t.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L78"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Second (metric Ton)"@en ; + dcterms:description "unit ton divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB003"^^xsd:string ; + ns1:plainTextDescription "unit ton divided by the SI base unit second"^^xsd:string ; + ns1:symbol "t/s"^^xsd:string ; + ns1:ucumCode "t.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L81"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Ton (US Shipping)"@en ; @@ -59153,30 +63460,31 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "L86"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Short Ton per Hour"@en ; - dcterms:description "The short Ton per Hour is a unit used to express a weight processed in a period of time."^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 0.251995761 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:expression "\\(ton/hr\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Ton (US) Per Hour"@en ; + dcterms:description "unit ton divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.251944444444444 ; + ns1:exactMatch ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ton/hr"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA994"^^xsd:string, + "0112/2///62720#UAB019"^^xsd:string ; + ns1:plainTextDescription "unit ton divided by the unit for time hour"^^xsd:string ; + ns1:symbol "ton{US}/hr"^^xsd:string ; ns1:ucumCode "[ston_av].h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ns1:uneceCommonCode "4W"^^xsd:string, + "E18"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Teaspoon"@en ; dcterms:description "A teaspoon is a unit of volume. In the United States one teaspoon as a unit of culinary measure is \\(1/3\\) tablespoon , that is, \\(\\approx 4.93 mL\\); it is exactly \\(1/6 U.S. fl. oz\\), \\(1/48 \\; cup\\), and \\(1/768 \\; U.S. liquid gallon\\) (see United States customary units for relative volumes of these other measures) and approximately \\(1/3 cubic inch\\). For nutritional labeling on food packages in the U.S., the teaspoon is defined as precisely \\(5 mL\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 4.928922e-06 ; + ns1:conversionMultiplier 0.00000492892187, + 4.928922e-06 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Teaspoon"^^xsd:anyURI ; ns1:definedUnitOfSystem , ; @@ -59199,7 +63507,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+12 ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -59209,29 +63518,10 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:isDefinedBy ; prov:wasDerivedFrom . - a ns1:Unit ; - rdfs:label "Terahertz"@en ; - dcterms:description "1 000 000 000 000-fold of the SI derived unit hertz"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e+12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA287"^^xsd:string ; - ns1:plainTextDescription "1,000,000,000,000-fold of the SI derived unit hertz"^^xsd:string ; - ns1:prefix ; - ns1:symbol "THz"^^xsd:string ; - ns1:ucumCode "THz"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D29"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "فولت. أمبير"^^xsd:string, "Voltampere"@de, + "Volt Ampere"@en, "volt ampere"@en, "voltiamperio"@es, "voltampère"@fr, @@ -59302,25 +63592,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "D51"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Volt Second Per Metre"@en, - "Volt Second Per Meter"@en-us ; - dcterms:description "product of the SI derived unit volt and the SI base unit second divided by the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA303"^^xsd:string ; - ns1:plainTextDescription "product of the SI derived unit volt and the SI base unit second divided by the SI base unit metre"^^xsd:string ; - ns1:symbol "V⋅s/m"^^xsd:string ; - ns1:ucumCode "V.s.m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H45"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Watt hour per square metre"@en ; dcterms:description "A unit of energy per unit area, equivalent to 3,600 joules per square metre."^^rdf:HTML ; @@ -59351,24 +63622,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:ucumCode "W.h.m-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Watt per Gram"@en ; - dcterms:description "SI derived unit watt divided by the SI derived unit gram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "SI derived unit watt divided by the SI derived unit gram"^^xsd:string ; - ns1:symbol "W/g"^^xsd:string ; - ns1:ucumCode "W.g-1"^^ns1:UCUMcs, - "W/g"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Watt seconds per square metre"@en ; ns1:applicableSystem , @@ -59389,6 +63642,7 @@ Note that the magnitude depends on the substance, thus there is no fixed convers "weber"@cs, "Weber"@de, "βέμπερ"@el, + "Weber"@en, "weber"@en, "weber"@es, "وبر"@fa, @@ -59427,6 +63681,25 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "WEB"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Weber Metre"@en, + "Weber Meter"@en-us ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB333"^^xsd:string ; + ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI ; + ns1:symbol "Wb⋅m"^^xsd:string ; + ns1:ucumCode "Wb.m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P50"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Cubic Yard"@en ; @@ -59446,76 +63719,6 @@ Note that the magnitude depends on the substance, thus there is no fixed convers ns1:uneceCommonCode "YDQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Yard Per Day"@en ; - dcterms:description "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 8.849015e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB037"^^xsd:string ; - ns1:plainTextDescription "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^xsd:string ; - ns1:symbol "yd³/day"^^xsd:string ; - ns1:ucumCode "[cyd_i].d-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M12"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Yard Per Hour"@en ; - dcterms:description "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for the time hour"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.00021237634944 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB038"^^xsd:string ; - ns1:plainTextDescription "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for the time hour"^^xsd:string ; - ns1:symbol "yd³/hr"^^xsd:string ; - ns1:ucumCode "[cyd_i].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M13"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Yard per Minute"@en ; - dcterms:description "\"Cubic Yard per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(yd^{3}/min\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0127425809664 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(yd^{3}/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB040"^^xsd:string ; - ns1:symbol "yd³/min"^^xsd:string ; - ns1:ucumCode "[cyd_i].min-1"^^ns1:UCUMcs, - "[cyd_i]/min"^^ns1:UCUMcs, - "[yd_i]3.min-1"^^ns1:UCUMcs, - "[yd_i]3/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M15"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Yard Per Second"@en ; - dcterms:description "power of the unit and the Anglo-American and Imperial system of units with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.764554857984 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB041"^^xsd:string ; - ns1:plainTextDescription "power of the unit and the Anglo-American and Imperial system of units with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "yd³/s"^^xsd:string ; - ns1:ucumCode "[cyd_i].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M16"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "YoctoCoulomb"@en ; @@ -59525,7 +63728,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-24 ; + ns1:conversionMultiplier 1e-24, + 0.000000000000000000000001 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -59544,7 +63748,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+24 ; + ns1:conversionMultiplier 1e+24, + 1000000000000000000000000.0 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -59563,7 +63768,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e-21 ; + ns1:conversionMultiplier 1e-21, + 0.000000000000000000001 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -59582,7 +63788,8 @@ Note that the magnitude depends on the substance, thus there is no fixed convers , , ; - ns1:conversionMultiplier 1e+21 ; + ns1:conversionMultiplier 1000000000000000000000.0, + 1e+21 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -59592,20 +63799,7 @@ Note that the magnitude depends on the substance, thus there is no fixed convers rdfs:isDefinedBy ; prov:wasDerivedFrom . - a ns1:Unit ; - rdfs:label "Failures In Time"@en ; - dcterms:description "unit of failure rate"^^rdf:HTML ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB403"^^xsd:string ; - ns1:plainTextDescription "unit of failure rate"^^xsd:string ; - ns1:symbol "failures/s"^^xsd:string ; - ns1:ucumCode "s-1{failures}"^^ns1:UCUMcs ; - ns1:uneceCommonCode "FIT"^^xsd:string ; - rdfs:isDefinedBy . - -ns4:Enumeration a owl:Class ; +ns3:Enumeration a owl:Class ; rdfs:label "DTYPE Enumeration"^^xsd:string ; dcterms:description """ A type that serves as a container for the enumerated values of an enumeration. @@ -59615,37 +63809,63 @@ Another need is in the management of sub-enumerations and composite enumerations """^^xsd:string ; rdfs:isDefinedBy ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ns4:EnumeratedValue ; - owl:onProperty ns4:defaultObjectValue ], + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:objectValue ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:defaultObjectValue ], + [ a owl:Restriction ; + owl:minCardinality 1 ; + owl:onProperty ns3:objectValue ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:defaultObjectValue ], + [ a owl:Restriction ; + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:objectValue ], [ a owl:Restriction ; - owl:allValuesFrom ns4:EnumeratedValue ; - owl:onProperty ns4:objectValue ], + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:objectValue ], [ a owl:Restriction ; - owl:allValuesFrom ns4:EnumeratedValue ; - owl:onProperty ns4:objectValue ], + owl:allValuesFrom ns3:EnumeratedValue ; + owl:onProperty ns3:objectValue ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:defaultObjectValue ], [ a owl:Restriction ; owl:minCardinality 1 ; - owl:onProperty ns4:objectValue ], + owl:onProperty ns3:objectValue ], [ a owl:Restriction ; owl:maxCardinality 1 ; - owl:onProperty ns4:defaultObjectValue ], + owl:onProperty ns3:defaultObjectValue ], owl:Thing . -ns4:objectValue a owl:ObjectProperty ; - rdfs:label "object value"^^xsd:string ; +ns3:literal a owl:DatatypeProperty ; + rdfs:label "literal"^^xsd:string ; dcterms:description """ -The property "dtype:objectValue" is a general property for specifying an object value in situations where +A general purpose property for holding string literals as a machine-readable string for how the +enumerated value can be referred to. +This can be used when the code value is numeric, as an alternative to using a code. +Literal is not the same as label which is intended for human readable display. +For example, a code for January may be 1, the literal may be 'J' or 'jan' and the label 'January'. +"""^^xsd:string ; + rdfs:comment ""^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:range xsd:string . + +ns3:value a owl:DatatypeProperty ; + rdfs:label "value"^^xsd:string ; + dcterms:description """ +The property "dtype:value" is a general property for specifying a literal value in situations where none is specified. """^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + rdfs:range xsd:anySimpleType . -skos:Collection a owl:Class ; - rdfs:label "Collection"@en ; - rdfs:isDefinedBy ; - owl:disjointWith skos:Concept, - skos:ConceptScheme ; - skos:definition "A meaningful collection of concepts."@en ; - skos:scopeNote "Labelled collections can be used where you would like a set of concepts to be displayed under a 'node label' in the hierarchy."@en . +rdfs:comment a rdf:Property ; + rdfs:label "comment"^^xsd:string ; + rdfs:comment "Description of constraints for s223."^^xsd:string ; + rdfs:subPropertyOf rdfs:comment . skos:closeMatch a rdf:Property, owl:ObjectProperty, @@ -59655,100 +63875,6 @@ skos:closeMatch a rdf:Property, rdfs:subPropertyOf skos:mappingRelation ; skos:definition "skos:closeMatch is used to link two concepts that are sufficiently similar that they can be used interchangeably in some information retrieval applications. In order to avoid the possibility of \"compound errors\" when combining mappings across more than two concept schemes, skos:closeMatch is not declared to be a transitive property."@en . -s223:ActuatableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Actuatable Property"^^xsd:string ; - rdfs:comment """The term "actuatable" implies that writing to the Property value will directly trigger a physical actuation by either an Actuator or Equipment. - In contrast, the term "observable" (see `s223:ObservableProperty`) implies that reading the Property value will return the result of a physical observation."""^^xsd:string ; - rdfs:subClassOf s223:Property ; - sh:property [ rdfs:comment "An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; - sh:class s223:Equipment ; - sh:message "s223: An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; - sh:minCount 1 ; - sh:path [ sh:inversePath s223:actuatedByProperty ] ; - sh:severity sh:Warning ] . - -s223:Coil a s223:Class, - sh:NodeShape ; - rdfs:label "Coil"^^xsd:string ; - rdfs:comment """ - A Coil is a component that represents a cooling or heating element made of a pipe or tube - that may or may not be finned and formed into a helical or serpentine shape. The physical - characteristics of the coil are not captured in the model. - - A Coil must conform to exactly one of the following patterns: - - **Pattern 1:** - - The Coil has exactly two inlet connection points using the medium `Mix-Fluid`, with exactly one being `Fluid-Air`. - - The Coil has exactly two outlet connection points using the medium `Mix-Fluid`, with exactly one being `Fluid-Air`. - - **Pattern 2:** - - The Coil has exactly one inlet connection point using the medium `Mix-Fluid`. - - The Coil has exactly one outlet connection point using the medium `Mix-Fluid`. - - The Coil has one or two bidirectional connection points using the medium `Mix-Fluid` or `Medium-ThermalContact`. - - **Pattern 3:** - - The Coil has exactly three bidirectional connection points using the medium `Mix-Fluid` or `Medium-ThermalContact`. - """^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:message "s223: A Coil shall fit one of the following patterns of ConnectionPoints: 1: Two inlets and two outlets using the medium Mix-Fluid. 2: One inlet and one outlet using the medium Mix-Fluid, and one or two bidirectionals using the medium Mix-Fluid or Medium-ThermalContact. 3: Three bidirectionals using the medium Mix-Fluid or Medium-ThermalContact."^^xsd:string ; - sh:xone ( [ sh:property [ rdfs:comment "Pattern 1: For one of the two inlets the Fluid is Air."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "Pattern 1: For one of the two outlets the Fluid is Air."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "Pattern 1: A Coil shall have two inlets using the medium Fluid."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 2 ; - sh:qualifiedMinCount 2 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Mix-Fluid ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "Pattern 1: A Coil shall have two outlets using the medium Fluid."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 2 ; - sh:qualifiedMinCount 2 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Mix-Fluid ; - sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "Pattern 2: A Coil shall have one inlet using the medium Fluid."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Mix-Fluid ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "Pattern 2: A Coil shall have one or two bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 2 ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; - sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; - sh:path s223:hasMedium ] ] ] ; - sh:qualifiedValueShapesDisjoint true ], - [ rdfs:comment "Pattern 2: A Coil shall have one outlet using the medium Fluid."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Mix-Fluid ; - sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "Pattern 3: A Coil shall have three bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMaxCount 3 ; - sh:qualifiedMinCount 3 ; - sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; - sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; - sh:path s223:hasMedium ] ] ] ; - sh:qualifiedValueShapesDisjoint true ] ] ) . - s223:Constituent-EM a s223:Class, s223:Constituent-EM, sh:NodeShape ; @@ -59810,6 +63936,44 @@ s223:DC-6V a s223:Class, rdfs:comment "This class has enumerated instances of all polarities of 6 volt electricity."^^xsd:string ; rdfs:subClassOf s223:Electricity-DC . +s223:DomainSpace a s223:Class, + sh:NodeShape ; + rdfs:label "Domain Space"^^xsd:string ; + rdfs:comment "A DomainSpace represents some portion of a PhysicalSpace that is affected by a building service associated with a Domain. DomainSpaces may represent an entire PhysicalSpace or any portion of a PhysicalSpace. Multiple DomainSpaces of the same Domain may overlap, and DomainSpaces of different Domains may also overlap. DomainSpaces may be grouped into Zones using the relation hasDomainSpace (see `s223:hasDomainSpace`)."^^xsd:string ; + rdfs:subClassOf s223:Connectable ; + sh:property [ rdfs:comment "A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:class s223:EnumerationKind-Domain ; + sh:maxCount 1 ; + sh:message "s223: A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; + sh:message "s223: A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:encloses ] ; + sh:severity sh:Info ], + [ rdfs:comment "A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; + sh:message "s223: A DomainSpace must be enclosed by a PhysicalSpace."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:encloses ] ; + sh:severity sh:Info ], + [ rdfs:comment "A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:class s223:EnumerationKind-Domain ; + sh:maxCount 1 ; + sh:message "s223: A DomainSpace must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ] ; + sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosing Zone to determine the domain."^^xsd:string ; + sh:object [ sh:path ( [ sh:inversePath s223:hasDomainSpace ] s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosing Zone to determine the domain."^^xsd:string ; + sh:object [ sh:path ( [ sh:inversePath s223:hasDomainSpace ] s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ] . + s223:EnumerationKind-Direction a s223:Class, s223:EnumerationKind-Direction, sh:NodeShape ; @@ -59824,19 +63988,369 @@ s223:EnumerationKind-RunStatus a s223:Class, rdfs:comment "This class is a more general form of EnumerationKind-OnOff, allowing for additional status values beyond on or off."^^xsd:string ; rdfs:subClassOf s223:EnumerationKind . -s223:Function a s223:Class, +s223:Junction a s223:Class, sh:NodeShape ; - rdfs:label "Function"^^xsd:string ; - rdfs:comment "A Function is used to model transfer and/or transformation of information (i.e. Property). It has relations to input Properties and output Properties. The actual algorithms that perform the transformations are described in CDL and are out of scope of the 223 standard."^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; - sh:class s223:Property ; - sh:message "s223: If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; - sh:path s223:hasInput ], - [ rdfs:comment "If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; - sh:class s223:Property ; - sh:message "s223: If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; - sh:path s223:hasOutput ] . + rdfs:label "Junction"^^xsd:string ; + rdfs:comment """A Junction is a modeling construct used when a branching point within a Connection (see `s223:Connection`) is of significance, +such as specifying the observation location of a Sensor. When a Junction is used, what might have been modeled as a single, branched Connection +is separated into three or more separate Connections, all tied together with the Junction and its associated ConnectionPoints. +Junction is a subClassOf Connectable, which gives it the ability to have connection points, but unlike Equipment (and like Connection) +it is not allowed to change the Medium that passes through it. This is why Junction is a sibling class to Equipment and not a subclass."""^^xsd:string ; + rdfs:subClassOf s223:Connectable ; + sh:property [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints with a medium with constituents and a pure medium."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints with a medium with constituents and a pure medium."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 2: A Junction with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case1: A Junction with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Ensure compatibility - Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents"^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m1} is incompatible with {?cp} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . +$this s223:hasMedium ?m1 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 4: Junction with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasMedium ], + [ rdfs:comment "A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Junction must be associated with exactly one EnumerationKind-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasMedium ], + [ rdfs:comment "Ensure compatibility - Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents"^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: Junction with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m1} is incompatible with {?cp} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . +$this s223:hasMedium ?m1 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case1: A Junction with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: Junction {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ] . s223:LineNeutralVoltage-110V a s223:Class, s223:LineNeutralVoltage-110V, @@ -59988,45 +64502,36 @@ s223:LineNeutralVoltage-5770V a s223:Class, rdfs:comment "5770V Line-Neutral Voltage"^^xsd:string ; rdfs:subClassOf s223:Numerical-LineNeutralVoltage . -s223:Occupancy-Motion a s223:Class, - s223:Occupancy-Motion, - sh:NodeShape ; - rdfs:label "Occupancy Motion"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses indicating whether motion is detected or not."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Occupancy . - -s223:Occupancy-Presence a s223:Class, - s223:Occupancy-Presence, +s223:ObservableProperty a s223:Class, sh:NodeShape ; - rdfs:label "Occupancy Presence"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses indicating whether physical presence is detected or not."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Occupancy . - -s223:Role-HeatTransfer a s223:Class, - s223:Role-HeatTransfer, - sh:NodeShape ; - rdfs:label "Heat Transfer"^^xsd:string ; - rdfs:comment "Heat Transfer"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Role . - -s223:Signal-Ethernet a s223:Class, - s223:Signal-Ethernet, - sh:NodeShape ; - rdfs:label "Signal Ethernet"^^xsd:string ; - rdfs:comment "Signal Ethernet"^^xsd:string ; - rdfs:subClassOf s223:Electricity-Signal . + rdfs:label "Observable Property"^^xsd:string ; + rdfs:comment """The term "observable" implies that reading the Property value will return the result of a physical observation, usually by a Sensor. + In contrast, the term "actuatable" (see `s223:ActuatableProperty`) implies that writing to the Property value will directly trigger a physical actuation."""^^xsd:string ; + rdfs:subClassOf s223:Property ; + sh:property [ rdfs:comment "An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; + sh:class s223:Sensor ; + sh:message "s223: An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:observes ] ; + sh:severity sh:Warning ], + [ rdfs:comment "An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; + sh:class s223:Sensor ; + sh:message "s223: An ObservableProperty normally is referred to by a Sensor using the relation s223:observes."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:observes ] ; + sh:severity sh:Warning ] . s223:TerminalUnit a s223:Class, sh:NodeShape ; rdfs:label "Terminal Unit"^^xsd:string ; rdfs:comment "An air terminal that modulates the volume of air delivered to a space."^^xsd:string ; rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; - sh:message "s223: A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:property [ rdfs:comment "A TerminalUnit shall have at least one outlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:message "s223: A TerminalUnit shall have at least one outlet ConnectionPoint using the medium Air."^^xsd:string ; sh:minCount 1 ; sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ], [ rdfs:comment "A TerminalUnit shall have at least one outlet ConnectionPoint using the medium Air."^^xsd:string ; @@ -60035,6 +64540,22 @@ s223:TerminalUnit a s223:Class, sh:path s223:hasConnectionPoint ; sh:qualifiedMinCount 1 ; sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:message "s223: A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:message "s223: A TerminalUnit shall have at least one inlet ConnectionPoint using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; sh:node [ sh:property [ sh:class s223:Fluid-Air ; sh:path s223:hasMedium ] ] ] ] . @@ -60088,11 +64609,134 @@ s223:Voltage-6V a s223:Class, rdfs:comment "6V Voltage"^^xsd:string ; rdfs:subClassOf s223:Numerical-Voltage . -s223:connectedFrom a rdf:Property ; - rdfs:label "connected from"^^xsd:string ; - s223:inverseOf s223:connectedTo ; - rdfs:comment "The relation connectedFrom indicates that connectable things are connected with a specific flow direction. B is connectedFrom A, means a directionality beginning at A and ending at B. The inverse direction is indicated by connectedTo (see `s223:connectedTo`)."^^xsd:string ; - rdfs:domain s223:Equipment . +s223:Zone a s223:Class, + sh:NodeShape ; + rdfs:label "Zone"^^xsd:string ; + rdfs:comment "A Zone is a logical grouping of one or more DomainSpaces for a specific domain for some building service or control-related purpose. Zones may be grouped into ZoneGroups (see `s223:ZoneGroup`)."^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; + sh:class s223:DomainSpace ; + sh:message "s223: A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomainSpace ], + [ rdfs:comment "A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:class s223:EnumerationKind-Domain ; + sh:maxCount 1 ; + sh:message "s223: A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ], + [ rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; + sh:path s223:hasDomain ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; + sh:message "s223: Zone {$this} has a Domain of {?domain}, but it contains a DomainSpace {?ds} which has a Domain of {?dsdomain}. These should be the same."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?domain ?ds ?dsdomain +WHERE { +$this a s223:Zone . +$this s223:hasDomain ?domain . +$this s223:contains ?ds . +?ds s223:hasDomain ?dsdomain . +FILTER (?domain != ?dsdomain) +} +"""^^xsd:string ] ], + [ rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; + sh:path s223:hasDomain ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "The associated Domain of a Zone and the Domain of the DomainSpaces it contains must be the same."^^xsd:string ; + sh:message "s223: Zone {$this} has a Domain of {?domain}, but it contains a DomainSpace {?ds} which has a Domain of {?dsdomain}. These should be the same."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?domain ?ds ?dsdomain +WHERE { +$this a s223:Zone . +$this s223:hasDomain ?domain . +$this s223:contains ?ds . +?ds s223:hasDomain ?dsdomain . +FILTER (?domain != ?dsdomain) +} +"""^^xsd:string ] ], + [ rdfs:comment "A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; + sh:class s223:DomainSpace ; + sh:message "s223: A Zone must be associated with at least one DomainSpace using the relation hasDomainSpace."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomainSpace ], + [ rdfs:comment "A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:class s223:EnumerationKind-Domain ; + sh:maxCount 1 ; + sh:message "s223: A Zone must be associated with exactly one EnumerationKind-Domain using the relation hasDomain."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasDomain ] ; + sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosing ZoneGroup to determine the domain."^^xsd:string ; + sh:object [ sh:path ( [ sh:inversePath s223:hasZone ] s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosed DomainSpaces to determine the domain."^^xsd:string ; + sh:object [ sh:path ( s223:hasDomainSpace s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosing ZoneGroup to determine the domain."^^xsd:string ; + sh:object [ sh:path ( [ sh:inversePath s223:hasZone ] s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer a hasDomain relation by checking any enclosed DomainSpaces to determine the domain."^^xsd:string ; + sh:object [ sh:path ( s223:hasDomainSpace s223:hasDomain ) ] ; + sh:predicate s223:hasDomain ; + sh:subject sh:this ] . + +s223:connectedThrough a rdf:Property ; + rdfs:label "connected through"^^xsd:string ; + rdfs:comment "The relation connectedThrough is used to associate a Connectable thing with a Connection without regard to the direction of flow. It is used to discover what connection links two connectable things."^^xsd:string . + +s223:encloses a rdf:Property ; + rdfs:label "encloses"^^xsd:string ; + rdfs:comment "The relation encloses is used to associate a PhysicalSpace with its DomainSpaces. "^^xsd:string . + +s223:hasBoundaryConnectionPoint a rdf:Property ; + rdfs:label "has Boundary Connection Point"^^xsd:string ; + rdfs:comment "The hasBoundaryConnectionPoint relation means the ConnectionPoint represents the boundary of a s223:System (`see s223:System`) defined by the modeler, such as a model fragment provided by the vendor of a collection of equipment intended for integration with another model. The presence of this relation is used to indicate that such a \"dangling ConnectionPoint\" should not generate a validation error in a non-integrated context but should generate an error in a integrated context."^^xsd:string . + +s223:hasElectricalPhase a rdf:Property ; + rdfs:label "has electrical phase"^^xsd:string ; + rdfs:comment "The relation hasElectricalPhase is used to indicate the electrical phase identifier or the relevant electrical phases for a voltage difference for AC electricity inside a Connection."^^xsd:string . + +s223:hasInput a rdf:Property ; + rdfs:label "has input"^^xsd:string ; + rdfs:comment "The relation hasInput is used to relate a Function (see `s223:Function`) to a Property (see `s223:Property`) that is used as input."^^xsd:string . + +s223:hasOptionalConnectionPoint a rdf:Property ; + rdfs:label "has Optional Connection Point"^^xsd:string ; + rdfs:comment "The hasOptionalConnectionPoint relation means the ConnectionPoint represents the boundary of a s223:System (`see s223:System`) defined by the modeler, such as a model fragment provided by the vendor of a collection of equipment intended for integration with another model. The presence of this relation is used to indicate that such a \"dangling ConnectionPoint\" should not generate a validation error in an integrated or non-integrated context."^^xsd:string . + +s223:ofSubstance a rdf:Property ; + rdfs:label "of substance"^^xsd:string ; + rdfs:comment "The ofSubstance relation is used on a Property being observed by a sensor. It links the Property to a Substance it characterizes within a specific Medium. For instance, to denote the concentration of a Substance in a Medium, 'ofSubstance' is used. Typically, there's also an ofMedium relation between the observed Property and the Medium. For example, to represent the concentration of CO2 in air, we use ofSubstance to relate to CO2 and ofMedium to relate to air. The term ofSubstance is broad enough to include situations where a sensor is used to detect constituents that should not be present in a medium, such as ammonia in air. Therefore, 'ofSubstance' is used to indicate the substance of interest, while 'ofConstituent' would indicate a constituent that is normally present in the composition of the mix."^^xsd:string . + +dcterms:contributor a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "contributor"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:string . + +dcterms:rights a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "rights"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:string . + +dcterms:subject a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "subject"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:string . + + rdfs:label "QUDT Collection - USER TESTS - v 2.1.46"^^xsd:string ; + rdfs:isDefinedBy . ns1:Aspect a ns1:AspectClass, sh:NodeShape ; @@ -60103,6 +64747,21 @@ ns1:Aspect a ns1:AspectClass, rdfs:subClassOf rdfs:Resource ; sh:property ns1:Aspect-rdfs_isDefinedBy . +ns1:BitEncoding a ns1:BitEncodingType ; + rdfs:label "Bit Encoding"^^xsd:string ; + ns1:bits 1 ; + rdfs:isDefinedBy . + +ns1:ShortUnsignedIntegerEncoding a ns1:BooleanEncodingType, + ns1:IntegerEncodingType ; + rdfs:label "Short Unsigned Integer Encoding"^^xsd:string ; + ns1:bytes 2 ; + rdfs:isDefinedBy . + +ns1:exactMatch a rdf:Property ; + rdfs:label "exact match"^^xsd:string ; + rdfs:isDefinedBy . + ns1:hasDefinedUnit a rdf:Property ; rdfs:label "defined unit"^^xsd:string ; dcterms:description "This property relates a unit system with a unit of measure that is defined by the system."^^rdf:HTML ; @@ -60118,28 +64777,8 @@ ns1:latexDefinition a rdf:Property ; rdfs:label "latex definition"^^xsd:string ; rdfs:isDefinedBy . -ns1:latexSymbol a rdf:Property ; - rdfs:label "latex symbol"^^xsd:string ; - dcterms:description "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is \\(ohm\\). This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString ; - rdfs:isDefinedBy . - -ns1:symbol a rdf:Property ; - rdfs:label "symbol"^^xsd:string ; - dcterms:description "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is \\(ohm\\). This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf ns1:literal . - -ns1:ucumCode a rdf:Property ; - rdfs:label "ucum code"^^xsd:string ; - dcterms:description "

ucumCode associates a QUDT unit with its UCUM code (case-sensitive).

In SHACL the values are derived from specific ucum properties using 'sh:values'."^^rdf:HTML ; - dcterms:source "https://ucum.org/ucum.html"^^xsd:anyURI ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - rdfs:subPropertyOf skos:notation . - -ns1:value a rdf:Property ; - rdfs:label "value"^^xsd:string ; - dcterms:description "A property to relate an observable thing with a value that can be of any simple XSD type"^^rdf:HTML ; +ns1:siExactMatch a rdf:Property ; + rdfs:label "Individual from SI Reference Point"^^xsd:string ; rdfs:isDefinedBy . a ns1:ConstantValue ; @@ -60149,7 +64788,8 @@ ns1:value a rdf:Property ; ns1:standardUncertainty 0.000000039 ; ns1:standardUncertaintySN 3.9e-08 ; ns1:value 0.022710981 ; - ns1:valueSN 2.271098e-02 ; + ns1:valueSN 2.271098e-02, + 2.271098e-02 ; ns2:website "http://physics.nist.gov/cgi-bin/cuu/Value?mvol#mid"^^xsd:anyURI, "http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd#mid"^^xsd:anyURI . @@ -60166,7 +64806,8 @@ ns1:value a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$N^-1$"^^ns1:LatexString, + "\\(N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -60182,7 +64823,8 @@ ns1:value a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M N^-1$"^^ns1:LatexString, + "\\(M N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -60198,7 +64840,8 @@ ns1:value a rdf:Property ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 N^-1 T^-1 \\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 N^-1 T^-1 $"^^ns1:LatexString, + "\\(L^3 N^-1 T^-1 \\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -60214,7 +64857,8 @@ ns1:value a rdf:Property ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T I N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$T I N^-1$"^^ns1:LatexString, + "\\(T I N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -60232,22 +64876,6 @@ ns1:value a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-2I0M-1H0T2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-1 T^2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -60261,7 +64889,8 @@ ns1:value a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^{-2} T^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^{-2} T^2$"^^ns1:LatexString, + "\\(L^{-2} T^2\\)"^^ns1:LatexString ; ns2:todo "Permeability should be force/current**2, which is ML/T2E2. Permittivity should be T4E2L-3M-1"^^xsd:string ; rdfs:isDefinedBy . @@ -60323,6 +64952,21 @@ ns1:value a rdf:Property ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A1E0L1I0M-2H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -2 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + rdfs:isDefinedBy . + a ns1:DecimalPrefix, ns1:Prefix ; rdfs:label "Atto"@en ; @@ -60383,9 +65027,36 @@ ns1:value a rdf:Property ; ns1:ucumCode "P"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Amount of Substance per Volume"@en ; + dcterms:description "The amount of substance per volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.ask.com/answers/72367781/what-is-defined-as-the-amount-of-substance-per-unit-of-volume"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Molar_concentration"^^xsd:anyURI ; + ns1:plainTextDescription "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Compressibility"@en ; - dcterms:description "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change."^^rdf:HTML ; + dcterms:description "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change."^^ns1:LatexString, + "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60400,28 +65071,21 @@ ns1:value a rdf:Property ; ns1:latexDefinition "$\\chi = -(\\frac{1}{V})\\frac{dV}{d\\rho}$, where $V$ is volume and $p$ is pressure."^^ns1:LatexString ; ns1:latexSymbol "$\\chi$"^^ns1:LatexString ; ns1:plainTextDescription "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Compressibility"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Concentration"@en ; - dcterms:description "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Concentration"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Concentration"^^xsd:anyURI ; - ns1:plainTextDescription "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Delta u,v"@en ; + dcterms:description "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^ns1:LatexString, + "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://www.waveformlighting.com/tech/calculate-duv-from-cie-1931-xy-coordinates"^^xsd:anyURI, + "https://www1.eere.energy.gov/buildings/publications/pdfs/ssl/led-color-characteristics-factsheet.pdf"^^xsd:anyURI ; + ns1:plainTextDescription "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Duv"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Electric charge per amount of substance"@en ; @@ -60429,11 +65093,13 @@ ns1:value a rdf:Property ; ns1:applicableUnit , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerAmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Electric Field"@en ; - dcterms:description "The space surrounding an electric charge or in the presence of a time-varying magnetic field has a property called an electric field. This electric field exerts a force on other electrically charged objects. In the idealized case, the force exerted between two point charges is inversely proportional to the square of the distance between them. (Coulomb's Law)."^^rdf:HTML ; + dcterms:description "The space surrounding an electric charge or in the presence of a time-varying magnetic field has a property called an electric field. This electric field exerts a force on other electrically charged objects. In the idealized case, the force exerted between two point charges is inversely proportional to the square of the distance between them. (Coulomb's Law)."^^ns1:LatexString, + "The space surrounding an electric charge or in the presence of a time-varying magnetic field has a property called an electric field. This electric field exerts a force on other electrically charged objects. In the idealized case, the force exerted between two point charges is inversely proportional to the square of the distance between them. (Coulomb's Law)."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -60442,17 +65108,20 @@ ns1:value a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_field"^^xsd:anyURI ; ns1:plainTextDescription "The space surrounding an electric charge or in the presence of a time-varying magnetic field has a property called an electric field. This electric field exerts a force on other electrically charged objects. In the idealized case, the force exerted between two point charges is inversely proportional to the square of the distance between them. (Coulomb's Law)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricField"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy per temperature"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerTemperature"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Friction Coefficient"@en ; - dcterms:description "\"Friction Coefficient\" is the ratio of the force of friction between two bodies and the force pressing them together"^^rdf:HTML ; + dcterms:description "\"Friction Coefficient\" is the ratio of the force of friction between two bodies and the force pressing them together"^^ns1:LatexString, + "\"Friction Coefficient\" is the ratio of the force of friction between two bodies and the force pressing them together"^^rdf:HTML ; ns1:applicableUnit , ; ns1:dbpediaMatch "http://dbpedia.org/resource/Friction"^^xsd:anyURI ; @@ -60463,6 +65132,7 @@ ns1:value a rdf:Property ; ns1:plainTextDescription "\"Friction Coefficient\" is the ratio of the force of friction between two bodies and the force pressing them together"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:FrictionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -60472,11 +65142,13 @@ ns1:value a rdf:Property ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseEnergy_Squared"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Magnetic Area Moment"@en ; - dcterms:description "\"Magnetic Area Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Area Moment\" is also referred to as \"Magnetic Moment\"."^^rdf:HTML ; + dcterms:description "\"Magnetic Area Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Area Moment\" is also referred to as \"Magnetic Moment\"."^^ns1:LatexString, + "\"Magnetic Area Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Area Moment\" is also referred to as \"Magnetic Moment\"."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60488,6 +65160,7 @@ ns1:value a rdf:Property ; ns1:latexDefinition "$m = I e_n A$, where $I$ is electric current in a small closed loop, $e_n$ is a unit vector perpendicular to the loop, and $A$ is the area of the loop. The magnetic moment of a substance within a domain is the vector sum of the magnetic moments of all entities included in the domain."^^ns1:LatexString ; ns1:plainTextDescription "\"Magnetic Area Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Area Moment\" is also referred to as \"Magnetic Moment\"."^^xsd:string ; ns1:symbol "m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticAreaMoment"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -60499,14 +65172,18 @@ ns1:value a rdf:Property ; ; ns1:hasDimensionVector ; ns1:symbol "B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticField"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Magnetic flux per unit length"@en ; - dcterms:description "\"Magnetic Flux per Unit Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^rdf:HTML ; + dcterms:description "\"Magnetic Flux per Unit Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^ns1:LatexString, + "\"Magnetic Flux per Unit Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^rdf:HTML ; + dcterms:isReplacedBy ; ns1:applicableUnit , , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Magnetic Flux per Unit Length\" is a quantity in the SI and C.G.S. Systems of Quantities."^^xsd:string ; rdfs:isDefinedBy . @@ -60528,7 +65205,8 @@ ns1:value a rdf:Property ; "Магнитный момент"@ru, "Manyetik moment"@tr, "磁偶极"@zh ; - dcterms:description "\"Magnetic Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Moment\" is also referred to as \"Magnetic Area Moment\", and is not to be confused with Magnetic Dipole Moment."^^rdf:HTML ; + dcterms:description "\"Magnetic Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Moment\" is also referred to as \"Magnetic Area Moment\", and is not to be confused with Magnetic Dipole Moment."^^ns1:LatexString, + "\"Magnetic Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Moment\" is also referred to as \"Magnetic Area Moment\", and is not to be confused with Magnetic Dipole Moment."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60543,6 +65221,7 @@ ns1:value a rdf:Property ; ns1:latexDefinition "$m = I e_n A$, where $I$ is electric current in a small closed loop, $e_n$ is a unit vector perpendicular to the loop, and $A$ is the area of the loop. The magnetic moment of a substance within a domain is the vector sum of the magnetic moments of all entities included in the domain."^^ns1:LatexString ; ns1:plainTextDescription "\"Magnetic Moment\", for a magnetic dipole, is a vector quantity equal to the product of the current, the loop area, and the unit vector normal to the loop plane, the direction of which corresponds to the loop orientation. \"Magnetic Moment\" is also referred to as \"Magnetic Area Moment\", and is not to be confused with Magnetic Dipole Moment."^^xsd:string ; ns1:symbol "m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticMoment"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "giromagnetic moment"@en, "moment giromagnétique"@fr, @@ -60550,12 +65229,15 @@ ns1:value a rdf:Property ; a ns1:QuantityKind ; rdfs:label "Magnetic Reluctivity"@en ; - dcterms:description "\"Length Per Unit Magnetic Flux} is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of \\textit{Magnetic Permeability\", the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^rdf:HTML ; + dcterms:description "\"Length Per Unit Magnetic Flux\" is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of $\\textit{Magnetic Permeability}$, the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^ns1:LatexString, + "\"Length Per Unit Magnetic Flux} is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of \\textit{Magnetic Permeability\", the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Permeability_(electromagnetism)"^^xsd:anyURI ; - ns1:plainTextDescription "\"Length Per Unit Magnetic Flux} is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of \\textit{Magnetic Permeability\", the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^xsd:string ; + ns1:plainTextDescription "\"Length Per Unit Magnetic Flux} is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of \\textit{Magnetic Permeability\", the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^xsd:string, + "Length Per Unit Magnetic Flux is the the resistance of a material to the establishment of a magnetic field in it. It is the reciprocal of Magnetic Permeability, the inverse of the measure of the ability of a material to support the formation of a magnetic field within itself."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticReluctivity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -60574,7 +65256,8 @@ ns1:value a rdf:Property ; "Магнитний потенциал"@ru, "manyetik potansiyeli"@tr, "磁向量势"@zh ; - dcterms:description "\"Magnetic Vector Potential\" is the vector potential of the magnetic flux density. The magnetic vector potential is not unique since any irrotational vector field quantity can be added to a given magnetic vector potential without changing its rotation. Under static conditions the magnetic vector potential is often chosen so that its divergence is zero."^^rdf:HTML ; + dcterms:description "\"Magnetic Vector Potential\" is the vector potential of the magnetic flux density. The magnetic vector potential is not unique since any irrotational vector field quantity can be added to a given magnetic vector potential without changing its rotation. Under static conditions the magnetic vector potential is often chosen so that its divergence is zero."^^ns1:LatexString, + "\"Magnetic Vector Potential\" is the vector potential of the magnetic flux density. The magnetic vector potential is not unique since any irrotational vector field quantity can be added to a given magnetic vector potential without changing its rotation. Under static conditions the magnetic vector potential is often chosen so that its divergence is zero."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60586,6 +65269,7 @@ ns1:value a rdf:Property ; ns1:latexDefinition "$B = \\text{rot} A$, where $B$ is magnetic flux density."^^ns1:LatexString ; ns1:plainTextDescription "\"Magnetic Vector Potential\" is the vector potential of the magnetic flux density. The magnetic vector potential is not unique since any irrotational vector field quantity can be added to a given magnetic vector potential without changing its rotation. Under static conditions the magnetic vector potential is often chosen so that its divergence is zero."^^xsd:string ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticVectorPotential"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . @@ -60614,12 +65298,14 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$F_m = \\oint \\mathbf{H} \\cdot dr$, where $\\mathbf{H}$ is magnetic field strength and $r$ is position vector along a given curve $C$ from point $a$ to point $b$."^^ns1:LatexString ; ns1:latexSymbol "$F_m $"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MagnetomotiveForce"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Mass Attenuation Coefficient"@en ; - dcterms:description "\"Mass Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per unit mass."^^rdf:HTML ; + dcterms:description "\"Mass Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per unit mass."^^ns1:LatexString, + "\"Mass Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per unit mass."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60631,11 +65317,13 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$\\mu_m = \\frac{\\mu}{\\rho}$, where $\\mu$ is the linear attenuation coefficient and $\\rho$ is the mass density of the medium."^^ns1:LatexString ; ns1:latexSymbol "$\\mu_m$"^^ns1:LatexString ; ns1:plainTextDescription "\"Mass Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per unit mass."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassAttenuationCoefficient"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Molality of Solute"@en ; - dcterms:description "The \"Molality of Solute\" of a solution is defined as the amount of substance of solute divided by the mass in kg of the solvent."^^rdf:HTML ; + dcterms:description "The \"Molality of Solute\" of a solution is defined as the amount of substance of solute divided by the mass in kg of the solvent."^^ns1:LatexString, + "The \"Molality of Solute\" of a solution is defined as the amount of substance of solute divided by the mass in kg of the solvent."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60647,12 +65335,15 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$b_B = \\frac{n_B}{m_a}$, where $n_B$ is the amount of substance and $m_A$ is the mass."^^ns1:LatexString ; ns1:plainTextDescription "The \"Molality of Solute\" of a solution is defined as the amount of substance of solute divided by the mass in kg of the solvent."^^xsd:string ; ns1:symbol "b_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolalityOfSolute"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader , + . a ns1:QuantityKind ; rdfs:label "Mortality Rate"@en ; - dcterms:description "Mortality rate, or death rate, is a measure of the number of deaths (in general, or due to a specific cause) in a particular population, scaled to the size of that population, per unit of time."^^rdf:HTML ; + dcterms:description "Mortality rate, or death rate, is a measure of the number of deaths (in general, or due to a specific cause) in a particular population, scaled to the size of that population, per unit of time."^^ns1:LatexString, + "Mortality rate, or death rate, is a measure of the number of deaths (in general, or due to a specific cause) in a particular population, scaled to the size of that population, per unit of time."^^rdf:HTML ; ns1:applicableUnit , ; ns1:hasDimensionVector ; @@ -60660,6 +65351,7 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:plainTextDescription "Mortality rate, or death rate, is a measure of the number of deaths (in general, or due to a specific cause) in a particular population, scaled to the size of that population, per unit of time."^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:MortalityRate"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -60672,6 +65364,7 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexDefinition "$l^2 = \\hbar^2 l(l + 1), l = 0, 1, ..., n - 1$, where $l_i$ refers to a specific particle $i$."^^ns1:LatexString ; ns1:symbol "l"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:OrbitalAngularMomentumQuantumNumber"^^xsd:string ; rdfs:isDefinedBy ; skos:broader ; skos:closeMatch , @@ -60698,36 +65391,25 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$\\Phi = \\frac{dN}{dA}$, where $dN$ describes the number of particles incident on a small spherical domain at a given point in space, and $dA$ describes the cross-sectional area of that domain."^^ns1:LatexString ; ns1:latexSymbol "$\\Phi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Particle Fluence\" is the total number of particles that intersect a unit area in a specific time interval of interest, and has units of /m2 (number of particles per meter squared)."^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "polarisability"@en, - "Polarizability"@en-us ; - dcterms:description "\"Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which may be caused by the presence of a nearby ion or dipole. The electronic polarizability $\\alpha$ is defined as the ratio of the induced dipole moment of an atom to the electric field that produces this dipole moment. Polarizability is often a scalar valued quantity, however in the general case it is tensor-valued."^^ns1:LatexString, - "measure of the deformability of the electron shell of molecules and atoms"@en ; - ns1:applicableUnit , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Polarizability"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD141"^^xsd:string ; - ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; - ns1:plainTextDescription "Maß für die Deformierbarkeit der Elektronenhülle von Molekülen und Atomen "@de ; - ns1:symbol "0173-1#Z4-BAJ365#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ParticleFluence"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Power Per Electric Charge"@en ; - dcterms:description "\"Power Per Electric Charge\" is the amount of energy generated by a unit of electric charge."^^rdf:HTML ; + dcterms:description "\"Power Per Electric Charge\" is the amount of energy generated by a unit of electric charge."^^ns1:LatexString, + "\"Power Per Electric Charge\" is the amount of energy generated by a unit of electric charge."^^rdf:HTML ; ns1:applicableUnit , , ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Power Per Electric Charge\" is the amount of energy generated by a unit of electric charge."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerElectricCharge"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reflectance"@en ; - dcterms:description "Reflectance generally refers to the fraction of incident power that is reflected at an interface, while the term \"reflection coefficient\" is used for the fraction of electric field reflected. Reflectance is always a real number between zero and 1.0."^^rdf:HTML ; + dcterms:description "Reflectance generally refers to the fraction of incident power that is reflected at an interface, while the term \"reflection coefficient\" is used for the fraction of electric field reflected. Reflectance is always a real number between zero and 1.0."^^ns1:LatexString, + "Reflectance generally refers to the fraction of incident power that is reflected at an interface, while the term \"reflection coefficient\" is used for the fraction of electric field reflected. Reflectance is always a real number between zero and 1.0."^^rdf:HTML ; ns1:applicableUnit , , ; @@ -60736,27 +65418,14 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$\\rho = \\frac{\\Phi_t}{\\Phi_m}$, where $\\Phi_t$ is the reflected radiant flux, the reflected luminous flux, or the reflected sound power and $\\Phi_m$ is the incident radiant flux, incident luminous flux, or incident sound power, respectively."^^ns1:LatexString ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "Reflectance generally refers to the fraction of incident power that is reflected at an interface, while the term \"reflection coefficient\" is used for the fraction of electric field reflected. Reflectance is always a real number between zero and 1.0."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Reflectance"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Relative Humidity"@en ; - dcterms:description "$\\textit{Relative Humidity}$ is the ratio of the partial pressure of water vapor in an air-water mixture to the saturated vapor pressure of water at a prescribed temperature. The relative humidity of air depends not only on temperature but also on the pressure of the system of interest. $\\textit{Relative Humidity}$ is also referred to as $\\textit{Relative Partial Pressure}$. Relative partial pressure is often referred to as $RH$ and expressed in percent."^^ns1:LatexString ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Relative_humidity"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$\\varphi = p / p_{sat}$, where $p$ is partial pressure of vapour, $p_{sat}$ is thermodynamic temperature and $V$ is its partial pressure at saturation (at the same temperature). Relative partial pressure is often referred to as $RH$ and expressed in percent. $\\textit{Relative Humidity}$ is also referred to as $\\textit{Relative Partial Pressure}$."^^ns1:LatexString ; - ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:altLabel "RH"^^xsd:string ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Second Axial Moment of Area"@en ; - dcterms:description "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^rdf:HTML ; + dcterms:description "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^ns1:LatexString, + "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60769,16 +65438,19 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$I_a = \\int r^2_Q dA$, where $r_Q$ is the radial distance from a $Q-axis$ and $A$ is area."^^ns1:LatexString ; ns1:plainTextDescription "The moment of inertia, also called mass moment of inertia, rotational inertia, polar moment of inertia of mass, or the angular mass is a property of a distribution of mass in space that measures its resistance to rotational acceleration about an axis."^^xsd:string ; ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SecondAxialMomentOfArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Reaction Rate Constant"@en ; - dcterms:description "A quantity kind that is a proportionality constant that quantifies the relationship between the molar concentrations of the reactants and the rate of a second order chemical reaction."^^rdf:HTML ; + dcterms:description "A quantity kind that is a proportionality constant that quantifies the relationship between the molar concentrations of the reactants and the rate of a second order chemical reaction."^^ns1:LatexString, + "A quantity kind that is a proportionality constant that quantifies the relationship between the molar concentrations of the reactants and the rate of a second order chemical reaction."^^rdf:HTML ; ns1:applicableUnit , , ; ns1:hasDimensionVector ; ns1:plainTextDescription "A quantity kind that is a proportionality constant that quantifies the relationship between the molar concentrations of the reactants and the rate of a second order chemical reaction."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SecondOrderReactionRateConstant"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -60795,11 +65467,13 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$L_W = 10 \\log_{10} \\frac{P}{P_0} dB$, where $P$ is sound power and the reference value is $P_0 =1pW$."^^ns1:LatexString ; ns1:symbol "L"^^xsd:string ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoundPowerLevel"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Specific Activity"@en ; - dcterms:description "The \"Specific Activity\" is the number of decays per unit time of a radioactive sample. The SI unit of radioactive activity is the becquerel (Bq), in honor of the scientist Henri Becquerel."^^rdf:HTML ; + dcterms:description "The \"Specific Activity\" is the number of decays per unit time of a radioactive sample. The SI unit of radioactive activity is the becquerel (Bq), in honor of the scientist Henri Becquerel."^^ns1:LatexString, + "The \"Specific Activity\" is the number of decays per unit time of a radioactive sample. The SI unit of radioactive activity is the becquerel (Bq), in honor of the scientist Henri Becquerel."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60813,6 +65487,7 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:latexDefinition "$a = \\frac{A}{m}$, where $A$ is the activity of a sample and $m$ is its mass."^^ns1:LatexString ; ns1:plainTextDescription "The \"Specific Activity\" is the number of decays per unit time of a radioactive sample. The SI unit of radioactive activity is the becquerel (Bq), in honor of the scientist Henri Becquerel."^^xsd:string ; ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificActivity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -60825,7 +65500,8 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field a ns1:QuantityKind ; rdfs:label "Spectral Radiant Energy Density"@en ; - dcterms:description "\"Spectral Radiant Energy Density\" is the spectral concentration of radiant energy density (in terms of wavelength), or the spectral radiant energy density (in terms of wave length)."^^rdf:HTML ; + dcterms:description "\"Spectral Radiant Energy Density\" is the spectral concentration of radiant energy density (in terms of wavelength), or the spectral radiant energy density (in terms of wave length)."^^ns1:LatexString, + "\"Spectral Radiant Energy Density\" is the spectral concentration of radiant energy density (in terms of wavelength), or the spectral radiant energy density (in terms of wave length)."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60833,12 +65509,14 @@ $\\text{Magnetomotive Force}$ is the scalar line integral of the magnetic field ns1:expression "$M-PER-L2-T2$"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:plainTextDescription "\"Spectral Radiant Energy Density\" is the spectral concentration of radiant energy density (in terms of wavelength), or the spectral radiant energy density (in terms of wave length)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpectralRadiantEnergyDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Temperature per Magnetic Flux Density"@en ; ns1:applicableUnit ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TemperaturePerMagneticFluxDensity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -60873,12 +65551,14 @@ Specifically, in rocketry, $ F\\,= m\\cdot v$ where m is propellant mass flow an ns1:dbpediaMatch "http://dbpedia.org/resource/Thrust"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:plainTextDescription "Thrust is a reaction force described quantitatively by Newton's Second and Third Laws. When a system expels or accelerates mass in one direction the accelerated mass will cause a proportional but opposite force on that system."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Total Linear Stopping Power"@en ; - dcterms:description "The \"Total Linear Stopping Power\" is defined as the average energy loss of the particle per unit path length."^^rdf:HTML ; + dcterms:description "The \"Total Linear Stopping Power\" is defined as the average energy loss of the particle per unit path length."^^ns1:LatexString, + "The \"Total Linear Stopping Power\" is defined as the average energy loss of the particle per unit path length."^^rdf:HTML ; ns1:applicableUnit , , , @@ -60890,20 +65570,27 @@ Specifically, in rocketry, $ F\\,= m\\cdot v$ where m is propellant mass flow an ns1:latexDefinition "$S = -\\frac{dE}{dx}$, where $-dE$ is the energy decrement in the $x-direction$ along an elementary path with the length $dx$."^^ns1:LatexString ; ns1:plainTextDescription "The \"Total Linear Stopping Power\" is defined as the average energy loss of the particle per unit path length."^^xsd:string ; ns1:symbol "S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:TotalLinearStoppingPower"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Vapor Permeability"@en ; - dcterms:description "Vapour permeability, or \"Breathability\" in a building refers to the ease with which water vapour passes through building elements. Building elements where vapour permeability is poorly designed can result in condensation, leading to unhealthy living environments and degradation of fabric."^^rdf:HTML ; + dcterms:description "The moisture transmission rate of a material is referred to as its \"permeability\"."^^ns1:LatexString, + "Vapour permeability, or \"Breathability\" in a building refers to the ease with which water vapour passes through building elements. Building elements where vapour permeability is poorly designed can result in condensation, leading to unhealthy living environments and degradation of fabric."^^rdf:HTML ; ns1:applicableUnit , + , , , , , ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://www.designingbuildings.co.uk/wiki/Vapour_Permeability"^^xsd:anyURI ; - ns1:plainTextDescription "Vapour permeability, or \"Breathability\" in a building refers to the ease with which water vapour passes through building elements. Building elements where vapour permeability is poorly designed can result in condensation, leading to unhealthy living environments and degradation of fabric."^^xsd:string ; + ns1:hasDimensionVector , + ; + ns1:informativeReference "https://users.encs.concordia.ca/~raojw/crd/essay/essay000287.html"^^xsd:anyURI, + "https://www.designingbuildings.co.uk/wiki/Vapour_Permeability"^^xsd:anyURI ; + ns1:plainTextDescription "The moisture transmission rate of a material is referred to as its \"permeability\"."^^xsd:string, + "Vapour permeability, or \"Breathability\" in a building refers to the ease with which water vapour passes through building elements. Building elements where vapour permeability is poorly designed can result in condensation, leading to unhealthy living environments and degradation of fabric."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VaporPermeability"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -60917,25 +65604,353 @@ Specifically, in rocketry, $ F\\,= m\\cdot v$ where m is propellant mass flow an ns1:dbpediaMatch "http://dbpedia.org/resource/Volumetric_heat_capacity"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Volumetric_heat_capacity"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:VolumetricHeatCapacity"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Biot"@en ; - dcterms:description "\"Biot\" is another name for the abampere (aA), which is the basic electromagnetic unit of electric current in the emu-cgs (centimeter-gram-second) system of units. It is called after a French physicist, astronomer, and mathematician Jean-Baptiste Biot. One abampere is equal to ten amperes in the SI system of units. One abampere is the current, which produces a force of 2 dyne/cm between two infinitively long parallel wires that are 1 cm apart."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Abampere"@en ; + dcterms:description "The Abampere (aA), also called the biot after Jean-Baptiste Biot, is the basic electromagnetic unit of electric current in the emu-cgs system of units (electromagnetic cgs). One abampere is equal to ten amperes in the SI system of units. An abampere is the constant current that produces, when maintained in two parallel conductors of negligible circular section and of infinite length placed 1 centimetre apart, a force of 2 dynes per centimetre between the two conductors."^^rdf:HTML ; ns1:applicableSystem , ; ns1:conversionMultiplier 10.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Biot"^^xsd:anyURI ; - ns1:exactMatch ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Abampere"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB210"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Biot?oldid=443318821"^^xsd:anyURI, - "http://www.translatorscafe.com/cafe/EN/units-converter/current/10-4/"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "Bi"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Abampere?oldid=489318583"^^xsd:anyURI, + "http://wordinfo.info/results/abampere"^^xsd:anyURI, + "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-13?rskey=i2kRRz"^^xsd:anyURI ; + ns1:latexDefinition "\\(1\\,abA = 10\\,A\\)"^^ns1:LatexString ; + ns1:omUnit ; + ns1:plainTextDescription "The Abampere (aA), also called the biot after Jean-Baptiste Biot, is the basic electromagnetic unit of electric current in the emu-cgs system of units (electromagnetic cgs). One abampere is equal to ten amperes in the SI system of units. An abampere is the constant current that produces, when maintained in two parallel conductors of negligible circular section and of infinite length placed 1 centimetre apart, a force of 2 dynes per centimetre between the two conductors."^^xsd:string ; + ns1:symbol "abA"^^xsd:string ; ns1:ucumCode "Bi"^^ns1:UCUMcs ; - ns1:uneceCommonCode "N96"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs ; + skos:altLabel "biot"^^xsd:string . + + a ns1:Unit ; + rdfs:label "Barrel (UK Petroleum) Per Day"@en ; + dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.841587e-06, + 0.000001841587 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA331"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit day"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}/day"^^xsd:string ; + ns1:uneceCommonCode "J59"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (UK Petroleum) Per Hour"@en ; + dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 4.41981e-05, + 0.0000441981 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA332"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit hour"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}/hr"^^xsd:string ; + ns1:uneceCommonCode "J60"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (UK Petroleum) Per Minute"@en ; + dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.002651886 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA330"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the unit minute"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}/min"^^xsd:string ; + ns1:uneceCommonCode "J58"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (UK Petroleum) Per Second"@en ; + dcterms:description "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.1591132 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA333"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (UK petroleum) for crude oil according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}"^^xsd:string ; + ns1:uneceCommonCode "J61"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (US) Per Day"@en ; + dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.84e-06, + 0.00000184 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA335"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit day"^^xsd:string ; + ns1:symbol "bsh{US petroleum}/day"^^xsd:string ; + ns1:ucumCode "[bbl_us].d-1"^^ns1:UCUMcs, + "[bbl_us]/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B1"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (US) Per Minute"@en ; + dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0026498 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA337"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit minute"^^xsd:string ; + ns1:symbol "bbl{US petroleum}/min"^^xsd:string ; + ns1:ucumCode "[bbl_us].min-1"^^ns1:UCUMcs, + "[bbl_us]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "5A"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (US Petroleum) Per Hour"@en ; + dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 4.4163e-05, + 0.000044163 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA336"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the unit hour"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}/hr"^^xsd:string ; + ns1:ucumCode "[bbl_us].h-1"^^ns1:UCUMcs, + "[bbl_us]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J62"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Barrel (US Petroleum) Per Second"@en ; + dcterms:description "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.1589873 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA338"^^xsd:string ; + ns1:plainTextDescription "unit of the volume barrel (US petroleum) for crude oil according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bbl{UK petroleum}/s"^^xsd:string ; + ns1:ucumCode "[bbl_us].s-1"^^ns1:UCUMcs, + "[bbl_us]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J62"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (international Table) Per Minute"@en ; + dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 17.58 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA120"^^xsd:string ; + ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^xsd:string ; + ns1:symbol "Btu{IT}/min"^^xsd:string ; + ns1:ucumCode "[Btu_IT].min-1"^^ns1:UCUMcs, + "[Btu_IT]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J44"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "British Thermal Unit (thermochemical) Per Hour"@en ; + dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.2929 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA124"^^xsd:string ; + ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^xsd:string ; + ns1:symbol "Btu{th}/hr"^^xsd:string ; + ns1:ucumCode "[Btu_th].h-1"^^ns1:UCUMcs, + "[Btu_th]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J47"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (thermochemical) Per Minute"@en ; + dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 17.573 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA128"^^xsd:string ; + ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit minute"^^xsd:string ; + ns1:symbol "Btu{th}/min"^^xsd:string ; + ns1:ucumCode "[Btu_th].min-1"^^ns1:UCUMcs, + "[Btu_th]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J51"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (thermochemical) Per Second"@en ; + dcterms:description "unit of the heat energy according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1054.35 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA129"^^xsd:string ; + ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "Btu{th}/s"^^xsd:string ; + ns1:ucumCode "[Btu_th].s-1"^^ns1:UCUMcs, + "[Btu_th]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J52"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (UK) Per Day"@en ; + dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 4.209343e-07, + 0.0000004209343 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA345"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "bsh{UK}/day"^^xsd:string ; + ns1:ucumCode "[bu_br].d-1"^^ns1:UCUMcs, + "[bu_br]/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J64"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (UK) Per Hour"@en ; + dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1.010242e-05, + 0.00001010242 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA346"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "bsh{UK}/hr"^^xsd:string ; + ns1:uneceCommonCode "J65"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (UK) Per Minute"@en ; + dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0006061453 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA347"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "bsh{UK}/min"^^xsd:string ; + ns1:ucumCode "[bu_br].min-1"^^ns1:UCUMcs, + "[bu_br]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J66"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (UK) Per Second"@en ; + dcterms:description "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.03636872 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA348"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (UK) (for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bsh{UK}/s"^^xsd:string ; + ns1:ucumCode "[bu_br].s-1"^^ns1:UCUMcs, + "[bu_br]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J67"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (US Dry) Per Day"@en ; + dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000040786, + 4.0786e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA349"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "bsh{US}/day"^^xsd:string ; + ns1:ucumCode "[bu_us].d-1"^^ns1:UCUMcs, + "[bu_us]/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J68"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (US Dry) Per Hour"@en ; + dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000009789, + 9.789e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA350"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "bsh{US}/hr"^^xsd:string ; + ns1:ucumCode "[bu_us].h-1"^^ns1:UCUMcs, + "[bu_us]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J69"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (US Dry) Per Minute"@en ; + dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00058732 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA351"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "bsh{US}/min"^^xsd:string ; + ns1:ucumCode "[bu_us].min-1"^^ns1:UCUMcs, + "[bu_us]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J70"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bushel (US Dry) Per Second"@en ; + dcterms:description "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.03523907 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA352"^^xsd:string ; + ns1:plainTextDescription "unit of the volume bushel (US dry) for dry measure according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bsh{US}/s"^^xsd:string ; + ns1:ucumCode "[bu_us].s-1"^^ns1:UCUMcs, + "[bu_us]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J71"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -60977,23 +65992,38 @@ Specifically, in rocketry, $ F\\,= m\\cdot v$ where m is propellant mass flow an ns1:uneceCommonCode "A32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Statcoulomb"@en ; - dcterms:description "The statcoulomb (\\(statC\\)) or franklin (\\(Fr\\)) or electrostatic unit of charge (\\(esu\\)) is the physical unit for electrical charge used in the centimetre-gram-second system of units (cgs) and Gaussian units. It is a derived unit given by \\(1\\ statC = 1\\ g\\ cm\\ s = 1\\ erg\\ cm\\). The SI system of units uses the coulomb (C) instead. The conversion between C and statC is different in different contexts. The number 2997924580 is 10 times the value of the speed of light expressed in meters/second, and the conversions are exact except where indicated. The coulomb is an extremely large charge rarely encountered in electrostatics, while the statcoulomb is closer to everyday charges."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Calorie (thermochemical) Per Minute"@en ; + dcterms:description "unit calorie divided by the unit minute"^^rdf:HTML ; ns1:applicableSystem , - ; - ns1:conversionMultiplier 3.335641e-10 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Statcoulomb"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Statcoulomb?oldid=492664360"^^xsd:anyURI ; - ns1:latexDefinition "\\(1 C \\leftrightarrow 2997924580 statC \\approx 3.00 \\times 10^9 statC,\\ 1 \\hspace{0.3pc} statC \\leftrightarrow \\hspace{0.3pc} \\approx 3.34 \\times 10^{-10} C\\) for electric charge."^^ns1:LatexString, - "\\(1 C \\leftrightarrow 4 \\pi \\times 2997924580 statC \\approx 3.77 \\times 10^{10} statC,\\ 1 \\hspace{0.3pc} statC \\leftrightarrow \\hspace{0.2pc} \\approx 2.6 \\times 10^{-11} C\\) for electric flux \\(\\Phi_D\\)"^^ns1:LatexString, - "\\(1 C/m \\leftrightarrow 4 \\pi \\times 2997924580 \\times 10^{-4} statC/cm \\approx 3.77 \\times 10^6 statC/cm,\\ 1 \\hspace{0.3pc} statC/cm \\leftrightarrow \\hspace{0.3pc} \\approx 2.65 \\times 10^{-7} C/m\\) for electric displacement field \\(D\\)."^^ns1:LatexString ; - ns1:omUnit ; - ns1:symbol "statC"^^xsd:string ; + , + ; + ns1:conversionMultiplier 0.06973 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA368"^^xsd:string ; + ns1:plainTextDescription "unit calorie divided by the unit minute"^^xsd:string ; + ns1:symbol "cal{th}/min"^^xsd:string ; + ns1:ucumCode "cal_th.min-1"^^ns1:UCUMcs, + "cal_th/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J81"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (thermochemical) Per Second"@en ; + dcterms:description "unit calorie divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4.184 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA369"^^xsd:string ; + ns1:plainTextDescription "unit calorie divided by the SI base unit second"^^xsd:string ; + ns1:symbol "cal{th}/s"^^xsd:string ; + ns1:ucumCode "cal_th.s-1"^^ns1:UCUMcs, + "cal_th/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J82"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -61019,4485 +66049,4253 @@ Specifically, in rocketry, $ F\\,= m\\cdot v$ where m is propellant mass flow an ns1:uneceCommonCode "M39"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Erg Second"@en ; + a ns1:Unit ; + rdfs:label "Cubic Centimetre Per Day"@en, + "Cubic Centimeter Per Day"@en-us ; + dcterms:description "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit day"^^rdf:HTML ; ns1:applicableSystem , - ; - ns1:conversionMultiplier 1e-07 ; - ns1:derivedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "erg⋅s"^^xsd:string ; - ns1:ucumCode "erg.s"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Electron Volt per Tesla"@en ; - dcterms:description "\"Electron Volt per Tesla\" is a unit for 'Magnetic Dipole Moment' expressed as \\(eV T^{-1}\\)."^^ns1:LatexString ; - ns1:applicableSystem , + , , ; - ns1:conversionMultiplier 1.602177e-19 ; - ns1:expression "\\(eV T^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "eV/T"^^xsd:string ; - ns1:ucumCode "eV.T-1"^^ns1:UCUMcs, - "eV/T"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Foot Candle"@en ; - dcterms:description "\"Foot Candle\" is a unit for 'Luminous Flux Per Area' expressed as \\(fc\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 10.764 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Foot-candle"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Foot-candle?oldid=475579268"^^xsd:anyURI ; - ns1:symbol "fc"^^xsd:string ; - ns1:uneceCommonCode "P27"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Franklin"@en ; - dcterms:description "\"Franklin\" is a unit for 'Electric Charge' expressed as \\(Fr\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 3.335641e-10 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Franklin"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB212"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Franklin?oldid=495090654"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "Fr"^^xsd:string ; - ns1:uneceCommonCode "N94"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Foot Pound Force Second"@en ; - dcterms:description "\"Foot Pound Force Second\" is a unit for 'Angular Momentum' expressed as \\(lbf / s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:expression "\\(lbf / s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lbf/s"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av].s"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Foot per Square Second"@en ; - dcterms:description "\\(\\textit{Foot per Square Second}\\) is an Imperial unit for \\(\\textit{Linear Acceleration}\\) expressed as \\(ft/s^2\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.3048 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft/s^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA452"^^xsd:string ; - ns1:symbol "ft/s²"^^xsd:string ; - ns1:ucumCode "[ft_i].s-2"^^ns1:UCUMcs, - "[ft_i]/s2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A73"^^xsd:string ; + ns1:conversionMultiplier 0.00000000001157407, + 1.157407e-11 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA388"^^xsd:string ; + ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit day"^^xsd:string, + "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit day"^^xsd:string ; + ns1:symbol "cm³/day"^^xsd:string ; + ns1:ucumCode "cm3.d-1"^^ns1:UCUMcs, + "cm3/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G47"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Femtograms per kilogram"@en ; - dcterms:description "One part per 10**18 by mass of the measurand in the matrix."@en ; + a ns1:Unit ; + rdfs:label "Cubic Centimetre Per Hour"@en, + "Cubic Centimeter Per Hour"@en-us ; + dcterms:description "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-18 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "fg/kg"^^xsd:string ; - ns1:ucumCode "fg.kg-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 0.0000000002777778, + 2.777778e-10 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA391"^^xsd:string ; + ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^xsd:string, + "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^xsd:string ; + ns1:symbol "cm³/hr"^^xsd:string ; + ns1:ucumCode "cm3.h-1"^^ns1:UCUMcs, + "cm3/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G48"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gravity"@en ; - dcterms:description "\"Gravity\" is a unit for 'Linear Acceleration' expressed as \\(G\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 9.80665 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "G"^^xsd:string ; - ns1:ucumCode "[g]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K40"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Centimetre Per Minute"@en, + "Cubic Centimeter Per Minute"@en-us ; + dcterms:description "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000001666667, + 1.666667e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA395"^^xsd:string ; + ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit minute"^^xsd:string ; + ns1:symbol "cm³/min"^^xsd:string ; + ns1:ucumCode "cm3.min-1"^^ns1:UCUMcs, + "cm3/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G49"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Galileo"@en ; - dcterms:description "The \\(\\textit{Galileo}\\) is the unit of acceleration of free fall used extensively in the science of gravimetry. The Galileo is defined as \\(1 \\textit{centimeter per square second}\\) (\\(1 cm/s^2\\)). Unfortunately, the Galileo is often denoted with the symbol Gal, not to be confused with the Gallon that also uses the same symbol."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Cubic Centimetre Per Second"@en, + "Cubic Centimeter Per Second"@en-us ; + dcterms:description "0.000001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , - ; + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA399"^^xsd:string ; + ns1:plainTextDescription "0,000 001-fold of the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "cm³/s"^^xsd:string ; + ns1:ucumCode "cm3.s-1"^^ns1:UCUMcs, + "cm3/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2J"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Centimole per kilogram"@en ; + dcterms:description "1/100 of SI unit of amount of substance per kilogram"^^rdf:HTML ; + ns1:applicableSystem ; ns1:conversionMultiplier 0.01 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gal"^^xsd:anyURI ; - ns1:derivedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gal?oldid=482010741"^^xsd:anyURI ; - ns1:omUnit ; - ns1:plainTextDescription "CGS unit of acceleration called gal with the definition: 1 Gal = 1 cm/s"^^xsd:string ; - ns1:symbol "Gal"^^xsd:string ; - ns1:ucumCode "Gal"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A76"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:plainTextDescription "1/100 of SI unit of amount of substance per kilogram"^^xsd:string ; + ns1:symbol "cmol/kg"^^xsd:string ; + ns1:ucumCode "cmol.kg-1"^^ns1:UCUMcs, + "cmol/kg"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gram Per Gram"@en ; - dcterms:description "mass ratio consisting of the 0.001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Dots Per Inch"@en ; + dcterms:description "point density as amount of the picture base element divided by the unit inch according to the Anglo-American and the Imperial system of units"^^rdf:HTML ; + ns1:conversionMultiplier 39.37008 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA421"^^xsd:string ; + ns1:plainTextDescription "point density as amount of the picture base element divided by the unit inch according to the Anglo-American and the Imperial system of units"^^xsd:string ; + ns1:symbol "DPI"^^xsd:string ; + ns1:ucumCode "{dot}/[in_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E39"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Cubic Decimetre Per Day"@en, + "Cubic Decimeter Per Day"@en-us ; + dcterms:description "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time day"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "g/g"^^xsd:string ; - ns1:ucumCode "g.g-1"^^ns1:UCUMcs, - "g/g"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1.157407e-08, + 0.00000001157407407 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA415"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time day"^^xsd:string ; + ns1:symbol "dm³/day"^^xsd:string ; + ns1:ucumCode "dm3.d-1"^^ns1:UCUMcs, + "dm3/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J90"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gram Per Kilogram"@en ; - dcterms:description "0,001 fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Cubic Decimetre Per Hour"@en, + "Cubic Decimeter Per Hour"@en-us ; + dcterms:description "0.001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA481"^^xsd:string ; - ns1:plainTextDescription "0,001 fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "g/kg"^^xsd:string ; - ns1:ucumCode "g.kg-1"^^ns1:UCUMcs, - "g/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GK"^^xsd:string ; + ns1:conversionMultiplier 0.0000002777778, + 2.777778e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA416"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit hour"^^xsd:string ; + ns1:symbol "dm³/hr"^^xsd:string ; + ns1:ucumCode "dm3.h-1"^^ns1:UCUMcs, + "dm3/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E92"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gross Tonnage"@en ; - dcterms:description "The formula for calculating GT is given by \\({ GT=V\\times (0.2+0.02\\times \\log _{10}(V))}\\)"^^ns1:LatexString ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://www.imo.org/en/About/Conventions/ListOfConventions/Pages/International-Convention-on-Tonnage-Measurement-of-Ships.aspx"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Gross_tonnage"^^xsd:anyURI ; - ns1:latexDefinition "\\({ GT=V\\times (0.2+0.02\\times \\log _{10}(V))}\\) where V is measured in cubic meters."^^ns1:LatexString ; - ns1:plainTextDescription "Gross tonnage (GT, G.T. or gt) is a nonlinear measure of a ship's overall internal volume. Gross tonnage is different from gross register tonnage. Gross tonnage is used to determine things such as a ship's manning regulations, safety rules, registration fees, and port dues, whereas the older gross register tonnage is a measure of the volume of only certain enclosed spaces."^^xsd:string ; - ns1:symbol "G.T."^^xsd:string ; - ns1:ucumCode "t{gross}"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GT"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Henry per Metre"@en, - "Henry per Meter"@en-us ; - dcterms:description "The henry per meter (symbolized \\(H/m\\)) is the unit of magnetic permeability in the International System of Units ( SI ). Reduced to base units in SI, \\(1\\,H/m\\) is the equivalent of one kilogram meter per square second per square ampere."^^ns1:LatexString ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Cubic Decimetre Per Minute"@en, + "Cubic Decimeter Per Minute"@en-us ; + dcterms:description "0.001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem , + , , ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(H/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA168"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Henry?oldid=491435978"^^xsd:anyURI ; - ns1:symbol "H/m"^^xsd:string ; - ns1:ucumCode "H.m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A98"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Inch per Square second"@en ; - dcterms:description "\\(\\textit{Inch per Square second}\\) is an Imperial unit for \\(\\textit{Linear Acceleration}\\) expressed as \\(in/s^2\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0254 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(in/s2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB044"^^xsd:string ; - ns1:symbol "in/s²"^^xsd:string ; - ns1:ucumCode "[in_i].s-2"^^ns1:UCUMcs, - "[in_i]/s2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "IV"^^xsd:string ; + ns1:conversionMultiplier 1.666667e-05, + 0.00001666667 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA418"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time minute"^^xsd:string ; + ns1:symbol "dm³/min"^^xsd:string ; + ns1:ucumCode "dm3.min-3"^^ns1:UCUMcs, + "dm3/min3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J92"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Joule Per Square Centimetre"@en, - "Joule Per Square Centimeter"@en-us ; - dcterms:description "derived SI unit joule divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Cubic Decimetre Per Second"@en, + "Cubic Decimeter Per Second"@en-us ; + dcterms:description "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time second"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 10000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB188"^^xsd:string ; - ns1:plainTextDescription "derived SI unit joule divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; - ns1:symbol "J/cm²"^^xsd:string ; - ns1:ucumCode "J.cm-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E43"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA420"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the power of the SI base unit metre with the exponent 3 divided by the unit for time second"^^xsd:string ; + ns1:symbol "dm³/s"^^xsd:string ; + ns1:ucumCode "dm3.s-1"^^ns1:UCUMcs, + "dm3/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J93"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "جول لكل كلفن"@ar, - "joule na kelvin"@cs, - "Joule je Kelvin"@de, - "joule per kelvin"@en, - "julio por kelvin"@es, - "ژول بر کلوین"@fa, - "joule par kelvin"@fr, - "जूल प्रति कैल्विन"@hi, - "joule al kelvin"@it, - "ジュール毎立方メートル"@ja, - "joule per kelvin"@ms, - "dżul na kelwin"@pl, - "joule por kelvin"@pt, - "joule pe kelvin"@ro, - "джоуль на кельвин"@ru, - "joule na kelvin"@sl, - "joule bölü kelvin"@tr, - "焦耳每开尔文"@zh ; - dcterms:description "Joule Per Kelvin (J/K) is a unit in the category of Entropy. It is also known as joules per kelvin, joule/kelvin. This unit is commonly used in the SI unit system. Joule Per Kelvin (J/K) has a dimension of \\(ML^{2}T^{-2}Q^{-1}\\( where \\(M\\) is mass, L is length, T is time, and Q is temperature. This unit is the standard SI unit in this category."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J/K\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA173"^^xsd:string ; - ns1:symbol "J/K"^^xsd:string ; - ns1:ucumCode "J.K-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "JE"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Erg Per Gram Second"@en ; + dcterms:description "CGS unit of the mass-related power"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB147"^^xsd:string ; + ns1:plainTextDescription "CGS unit of the mass-related power"^^xsd:string ; + ns1:symbol "erg/(g⋅s)"^^xsd:string ; + ns1:ucumCode "erg.g-1.s-1"^^ns1:UCUMcs, + "erg/(g.s)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A62"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Joule per Mole Kelvin"@en ; - dcterms:description "Energy needed to heat one mole of substance by 1 Kelvin, under standard conditions (not standard temperature and pressure STP). The standard molar entropy is usually given the symbol S, and has units of joules per mole kelvin ( \\( J\\cdot mol^{-1} K^{-1}\\)). Unlike standard enthalpies of formation, the value of S is an absolute. That is, an element in its standard state has a nonzero value of S at room temperature."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J/(mol-K)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA184"^^xsd:string ; - ns1:symbol "J/(mol⋅K)"^^xsd:string ; - ns1:ucumCode "J.mol-1.K-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B16"^^xsd:string ; + rdfs:label "Erg Second"@en ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; + ns1:derivedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "erg⋅s"^^xsd:string ; + ns1:ucumCode "erg.s"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:Unit ; + rdfs:label "Electron Volt per Tesla"@en ; + dcterms:description "\"Electron Volt per Tesla\" is a unit for 'Magnetic Dipole Moment' expressed as \\(eV T^{-1}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; + ns1:expression "\\(eV T^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "eV/T"^^xsd:string ; + ns1:ucumCode "eV.T-1"^^ns1:UCUMcs, + "eV/T"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot Pound Force Second"@en ; + dcterms:description "\"Foot Pound Force Second\" is a unit for 'Angular Momentum' expressed as \\(lbf / s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:expression "\\(lbf / s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lbf/s"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av].s"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Knot per Second"@en ; - dcterms:description "\\(\\textit{Knot per Second}\\) is a unit for 'Linear Acceleration' expressed as \\(kt/s\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.5144444444444445 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(kt/s\\)"^^ns1:LatexString ; + rdfs:label "Foot per Square Second"@en ; + dcterms:description "\\(\\textit{Foot per Square Second}\\) is an Imperial unit for \\(\\textit{Linear Acceleration}\\) expressed as \\(ft/s^2\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.3048 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft/s^{2}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; - ns1:symbol "kn/s"^^xsd:string ; - ns1:ucumCode "[kn_i].s-1"^^ns1:UCUMcs, - "[kn_i]/s"^^ns1:UCUMcs ; + ns1:iec61360Code "0112/2///62720#UAA452"^^xsd:string ; + ns1:symbol "ft/s²"^^xsd:string ; + ns1:ucumCode "[ft_i].s-2"^^ns1:UCUMcs, + "[ft_i]/s2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A73"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilogauss"@en ; - dcterms:description "1 000-fold of the CGS unit of the magnetic flux density B"^^rdf:HTML ; - ns1:conversionMultiplier 0.1 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB136"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the CGS unit of the magnetic flux density B"^^xsd:string ; - ns1:symbol "kGs"^^xsd:string ; - ns1:ucumCode "kG"^^ns1:UCUMcs ; - ns1:uneceCommonCode "78"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Foot Per Day"@en ; + dcterms:description "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 3.277413e-07, + 0.0000003277413 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA458"^^xsd:string ; + ns1:plainTextDescription "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^xsd:string ; + ns1:symbol "ft³/day"^^xsd:string ; + ns1:ucumCode "[cft_i].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K22"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:Unit ; + rdfs:label "Cubic Foot Per Hour"@en ; + dcterms:description "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 7.865792e-06, + 0.000007865792 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA459"^^xsd:string ; + ns1:plainTextDescription "power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^xsd:string ; + ns1:symbol "ft³/hr"^^xsd:string ; + ns1:ucumCode "[cft_i].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2K"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Kilogramm mal Meter je Sekunde"@de, - "kilogram metre per second"@en, - "Kilogram Meter Per Second"@en-us, - "کیلوگرم متر بر ثانیه"@fa, - "chilogrammo per metro al secondo"@it, - "kilogram meter per saat"@ms, - "kilogram meter na sekundo"@sl, - "千克米每秒"@zh ; - dcterms:description "\"Kilogram Meter Per Second\" is a unit for 'Linear Momentum' expressed as \\(kg-m/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(kg-m/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA615"^^xsd:string ; - ns1:symbol "kg⋅m/s"^^xsd:string ; - ns1:ucumCode "kg.m.s-1"^^ns1:UCUMcs, - "kg.m/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B31"^^xsd:string ; + rdfs:label "Cubic Foot per Minute"@en ; + dcterms:description "\"Cubic Foot per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(ft^3/min\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0004719474432000001 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft^{3}/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA461"^^xsd:string ; + ns1:symbol "ft³/min"^^xsd:string ; + ns1:ucumCode "[cft_i].min-1"^^ns1:UCUMcs, + "[cft_i]/min"^^ns1:UCUMcs, + "[ft_i]3.min-1"^^ns1:UCUMcs, + "[ft_i]3/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2L"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Kilogram Square Metre Per Second"@en, - "Kilogram Square Meter Per Second"@en-us ; - dcterms:description "\"Kilogram Square Meter Per Second\" is a unit for 'Angular Momentum' expressed as \\(kg-m^2-s^{-1}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(kg-m2/sec\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA623"^^xsd:string ; - ns1:symbol "kg⋅m²/s"^^xsd:string ; - ns1:ucumCode "kg.m2.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B33"^^xsd:string ; + rdfs:label "Cubic Foot per Second"@en ; + dcterms:description "\"Cubic Foot per Second\" is an Imperial unit for \\( \\textit{Volume Per Unit Time}\\) expressed as \\(ft^3/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.028316846592000004 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft^{3}/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA462"^^xsd:string ; + ns1:symbol "ft³/s"^^xsd:string ; + ns1:ucumCode "[cft_i].s-1"^^ns1:UCUMcs, + "[cft_i]/s"^^ns1:UCUMcs, + "[ft_i]3.s-1"^^ns1:UCUMcs, + "[ft_i]3/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E17"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilogram Per Kilogram"@en ; - dcterms:description "SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Femtograms per kilogram"@en ; + dcterms:description "One part per 10**18 by mass of the measurand in the matrix."@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA610"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; - ns1:symbol "kg/kg"^^xsd:string ; - ns1:ucumCode "kg.kg-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "3H"^^xsd:string ; + ns1:symbol "fg/kg"^^xsd:string ; + ns1:ucumCode "fg.kg-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilogram per Square Metre"@en, - "Kilogram per Square Meter"@en-us ; - dcterms:description "Kilogram Per Square Meter (kg/m2) is a unit in the category of Surface density. It is also known as kilograms per square meter, kilogram per square metre, kilograms per square metre, kilogram/square meter, kilogram/square metre. This unit is commonly used in the SI unit system. Kilogram Per Square Meter (kg/m2) has a dimension of ML-2 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(kg/m^2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA617"^^xsd:string ; - ns1:symbol "kg/m²"^^xsd:string ; - ns1:ucumCode "kg.m-2"^^ns1:UCUMcs, - "kg/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "28"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilohertz Metre"@en, - "Kilohertz Meter"@en-us ; - dcterms:description "product of the 1 000-fold of the SI derived unit hertz and the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA567"^^xsd:string ; - ns1:plainTextDescription "product of the 1 000-fold of the SI derived unit hertz and the SI base unit metre"^^xsd:string ; - ns1:symbol "kHz⋅m"^^xsd:string ; - ns1:ucumCode "kHz.m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M17"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Gravity"@en ; + dcterms:description "\"Gravity\" is a unit for 'Linear Acceleration' expressed as \\(G\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 9.80665 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "G"^^xsd:string ; + ns1:ucumCode "[g]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K40"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilopascal Square Metre per Gram"@en, - "Kilopascal Square Meter per Gram"@en-us ; - dcterms:description "sector-specific unit of the burst index as 1 000-fold of the derived unit for pressure pascal related to the substance, represented as a quotient from the 0.001-fold of the SI base unit kilogram divided by the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Galileo"@en ; + dcterms:description "The \\(\\textit{Galileo}\\) is the unit of acceleration of free fall used extensively in the science of gravimetry. The Galileo is defined as \\(1 \\textit{centimeter per square second}\\) (\\(1 cm/s^2\\)). Unfortunately, the Galileo is often denoted with the symbol Gal, not to be confused with the Gallon that also uses the same symbol."^^ns1:LatexString ; ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; + ; + ns1:conversionMultiplier 0.01 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gal"^^xsd:anyURI ; + ns1:derivedUnitOfSystem , + ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; - ns1:iec61360Code "0112/2///62720#UAB130"^^xsd:string ; - ns1:plainTextDescription "sector-specific unit of the burst index as 1 000-fold of the derived unit for pressure pascal related to the substance, represented as a quotient from the 0.001-fold of the SI base unit kilogram divided by the power of the SI base unit metre by exponent 2"^^xsd:string ; - ns1:symbol "kPa⋅m²/g"^^xsd:string ; - ns1:ucumCode "kPa.m2.g-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "33"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gal?oldid=482010741"^^xsd:anyURI ; + ns1:omUnit ; + ns1:plainTextDescription "CGS unit of acceleration called gal with the definition: 1 Gal = 1 cm/s"^^xsd:string ; + ns1:symbol "Gal"^^xsd:string ; + ns1:ucumCode "Gal"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A76"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Litre"@en, - "Liter"@en-us ; - dcterms:description "The \\(litre\\) (American spelling: \\(\\textit{liter}\\); SI symbol \\(l\\) or \\(L\\)) is a non-SI metric system unit of volume equal to \\(1 \\textit{cubic decimetre}\\) (\\(dm^3\\)), 1,000 cubic centimetres (\\(cm^3\\)) or \\(1/1000 \\textit{cubic metre}\\). If the lower case \"L\" is used as the symbol, it is sometimes rendered as a cursive \"l\" to help distinguish it from the capital \"I\", although this usage has no official approval by any international bureau."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Litre"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Litre?oldid=494846400"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "L"^^xsd:string ; - ns1:ucumCode "L"^^ns1:UCUMcs, - "l"^^ns1:UCUMcs ; - ns1:udunitsCode "L"^^xsd:string ; - ns1:uneceCommonCode "LTR"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "litre"^^xsd:string . + a ns1:Unit ; + rdfs:label "Gallon (UK) Per Day"@en ; + dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000005261678, + 5.261678e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA501"^^xsd:string ; + ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit day"^^xsd:string ; + ns1:symbol "gal{UK}/day"^^xsd:string ; + ns1:ucumCode "[gal_br].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K26"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Litre Per Kilogram"@en, - "Liter Per Kilogram"@en-us ; - dcterms:description "unit of the volume litre divided by the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB380"^^xsd:string ; - ns1:plainTextDescription "unit of the volume litre divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "L/kg"^^xsd:string ; - ns1:ucumCode "L.kg-1"^^ns1:UCUMcs, - "L/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H83"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Gallon (UK) Per Hour"@en ; + dcterms:description "unit gallon (UK dry or Liq.) according to the Imperial system of units divided by the SI unit hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000001262803, + 1.262803e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA502"^^xsd:string ; + ns1:plainTextDescription "unit gallon (UK dry or Liq.) according to the Imperial system of units divided by the SI unit hour"^^xsd:string ; + ns1:symbol "gal{UK}/hr"^^xsd:string ; + ns1:ucumCode "[gal_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K27"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:Unit ; + rdfs:label "Gallon (UK) Per Minute"@en ; + dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 7.576817e-05, + 0.00007576817 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA503"^^xsd:string ; + ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI unit minute"^^xsd:string ; + ns1:symbol "gal{UK}/min"^^xsd:string ; + ns1:ucumCode "[gal_br].m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G3"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gallon (UK) Per Second"@en ; + dcterms:description "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00454609 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA504"^^xsd:string ; + ns1:plainTextDescription "unit gallon (UK dry or liq.) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "gal{UK}/s"^^xsd:string ; + ns1:ucumCode "[gal_br].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K28"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "لكس"@ar, - "лукс"@bg, - "lux"@cs, - "Lux"@de, - "lux"@el, - "lux"@en, - "lux"@es, - "لوکس"@fa, - "lux"@fr, - "לוקס"@he, - "लक्स"@hi, - "lux"@hu, - "lux"@it, - "ルクス"@ja, - "lux"@ms, - "luks"@pl, - "lux"@pt, - "lux"@ro, - "люкс"@ru, - "luks"@sl, - "lüks"@tr, - "勒克斯"@zh ; - dcterms:description "The SI unit for measuring the illumination (illuminance) of a surface. One lux is defined as an illumination of one lumen per square meter or 0.0001 phot. In considering the various light units, it's useful to think about light originating at a point and shining upon a surface. The intensity of the light source is measured in candelas; the total light flux in transit is measured in lumens (1 lumen = 1 candelau00b7steradian); and the amount of light received per unit of surface area is measured in lux (1 lux = 1 lumen/square meter). One lux is equal to approximately 0.09290 foot candle."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Lux"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA723"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Lux?oldid=494700274"^^xsd:anyURI ; - ns1:omUnit ; - ns1:siUnitsExpression "lm/m^2"^^xsd:string ; - ns1:symbol "lx"^^xsd:string ; - ns1:ucumCode "lx"^^ns1:UCUMcs ; - ns1:udunitsCode "lx"^^xsd:string ; - ns1:uneceCommonCode "LUX"^^xsd:string ; + rdfs:label "US Gallon per Day"@en ; + dcterms:description "\"US Gallon per Day\" is a unit for 'Volume Per Unit Time' expressed as \\(gal/d\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0000000438126389, + 4.381264e-08 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(gal/d\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "gal/day"^^xsd:string ; + ns1:ucumCode "[gal_us].d-1"^^ns1:UCUMcs, + "[gal_us]/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GB"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:Unit ; + rdfs:label "Gallon (US) Per Hour"@en ; + dcterms:description "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI unit hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000001051503, + 1.051503e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA507"^^xsd:string ; + ns1:plainTextDescription "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI unit hour"^^xsd:string ; + ns1:symbol "gal{US}/hr"^^xsd:string ; + ns1:ucumCode "[gal_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G50"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Square Metre per Kilogram"@en, - "Square Meter per Kilogram"@en-us ; - dcterms:description "Square Meter Per Kilogram (m2/kg) is a unit in the category of Specific Area. It is also known as square meters per kilogram, square metre per kilogram, square metres per kilogram, square meter/kilogram, square metre/kilogram. This unit is commonly used in the SI unit system. Square Meter Per Kilogram (m2/kg) has a dimension of M-1L2 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; + rdfs:label "US Gallon per Minute"@en ; + dcterms:description "\"US Gallon per Minute\" is a C.G.S System unit for 'Volume Per Unit Time' expressed as \\(gal/min\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 6.30902e-05, + 0.0000630902 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(gal/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "gal/min"^^xsd:string ; + ns1:ucumCode "[gal_us].min-1"^^ns1:UCUMcs, + "[gal_us]/min"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gallon (US Liquid) Per Second"@en ; + dcterms:description "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.003785412 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA509"^^xsd:string ; + ns1:plainTextDescription "unit gallon (US, liq.) according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "gal{US}/s"^^xsd:string ; + ns1:ucumCode "[gal_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K30"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (UK) Per Day"@en ; + dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.644274e-09, + 0.000000001644274 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA512"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "gill{UK}/day"^^xsd:string ; + ns1:ucumCode "[gil_br].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K32"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (UK) Per Hour"@en ; + dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 3.946258e-08, + 0.00000003946258 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA513"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "gill{UK}/hr"^^xsd:string ; + ns1:ucumCode "[gil_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K33"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (UK) Per Minute"@en ; + dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 2.367755e-06, + 0.000002367755 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA514"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "gill{UK}/min"^^xsd:string ; + ns1:ucumCode "[gil_br].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K34"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (UK) Per Second"@en ; + dcterms:description "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0001420653 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA515"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "gill{UK}/s"^^xsd:string ; + ns1:ucumCode "[gil_br].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K35"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (US) Per Day"@en ; + dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000001369145, + 1.369145e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA517"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "gill{US}/day"^^xsd:string ; + ns1:ucumCode "[gil_us].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K36"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (US) Per Hour"@en ; + dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000003285947, + 3.285947e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA518"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "gill{US}/hr"^^xsd:string ; + ns1:ucumCode "[gil_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K37"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (US) Per Minute"@en ; + dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.971568e-06, + 0.000001971568 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA519"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "gill{US}/min"^^xsd:string ; + ns1:ucumCode "[gil_us].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K38"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gill (US) Per Second"@en ; + dcterms:description "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0001182941 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA520"^^xsd:string ; + ns1:plainTextDescription "unit of the volume gill (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "gill{US}/s"^^xsd:string ; + ns1:ucumCode "[gil_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K39"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gram Per Gram"@en ; + dcterms:description "mass ratio consisting of the 0.001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram."^^rdf:HTML ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(m^2/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA750"^^xsd:string ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:symbol "m²/kg"^^xsd:string ; - ns1:ucumCode "m2.kg-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D21"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "g/g"^^xsd:string ; + ns1:ucumCode "g.g-1"^^ns1:UCUMcs, + "g/g"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "متر مكعب"@ar, - "кубичен метър"@bg, - "metr krychlový"@cs, - "Kubikmeter"@de, - "κυβικό μετρο"@el, - "cubic metre"@en, - "Cubic Meter"@en-us, - "metro cúbico"@es, - "متر مکعب"@fa, - "mètre cube"@fr, - "מטר מעוקב"@he, - "घन मीटर"@hi, - "metro cubo"@it, - "立方メートル"@ja, - "metrum cubicum"@la, - "meter kubik"@ms, - "metr sześcienny"@pl, - "metro cúbico"@pt, - "metru cub"@ro, - "кубический метр"@ru, - "kubični meter"@sl, - "metreküp"@tr, - "立方米"@zh ; - dcterms:description "The SI unit of volume, equal to 1.0e6 cm3, 1000 liters, 35.3147 ft3, or 1.30795 yd3. A cubic meter holds about 264.17 U.S. liquid gallons or 219.99 British Imperial gallons."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Gram Per Kilogram"@en ; + dcterms:description "0,001 fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Cubic_metre"^^xsd:anyURI ; - ns1:expression "\\(m^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA757"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Cubic_metre?oldid=490956678"^^xsd:anyURI ; - ns1:symbol "m³"^^xsd:string ; - ns1:ucumCode "m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MTQ"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA481"^^xsd:string ; + ns1:plainTextDescription "0,001 fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "g/kg"^^xsd:string ; + ns1:ucumCode "g.kg-1"^^ns1:UCUMcs, + "g/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GK"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Metre per Kilogram"@en, - "Cubic Meter per Kilogram"@en-us ; - dcterms:description "Cubic Meter Per Kilogram (m3/kg) is a unit in the category of Specific volume. It is also known as cubic meters per kilogram, cubic metre per kilogram, cubic metres per kilogram, cubic meter/kilogram, cubic metre/kilogram. This unit is commonly used in the SI unit system. Cubic Meter Per Kilogram (m3/kg) has a dimension of M-1L3 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Gross Tonnage"@en ; + dcterms:description "The formula for calculating GT is given by \\({ GT=V\\times (0.2+0.02\\times \\log _{10}(V))}\\)"^^ns1:LatexString, + "The formula for calculating GT is given by \\({ GT=V\\times (0.2+0.02\\times \\log _{10}(V))}\\)"^^xsd:string ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://www.imo.org/en/About/Conventions/ListOfConventions/Pages/International-Convention-on-Tonnage-Measurement-of-Ships.aspx"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Gross_tonnage"^^xsd:anyURI ; + ns1:latexDefinition "\\({ GT=V\\times (0.2+0.02\\times \\log _{10}(V))}\\) where V is measured in cubic meters."^^ns1:LatexString ; + ns1:plainTextDescription "Gross tonnage (GT, G.T. or gt) is a nonlinear measure of a ship's overall internal volume. Gross tonnage is different from gross register tonnage. Gross tonnage is used to determine things such as a ship's manning regulations, safety rules, registration fees, and port dues, whereas the older gross register tonnage is a measure of the volume of only certain enclosed spaces."^^xsd:string ; + ns1:symbol "G.T."^^xsd:string ; + ns1:ucumCode "t{gross}"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GT"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Gigahertz"@en ; + dcterms:description "The hertz (symbol Hz) is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon. A GigaHertz is \\(10^{9} hz\\)."^^ns1:LatexString ; ns1:applicableSystem , , + , + , + , + ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Hertz"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA150"^^xsd:string ; + ns1:prefix ; + ns1:symbol "GHz"^^xsd:string ; + ns1:ucumCode "GHz"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A86"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Henry per Metre"@en, + "Henry per Meter"@en-us ; + dcterms:description "The henry per meter (symbolized \\(H/m\\)) is the unit of magnetic permeability in the International System of Units ( SI ). Reduced to base units in SI, \\(1\\,H/m\\) is the equivalent of one kilogram meter per square second per square ampere."^^ns1:LatexString ; + ns1:applicableSystem , , ; ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m^{3}/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA766"^^xsd:string ; - ns1:symbol "m³/kg"^^xsd:string ; - ns1:ucumCode "m3.kg-1"^^ns1:UCUMcs, - "m3/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A39"^^xsd:string ; + ns1:expression "\\(H/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA168"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Henry?oldid=491435978"^^xsd:anyURI ; + ns1:symbol "H/m"^^xsd:string ; + ns1:ucumCode "H.m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A98"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "متر مكعب لكل مول"@ar, - "metr krychlový na mol"@cs, - "Kubikmeter je Mol"@de, - "cubic metre per mole"@en, - "Cubic Meter per Mole"@en-us, - "metro cúbico por mol"@es, - "متر مکعب بر مول"@fa, - "mètre cube par mole"@fr, - "घन मीटर प्रति मोल (इकाई)"@hi, - "metro cubo alla mole"@it, - "立方メートル 毎立方メートル"@ja, - "meter kubik per mole"@ms, - "metr sześcienny na mol"@pl, - "metro cúbico por mol"@pt, - "metru cub pe mol"@ro, - "кубический метр на моль"@ru, - "kubični meter na mol"@sl, - "metreküp bölü metre küp"@tr, - "立方米每摩尔"@zh ; - dcterms:description "

The molar volume, symbol \\(Vm\\), is the volume occupied by one mole of a substance (chemical element or chemical compound) at a given temperature and pressure. It is equal to the molar mass (M) divided by the mass density. It has the SI unit cubic metres per mole \\(m3/mol\\), although it is more practical to use the units cubic decimetres per mole \\(dm3/mol\\) for gases and cubic centimetres per mole \\(cm3/mol\\) for liquids and solids

."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m^{3} mol^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA771"^^xsd:string ; - ns1:symbol "m³/mol"^^xsd:string ; - ns1:ucumCode "m3.mol-1"^^ns1:UCUMcs, - "m3/mol"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A40"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Inch per Square second"@en ; + dcterms:description "\\(\\textit{Inch per Square second}\\) is an Imperial unit for \\(\\textit{Linear Acceleration}\\) expressed as \\(in/s^2\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0254 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(in/s2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB044"^^xsd:string ; + ns1:symbol "in/s²"^^xsd:string ; + ns1:ucumCode "[in_i].s-2"^^ns1:UCUMcs, + "[in_i]/s2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "IV"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "مول"@ar, - "мол"@bg, - "mol"@cs, - "Mol"@de, - "μολ"@el, - "mole"@en, - "mol"@es, - "مول"@fa, - "mole"@fr, - "מול"@he, - "मोल (इकाई)"@hi, - "mól"@hu, - "mole"@it, - "モル"@ja, - "moles"@la, - "mole"@ms, - "mol"@pl, - "mol"@pt, - "mol"@ro, - "моль"@ru, - "mol"@sl, - "mol"@tr, - "摩尔"@zh ; - dcterms:description "The mole is a unit of measurement used in chemistry to express amounts of a chemical substance. The official definition, adopted as part of the SI system in 1971, is that one mole of a substance contains just as many elementary entities (atoms, molecules, ions, or other kinds of particles) as there are atoms in 12 grams of carbon-12 (carbon-12 is the most common atomic form of carbon, consisting of atoms having 6 protons and 6 neutrons). This corresponds to a value of \\(6.02214179(30) \\times 10^{23}\\) elementary entities of the substance. It is one of the base units in the International System of Units, and has the unit symbol \\(mol\\). A Mole is the SI base unit of the amount of a substance (as distinct from its mass or weight). Moles measure the actual number of atoms or molecules in an object. An earlier name is gram molecular weight, because one mole of a chemical compound is the same number of grams as the molecular weight of a molecule of that compound measured in atomic mass units."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Mole_%28unit%29"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA882"^^xsd:string, - "0112/2///62720#UAD716"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Mole_(unit)"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "mol"^^xsd:string ; - ns1:ucumCode "mol"^^ns1:UCUMcs ; - ns1:udunitsCode "mol"^^xsd:string ; - ns1:uneceCommonCode "C34"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Inch Per Hour"@en ; + dcterms:description "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 4.551961e-09, + 0.000000004551961 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA550"^^xsd:string ; + ns1:plainTextDescription "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit hour"^^xsd:string ; + ns1:symbol "in³/hr"^^xsd:string ; + ns1:ucumCode "[cin_i].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G56"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megajoule Per Square Metre"@en, - "Megajoule Per Square Meter"@en-us ; - dcterms:description "MegaJoule Per Square Meter (\\(MegaJ/m^2\\)) is a unit in the category of Energy density."^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Cubic Inch per Minute"@en ; + dcterms:description "\"Cubic Inch per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(in^{3}/min\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 2.731177e-07, + 0.00000027311773333333333 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(in^{3}/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA551"^^xsd:string ; + ns1:symbol "in³/min"^^xsd:string ; + ns1:ucumCode "[cin_i].min-1"^^ns1:UCUMcs, + "[cin_i]/min"^^ns1:UCUMcs, + "[in_i]3.min-1"^^ns1:UCUMcs, + "[in_i]3/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G57"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Cubic Inch Per Second"@en ; + dcterms:description "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00001638706, + 1.638706e-05 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA552"^^xsd:string ; + ns1:plainTextDescription "power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "in³/s"^^xsd:string ; + ns1:ucumCode "[cin_i].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G58"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Joule Per Square Centimetre"@en, + "Joule Per Square Centimeter"@en-us ; + dcterms:description "derived SI unit joule divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 10000.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:plainTextDescription "1,000,000-fold of the SI derived unit joule divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "MJ/m²"^^xsd:string ; - ns1:ucumCode "MJ.m-2"^^ns1:UCUMcs ; + ns1:iec61360Code "0112/2///62720#UAB188"^^xsd:string ; + ns1:plainTextDescription "derived SI unit joule divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; + ns1:symbol "J/cm²"^^xsd:string ; + ns1:ucumCode "J.cm-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E43"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microgravity"@en ; - dcterms:description "\"Microgravity\" is a unit for 'Linear Acceleration' expressed as \\(microG\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 9.80665e-06 ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "جول لكل كلفن"@ar, + "joule na kelvin"@cs, + "Joule je Kelvin"@de, + "Joule per Kelvin"@en, + "joule per kelvin"@en, + "julio por kelvin"@es, + "ژول بر کلوین"@fa, + "joule par kelvin"@fr, + "जूल प्रति कैल्विन"@hi, + "joule al kelvin"@it, + "ジュール毎立方メートル"@ja, + "joule per kelvin"@ms, + "dżul na kelwin"@pl, + "joule por kelvin"@pt, + "joule pe kelvin"@ro, + "джоуль на кельвин"@ru, + "joule na kelvin"@sl, + "joule bölü kelvin"@tr, + "焦耳每开尔文"@zh ; + dcterms:description "Joule Per Kelvin (J/K) is a unit in the category of Entropy. It is also known as joules per kelvin, joule/kelvin. This unit is commonly used in the SI unit system. Joule Per Kelvin (J/K) has a dimension of \\(ML^{2}T^{-2}Q^{-1}\\( where \\(M\\) is mass, L is length, T is time, and Q is temperature. This unit is the standard SI unit in this category."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J/K\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA173"^^xsd:string ; + ns1:symbol "J/K"^^xsd:string ; + ns1:ucumCode "J.K-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "JE"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Joule per Mole Kelvin"@en ; + dcterms:description "Energy needed to heat one mole of substance by 1 Kelvin, under standard conditions (not standard temperature and pressure STP). The standard molar entropy is usually given the symbol S, and has units of joules per mole kelvin ( \\( J\\cdot mol^{-1} K^{-1}\\)). Unlike standard enthalpies of formation, the value of S is an absolute. That is, an element in its standard state has a nonzero value of S at room temperature."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J/(mol-K)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA184"^^xsd:string ; + ns1:symbol "J/(mol⋅K)"^^xsd:string ; + ns1:ucumCode "J.mol-1.K-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B16"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Knot per Second"@en ; + dcterms:description "\\(\\textit{Knot per Second}\\) is a unit for 'Linear Acceleration' expressed as \\(kt/s\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.5144444444444445 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(kt/s\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; - ns1:latexSymbol "\\(\\mu G\\)"^^ns1:LatexString ; - ns1:symbol "µG"^^xsd:string ; - ns1:ucumCode "u[g]"^^ns1:UCUMcs ; + ns1:symbol "kn/s"^^xsd:string ; + ns1:ucumCode "[kn_i].s-1"^^ns1:UCUMcs, + "[kn_i]/s"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Micrograms per gram"@en ; - dcterms:description "One part per 10**6 (million) by mass of the measurand in the matrix."@en ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kayser"@en ; ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "µg/g"^^xsd:string ; - ns1:ucumCode "ug.g-1"^^ns1:UCUMcs ; + ; + ns1:conversionMultiplier 100.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kayser"^^xsd:anyURI ; + ns1:derivedUnitOfSystem , + ; + ns1:expression "\\(\\(cm^{-1}\\)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kayser?oldid=458489166"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "K"^^xsd:string ; + ns1:ucumCode "Ky"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microgram Per Kilogram"@en ; - dcterms:description "mass ratio as 0.000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilo British Thermal Unit (thermochemical) Per Hour"@en ; + dcterms:description "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 292.9 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "unit of the heat energy according to the Imperial system of units divided by the unit hour"^^xsd:string ; + ns1:symbol "kBtu{th}/hr"^^xsd:string ; + ns1:ucumCode "k[Btu_th].h-1"^^ns1:UCUMcs, + "k[Btu_th]/h"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilocalorie (thermochemical) Per Hour"@en ; + dcterms:description "1 000-fold of the non-legal unit thermochemical calorie divided by the unit hour"^^rdf:HTML ; ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA083"^^xsd:string ; - ns1:plainTextDescription "mass ratio as 0.000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "μg/kg"^^xsd:string ; - ns1:ucumCode "ug.kg-1"^^ns1:UCUMcs, - "ug/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J33"^^xsd:string ; + , + ; + ns1:conversionMultiplier 1.162230555555556 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB184"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the non-legal unit thermochemical calorie divided by the unit hour"^^xsd:string ; + ns1:symbol "kcal{th}/hr"^^xsd:string ; + ns1:ucumCode "kcal_th.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E15"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microtesla"@en ; - dcterms:description "0.000001-fold of the SI derived unit tesla"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1e-06 ; + a ns1:Unit ; + rdfs:label "Kilocalorie (thermochemical) Per Minute"@en ; + dcterms:description "1000-fold of the unit calorie divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 69.73383333333334 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA591"^^xsd:string ; + ns1:plainTextDescription "1000-fold of the unit calorie divided by the unit minute"^^xsd:string ; + ns1:symbol "kcal{th}/min"^^xsd:string ; + ns1:ucumCode "kcal_th.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K54"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilocalorie (thermochemical) Per Second"@en ; + dcterms:description "1000-fold of the unit calorie divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4184.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA592"^^xsd:string ; + ns1:plainTextDescription "1000-fold of the unit calorie divided by the SI base unit second"^^xsd:string ; + ns1:symbol "kcal{th}/s"^^xsd:string ; + ns1:ucumCode "kcal_th.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K55"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilogauss"@en ; + dcterms:description "1 000-fold of the CGS unit of the magnetic flux density B"^^rdf:HTML ; + ns1:conversionMultiplier 0.1 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA077"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit tesla"^^xsd:string ; - ns1:prefix ; - ns1:symbol "µT"^^xsd:string ; - ns1:ucumCode "uT"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D81"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAB136"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the CGS unit of the magnetic flux density B"^^xsd:string ; + ns1:symbol "kGs"^^xsd:string ; + ns1:ucumCode "kG"^^ns1:UCUMcs ; + ns1:uneceCommonCode "78"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Milligravity"@en ; - dcterms:description "\"Milligravity\" is a unit for 'Linear Acceleration' expressed as \\(mG\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 0.00980665 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mG"^^xsd:string ; - ns1:ucumCode "m[g]"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Milligal"@en ; - dcterms:description "0.001-fold of the unit of acceleration called gal according to the CGS system of units"^^rdf:HTML ; - ns1:conversionMultiplier 1e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB043"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the unit of acceleration called gal according to the CGS system of units"^^xsd:string ; - ns1:symbol "mgal"^^xsd:string ; - ns1:ucumCode "mGal"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C11"^^xsd:string ; + rdfs:label "Kilogramm mal Meter je Sekunde"@de, + "Kilogram Metre Per Second"@en, + "kilogram metre per second"@en, + "Kilogram Meter Per Second"@en-us, + "کیلوگرم متر بر ثانیه"@fa, + "chilogrammo per metro al secondo"@it, + "kilogram meter per saat"@ms, + "kilogram meter na sekundo"@sl, + "千克米每秒"@zh ; + dcterms:description "\"Kilogram Meter Per Second\" is a unit for 'Linear Momentum' expressed as \\(kg-m/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(kg-m/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA615"^^xsd:string ; + ns1:symbol "kg⋅m/s"^^xsd:string ; + ns1:ucumCode "kg.m.s-1"^^ns1:UCUMcs, + "kg.m/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B31"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Gram"@en ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilogram Square Metre Per Second"@en, + "Kilogram Square Meter Per Second"@en-us ; + dcterms:description "\"Kilogram Square Meter Per Second\" is a unit for 'Angular Momentum' expressed as \\(kg-m^2-s^{-1}\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA822"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "mg/gm"^^xsd:string ; - ns1:ucumCode "mg.g-1"^^ns1:UCUMcs, - "mg/g"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H64"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(kg-m2/sec\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA623"^^xsd:string ; + ns1:symbol "kg⋅m²/s"^^xsd:string ; + ns1:ucumCode "kg.m2.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B33"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Kilogram"@en ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilogram Per Kilogram"@en ; + dcterms:description "SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA826"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA610"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; ns1:qkdvDenominator ; ns1:qkdvNumerator ; - ns1:symbol "mg/kg"^^xsd:string ; - ns1:ucumCode "mg.kg-1"^^ns1:UCUMcs, - "mg/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "NA"^^xsd:string ; + ns1:symbol "kg/kg"^^xsd:string ; + ns1:ucumCode "kg.kg-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "3H"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millilitre per Gram"@en, - "Milliliter per Gram"@en-us ; - dcterms:description "Milliliter Per Gram (mm3/g) is a unit in the category of Specific Volume. It is also known as milliliters per gram, millilitre per gram, millilitres per gram, milliliter/gram, millilitre/gram."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilograms per square kilometre"@en ; + dcterms:description "One SI standard unit of mass over the square of one thousand standard unit of length."@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.001 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(mL/g\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mL/g"^^xsd:string ; - ns1:ucumCode "mL.g-1"^^ns1:UCUMcs, - "mL/g"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "kg/km²"^^xsd:string ; + ns1:ucumCode "kg.km-2"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Cubic Millimetre per Gram"@en, - "Cubic Millimeter per Gram"@en-us ; - dcterms:description "Cubic Millimeter Per Gram (mm3/g) is a unit in the category of Specific Volume. It is also known as cubic millimeters per gram, cubic millimetre per gram, cubic millimetres per gram, cubic millimeter/gram, cubic millimetre/gram."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilograms per square metre per second"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.000001 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(mm^{3}/g\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mm³/g"^^xsd:string ; - ns1:ucumCode "mm3.g-1"^^ns1:UCUMcs, - "mm3/g"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cubic Millimetre per Kilogram"@en, - "Cubic Millimeter per Kilogram"@en-us ; - dcterms:description "Cubic Millimeter Per Kilogram (mm3/kg) is a unit in the category of Specific Volume. It is also known as cubic millimeters per kilogram, cubic millimetre per kilogram, cubic millimetres per kilogram, cubic millimeter/kilogram, cubic millimetre/kilogram."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.000000001 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(mm^{3}/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mm³/kg"^^xsd:string ; - ns1:ucumCode "mm3.kg-1"^^ns1:UCUMcs, - "mm3/kg"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kg/(m²⋅s)"^^xsd:string ; + ns1:ucumCode "kg.m-2.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H56"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Millitesla"@en ; - dcterms:description "0.001-fold of the SI derived unit tesla"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Kilogram Per Second Per Square Metre"@en, + "Kilogram Per Second Per Square Meter"@en-us ; + dcterms:description "SI base unit kilogram divided by the product of the power of the SI base unit metre with the exponent 2 and the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA803"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit tesla"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mT"^^xsd:string ; - ns1:ucumCode "mT"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C29"^^xsd:string ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA618"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the product of the power of the SI base unit metre with the exponent 2 and the SI base unit second"^^xsd:string ; + ns1:symbol "kg/(s⋅m²)"^^xsd:string ; + ns1:ucumCode "kg.(s.m2)-1"^^ns1:UCUMcs, + "kg.s-1.m-2"^^ns1:UCUMcs, + "kg/(s.m2)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H56"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "نيوتن متر"@ar, - "нютон-метър"@bg, - "newton metr"@cs, - "Newtonmeter"@de, - "νιούτον επί μέτρο; νιουτόμετρο"@el, - "newton metre"@en, - "Newton Meter"@en-us, - "newton metro"@es, - "نیوتون متر"@fa, - "newton-mètre"@fr, - "न्यूटन मीटर"@hi, - "newton per metro"@it, - "ニュートンメートル"@ja, - "newton meter"@ms, - "niutonometr; dżul na radian"@pl, - "newton-metro"@pt, - "newton-metru"@ro, - "ньютон-метр"@ru, - "newton meter"@sl, - "newton metre"@tr, - "牛米"@zh ; - dcterms:description "\"Torque\" is the tendency of a force to cause a rotation, is the product of the force and the distance from the center of rotation to the point where the force is applied. Torque has the same units as work or energy, but it is a different physical concept. To stress the difference, scientists measure torque in newton meters rather than in joules, the SI unit of work. One newton meter is approximately 0.737562 pound foot."^^rdf:HTML ; + rdfs:label "Kilohertz"@en ; + dcterms:description "\"Kilohertz\" is a C.G.S System unit for 'Frequency' expressed as \\(KHz\\)."^^ns1:LatexString ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Newton_metre"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA239"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Newton_metre?oldid=493923333"^^xsd:anyURI ; - ns1:siUnitsExpression "N.m"^^xsd:string ; - ns1:symbol "N⋅m"^^xsd:string ; - ns1:ucumCode "N.m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "NU"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA566"^^xsd:string ; + ns1:prefix ; + ns1:symbol "kHz"^^xsd:string ; + ns1:ucumCode "kHz"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KHZ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "نيوتن متر ثانية"@ar, - "newton metr sekunda"@cs, - "Newtonmetersekunde"@de, - "newton metre second"@en, - "Newton Meter Second"@en-us, - "newton metro segundo"@es, - "نیوتون ثانیه"@fa, - "newton-mètre-seconde"@fr, - "न्यूटन मीटर सैकण्ड"@hi, - "newton per metro per secondo"@it, - "ニュートンメートル秒"@ja, - "newton meter saat"@ms, - "niutonometrosekunda"@pl, - "newton-metro-segundo"@pt, - "newton-metru-secundă"@ro, - "ньютон-метр-секунда"@ru, - "newton metre saniye"@tr, - "牛秒"@zh ; - dcterms:description "The SI derived unit of angular momentum. "^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilohertz Metre"@en, + "Kilohertz Meter"@en-us ; + dcterms:description "product of the 1 000-fold of the SI derived unit hertz and the SI base unit metre"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Newton_metre"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA245"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/SI_derived_unit"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:siUnitsExpression "N.m.sec"^^xsd:string ; - ns1:symbol "N⋅m⋅s"^^xsd:string ; - ns1:ucumCode "N.m.s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C53"^^xsd:string ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA567"^^xsd:string ; + ns1:plainTextDescription "product of the 1 000-fold of the SI derived unit hertz and the SI base unit metre"^^xsd:string ; + ns1:symbol "kHz⋅m"^^xsd:string ; + ns1:ucumCode "kHz.m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M17"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanogram Per Kilogram"@en ; - dcterms:description "mass ratio consisting of the 0.000000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilolitre Per Hour"@en, + "Kilolitre Per Hour"@en-us ; + dcterms:description "unit of the volume kilolitres divided by the unit hour"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA911"^^xsd:string ; - ns1:plainTextDescription "mass ratio consisting of the 0.000000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "ng/Kg"^^xsd:string ; - ns1:ucumCode "ng.kg-1"^^ns1:UCUMcs, - "ng/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L32"^^xsd:string ; + ns1:conversionMultiplier 0.00277777777778 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB121"^^xsd:string ; + ns1:plainTextDescription "unit of the volume kilolitres divided by the unit hour"^^xsd:string ; + ns1:symbol "kL/hr"^^xsd:string ; + ns1:ucumCode "kL.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "4X"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanotesla"@en ; - dcterms:description "0.000000001-fold of the SI derived unit tesla"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilomol per Kilogram"@en ; + dcterms:description "Kilomole Per Kilogram (\\(kmol/kg\\)) is a unit of Molality"^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1000.0 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(kmol/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "kmol/kg"^^xsd:string ; + ns1:ucumCode "kmol.kg-1"^^ns1:UCUMcs, + "kmol/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P47"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilopascal Square Metre per Gram"@en, + "Kilopascal Square Meter per Gram"@en-us ; + dcterms:description "sector-specific unit of the burst index as 1 000-fold of the derived unit for pressure pascal related to the substance, represented as a quotient from the 0.001-fold of the SI base unit kilogram divided by the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , , ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA909"^^xsd:string ; - ns1:plainTextDescription "0.000000001-fold of the SI derived unit tesla"^^xsd:string ; - ns1:prefix ; - ns1:symbol "nT"^^xsd:string ; - ns1:ucumCode "nT"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C48"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB130"^^xsd:string ; + ns1:plainTextDescription "sector-specific unit of the burst index as 1 000-fold of the derived unit for pressure pascal related to the substance, represented as a quotient from the 0.001-fold of the SI base unit kilogram divided by the power of the SI base unit metre by exponent 2"^^xsd:string ; + ns1:symbol "kPa⋅m²/g"^^xsd:string ; + ns1:ucumCode "kPa.m2.g-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "33"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Reciprocal Second"@en ; - dcterms:description "A reciprical unit of time for \\(\\textit{reciprocal second}\\) or \\(\\textit{inverse second}\\). The \\(\\textit{Per Second}\\) is a unit of rate."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Litre"@en, + "Liter"@en-us ; + dcterms:description "The \\(litre\\) (American spelling: \\(\\textit{liter}\\); SI symbol \\(l\\) or \\(L\\)) is a non-SI metric system unit of volume equal to \\(1 \\textit{cubic decimetre}\\) (\\(dm^3\\)), 1,000 cubic centimetres (\\(cm^3\\)) or \\(1/1000 \\textit{cubic metre}\\). If the lower case \"L\" is used as the symbol, it is sometimes rendered as a cursive \"l\" to help distinguish it from the capital \"I\", although this usage has no official approval by any international bureau."^^ns1:LatexString ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/s"^^xsd:string ; - ns1:ucumCode "/s"^^ns1:UCUMcs, - "s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C97"^^xsd:string ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 0.001 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Litre"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Litre?oldid=494846400"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "L"^^xsd:string ; + ns1:ucumCode "L"^^ns1:UCUMcs, + "l"^^ns1:UCUMcs ; + ns1:udunitsCode "L"^^xsd:string ; + ns1:uneceCommonCode "LTR"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "litre"^^xsd:string . - a ns1:Unit ; - rdfs:label "Phot"@en ; - dcterms:description "A phot (ph) is a photometric unit of illuminance, or luminous flux through an area. It is not an SI unit, but rather is associated with the older centimetre gram second system of units. Metric dimensions: \\(illuminance = luminous intensity \\times solid angle / length\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 10000.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Phot"^^xsd:anyURI ; - ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB255"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Phot?oldid=477198725"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "ph"^^xsd:string ; - ns1:ucumCode "ph"^^ns1:UCUMcs ; - ns1:udunitsCode "ph"^^xsd:string ; - ns1:uneceCommonCode "P26"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Litre Per Day"@en, + "Liter Per Day"@en-us ; + dcterms:description "unit litre divided by the unit day"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000001157407, + 1.157407e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA652"^^xsd:string ; + ns1:plainTextDescription "unit litre divided by the unit day"^^xsd:string ; + ns1:symbol "L/day"^^xsd:string ; + ns1:ucumCode "L.d-1"^^ns1:UCUMcs, + "L/d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "LD"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts Per Million per Kelvin"@en ; - dcterms:description "Unit for expansion ratios expressed as parts per million per Kelvin."^^ns1:LatexString ; - ns1:conversionMultiplier 1e-06 ; - ns1:expression "\\(PPM/K\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "PPM/K"^^xsd:string ; - ns1:ucumCode "ppm.K-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Litre Per Hour"@en, + "Liter Per Hour"@en-us ; + dcterms:description "Unit litre divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000002777778, + 2.777778e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA655"^^xsd:string ; + ns1:plainTextDescription "Unit litre divided by the unit hour"^^xsd:string ; + ns1:symbol "L/hr"^^xsd:string ; + ns1:ucumCode "L.h-1"^^ns1:UCUMcs, + "L/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts Per Ten Million per Kelvin"@en ; - dcterms:description "Unit for expansion ratios expressed as parts per ten million per Kelvin."^^ns1:LatexString ; - ns1:conversionMultiplier 1e-07 ; - ns1:expression "\\(PPTM/K\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "PPTM/K"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Litre Per Kilogram"@en, + "Liter Per Kilogram"@en-us ; + dcterms:description "unit of the volume litre divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB380"^^xsd:string ; + ns1:plainTextDescription "unit of the volume litre divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "L/kg"^^xsd:string ; + ns1:ucumCode "L.kg-1"^^ns1:UCUMcs, + "L/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H83"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picograms per gram"@en ; - dcterms:description "One part per 10**12 (trillion) by mass of the measurand in the matrix."@en ; + a ns1:Unit ; + rdfs:label "Litre Per Minute"@en, + "Liter Per Minute"@en-us ; + dcterms:description "unit litre divided by the unit minute"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "pg/g"^^xsd:string ; - ns1:ucumCode "pg.g-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1.666667e-05, + 0.00001666667 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA659"^^xsd:string ; + ns1:plainTextDescription "unit litre divided by the unit minute"^^xsd:string ; + ns1:symbol "L/min"^^xsd:string ; + ns1:ucumCode "L.min-1"^^ns1:UCUMcs, + "L/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L2"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picograms per kilogram"@en ; - dcterms:description "One part per 10**15 by mass of the measurand in the matrix."@en ; + a ns1:Unit ; + rdfs:label "Litre Per Second"@en, + "Liter Per Second"@en-us ; + dcterms:description "unit litre divided by the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-15 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "pg/kg"^^xsd:string ; - ns1:ucumCode "pg.kg-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA664"^^xsd:string ; + ns1:plainTextDescription "unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "L/s"^^xsd:string ; + ns1:ucumCode "L.s-1"^^ns1:UCUMcs, + "L/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G51"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Charge"@en ; - dcterms:description "In physics, the Planck charge, denoted by, is one of the base units in the system of natural units called Planck units. It is a quantity of electric charge defined in terms of fundamental physical constants. The Planck charge is defined as: coulombs, where: is the speed of light in the vacuum, is Planck's constant, is the reduced Planck constant, is the permittivity of free space is the elementary charge = (137.03599911) is the fine structure constant. The Planck charge is times greater than the elementary charge \\(e\\) carried by an electron."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.875546e-18 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; - ns1:latexSymbol "\\(Q_P\\)"^^ns1:LatexString ; - ns1:symbol "planckcharge"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Square Metre per Kilogram"@en, + "Square Meter per Kilogram"@en-us ; + dcterms:description "Square Meter Per Kilogram (m2/kg) is a unit in the category of Specific Area. It is also known as square meters per kilogram, square metre per kilogram, square metres per kilogram, square meter/kilogram, square metre/kilogram. This unit is commonly used in the SI unit system. Square Meter Per Kilogram (m2/kg) has a dimension of M-1L2 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(m^2/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA750"^^xsd:string ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:symbol "m²/kg"^^xsd:string ; + ns1:ucumCode "m2.kg-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D21"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "US Liquid Quart"@en ; - dcterms:description "\"US Liquid Quart\" is a unit for 'Liquid Volume' expressed as \\(qt\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.000946353 ; - ns1:definedUnitOfSystem ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "متر مكعب"@ar, + "кубичен метър"@bg, + "metr krychlový"@cs, + "Kubikmeter"@de, + "κυβικό μετρο"@el, + "Cubic Metre"@en, + "cubic metre"@en, + "Cubic Meter"@en-us, + "metro cúbico"@es, + "متر مکعب"@fa, + "mètre cube"@fr, + "מטר מעוקב"@he, + "घन मीटर"@hi, + "metro cubo"@it, + "立方メートル"@ja, + "metrum cubicum"@la, + "meter kubik"@ms, + "metr sześcienny"@pl, + "metro cúbico"@pt, + "metru cub"@ro, + "кубический метр"@ru, + "kubični meter"@sl, + "metreküp"@tr, + "立方米"@zh ; + dcterms:description "The SI unit of volume, equal to 1.0e6 cm3, 1000 liters, 35.3147 ft3, or 1.30795 yd3. A cubic meter holds about 264.17 U.S. liquid gallons or 219.99 British Imperial gallons."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Cubic_metre"^^xsd:anyURI ; + ns1:expression "\\(m^{3}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , + ns1:hasQuantityKind , ; - ns1:symbol "qt"^^xsd:string ; - ns1:ucumCode "[qt_us]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "QTL"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA757"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Cubic_metre?oldid=490956678"^^xsd:anyURI ; + ns1:symbol "m³"^^xsd:string ; + ns1:ucumCode "m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MTQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Register Ton"@en ; - dcterms:description "The register ton is a unit of volume used for the cargo capacity of a ship, defined as 100 cubic feet (roughly 2.83 cubic metres)."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.8316846592 ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Tonnage#Tonnage_measurements"^^xsd:anyURI ; - ns1:symbol "RT"^^xsd:string ; - ns1:ucumCode "100.[cft_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M70"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "سيمنز"@ar, - "сименс"@bg, - "siemens"@cs, - "Siemens"@de, - "ζίμενς"@el, - "siemens"@en, - "siemens"@es, - "زیمنس"@fa, - "siemens"@fr, - "סימנס"@he, - "सीमैन्स"@hi, - "siemens"@hu, - "siemens"@it, - "ジーメンス"@ja, - "siemens"@la, - "siemens"@ms, - "simens"@pl, - "siemens"@pt, - "siemens"@ro, - "сименс"@ru, - "siemens"@sl, - "siemens"@tr, - "西门子"@zh ; - dcterms:description "\\(\\textbf{Siemens}\\) is the SI unit of electric conductance, susceptance, and admittance. The most important property of a conductor is the amount of current it will carry when a voltage is applied. Current flow is opposed by resistance in all circuits, and by also by reactance and impedance in alternating current circuits. Conductance, susceptance, and admittance are the inverses of resistance, reactance, and impedance, respectively. To measure these properties, the siemens is the reciprocal of the ohm. In other words, the conductance, susceptance, or admittance, in siemens, is simply 1 divided by the resistance, reactance or impedance, respectively, in ohms. The unit is named for the German electrical engineer Werner von Siemens (1816-1892). \\(\\ \\text{Siemens}\\equiv\\frac{\\text{A}}{\\text{V}}\\equiv\\frac{\\text{amp}}{\\text{volt}}\\equiv\\frac{\\text{F}}{\\text {s}}\\equiv\\frac{\\text{farad}}{\\text{second}}\\)"^^ns1:LatexString ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Cubic Metre Per Day"@en, + "Cubic Meter Per Day"@en-us ; + dcterms:description "power of the SI base unit metre with the exponent 3 divided by the unit day"^^rdf:HTML ; + ns1:applicableSystem , + , , - , ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA277"^^xsd:string ; - ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Siemens_(unit)"^^xsd:anyURI ; - ns1:omUnit ; - ns1:siUnitsExpression "A/V"^^xsd:string ; - ns1:symbol "S"^^xsd:string ; - ns1:ucumCode "S"^^ns1:UCUMcs ; - ns1:udunitsCode "S"^^xsd:string ; - ns1:uneceCommonCode "SIE"^^xsd:string ; + ns1:conversionMultiplier 1.157407e-05, + 0.00001157407 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA760"^^xsd:string ; + ns1:plainTextDescription "power of the SI base unit metre with the exponent 3 divided by the unit day"^^xsd:string ; + ns1:symbol "m³/day"^^xsd:string ; + ns1:ucumCode "m3.d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G52"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, - "siemensů na metr"@cs, - "Siemens je Meter"@de, - "siemens per metre"@en, - "Siemens Per Meter"@en-us, - "siemens por metro"@es, - "زیمنس بر متر"@fa, - "siemens par mètre"@fr, - "प्रति मीटर सीमैन्स"@hi, - "siemens al metro"@it, - "ジーメンス毎メートル"@ja, - "siemens per meter"@ms, - "simens na metr"@pl, - "siemens por metro"@pt, - "siemens pe metru"@ro, - "сименс на метр"@ru, - "siemens na meter"@sl, - "siemens bölü metre"@tr, - "西门子每米"@zh ; - dcterms:description "SI derived unit siemens divided by the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Cubic Metre per Hour"@en, + "Cubic Meter per Hour"@en-us ; + dcterms:description "Cubic Meter Per Hour (m3/h) is a unit in the category of Volume flow rate. It is also known as cubic meters per hour, cubic metre per hour, cubic metres per hour, cubic meter/hour, cubic metre/hour, cubic meter/hr, cubic metre/hr, flowrate. Cubic Meter Per Hour (m3/h) has a dimension of L3T-1 where L is length, and T is time. It can be converted to the corresponding standard SI unit m3/s by multiplying its value by a factor of 0.00027777777."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0002777777777777778 ; + ns1:expression "\\(m^{3}/h\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA763"^^xsd:string ; + ns1:symbol "m³/hr"^^xsd:string ; + ns1:ucumCode "m3.h-1"^^ns1:UCUMcs, + "m3/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MQH"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Cubic Metre per Kilogram"@en, + "Cubic Meter per Kilogram"@en-us ; + dcterms:description "Cubic Meter Per Kilogram (m3/kg) is a unit in the category of Specific volume. It is also known as cubic meters per kilogram, cubic metre per kilogram, cubic metres per kilogram, cubic meter/kilogram, cubic metre/kilogram. This unit is commonly used in the SI unit system. Cubic Meter Per Kilogram (m3/kg) has a dimension of M-1L3 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; + ns1:applicableSystem , + , , ; ns1:conversionMultiplier 1.0 ; - ns1:exactMatch ; - ns1:expression "\\(s-per-m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA279"^^xsd:string ; - ns1:plainTextDescription "SI derived unit siemens divided by the SI base unit metre"^^xsd:string ; - ns1:symbol "S/m"^^xsd:string ; - ns1:ucumCode "S.m-1"^^ns1:UCUMcs, - "S/m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D10"^^xsd:string ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m^{3}/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA766"^^xsd:string ; + ns1:symbol "m³/kg"^^xsd:string ; + ns1:ucumCode "m3.kg-1"^^ns1:UCUMcs, + "m3/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A39"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Abvolt per centimetre"@en, - "Abvolt per centimeter"@en-us ; - dcterms:description "In the electromagnetic centimeter-gram-second system of units, 'abvolt per centimeter' is the unit of electric field strength."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Cubic Metre Per Minute"@en, + "Cubic Meter Per Minute"@en-us ; + dcterms:description "power of the SI base unit metre with the exponent 3 divided by the unit minute"^^rdf:HTML ; ns1:applicableSystem , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://www.endmemo.com/convert/electric%20field%20strength.php"^^xsd:anyURI ; - ns1:symbol "abV/cm"^^xsd:string ; - ns1:ucumCode "10.nV.cm-1"^^ns1:UCUMcs ; + , + , + ; + ns1:conversionMultiplier 0.01666667 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA768"^^xsd:string ; + ns1:plainTextDescription "power of the SI base unit metre with the exponent 3 divided by the unit minute"^^xsd:string ; + ns1:symbol "m³/min"^^xsd:string ; + ns1:ucumCode "m3.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G53"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Statvolt per Centimetre"@en, - "Statvolt per Centimeter"@en-us ; - dcterms:description """One statvolt per centimetre is equal in magnitude to one gauss. For example, an electric field of one statvolt/cm has the same energy density as a magnetic field of one gauss. Likewise, a plane wave propagating in a vacuum has perpendicular electric and magnetic fields such that for every gauss of magnetic field intensity there is one statvolt/cm of electric field intensity. -The abvolt is another option for a unit of voltage in the cgs system."""^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 29979.2458 ; - ns1:expression "\\(statv-per-cm\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Statvolt"^^xsd:anyURI ; - ns1:symbol "statV/cm"^^xsd:string ; + a ns1:Unit ; + rdfs:label "متر مكعب لكل مول"@ar, + "metr krychlový na mol"@cs, + "Kubikmeter je Mol"@de, + "Cubic Metre per Mole"@en, + "cubic metre per mole"@en, + "Cubic Meter per Mole"@en-us, + "metro cúbico por mol"@es, + "متر مکعب بر مول"@fa, + "mètre cube par mole"@fr, + "घन मीटर प्रति मोल (इकाई)"@hi, + "metro cubo alla mole"@it, + "立方メートル 毎立方メートル"@ja, + "meter kubik per mole"@ms, + "metr sześcienny na mol"@pl, + "metro cúbico por mol"@pt, + "metru cub pe mol"@ro, + "кубический метр на моль"@ru, + "kubični meter na mol"@sl, + "metreküp bölü metre küp"@tr, + "立方米每摩尔"@zh ; + dcterms:description "

The molar volume, symbol \\(Vm\\), is the volume occupied by one mole of a substance (chemical element or chemical compound) at a given temperature and pressure. It is equal to the molar mass (M) divided by the mass density. It has the SI unit cubic metres per mole \\(m3/mol\\), although it is more practical to use the units cubic decimetres per mole \\(dm3/mol\\) for gases and cubic centimetres per mole \\(cm3/mol\\) for liquids and solids

."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m^{3} mol^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA771"^^xsd:string ; + ns1:symbol "m³/mol"^^xsd:string ; + ns1:ucumCode "m3.mol-1"^^ns1:UCUMcs, + "m3/mol"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A40"^^xsd:string ; rdfs:isDefinedBy . -ns2:Dimension a owl:Class ; - rdfs:label "Domain"^^xsd:string ; - dcterms:description "A dimension identifies a separation of concens that serves as a way to categorize an ontology graph. In VAEM, the notion of \"Dimension\" is partitioned into \"Aspect\", \"Discipline\", \"Domain\" and \"Viewpoint\". "^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf owl:Thing . + a ns1:Unit ; + rdfs:label "Mesh"@en ; + dcterms:description "\"Mesh\" is a measure of particle size or fineness of a woven product."@en ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Mesh_(scale)"^^xsd:anyURI ; + ns1:symbol "mesh"^^xsd:string ; + ns1:ucumCode "[mesh_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "57"^^xsd:string ; + rdfs:isDefinedBy . -ns2:Party a owl:Class ; - rdfs:label "Party"^^xsd:string ; - dcterms:description "A \"Party\" is a generalization for an actor that may be realized as a person, organizaiton or named role."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf [ a owl:Restriction ; - owl:cardinality 1 ; - owl:onProperty ns2:name ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:id ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:url ], - owl:Thing . + a ns1:Unit ; + rdfs:label "Mho"@en ; + dcterms:description "\"Mho\" is a C.G.S System unit for 'Electric Conductivity' expressed as \\(mho\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Siemens_%28unit%29"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB200"^^xsd:string ; + ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "℧"^^xsd:string ; + ns1:ucumCode "mho"^^ns1:UCUMcs ; + ns1:uneceCommonCode "NQ"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . -ns2:QUDT a ns2:Party ; - rdfs:label "QUDT"^^xsd:string ; - dcterms:description "QUDT is a non-profit organization that governs the QUDT ontologies."^^rdf:HTML ; - ns2:graphName "qudt.org"^^xsd:string ; - ns2:website "http://www.qudt.org"^^xsd:anyURI ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "مول"@ar, + "мол"@bg, + "mol"@cs, + "Mol"@de, + "μολ"@el, + "Mole"@en, + "mole"@en, + "mol"@es, + "مول"@fa, + "mole"@fr, + "מול"@he, + "मोल (इकाई)"@hi, + "mól"@hu, + "mole"@it, + "モル"@ja, + "moles"@la, + "mole"@ms, + "mol"@pl, + "mol"@pt, + "mol"@ro, + "моль"@ru, + "mol"@sl, + "mol"@tr, + "摩尔"@zh ; + dcterms:description "The mole is a unit of measurement used in chemistry to express amounts of a chemical substance. The official definition, adopted as part of the SI system in 1971, is that one mole of a substance contains just as many elementary entities (atoms, molecules, ions, or other kinds of particles) as there are atoms in 12 grams of carbon-12 (carbon-12 is the most common atomic form of carbon, consisting of atoms having 6 protons and 6 neutrons). This corresponds to a value of \\(6.02214179(30) \\times 10^{23}\\) elementary entities of the substance. It is one of the base units in the International System of Units, and has the unit symbol \\(mol\\). A Mole is the SI base unit of the amount of a substance (as distinct from its mass or weight). Moles measure the actual number of atoms or molecules in an object. An earlier name is gram molecular weight, because one mole of a chemical compound is the same number of grams as the molecular weight of a molecule of that compound measured in atomic mass units."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Mole_%28unit%29"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA882"^^xsd:string, + "0112/2///62720#UAD716"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Mole_(unit)"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "mol"^^xsd:string ; + ns1:ucumCode "mol"^^ns1:UCUMcs ; + ns1:udunitsCode "mol"^^xsd:string ; + ns1:uneceCommonCode "C34"^^xsd:string ; + rdfs:isDefinedBy . -ns2:TopQuadrant a ns2:Party ; - rdfs:label "TopQuadrant"^^xsd:string ; - ns2:name "TopQuadrant, Inc."^^xsd:string ; - ns2:url "http:/www.topquadrant.com"^^xsd:anyURI ; - rdfs:isDefinedBy , - . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Mol per Kilogram"@en ; + dcterms:description "Mole Per Kilogram (\\(mol/kg\\)) is a unit of Molality"^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(mol/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "mol/kg"^^xsd:string ; + ns1:ucumCode "mol.kg-1"^^ns1:UCUMcs, + "mol/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C19"^^xsd:string ; + rdfs:isDefinedBy . -ns2:hasDimension a owl:ObjectProperty ; - rdfs:label "has dimension"^^xsd:string ; - dcterms:description "The property \"vaem:hasDimension\" is used categorize an ontology. In VAEM, the property is used to characterize an ontology graph."^^xsd:string ; - rdfs:isDefinedBy , - . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Megahertz"@en ; + dcterms:description "\"Megahertz\" is a C.G.S System unit for 'Frequency' expressed as \\(MHz\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA209"^^xsd:string ; + ns1:prefix ; + ns1:symbol "MHz"^^xsd:string ; + ns1:ucumCode "MHz"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MHZ"^^xsd:string ; + rdfs:isDefinedBy . -skos:ConceptScheme a owl:Class ; - rdfs:label "Concept Scheme"@en ; - rdfs:isDefinedBy ; - owl:disjointWith skos:Concept ; - skos:definition "A set of concepts, optionally including statements about semantic relationships between those concepts."@en ; - skos:example "Thesauri, classification schemes, subject heading lists, taxonomies, 'folksonomies', and other types of controlled vocabulary are all examples of concept schemes. Concept schemes are also embedded in glossaries and terminologies."@en ; - skos:scopeNote "A concept scheme may be defined to include concepts from different sources."@en . + a ns1:Unit ; + rdfs:label "Megajoule Per Square Metre"@en, + "Megajoule Per Square Meter"@en-us ; + dcterms:description "MegaJoule Per Square Meter (\\(MegaJ/m^2\\)) is a unit in the category of Energy density."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "1,000,000-fold of the SI derived unit joule divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "MJ/m²"^^xsd:string ; + ns1:ucumCode "MJ.m-2"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -skos:broader a rdf:Property, - owl:ObjectProperty ; - rdfs:label "has broader"@en ; - rdfs:comment "Broader concepts are typically rendered as parents in a concept hierarchy (tree)."@en ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf skos:broaderTransitive ; - owl:inverseOf skos:narrower ; - skos:definition "Relates a concept to a concept that is more general in meaning."@en ; - skos:scopeNote "By convention, skos:broader is only used to assert an immediate (i.e. direct) hierarchical link between two conceptual resources."@en . + a ns1:Unit ; + rdfs:label "Microgravity"@en ; + dcterms:description "\"Microgravity\" is a unit for 'Linear Acceleration' expressed as \\(microG\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 0.00000980665, + 9.80665e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:latexSymbol "\\(\\mu G\\)"^^ns1:LatexString ; + ns1:symbol "µG"^^xsd:string ; + ns1:ucumCode "u[g]"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -skos:mappingRelation a rdf:Property, - owl:ObjectProperty ; - rdfs:label "is in mapping relation with"@en ; - rdfs:comment "These concept mapping relations mirror semantic relations, and the data model defined below is similar (with the exception of skos:exactMatch) to the data model defined for semantic relations. A distinct vocabulary is provided for concept mapping relations, to provide a convenient way to differentiate links within a concept scheme from links between concept schemes. However, this pattern of usage is not a formal requirement of the SKOS data model, and relies on informal definitions of best practice."@en ; - rdfs:isDefinedBy ; - rdfs:subPropertyOf skos:semanticRelation ; - skos:definition "Relates two concepts coming, by convention, from different schemes, and that have comparable meanings"@en . + a ns1:Unit ; + rdfs:label "Micrograms per gram"@en ; + dcterms:description "One part per 10**6 (million) by mass of the measurand in the matrix."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "µg/g"^^xsd:string ; + ns1:ucumCode "ug.g-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -skos:semanticRelation a rdf:Property, - owl:ObjectProperty ; - rdfs:label "is in semantic relation with"@en ; - rdfs:domain skos:Concept ; - rdfs:isDefinedBy ; - rdfs:range skos:Concept ; - skos:definition "Links a concept to a concept related by meaning."@en ; - skos:scopeNote "This property should not be used directly, but as a super-property for all properties denoting a relationship of meaning between concepts."@en . + a ns1:Unit ; + rdfs:label "Microgram Per Kilogram"@en ; + dcterms:description "mass ratio as 0.000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA083"^^xsd:string ; + ns1:plainTextDescription "mass ratio as 0.000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "μg/kg"^^xsd:string ; + ns1:ucumCode "ug.kg-1"^^ns1:UCUMcs, + "ug/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J33"^^xsd:string ; + rdfs:isDefinedBy . -s223:Constituent-Glycol a s223:Class, - s223:Constituent-Glycol, - sh:NodeShape ; - rdfs:label "Constituent-Glycol"^^xsd:string ; - rdfs:comment "Constituent-Glycol"^^xsd:string ; - rdfs:subClassOf s223:Medium-Constituent . + a ns1:Unit ; + rdfs:label "Micromoles per gram"@en ; + dcterms:description "Micromole Per Gram (\\(umol/g\\)) is a unit of Molality"^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:plainTextDescription "0.000001-fold of the SI base unit mol divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "µmol/g"^^xsd:string ; + ns1:ucumCode "umol.g-1"^^ns1:UCUMcs, + "umol/g"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:Damper a s223:Class, - sh:NodeShape ; - rdfs:label "Damper"^^xsd:string ; - rdfs:comment "An element inserted into an air-distribution system or element of an air-distribution system permitting modification of the air resistance of the system and consequently changing the airflow rate or shutting off the airflow."^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Damper shall have at least one inlet using the medium Air."^^xsd:string ; - sh:message "s223: A Damper shall have at least one inlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A Damper shall have at least one outlet using the medium Air."^^xsd:string ; - sh:message "s223: A Damper shall have at least one outlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ] . + a ns1:Unit ; + rdfs:label "Microtesla"@en ; + dcterms:description "0.000001-fold of the SI derived unit tesla"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA077"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit tesla"^^xsd:string ; + ns1:prefix ; + ns1:symbol "µT"^^xsd:string ; + ns1:ucumCode "uT"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D81"^^xsd:string ; + rdfs:isDefinedBy . -s223:EnumeratedActuatableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Enumerated actuatable property"^^xsd:string ; - rdfs:comment "An EnumeratedActuatableProperty is a property with an enumerated (fixed) set of possible values that can be changed (actuated)."^^xsd:string ; - rdfs:subClassOf s223:ActuatableProperty, - s223:EnumerableProperty . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Milligravity"@en ; + dcterms:description "\"Milligravity\" is a unit for 'Linear Acceleration' expressed as \\(mG\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 0.00980665 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mG"^^xsd:string ; + ns1:ucumCode "m[g]"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:EnumeratedObservableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Enumerated observable property"^^xsd:string ; - rdfs:comment "An EnumeratedObservableProperty is a property with an enumerated (fixed) set of possible values that cannot be changed (can only be observed)."^^xsd:string ; - rdfs:subClassOf s223:EnumerableProperty, - s223:ObservableProperty . + a ns1:Unit ; + rdfs:label "Milligal"@en ; + dcterms:description "0.001-fold of the unit of acceleration called gal according to the CGS system of units"^^rdf:HTML ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB043"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit of acceleration called gal according to the CGS system of units"^^xsd:string ; + ns1:symbol "mgal"^^xsd:string ; + ns1:ucumCode "mGal"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C11"^^xsd:string ; + rdfs:isDefinedBy . -s223:EnumerationKind-Substance a s223:Class, - s223:EnumerationKind-Substance, - sh:NodeShape ; - rdfs:label "Substance"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of the substances that are consumed, produced, transported, sensed, controlled or otherwise interacted with (e.g. water, air, etc.)."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind ; - sh:property [ rdfs:comment "A substance may only have atomic constituents, it may not have a constituent that also composed ofs."^^xsd:string ; - sh:path s223:composedOf ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If a substance has a constituent, that constituent may not itself have constituents."^^xsd:string ; - sh:message "s223: This substance {$this} has a constituent {?constituent} that itself composed ofs {?nextConstituent}. Create new substance with only atomic constituents."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?constituent ?nextConstituent -WHERE { -$this s223:composedOf ?constituent . -?constituent s223:ofConstituent/s223:composedOf ?nextConstituent . -} -"""^^xsd:string ] ], - [ rdfs:comment """If the relation composedOf is present, it must associate an EnumerationKind-Substance with one or more Properties that -identify and characterize its constituents. The Property identifies the constituent using the relation ofConstituent. If appropriate, a -QuantifiableProperty may be used to also specify the amount of the constituent using the relations qudt:hasQuantityKind, qudt:hasUnit, and s223:hasValue. -For example, see `s223:GlycolSolution-15Percent`."""^^xsd:string ; - sh:class s223:Property ; - sh:path s223:composedOf ] . + a ns1:Unit ; + rdfs:label "Milligram Per Gram"@en ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA822"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "mg/gm"^^xsd:string ; + ns1:ucumCode "mg.g-1"^^ns1:UCUMcs, + "mg/g"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H64"^^xsd:string ; + rdfs:isDefinedBy . -s223:Fan a s223:Class, - sh:NodeShape ; - rdfs:label "Fan"^^xsd:string ; - rdfs:comment "A machine used to create flow within a gas such as air. "^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "A Fan shall have at least one inlet using the medium Air."^^xsd:string ; - sh:message "s223: A Fan shall have at least one inlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ], - [ rdfs:comment "A Fan shall have at least one outlet using the medium Air."^^xsd:string ; - sh:message "s223: A Fan shall have at least one outlet using the medium Air."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasConnectionPoint ; - sh:qualifiedMinCount 1 ; - sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; - sh:node [ sh:property [ sh:class s223:Fluid-Air ; - sh:path s223:hasMedium ] ] ] ] . + a ns1:Unit ; + rdfs:label "Milligram Per Kilogram"@en ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA826"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "mg/kg"^^xsd:string ; + ns1:ucumCode "mg.kg-1"^^ns1:UCUMcs, + "mg/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "NA"^^xsd:string ; + rdfs:isDefinedBy . -s223:Fluid-Refrigerant a s223:Class, - s223:Fluid-Refrigerant, - sh:NodeShape ; - rdfs:label "Fluid-Refrigerant"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of commonly used refrigerants."^^xsd:string ; - rdfs:subClassOf s223:Mix-Fluid . + a ns1:Unit ; + rdfs:label "Millilitre Per Day"@en, + "Millilitre Per Day"@en-us ; + dcterms:description "0.001-fold of the unit litre divided by the unit day"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000000001157407, + 1.157407e-11 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA847"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit day"^^xsd:string ; + ns1:symbol "mL/day"^^xsd:string ; + ns1:ucumCode "mL.d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G54"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-10000V a s223:Class, - s223:LineLineVoltage-10000V, - sh:NodeShape ; - rdfs:label "10000V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-10000V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "10000V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Millilitre per Gram"@en, + "Milliliter per Gram"@en-us ; + dcterms:description "Milliliter Per Gram (mm3/g) is a unit in the category of Specific Volume. It is also known as milliliters per gram, millilitre per gram, millilitres per gram, milliliter/gram, millilitre/gram."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(mL/g\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mL/g"^^xsd:string ; + ns1:ucumCode "mL.g-1"^^ns1:UCUMcs, + "mL/g"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:LineLineVoltage-190V a s223:Class, - s223:LineLineVoltage-190V, - sh:NodeShape ; - rdfs:label "190V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-190V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "190V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Millilitre Per Hour"@en, + "Millilitre Per Hour"@en-us ; + dcterms:description "0.001-fold of the unit litre divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000002777778, + 2.777778e-10 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA850"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit hour"^^xsd:string ; + ns1:symbol "mL/hr"^^xsd:string ; + ns1:ucumCode "mL.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G55"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-208V a s223:Class, - s223:LineLineVoltage-208V, - sh:NodeShape ; - rdfs:label "208V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-208V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "208V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Millilitre Per Minute"@en, + "Millilitre Per Minute"@en-us ; + dcterms:description "0.001-fold of the unit litre divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000001666667, + 1.666667e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA855"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit litre divided by the unit minute"^^xsd:string ; + ns1:symbol "mL/min"^^xsd:string ; + ns1:ucumCode "mL.min-1"^^ns1:UCUMcs, + "mL/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "41"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-220V a s223:Class, - s223:LineLineVoltage-220V, - sh:NodeShape ; - rdfs:label "220V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-220V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "220V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Millilitre Per Second"@en, + "Millilitre Per Second"@en-us ; + dcterms:description "0.001-fold of the unit litre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA859"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "mL/s"^^xsd:string ; + ns1:ucumCode "mL.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "40"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-3000V a s223:Class, - s223:LineLineVoltage-3000V, - sh:NodeShape ; - rdfs:label "3000V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-3000V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "3000V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Cubic Millimetre per Gram"@en, + "Cubic Millimeter per Gram"@en-us ; + dcterms:description "Cubic Millimeter Per Gram (mm3/g) is a unit in the category of Specific Volume. It is also known as cubic millimeters per gram, cubic millimetre per gram, cubic millimetres per gram, cubic millimeter/gram, cubic millimetre/gram."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000001 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(mm^{3}/g\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mm³/g"^^xsd:string ; + ns1:ucumCode "mm3.g-1"^^ns1:UCUMcs, + "mm3/g"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:LineLineVoltage-3300V a s223:Class, - s223:LineLineVoltage-3300V, - sh:NodeShape ; - rdfs:label "3300V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-3300V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "3300V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Cubic Millimetre per Kilogram"@en, + "Cubic Millimeter per Kilogram"@en-us ; + dcterms:description "Cubic Millimeter Per Kilogram (mm3/kg) is a unit in the category of Specific Volume. It is also known as cubic millimeters per kilogram, cubic millimetre per kilogram, cubic millimetres per kilogram, cubic millimeter/kilogram, cubic millimetre/kilogram."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000001 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(mm^{3}/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mm³/kg"^^xsd:string ; + ns1:ucumCode "mm3.kg-1"^^ns1:UCUMcs, + "mm3/kg"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:LineLineVoltage-380V a s223:Class, - s223:LineLineVoltage-380V, - sh:NodeShape ; - rdfs:label "380V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-380V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "380V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Millitesla"@en ; + dcterms:description "0.001-fold of the SI derived unit tesla"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA803"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit tesla"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mT"^^xsd:string ; + ns1:ucumCode "mT"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C29"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-400V a s223:Class, - s223:LineLineVoltage-400V, - sh:NodeShape ; - rdfs:label "400V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-400V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "400V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "نيوتن متر ثانية"@ar, + "newton metr sekunda"@cs, + "Newtonmetersekunde"@de, + "Newton Metre Second"@en, + "newton metre second"@en, + "Newton Meter Second"@en-us, + "newton metro segundo"@es, + "نیوتون ثانیه"@fa, + "newton-mètre-seconde"@fr, + "न्यूटन मीटर सैकण्ड"@hi, + "newton per metro per secondo"@it, + "ニュートンメートル秒"@ja, + "newton meter saat"@ms, + "niutonometrosekunda"@pl, + "newton-metro-segundo"@pt, + "newton-metru-secundă"@ro, + "ньютон-метр-секунда"@ru, + "newton metre saniye"@tr, + "牛秒"@zh ; + dcterms:description "The SI derived unit of angular momentum. "^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Newton_metre"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA245"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/SI_derived_unit"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:siUnitsExpression "N.m.sec"^^xsd:string ; + ns1:symbol "N⋅m⋅s"^^xsd:string ; + ns1:ucumCode "N.m.s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C53"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-415V a s223:Class, - s223:LineLineVoltage-415V, - sh:NodeShape ; - rdfs:label "415V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-415V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "415V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Number per metre"@en ; + dcterms:description "Unavailable."@en ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/m"^^xsd:string ; + ns1:ucumCode "/m"^^ns1:UCUMcs, + "{#}.m-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:LineLineVoltage-4160V a s223:Class, - s223:LineLineVoltage-4160V, - sh:NodeShape ; - rdfs:label "4160V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-4160V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "4160V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Nanogram Per Kilogram"@en ; + dcterms:description "mass ratio consisting of the 0.000000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA911"^^xsd:string ; + ns1:plainTextDescription "mass ratio consisting of the 0.000000000001-fold of the SI base unit kilogram divided by the SI base unit kilogram"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "ng/Kg"^^xsd:string ; + ns1:ucumCode "ng.kg-1"^^ns1:UCUMcs, + "ng/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L32"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-480V a s223:Class, - s223:LineLineVoltage-480V, - sh:NodeShape ; - rdfs:label "480V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-480V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "480V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Nanotesla"@en ; + dcterms:description "0.000000001-fold of the SI derived unit tesla"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA909"^^xsd:string ; + ns1:plainTextDescription "0.000000001-fold of the SI derived unit tesla"^^xsd:string ; + ns1:prefix ; + ns1:symbol "nT"^^xsd:string ; + ns1:ucumCode "nT"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C48"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-6000V a s223:Class, - s223:LineLineVoltage-6000V, - sh:NodeShape ; - rdfs:label "6000V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-6000V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "6000V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Ounce (UK Fluid) Per Day"@en ; + dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 7.87487e-06, + 0.00000787487 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA432"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "oz{UK}/day"^^xsd:string ; + ns1:ucumCode "[foz_br].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J95"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-600V a s223:Class, - s223:LineLineVoltage-600V, - sh:NodeShape ; - rdfs:label "600V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-600V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "600V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Ounce (UK Fluid) Per Hour"@en ; + dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 7.87487e-06, + 0.00000787487 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA433"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "oz{UK}/hr"^^xsd:string ; + ns1:ucumCode "[foz_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J96"^^xsd:string ; + rdfs:isDefinedBy . -s223:LineLineVoltage-6600V a s223:Class, - s223:LineLineVoltage-6600V, - sh:NodeShape ; - rdfs:label "6600V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-6600V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "6600V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + a ns1:Unit ; + rdfs:label "Ounce (UK Fluid) Per Minute"@en ; + dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00472492 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA434"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "oz{UK}/min"^^xsd:string ; + ns1:ucumCode "[foz_br].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J97"^^xsd:string ; + rdfs:isDefinedBy . -s223:Numerical-DCVoltage a s223:Class, - s223:Numerical-DCVoltage, - sh:NodeShape ; - rdfs:label "Numerical-DCVoltage"^^xsd:string ; - s223:hasVoltage s223:Numerical-Voltage ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common positive and negative voltages, plus zero volts."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical ; - sh:property [ rdfs:comment "A DC-Voltage must have a voltage"^^xsd:string ; - sh:class s223:Numerical-Voltage ; - sh:minCount 1 ; - sh:path s223:hasVoltage ] . + a ns1:Unit ; + rdfs:label "Ounce (UK Fluid) Per Second"@en ; + dcterms:description "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 2.84e-05, + 0.0000284 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA435"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (UK) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "oz{UK}/s"^^xsd:string ; + ns1:ucumCode "[foz_br].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J98"^^xsd:string ; + rdfs:isDefinedBy . -s223:Numerical-Frequency a s223:Class, - s223:Numerical-Frequency, - sh:NodeShape ; - rdfs:label "Dimensioned Frequency"^^xsd:string ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common electrical frequencies."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical ; - sh:property [ rdfs:comment "A Numerical-Frequency must have a Quantity Kind of Frequency"^^xsd:string ; - sh:hasValue ; - sh:path ns1:hasQuantityKind ], - [ rdfs:comment "A Numerical-Frequency must have a unit of Hertz"^^xsd:string ; - sh:hasValue ; - sh:path ns1:hasUnit ] . + a ns1:Unit ; + rdfs:label "Ounce (US Fluid) Per Day"@en ; + dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 3.42286e-10, + 0.000000000342286 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA436"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by unit for time day"^^xsd:string ; + ns1:symbol "oz{US}/day"^^xsd:string ; + ns1:ucumCode "[foz_us].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J99"^^xsd:string ; + rdfs:isDefinedBy . -s223:Numerical-NumberOfElectricalPhases a s223:Class, - s223:Numerical-NumberOfElectricalPhases, - sh:NodeShape ; - rdfs:label "Dimensionless Number of Electrical Phases"^^xsd:string ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of number of electrical phases. The s223:hasNumberOfElectricalPhases relation points to one of the values of this enumeration."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical . + a ns1:Unit ; + rdfs:label "Ounce (US Fluid) Per Hour"@en ; + dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000008214869, + 8.214869e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA437"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "oz{US}/hr"^^xsd:string ; + ns1:ucumCode "[foz_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K10"^^xsd:string ; + rdfs:isDefinedBy . -s223:QuantifiableActuatableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Quantifiable Actuatable Property"^^xsd:string ; - rdfs:comment "This class is for quantifiable properties of which numerical values are specified to be modifiable by a user or a machine outside of the model, like a setpoint."^^xsd:string ; - rdfs:subClassOf s223:ActuatableProperty, - s223:QuantifiableProperty . + a ns1:Unit ; + rdfs:label "Ounce (US Fluid) Per Minute"@en ; + dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 4.92892e-07, + 0.000000492892 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA438"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "oz{US}/min"^^xsd:string ; + ns1:ucumCode "[foz_us].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K11"^^xsd:string ; + rdfs:isDefinedBy . -s223:QuantifiableObservableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Quantifiable Observable Property"^^xsd:string ; - rdfs:comment "This class is for quantifiable properties of which numerical values are observed, like a temperature reading or a voltage measure."^^xsd:string ; - rdfs:subClassOf s223:ObservableProperty, - s223:QuantifiableProperty ; - sh:property [ rdfs:comment "A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; - sh:class s223:QuantifiableProperty ; - sh:message "s223: A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; - sh:path s223:hasSetpoint ] . - -s223:Substance-Particulate a s223:Class, - s223:Substance-Particulate, - sh:NodeShape ; - rdfs:label "Particulate"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of particulates in various size ranges."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Substance . + a ns1:Unit ; + rdfs:label "Ounce (US Fluid) Per Second"@en ; + dcterms:description "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0000295735296, + 2.957353e-05 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA439"^^xsd:string ; + ns1:plainTextDescription "unit of the volume fluid ounce (US) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "oz{US}/s"^^xsd:string ; + ns1:ucumCode "[foz_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K12"^^xsd:string ; + rdfs:isDefinedBy . -s223:Voltage-24V a s223:Class, - s223:Voltage-24V, - sh:NodeShape ; - rdfs:label "24V Voltage"^^xsd:string ; - s223:hasValue 24.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "24V Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-Voltage . + a ns1:Unit ; + rdfs:label "Reciprocal Angstrom"@en, + "Reciprocal Ã¥ngström"@en ; + dcterms:description "reciprocal of the unit angstrom"^^rdf:HTML ; + ns1:conversionMultiplier 0.0000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB058"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the unit angstrom"^^xsd:string ; + ns1:symbol "/Å"^^xsd:string ; + ns1:ucumCode "Ao-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C85"^^xsd:string ; + rdfs:isDefinedBy . -s223:Voltage-380V a s223:Class, - s223:Voltage-380V, - sh:NodeShape ; - rdfs:label "380V Voltage"^^xsd:string ; - s223:hasValue 380.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "380V Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-Voltage . + a ns1:Unit ; + rdfs:label "Reciprocal Centimetre"@en, + "Reciprocal Centimeter"@en-us ; + dcterms:description "reciprocal of the 0.01-fold of the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 100.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA382"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the 0.01-fold of the SI base unit metre"^^xsd:string ; + ns1:symbol "/cm"^^xsd:string ; + ns1:ucumCode "/cm"^^ns1:UCUMcs, + "cm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E90"^^xsd:string ; + rdfs:isDefinedBy . -s223:connectsThrough a rdf:Property ; - rdfs:label "connects through"^^xsd:string ; - s223:inverseOf s223:connectsAt ; - rdfs:comment "The relation connectsThrough binds a ConnectionPoint to a Connection without regard to the direction of flow."^^xsd:string . + a ns1:Unit ; + rdfs:label "Reciprocal Day"@en ; + dcterms:description "reciprocal of the unit day"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1.157407e-05, + 0.00001157407 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA408"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the unit day"^^xsd:string ; + ns1:symbol "/day"^^xsd:string ; + ns1:ucumCode "/d"^^ns1:UCUMcs, + "d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E91"^^xsd:string ; + rdfs:isDefinedBy . -s223:hasObservationLocation a rdf:Property ; - rdfs:label "has observation location"^^xsd:string ; - rdfs:comment "The relation hasObservationLocation is used to associate a sensor to the topological location where it is observing the property (see `s223:observes`). The observation location shall be a Connectable (see `s223:Connectable`), Connection (see `s223:Connection`), or ConnectionPoint (see `s223:ConnectionPoint`)."^^xsd:string . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Reciprocal Hour"@en ; + dcterms:description "A reciprocal unit of time for \\(\\textit{reciprocal hour}\\) or \"inverse hour\"."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 360.0 ; + ns1:expression "\\(m^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/hr"^^xsd:string ; + ns1:ucumCode "/h"^^ns1:UCUMcs, + "h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H10"^^xsd:string ; + rdfs:isDefinedBy . -s223:hasReferenceLocation a rdf:Property ; - rdfs:label "has reference location"^^xsd:string ; - rdfs:comment "The relation hasReferenceLocation is used to associate a differential sensor to the topological location of the baseline (reference) property (see `s223:observes`)."^^xsd:string . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Reciprocal Minute"@en ; + dcterms:description "A reciprocal unit of time for \\(\\textit{reciprocal minute}\\) or \\(\\textit{inverse minute}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 60.0 ; + ns1:expression "\\(m^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/min"^^xsd:string ; + ns1:ucumCode "/min"^^ns1:UCUMcs, + "min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C94"^^xsd:string ; + rdfs:isDefinedBy . -s223:hasVoltage a rdf:Property ; - rdfs:label "hasVoltage"^^xsd:string ; - rdfs:comment "The relation hasVoltage is used to identify the voltage of an electricity enumeration kind. "^^xsd:string . + a ns1:Unit ; + rdfs:label "Reciprocal Month"@en ; + dcterms:description "reciprocal of the unit month"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 0.000000391935077, + 3.919351e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA881"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the unit month"^^xsd:string ; + ns1:symbol "/month"^^xsd:string ; + ns1:ucumCode "mo-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H11"^^xsd:string ; + rdfs:isDefinedBy . -ns1:UnitEquivalencePropertyGroup a sh:PropertyGroup ; - rdfs:label "Equivalent Units"^^xsd:string ; - rdfs:isDefinedBy ; - sh:order 50.0 . + a ns1:Unit ; + rdfs:label "Reciprocal millisecond"@en ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/ms"^^xsd:string ; + ns1:ucumCode "ms-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -ns1:Verifiable a ns1:AspectClass, - sh:NodeShape ; - rdfs:label "Verifiable"^^xsd:string ; - rdfs:comment "An aspect class that holds properties that provide external knowledge and specifications of a given resource."^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subClassOf ns1:Aspect ; - sh:property ns1:Verifiable-dbpediaMatch, - ns1:Verifiable-informativeReference, - ns1:Verifiable-isoNormativeReference, - ns1:Verifiable-normativeReference . + a ns1:Unit ; + rdfs:label "Reciprocal Week"@en ; + dcterms:description "reciprocal of the unit week"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1.653439e-06, + 0.000001653439 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA099"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the unit week"^^xsd:string ; + ns1:symbol "/week"^^xsd:string ; + ns1:ucumCode "wk-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H85"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-1I0M-1H1T3D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 3 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^{-1} M^{-1} T^3 \\Theta\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Reciprocal Year"@en ; + dcterms:description "reciprocal of the unit year"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 3.170979e-08, + 0.000000031709792 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB027"^^xsd:string ; + ns1:plainTextDescription "reciprocal of the unit year"^^xsd:string ; + ns1:symbol "/yr"^^xsd:string ; + ns1:ucumCode "/a"^^ns1:UCUMcs, + "a-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H09"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-3I0M0H0T1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; - ns1:dimensionlessExponent 0 ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Percent per day"@en ; + ns1:conversionMultiplier 1.157407e-05, + 0.0000115740740740741 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "%/day"^^xsd:string ; + ns1:ucumCode "%.d-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-4I0M-2H0T4D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -4 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -2 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 4 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-4 M^-2 T^4\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Percent per hour"@en ; + ns1:conversionMultiplier 0.000277777777777778 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "%/day"^^xsd:string ; + ns1:ucumCode "%.h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M1H1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M Θ\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Percent per week"@en ; + dcterms:description "A rate of change in percent over a period of 7 days"@en ; + ns1:conversionMultiplier 1.653439e-06, + 0.00000165343915343915 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "%/wk"^^xsd:string ; + ns1:ucumCode "%.wk-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I1M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 1 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(J\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (UK) Per Day"@en ; + dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 6.577098e-09, + 0.000000006577098 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA953"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "pt{UK}/day"^^xsd:string ; + ns1:ucumCode "[pt_br].d"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L53"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L-1I0M0H0T1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength -1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 T I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (UK) Per Hour"@en ; + dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.578504e-07, + 0.0000001578504 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA954"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "pt{UK}/hr"^^xsd:string ; + ns1:ucumCode "[pt_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L54"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L-2I0M-1H0T2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength -2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-1 T^2 I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (UK) Per Minute"@en ; + dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 9.471022e-06, + 0.000009471022 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA955"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "pt{UK}/min"^^xsd:string ; + ns1:ucumCode "[pt_br].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L55"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L0I0M-1H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (UK) Per Second"@en ; + dcterms:description "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0005682613 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA956"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (UK) (both for fluids and for dry measures) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "pt{UK}/s"^^xsd:string ; + ns1:ucumCode "[pt_br].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L56"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L0I0M0H1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(\\theta N\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (US Liquid) Per Day"@en ; + dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000000547658, + 5.47658e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA958"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "pt{US}/day"^^xsd:string ; + ns1:ucumCode "[pt_us].d-1"^^ns1:UCUMcs ; + ns1:udunitsCode "kg"^^xsd:string ; + ns1:uneceCommonCode "L57"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Absorbed Dose"@en ; - dcterms:description "\"Absorbed Dose\" (also known as Total Ionizing Dose, TID) is a measure of the energy deposited in a medium by ionizing radiation. It is equal to the energy deposited per unit mass of medium, and so has the unit \\(J/kg\\), which is given the special name Gray (\\(Gy\\))."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Absorbed_dose"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD000"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Absorbed_dose"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "$D = \\frac{d\\bar{\\varepsilon}}{dm}$, where $d\\bar{\\varepsilon}$ is the mean energy imparted by ionizing radiation to an element of irradiated matter with the mass $dm$."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "D"^^xsd:string ; - rdfs:comment "Note that the absorbed dose is not a good indicator of the likely biological effect. 1 Gy of alpha radiation would be much more biologically damaging than 1 Gy of photon radiation for example. Appropriate weighting factors can be applied reflecting the different relative biological effects to find the equivalent dose. The risk of stoctic effects due to radiation exposure can be quantified using the effective dose, which is a weighted average of the equivalent dose to each organ depending upon its radiosensitivity. When ionising radiation is used to treat cancer, the doctor will usually prescribe the radiotherapy treatment in Gy. When risk from ionising radiation is being discussed, a related unit, the Sievert is used."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . + a ns1:Unit ; + rdfs:label "Pint (US Liquid) Per Hour"@en ; + dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.314379e-07, + 0.0000001314379 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA959"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "pt{US}/hr"^^xsd:string ; + ns1:ucumCode "[pt_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L58"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Activity Concentration"@en ; - dcterms:description "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.euronuclear.org/info/encyclopedia/activityconcentration.htm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "$c_A = \\frac{A}{V}$, where $A$ is the activity of a sample and $V$ is its volume."^^ns1:LatexString ; - ns1:plainTextDescription "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^xsd:string ; - ns1:symbol "c_A"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pint (US Liquid) Per Minute"@en ; + dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 7.886275e-06, + 0.000007886275 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA960"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "pt{US}/min"^^xsd:string ; + ns1:ucumCode "[pt_us].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L59"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "تسارع زاوي"@ar, - "Úhlové zrychlení"@cs, - "Winkelbeschleunigung"@de, - "angular acceleration"@en, - "aceleración angular"@es, - "شتاب زاویه‌ای"@fa, - "accélération angulaire"@fr, - "कोणीय त्वरण"@hi, - "accelerazione angolare"@it, - "角加速度"@ja, - "Pecutan bersudut"@ms, - "Przyspieszenie kątowe"@pl, - "aceleração angular"@pt, - "Accelerație unghiulară"@ro, - "Угловое ускорение"@ru, - "Açısal ivme"@tr, - "角加速度"@zh ; - dcterms:description "Angular acceleration is the rate of change of angular velocity over time. Measurement of the change made in the rate of change of an angle that a spinning object undergoes per unit time. It is a vector quantity. Also called Rotational acceleration. In SI units, it is measured in radians per second squared (\\(rad/s^2\\)), and is usually denoted by the Greek letter alpha."^^ns1:LatexString ; - ns1:applicableUnit , - , - ; - ns1:baseCGSUnitDimensions "U/T^2"^^xsd:string ; - ns1:baseSIUnitDimensions "$/s^2$"^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_acceleration"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD006"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - skos:broader . + a ns1:Unit ; + rdfs:label "Pint (US Liquid) Per Second"@en ; + dcterms:description "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0004731765 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA961"^^xsd:string ; + ns1:plainTextDescription "unit of the volume pint (US liquid) according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "pt{US}/s"^^xsd:string ; + ns1:ucumCode "[pt_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L60"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Area Time"@en ; - ns1:applicableUnit , - , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (UK) Per Day"@en ; + dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000105233576, + 1.052336e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA940"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "peck{UK}/day"^^xsd:string ; + ns1:ucumCode "[pk_br].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L44"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Data Rate"@en ; - dcterms:description "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Data_rate"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . + a ns1:Unit ; + rdfs:label "Peck (UK) Per Hour"@en ; + dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000002525605833, + 2.525606e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA941"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "peck{UK}/hr"^^xsd:string ; + ns1:ucumCode "[pk_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L45"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "عزم ثنائي قطب"@ar, - "Dipólový moment"@cs, - "elektrisches Dipolmoment"@de, - "electric dipole moment"@en, - "momento de dipolo eléctrico"@es, - "گشتاور دوقطبی الکتریکی"@fa, - "moment dipolaire"@fr, - "विद्युत द्विध्रुव आघूर्ण"@hi, - "momento di dipolo elettrico"@it, - "電気双極子"@ja, - "Momen dwikutub elektrik"@ms, - "elektryczny moment dipolowy"@pl, - "momento do dipolo elétrico"@pt, - "moment electric dipolar"@ro, - "Электрический дипольный момент"@ru, - "elektrik dipol momenti"@tr, - "电偶极矩"@zh ; - dcterms:description "\"Electric Dipole Moment\" is a measure of the separation of positive and negative electrical charges in a system of (discrete or continuous) charges. It is a vector-valued quantity. If the system of charges is neutral, that is if the sum of all charges is zero, then the dipole moment of the system is independent of the choice of a reference frame; however in a non-neutral system, such as the dipole moment of a single proton, a dependence on the choice of reference point arises. In such cases it is conventional to choose the reference point to be the center of mass of the system or the center of charge, not some arbitrary origin. This convention ensures that the dipole moment is an intrinsic property of the system. The electric dipole moment of a substance within a domain is the vector sum of electric dipole moments of all electric dipoles included in the domain."^^rdf:HTML ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD041"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_dipole_moment"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition """$E_p = -p \\cdot E$, where $E_p$ is the interaction energy of the molecule with electric dipole moment $p$ and an electric field with electric field strength $E$. + a ns1:Unit ; + rdfs:label "Peck (UK) Per Minute"@en ; + dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00015153635 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA942"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "peck{UK}/min"^^xsd:string ; + ns1:ucumCode "[pk_br].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L46"^^xsd:string ; + rdfs:isDefinedBy . -$p = q(r_+ - r_i)$, where $r_+$ and $r_-$ are the position vectors to carriers of electric charge $a$ and $-q$, respectively."""^^ns1:LatexString ; - ns1:plainTextDescription "\"Electric Dipole Moment\" is a measure of the separation of positive and negative electrical charges in a system of (discrete or continuous) charges. It is a vector-valued quantity. If the system of charges is neutral, that is if the sum of all charges is zero, then the dipole moment of the system is independent of the choice of a reference frame; however in a non-neutral system, such as the dipole moment of a single proton, a dependence on the choice of reference point arises. In such cases it is conventional to choose the reference point to be the center of mass of the system or the center of charge, not some arbitrary origin. This convention ensures that the dipole moment is an intrinsic property of the system. The electric dipole moment of a substance within a domain is the vector sum of electric dipole moments of all electric dipoles included in the domain."^^xsd:string ; - ns1:symbol "p"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (UK) Per Second"@en ; + dcterms:description "unit of the volume peck (UK) according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.009092181 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA943"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (UK) according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "peck{UK}/s"^^xsd:string ; + ns1:ucumCode "[pk_br].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L47"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Extent of Reaction"@en ; - dcterms:description "In physical chemistry, the \"Extent of Reaction\" is a quantity that measures the extent in which the reaction proceeds."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Extent_of_reaction"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$dn_B = \\nu_B d\\xi$, where $n_B$ is the amount of substance $B$ and $\\nu_B$ is the stoichiometric number of substance $B$."^^ns1:LatexString ; - ns1:latexSymbol "$\\xi$"^^ns1:LatexString ; - ns1:plainTextDescription "In physical chemistry, the \"Extent of Reaction\" is a quantity that measures the extent in which the reaction proceeds."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (US Dry) Per Day"@en ; + dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.019649e-07, + 0.000000101964902 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA944"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "peck{US}/day"^^xsd:string ; + ns1:ucumCode "[pk_us].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L48"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Information flow rate"@en ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (US Dry) Per Hour"@en ; + dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000002447157651, + 2.447158e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA945"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "peck{US}/hr"^^xsd:string ; + ns1:ucumCode "[pk_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L49"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Inverse Magnetic Flux"@en ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (US Dry) Per Minute"@en ; + dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000146829459067 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA946"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "peck{US}/min"^^xsd:string ; + ns1:ucumCode "[pk_us].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L50"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Inverse Time Temperature"@en ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Peck (US Dry) Per Second"@en ; + dcterms:description "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00880976754 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA947"^^xsd:string ; + ns1:plainTextDescription "unit of the volume peck (US dry) as dry measure according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "peck{US}/s"^^xsd:string ; + ns1:ucumCode "[pk_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L51"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "معامل الانضغاط عند ثبوت درجة الحرارة"@ar, - "objemová stlačitelnost"@cs, - "isotherme Kompressibilität"@de, - "isothermal compressibility"@en, - "compresibilidad isotérmica"@es, - "ضریب تراکم‌پذیری همدما"@fa, - "compressibilité isotherme"@fr, - "comprimibilità isotermica"@it, - "等温圧縮率"@ja, - "Ketermampatan isotermik"@ms, - "ściśliwość izotermiczna"@pl, - "compressibilidade isotérmica"@pt, - "изотермический коэффициент сжимаемости"@ru, - "Izotermna stisljivost"@sl, - "等温压缩率"@zh ; - dcterms:description "The isothermal compressibility defines the rate of change of system volume with pressure."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Compressibility"^^xsd:anyURI ; - ns1:latexDefinition "$\\varkappa_T = \\frac{1}{V}\\left (\\frac{\\partial V}{\\partial p} \\right )_T$, where $V$ is volume, $p$ is $pressure$, and $T$ is thermodynamic temperature."^^ns1:LatexString ; - ns1:latexSymbol "$\\varkappa_T$"^^ns1:LatexString ; - ns1:plainTextDescription "The isothermal compressibility defines the rate of change of system volume with pressure."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Parts Per Million per Kelvin"@en ; + dcterms:description "Unit for expansion ratios expressed as parts per million per Kelvin."^^ns1:LatexString ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:expression "\\(PPM/K\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "PPM/K"^^xsd:string ; + ns1:ucumCode "ppm.K-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Luminous Flux per Area"@en ; - dcterms:description "In photometry, illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of how much the incident light illuminates the surface, wavelength-weighted by the luminosity function to correlate with human brightness perception. Similarly, luminous emittance is the luminous flux per unit area emitted from a surface. In SI derived units these are measured in $lux (lx)$ or $lumens per square metre$ ($cd \\cdot m^{-2}$). In the CGS system, the unit of illuminance is the $phot$, which is equal to $10,000 lux$. The $foot-candle$ is a non-metric unit of illuminance that is used in photography."^^ns1:LatexString ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Illuminance"^^xsd:anyURI ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Parts per thousand per hour"@en ; + ns1:conversionMultiplier 0.000000277777777777778, + 2.777778e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "‰/hr"^^xsd:string ; + ns1:ucumCode "[ppth].h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Magnetic Quantum Number"@en ; - dcterms:description "The \"Magnetic Quantum Number\" describes the specific orbital (or \"cloud\") within that subshell, and yields the projection of the orbital angular momentum along a specified axis."^^rdf:HTML ; - ns1:applicableUnit ; + a ns1:Unit ; + rdfs:label "Parts Per Ten Million per Kelvin"@en ; + dcterms:description "Unit for expansion ratios expressed as parts per ten million per Kelvin."^^ns1:LatexString ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; + ns1:expression "\\(PPM/K\\)"^^ns1:LatexString, + "\\(PPTM/K\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "PPM/K"^^xsd:string, + "PPTM/K"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Picograms per gram"@en ; + dcterms:description "One part per 10**12 (trillion) by mass of the measurand in the matrix."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:plainTextDescription "The \"Magnetic Quantum Number\" describes the specific orbital (or \"cloud\") within that subshell, and yields the projection of the orbital angular momentum along a specified axis."^^xsd:string ; - ns1:symbol "m"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader ; - skos:closeMatch , - , - . + ns1:hasQuantityKind ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "pg/g"^^xsd:string ; + ns1:ucumCode "pg.g-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Mass Concentration"@en ; - dcterms:description "The \"Mass Concentration\" of substance B is defined as the mass of a constituent divided by the volume of the mixture ."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_concentration_(chemistry)"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$\\rho_B = \\frac{m_B}{V}$, where $m_B$ is the mass of substance $B$ and $V$ is the volume."^^ns1:LatexString ; - ns1:latexSymbol "$\\rho_B$"^^ns1:LatexString ; - ns1:plainTextDescription "The \"Mass Concentration\" of substance B is defined as the mass of a constituent divided by the volume of the mixture ."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Picograms per kilogram"@en ; + dcterms:description "One part per 10**15 by mass of the measurand in the matrix."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "pg/kg"^^xsd:string ; + ns1:ucumCode "pg.kg-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Mass Temperature"@en ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Planck Charge"@en ; + dcterms:description "In physics, the Planck charge, denoted by, is one of the base units in the system of natural units called Planck units. It is a quantity of electric charge defined in terms of fundamental physical constants. The Planck charge is defined as: coulombs, where: is the speed of light in the vacuum, is Planck's constant, is the reduced Planck constant, is the permittivity of free space is the elementary charge = (137.03599911) is the fine structure constant. The Planck charge is times greater than the elementary charge \\(e\\) carried by an electron."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000000000000000187554587, + 1.875546e-18 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; + ns1:latexSymbol "\\(Q_P\\)"^^ns1:LatexString ; + ns1:symbol "planckcharge"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Molar Energy"@en ; - dcterms:description "\"Molar Energy\" is the total energy contained by a thermodynamic system. The unit is \\(J/mol\\), also expressed as \\(joule/mole\\), or \\(joules per mole\\). This unit is commonly used in the SI unit system. The quantity has the dimension of \\(M \\cdot L^2 \\cdot T^{-2} \\cdot N^{-1}\\) where \\(M\\) is mass, \\(L\\) is length, \\(T\\) is time, and \\(N\\) is amount of substance."^^ns1:LatexString ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.efunda.com/glossary/units/units-molar_energy-joule_per_mole.cfm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$U_m = \\frac{U}{n}$, where $U$ is internal energy and $n$ is amount of substance."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "U_M"^^xsd:string ; - ns2:todo "dimensions are wrong"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Planck Frequency"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 18548700000000000000000000000000000000000000.0, + 1.85487e+43 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_angular_frequency"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_angular_frequency?oldid=493641308"^^xsd:anyURI ; + ns1:symbol "planckfrequency"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Molar Flow Rate"@en ; - dcterms:description "Molar Flow Rate is a measure of the amount of substance (the number of molecules) that passes through a given area perpendicular to the flow in a given time. Typically this area is constrained, for example a section through a pipe, but it could also apply to an open flow."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD122"^^xsd:string ; - ns1:informativeReference "https://www.sciencedirect.com/topics/engineering/molar-flow-rate"^^xsd:anyURI ; - ns1:plainTextDescription "Molar Flow Rate is a measure of the amount of substance (the number of molecules) that passes through a given area perpendicular to the flow in a given time. Typically this area is constrained, for example a section through a pipe, but it could also apply to an open flow."^^xsd:string ; - ns1:symbol "q_V"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (UK Liquid) Per Day"@en ; + dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0000000131542, + 1.31542e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA710"^^xsd:string ; + ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "qt{UK}/day"^^xsd:string ; + ns1:ucumCode "[qt_br].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K94"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Molar Heat Capacity"@en ; - dcterms:description "\"Molar Heat Capacity\" is the amount of heat energy required to raise the temperature of 1 mole of a substance. In SI units, molar heat capacity (symbol: cn) is the amount of heat in joules required to raise 1 mole of a substance 1 Kelvin."^^rdf:HTML ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD123"^^xsd:string ; - ns1:informativeReference "http://chemistry.about.com/od/chemistryglossary/g/Molar-Heat-Capacity-Definition.htm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$C_m = \\frac{C}{n}$, where $C$ is heat capacity and $n$ is amount of substance."^^ns1:LatexString ; - ns1:plainTextDescription "\"Molar Heat Capacity\" is the amount of heat energy required to raise the temperature of 1 mole of a substance. In SI units, molar heat capacity (symbol: cn) is the amount of heat in joules required to raise 1 mole of a substance 1 Kelvin."^^xsd:string ; - ns1:symbol "C_m"^^xsd:string, - "cn"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (UK Liquid) Per Hour"@en ; + dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 3.157007e-07, + 0.0000003157007 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA711"^^xsd:string ; + ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "qt{UK}/hr"^^xsd:string ; + ns1:ucumCode "[qt_br].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K95"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Molar Refractivity"@en ; - dcterms:description "A quantity kind that is a measure of the total polarizability of a mole of substance that depends on the temperature, the index of refraction and the pressure."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "A quantity kind that is a measure of the total polarizability of a mole of substance that depends on the temperature, the index of refraction and the pressure."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (UK Liquid) Per Minute"@en ; + dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.894205e-05, + 0.00001894205 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA712"^^xsd:string ; + ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "qt{UK}/min"^^xsd:string ; + ns1:ucumCode "[qt_br].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K96"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Permeability"@en ; - ns1:applicableUnit , - , - , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD134"^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (UK Liquid) Per Second"@en ; + dcterms:description "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0011365225 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA713"^^xsd:string ; + ns1:plainTextDescription "unit of the volume quart (UK liquid) for fluids according to the Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "qt{UK}/s"^^xsd:string ; + ns1:ucumCode "[qt_br].h-1.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K97"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Power Area"@en ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "US Liquid Quart"@en ; + dcterms:description "\"US Liquid Quart\" is a unit for 'Liquid Volume' expressed as \\(qt\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000946353 ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "qt"^^xsd:string ; + ns1:ucumCode "[qt_us]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "QTL"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Pressure Coefficient"@en ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:expression "$pres-coef$"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD143"^^xsd:string ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$\\beta = \\left (\\frac{\\partial p}{\\partial T} \\right )_V$, where $p$ is $pressure$, $T$ is thermodynamic temperature and $V$ is volume."^^ns1:LatexString ; - ns1:latexSymbol "$\\beta$"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Principal Quantum Number"@en ; - dcterms:description "The \"Principal Quantum Number\" describes the electron shell, or energy level, of an atom. The value of $n$ ranges from 1 to the shell containing the outermost electron of that atom."^^ns1:LatexString ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:symbol "n"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader ; - skos:closeMatch , - , - . - - a ns1:QuantityKind ; - rdfs:label "Soil Adsorption Coefficient"@en ; - dcterms:description "A specific volume that is the ratio of the amount of substance adsorbed per unit weight of organic carbon in the soil or sediment to the concentration of the chemical in aqueous solution at equilibrium."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "A specific volume that is the ratio of the amount of substance adsorbed per unit weight of organic carbon in the soil or sediment to the concentration of the chemical in aqueous solution at equilibrium."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "Specific Heat Capacity at Saturation"@en ; - dcterms:description "Specific heat per constant volume."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:plainTextDescription "Specific heat per constant volume."^^xsd:string ; - ns1:symbol "c_{sat}"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - , - . + a ns1:Unit ; + rdfs:label "Quart (US Liquid) Per Day"@en ; + dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000001095316, + 1.095316e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA714"^^xsd:string ; + ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time day"^^xsd:string ; + ns1:symbol "qt{US}/day"^^xsd:string ; + ns1:ucumCode "[qt_us].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K98"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Specific Power"@en ; - dcterms:description "Specific power, also known as power-to-weight ratio, is the amount of power output per unit mass of the power source. It is generally used to measure the performance of that power source. The higher the ratio, the more power a system produces relative to its weight. It's commonly used in the automotive and aerospace industries to compare the performance of different engines. It's generally measured in watts per kilogram (W/kg) or horsepower per pound (hp/lb)."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Power-to-weight_ratio"^^xsd:anyURI ; - ns1:plainTextDescription "Specific power, also known as power-to-weight ratio, is the amount of power output per unit mass of the power source. It is generally used to measure the performance of that power source. The higher the ratio, the more power a system produces relative to its weight. It's commonly used in the automotive and aerospace industries to compare the performance of different engines. It's generally measured in watts per kilogram (W/kg) or horsepower per pound (hp/lb)."^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "Power-to-Weight Ratio"@en . + a ns1:Unit ; + rdfs:label "Quart (US Liquid) Per Hour"@en ; + dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 2.628758e-07, + 0.000000262875833 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA715"^^xsd:string ; + ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time hour"^^xsd:string ; + ns1:symbol "qt{US}/hr"^^xsd:string ; + ns1:ucumCode "[qt_us].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K99"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Stress-Optic Coefficient"@en ; - dcterms:description "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law Δ=((2πt)/λ)C(σ₁-σ₂), where Δ is the induced retardation, C is the stress-optic coefficient, t is the specimen thickness, λ is the vacuum wavelength, and σ₁ and σ₂ are the first and second principal stresses, respectively."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://en.wikipedia.org/w/index.php?title=Photoelasticity&oldid=1109858854#Experimental_principles"^^xsd:anyURI ; - ns1:latexDefinition "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law $\\Delta ={\\frac {2\\pi t}{\\lambda }}C(\\sigma _{1}-\\sigma _{2})$, where $\\Delta$ is the induced retardation, $C$ is the stress-optic coefficient, $t$ is the specimen thickness, $\\lambda$ is the vacuum wavelength, and $\\sigma_1$ and $\\sigma_2$ are the first and second principal stresses, respectively."^^ns1:LatexString ; - ns1:plainTextDescription "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law Δ=((2πt)/λ)C(σ₁-σ₂), where Δ is the induced retardation, C is the stress-optic coefficient, t is the specimen thickness, λ is the vacuum wavelength, and σ₁ and σ₂ are the first and second principal stresses, respectively."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (US Liquid) Per Minute"@en ; + dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.577255e-05, + 0.00001577255 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA716"^^xsd:string ; + ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the unit for time minute"^^xsd:string ; + ns1:symbol "qt{US}/min"^^xsd:string ; + ns1:ucumCode "[qt_us].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L10"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Thermal Resistivity"@en ; - dcterms:description "The reciprocal of thermal conductivity is thermal resistivity, measured in $kelvin-metres$ per watt ($K \\cdot m/W$)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD194"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Quart (US Liquid) Per Second"@en ; + dcterms:description "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000946353, + 9.46353e-04 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA717"^^xsd:string ; + ns1:plainTextDescription "unit fo the volume quart (US liquid) for fluids according to the Anglo-American system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "qt{US}/s"^^xsd:string ; + ns1:ucumCode "[qt_us].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L11"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Time Temperature"@en ; - ns1:applicableUnit , - , - , - ; - ns1:hasDimensionVector ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Register Ton"@en ; + dcterms:description "The register ton is a unit of volume used for the cargo capacity of a ship, defined as 100 cubic feet (roughly 2.83 cubic metres)."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 2.8316846592 ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Tonnage#Tonnage_measurements"^^xsd:anyURI ; + ns1:symbol "RT"^^xsd:string ; + ns1:ucumCode "100.[cft_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M70"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . - a ns1:Unit ; - rdfs:label "Ampere Per Centimetre"@en, - "Ampere Per Centimeter"@en-us ; - dcterms:description "SI base unit ampere divided by the 0.01-fold of the SI base unit metre"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, + "siemensů na metr"@cs, + "Siemens je Meter"@de, + "Siemens Per Metre"@en, + "siemens per metre"@en, + "Siemens Per Meter"@en-us, + "siemens por metro"@es, + "زیمنس بر متر"@fa, + "siemens par mètre"@fr, + "प्रति मीटर सीमैन्स"@hi, + "siemens al metro"@it, + "ジーメンス毎メートル"@ja, + "siemens per meter"@ms, + "simens na metr"@pl, + "siemens por metro"@pt, + "siemens pe metru"@ro, + "сименс на метр"@ru, + "siemens na meter"@sl, + "siemens bölü metre"@tr, + "西门子每米"@zh ; + dcterms:description "SI derived unit siemens divided by the SI base unit metre"^^rdf:HTML ; ns1:applicableSystem , , ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB073"^^xsd:string ; - ns1:plainTextDescription "SI base unit ampere divided by the 0.01-fold of the SI base unit metre"^^xsd:string ; - ns1:symbol "A/cm"^^xsd:string ; - ns1:ucumCode "A.cm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A2"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:exactMatch ; + ns1:expression "\\(s-per-m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA279"^^xsd:string ; + ns1:plainTextDescription "SI derived unit siemens divided by the SI base unit metre"^^xsd:string ; + ns1:symbol "S/m"^^xsd:string ; + ns1:ucumCode "S.m-1"^^ns1:UCUMcs, + "S/m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D10"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ampere Per Millimetre"@en, - "Ampere Per Millimeter"@en-us ; - dcterms:description "SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB072"^^xsd:string ; - ns1:plainTextDescription "SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^xsd:string ; - ns1:symbol "A/mm"^^xsd:string ; - ns1:ucumCode "A.mm-1"^^ns1:UCUMcs, - "A/mm"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A3"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Sample per second"@en ; + dcterms:description "The number of discrete samples of some thing per second."^^rdf:HTML ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(sample-per-sec\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "sample/s"^^xsd:string ; + ns1:ucumCode "s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DimensionlessUnit, - ns1:LogarithmicUnit, - ns1:Unit ; - rdfs:label "بل"@ar, - "бел"@bg, - "bel"@cs, - "Bel"@de, - "μπέλ"@el, - "bel"@en, - "belio"@es, - "بل"@fa, - "bel"@fr, - "בל"@he, - "बेल"@hi, - "bel"@hu, - "bel"@it, - "ベル"@ja, - "bel"@ms, - "bel"@pl, - "bel"@pt, - "bel"@ro, - "бел"@ru, - "bel"@sl, - "bel"@tr, - "贝"@zh ; - dcterms:description "A logarithmic unit of sound pressure equal to 10 decibels (dB), It is defined as: \\(1 B = (1/2) \\log_{10}(Np)\\)"^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , + a ns1:Unit ; + rdfs:label "Short Ton per Hour"@en ; + dcterms:description "The short Ton per Hour is a unit used to express a weight processed in a period of time."^^rdf:HTML ; + ns1:applicableSystem , , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Bel"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAB351"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Sound_unit"^^xsd:anyURI ; - ns1:symbol "B"^^xsd:string ; - ns1:ucumCode "B"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M72"^^xsd:string ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 0.251995761 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:expression "\\(ton/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ton/hr"^^xsd:string ; + ns1:ucumCode "[ston_av].h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Coulomb Per Square Centimetre"@en, - "Coulomb Per Square Centimeter"@en-us ; - dcterms:description "derived SI unit coulomb divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Terahertz"@en ; + dcterms:description "1 000 000 000 000-fold of the SI derived unit hertz"^^rdf:HTML ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 10000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB101"^^xsd:string ; - ns1:plainTextDescription "derived SI unit coulomb divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; - ns1:symbol "C/cm²"^^xsd:string ; - ns1:ucumCode "C.cm-2"^^ns1:UCUMcs, - "C/cm2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A33"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA287"^^xsd:string ; + ns1:plainTextDescription "1 000 000 000 000-fold of the SI derived unit hertz"^^xsd:string, + "1,000,000,000,000-fold of the SI derived unit hertz"^^xsd:string ; + ns1:prefix ; + ns1:symbol "THz"^^xsd:string ; + ns1:ucumCode "THz"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D29"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Coulomb Per Square Millimetre"@en, - "Coulomb Per Square Millimeter"@en-us ; - dcterms:description "derived SI unit coulomb divided by the 0.000 001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Volt Second Per Metre"@en, + "Volt Second Per Meter"@en-us ; + dcterms:description "product of the SI derived unit volt and the SI base unit second divided by the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB100"^^xsd:string ; - ns1:plainTextDescription "derived SI unit coulomb divided by the 0.000 001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; - ns1:symbol "C/mm²"^^xsd:string ; - ns1:ucumCode "C.mm-2"^^ns1:UCUMcs, - "C/mm2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A35"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Cases per 1000 individuals per year"@en ; - dcterms:description "The typical expression of morbidity rate, expressed as cases per 1000 individuals, per year."^^rdf:HTML ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Incidence_(epidemiology)"^^xsd:anyURI ; - ns1:plainTextDescription "The typical expression of morbidity rate, expressed as cases per 1000 individuals, per year."^^xsd:string ; - ns1:symbol "Cases/1000 individuals/year"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA303"^^xsd:string ; + ns1:plainTextDescription "product of the SI derived unit volt and the SI base unit second divided by the SI base unit metre"^^xsd:string ; + ns1:symbol "V⋅s/m"^^xsd:string ; + ns1:ucumCode "V.s.m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H45"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Abcoulomb per Square Centimetre"@en, - "Abcoulomb per Square Centimeter"@en-us ; - dcterms:description """Abcoulomb Per Square Centimeter is a unit in the category of Electric charge surface density. It is also known as abcoulombs per square centimeter, abcoulomb per square centimetre, abcoulombs per square centimetre, abcoulomb/square centimeter,abcoulomb/square centimetre. This unit is commonly used in the cgs unit system. -Abcoulomb Per Square Centimeter (abcoulomb/cm2) has a dimension of \\(L_2TI\\). where L is length, T is time, and I is electric current. It can be converted to the corresponding standard SI unit \\(C/m^2\\) by multiplying its value by a factor of 100,000."""^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Abvolt per centimetre"@en, + "Abvolt per centimeter"@en-us ; + dcterms:description "In the electromagnetic centimeter-gram-second system of units, 'abvolt per centimeter' is the unit of electric field strength."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e+05 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:derivedUnitOfSystem ; - ns1:expression "\\(abc-per-cm2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://www.efunda.com/glossary/units/units--electric_charge_surface_density--abcoulomb_per_square_centimeter.cfm"^^xsd:anyURI ; - ns1:latexDefinition "\\(abcoulomb/cm^2\\)"^^ns1:LatexString ; - ns1:symbol "abC/cm²"^^xsd:string ; - ns1:ucumCode "10.C.cm-2"^^ns1:UCUMcs ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://www.endmemo.com/convert/electric%20field%20strength.php"^^xsd:anyURI ; + ns1:symbol "abV/cm"^^xsd:string ; + ns1:ucumCode "10.nV.cm-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Statcoulomb per Square Centimetre"@en, - "Statcoulomb per Square Centimeter"@en-us ; - dcterms:description "\\(\\textbf{Statcoulomb per Square Centimeter}\\) is a unit of measure for electric flux density and electric polarization. One Statcoulomb per Square Centimeter is \\(2.15\\times 10^9 \\, coulomb\\,per\\,square\\,inch\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 3.33564e-06 ; - ns1:derivedUnitOfSystem ; - ns1:expression "\\(statc-per-cm2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "statC/cm²"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Statvolt per Centimetre"@en, + "Statvolt per Centimeter"@en-us ; + dcterms:description """One statvolt per centimetre is equal in magnitude to one gauss. For example, an electric field of one statvolt/cm has the same energy density as a magnetic field of one gauss. Likewise, a plane wave propagating in a vacuum has perpendicular electric and magnetic fields such that for every gauss of magnetic field intensity there is one statvolt/cm of electric field intensity. +The abvolt is another option for a unit of voltage in the cgs system."""^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 29979.2458 ; + ns1:expression "\\(statv-per-cm\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Statvolt"^^xsd:anyURI ; + ns1:symbol "statV/cm"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centimole per litre"@en ; - dcterms:description "1/100 of SI unit of amount of substance per litre"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 10.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "cmol/L"^^xsd:string ; - ns1:ucumCode "cmol.L-1"^^ns1:UCUMcs, - "cmol/L"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Watt Per Kilogram"@en ; + dcterms:description "SI derived unit watt divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA316"^^xsd:string ; + ns1:plainTextDescription "SI derived unit watt divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "W/kg"^^xsd:string ; + ns1:ucumCode "W.kg-1"^^ns1:UCUMcs, + "W/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "WA"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Balling"@en ; - dcterms:description "unit for the mixing ratio of a soluble dry substance in water at 17.5 degrees C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/ water solution corresponds to 1 degree Balling and respectively a one percent solution"^^rdf:HTML ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA031"^^xsd:string ; - ns1:plainTextDescription "unit for the mixing ratio of a soluble dry substance in water at 17.5 degrees C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/ water solution corresponds to 1 degree Balling and respectively a one percent solution"^^xsd:string ; - ns1:symbol "°Balling"^^xsd:string ; - ns1:uneceCommonCode "J17"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Yard Per Day"@en ; + dcterms:description "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00000884901456, + 8.849015e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB037"^^xsd:string ; + ns1:plainTextDescription "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for time day"^^xsd:string ; + ns1:symbol "yd³/day"^^xsd:string ; + ns1:ucumCode "[cyd_i].d-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M12"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Baume (origin Scale)"@en ; - dcterms:description """graduation of the areometer scale for determination of densitiy of fluids. - -The Baumé scale is a pair of hydrometer scales developed by French pharmacist Antoine Baumé in 1768 to measure density of various liquids. The unit of the Baumé scale has been notated variously as degrees Baumé, B°, Bé° and simply Baumé (the accent is not always present). One scale measures the density of liquids heavier than water and the other, liquids lighter than water. The Baumé of distilled water is 0. The API gravity scale is based on errors in early implementations of the Baumé scale."""^^xsd:string ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA028"^^xsd:string ; - ns1:plainTextDescription """graduation of the areometer scale for determination of densitiy of fluids. - -The Baumé scale is a pair of hydrometer scales developed by French pharmacist Antoine Baumé in 1768 to measure density of various liquids. The unit of the Baumé scale has been notated variously as degrees Baumé, B°, Bé° and simply Baumé (the accent is not always present). One scale measures the density of liquids heavier than water and the other, liquids lighter than water. The Baumé of distilled water is 0. The API gravity scale is based on errors in early implementations of the Baumé scale."""^^xsd:string ; - ns1:symbol "°Bé{origin}"^^xsd:string ; - ns1:uneceCommonCode "J14"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Yard Per Hour"@en ; + dcterms:description "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for the time hour"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00021237634944 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB038"^^xsd:string ; + ns1:plainTextDescription "power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3 divided by the unit for the time hour"^^xsd:string ; + ns1:symbol "yd³/hr"^^xsd:string ; + ns1:ucumCode "[cyd_i].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M13"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Baume (US Heavy)"@en ; - dcterms:description "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are heavier than water"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA029"^^xsd:string ; - ns1:plainTextDescription "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are heavier than water"^^xsd:string ; - ns1:symbol "°Bé{US Heavy}"^^xsd:string ; - ns1:uneceCommonCode "J15"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Cubic Yard per Minute"@en ; + dcterms:description "\"Cubic Yard per Minute\" is an Imperial unit for 'Volume Per Unit Time' expressed as \\(yd^{3}/min\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0127425809664 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(yd^{3}/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB040"^^xsd:string ; + ns1:symbol "yd³/min"^^xsd:string ; + ns1:ucumCode "[cyd_i].min-1"^^ns1:UCUMcs, + "[cyd_i]/min"^^ns1:UCUMcs, + "[yd_i]3.min-1"^^ns1:UCUMcs, + "[yd_i]3/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M15"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Baume (US Light)"@en ; - dcterms:description "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are lighter than water"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA030"^^xsd:string ; - ns1:plainTextDescription "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are lighter than water"^^xsd:string ; - ns1:symbol "°Bé{US Light}"^^xsd:string ; - ns1:uneceCommonCode "J16"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Cubic Yard Per Second"@en ; + dcterms:description "power of the unit and the Anglo-American and Imperial system of units with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.764554857984 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB041"^^xsd:string ; + ns1:plainTextDescription "power of the unit and the Anglo-American and Imperial system of units with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "yd³/s"^^xsd:string ; + ns1:ucumCode "[cyd_i].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M16"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Brix"@en ; - dcterms:description "unit named according to Adolf Brix for the mixing ratio of a soluble dry substance in water with 15.5 °C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/water solution corresponds to 1 °Brix and respectively an one percent solution"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Failures In Time"@en ; + dcterms:description "unit of failure rate"^^rdf:HTML ; ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA032"^^xsd:string ; - ns1:plainTextDescription "unit named according to Adolf Brix for the mixing ratio of a soluble dry substance in water with 15.5 °C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/water solution corresponds to 1 °Brix and respectively an one percent solution"^^xsd:string ; - ns1:symbol "°Bx"^^xsd:string ; - ns1:uneceCommonCode "J18"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB403"^^xsd:string ; + ns1:plainTextDescription "unit of failure rate"^^xsd:string ; + ns1:symbol "failures/s"^^xsd:string ; + ns1:ucumCode "s-1{failures}"^^ns1:UCUMcs ; + ns1:uneceCommonCode "FIT"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Oechsle"@en ; - dcterms:description "unit of the density of the must, as measure for the proportion of the soluble material in the grape must"^^rdf:HTML ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA048"^^xsd:string ; - ns1:plainTextDescription "unit of the density of the must, as measure for the proportion of the soluble material in the grape must"^^xsd:string ; - ns1:symbol "°Oe"^^xsd:string ; - ns1:uneceCommonCode "J27"^^xsd:string ; - rdfs:isDefinedBy . +ns3:defaultObjectValue a owl:ObjectProperty ; + rdfs:label "default object value"^^xsd:string ; + dcterms:description """ +The property "dtype:defaultValue" is a general property for specifying an object value in situations where +none is specified. +"""^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Plato"@en ; - dcterms:description "unit for the mixing ratio of the original gravity in the beer brew at 17,5 °C before the fermentation"^^rdf:HTML ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA049"^^xsd:string ; - ns1:plainTextDescription "unit for the mixing ratio of the original gravity in the beer brew at 17,5 °C before the fermentation"^^xsd:string ; - ns1:symbol "°P"^^xsd:string ; - ns1:uneceCommonCode "PLA"^^xsd:string ; - rdfs:isDefinedBy . +ns3:derivedFrom a owl:ObjectProperty ; + rdfs:label "derived from"^^xsd:string ; + dcterms:description "A property for specifying a derivation relationship."^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Twaddell"@en ; - dcterms:description "unit of the density of fluids, which are heavier than water"^^rdf:HTML ; - ns1:conversionMultiplier 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA054"^^xsd:string ; - ns1:plainTextDescription "unit of the density of fluids, which are heavier than water"^^xsd:string ; - ns1:symbol "°Tw"^^xsd:string ; - ns1:uneceCommonCode "J31"^^xsd:string ; - rdfs:isDefinedBy . +ns3:hasMember a owl:ObjectProperty ; + rdfs:label "has member"^^xsd:string ; + dcterms:description "A property for specifying how member elements make up a data structure."^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DimensionlessUnit, - ns1:LogarithmicUnit, - ns1:Unit ; - rdfs:label "Decibel"@en ; - dcterms:description "A customary logarithmic measure most commonly used (in various ways) for measuring sound.Sound is measured on a logarithmic scale. Informally, if one sound is \\(1\\,bel\\) (10 decibels) \"louder\" than another, this means the louder sound is 10 times louder than the fainter one. A difference of 20 decibels corresponds to an increase of 10 x 10 or 100 times in intensity. The beginning of the scale, 0 decibels, can be set in different ways, depending on exactly the aspect of sound being measured. For sound intensity (the power of the sound waves per unit of area) \\(0\\,decibel\\) is equal to \\(1\\,picoWatts\\,per\\,Metre\\,Squared\\). This corresponds approximately to the faintest sound that can be detected by a person who has good hearing. For sound pressure (the pressure exerted by the sound waves) 0 decibels equals \\(20\\,micropascals\\,RMS\\), and for sound power \\(0\\,decibels\\) sometimes equals \\(1\\,picoWatt\\). In all cases, one decibel equals \\(\\approx\\,0.115129\\,neper\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Decibel"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA409"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Decibel?oldid=495380648"^^xsd:anyURI ; - ns1:symbol "dB"^^xsd:string ; - ns1:ucumCode "dB"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2N"^^xsd:string ; - rdfs:isDefinedBy . +ns3:order a owl:DatatypeProperty ; + rdfs:label "order"^^xsd:string ; + dcterms:description """ +The property "dtype:order" provides a means to specify a precedence. +One use of order is in specifying ordered enumerations such as "voag:ConfidentialityLevel". +A similar property, but with an important type difference, is "vaem:orderIndex". +This is for use on property occurrences in class axioms where it can be placed on a restriction +to specify how that property may be transformed into other representations where ordering has some +importance, for example, in XML Schema sequences. +Whereas "vaem:order" is a datatype property, "vaem:orderIndex" is an annotation property. +The "order" property specifies a value that can establish precedence and ordinality. +One use of order is in make an enumeration an ordinal type. +For example "RiskLevel" might have the values "very low", "low", "medium", "high" and "very high". +A query that asks for all risks that are greater than "medium" would use the ordinal values and return +those resources that have “medium”, “high” and “very high” ordinality. +"""^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:range xsd:integer ; + rdfs:seeAlso ns3:orderIndex . - a ns1:DimensionlessUnit, - ns1:Unit ; - rdfs:label "Decibel Referred to 1mw"@en ; - dcterms:description "\"Decibel Referred to 1mw\" is a 'Dimensionless Ratio' expressed as \\(dBm\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:symbol "dBmW"^^xsd:string ; - ns1:udunitsCode "Bm"^^xsd:string ; - ns1:uneceCommonCode "DBM"^^xsd:string ; - rdfs:isDefinedBy . +ns3:refersTo a owl:ObjectProperty ; + rdfs:label "refers to"^^xsd:string ; + dcterms:description """ +An indirection pointer for relating a slot in am occurrence data structure, such as "dtype:ValueReference" with another resource. +"""^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Femtograms per litre"@en ; - dcterms:description "One 10**18 part of the SI standard unit of mass of the measurand per litre volume of matrix.."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-15 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "fg/L"^^xsd:string ; - ns1:ucumCode "fg.L-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns2:Dimension a owl:Class ; + rdfs:label "Domain"^^xsd:string ; + dcterms:description "A dimension identifies a separation of concens that serves as a way to categorize an ontology graph. In VAEM, the notion of \"Dimension\" is partitioned into \"Aspect\", \"Discipline\", \"Domain\" and \"Viewpoint\". "^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf owl:Thing . - a ns1:Unit ; - rdfs:label "Gram Per Cubic Centimetre"@en, - "Gram Per Cubic Centimeter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA469"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit kilogram divided by the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "g/cm³"^^xsd:string ; - ns1:ucumCode "g.cm-3"^^ns1:UCUMcs, - "g/cm3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "23"^^xsd:string ; - rdfs:isDefinedBy . +ns2:TopQuadrant a ns2:Party ; + rdfs:label "TopQuadrant"^^xsd:string ; + ns2:name "TopQuadrant, Inc."^^xsd:string ; + ns2:url "http:/www.topquadrant.com"^^xsd:anyURI ; + rdfs:isDefinedBy , + . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "grams per decilitre"@en, - "grams per decilitre"@en-us ; - dcterms:description "A derived unit for amount-of-substance concentration measured in g/dL."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 10.0 ; - ns1:expression "\\(g/dL\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "g/dL"^^xsd:string ; - ns1:ucumCode "g.dL-1"^^ns1:UCUMcs, - "g/dL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns2:description a owl:DatatypeProperty ; + rdfs:label "description"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:string . - a ns1:Unit ; - rdfs:label "Gram Per Cubic Decimetre"@en, - "Gram Per Cubic Decimeter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA475"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "g/dm³"^^xsd:string ; - ns1:ucumCode "g.dm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F23"^^xsd:string ; - rdfs:isDefinedBy . +ns2:hasDimension a owl:ObjectProperty ; + rdfs:label "has dimension"^^xsd:string ; + dcterms:description "The property \"vaem:hasDimension\" is used categorize an ontology. In VAEM, the property is used to characterize an ontology graph."^^xsd:string ; + rdfs:isDefinedBy , + . - a ns1:Unit ; - rdfs:label "Gram Per Litre"@en, - "Gram Per Liter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA482"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; - ns1:symbol "g/L"^^xsd:string ; - ns1:ucumCode "g.L-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GL"^^xsd:string ; - rdfs:isDefinedBy . +ns2:hasMetadata a owl:ObjectProperty ; + rdfs:label "has metadata"^^xsd:string ; + dcterms:description "The property \"hasMetadata\" is used to reference a metadata information structure."^^xsd:string ; + rdfs:isDefinedBy , + . - a ns1:Unit ; - rdfs:label "Gram Per Cubic Metre"@en, - "Gram Per Cubic Meter"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA487"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "g/m³"^^xsd:string ; - ns1:ucumCode "g.m-3"^^ns1:UCUMcs, - "g/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A93"^^xsd:string ; - rdfs:isDefinedBy . +ns2:hasSteward a owl:ObjectProperty ; + rdfs:label "has steward"^^xsd:string ; + dcterms:description "A property that is used to refer to a \"Steward\", that is, the party or role that is responsible for maintaining an asset, in the case of VAEM, an ontology graph."^^xsd:string ; + rdfs:isDefinedBy , + . - a ns1:Unit ; - rdfs:label "Gram Per Millilitre"@en, - "Gram Per Millilitre"@en-us ; - dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA493"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the unit litre"^^xsd:string ; - ns1:symbol "g/mL"^^xsd:string ; - ns1:ucumCode "g.mL-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GJ"^^xsd:string ; - rdfs:isDefinedBy . +ns2:name a owl:DatatypeProperty ; + rdfs:label "name"^^xsd:string ; + dcterms:description "The property \"vaem:name\" is intended for general use. In many cases \"rdfs:label\" could be used give names to resources. In the case where compliance with a specific naming rule is needed, \"vaem:name\" allows a resource to carry a name that is used in more specific contexts."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:range xsd:string . - a ns1:Unit ; - rdfs:label "Grain per Gallon"@en ; - dcterms:description "\"Grain per Gallon\" is an Imperial unit for 'Density' expressed as \\(gr/gal\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.017118061 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(gr/gal\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "grain{UK}/gal"^^xsd:string ; - ns1:ucumCode "[gr].[gal_br]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K41"^^xsd:string ; - rdfs:isDefinedBy . +skos:Collection a owl:Class ; + rdfs:label "Collection"@en ; + rdfs:isDefinedBy ; + owl:disjointWith skos:Concept, + skos:ConceptScheme ; + skos:definition "A meaningful collection of concepts."@en ; + skos:scopeNote "Labelled collections can be used where you would like a set of concepts to be displayed under a 'node label' in the hierarchy."@en . - a ns1:Unit ; - rdfs:label "Grain Per Gallon (US)"@en ; - dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.01711806 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA524"^^xsd:string ; - ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "grain{US}/gal"^^xsd:string ; - ns1:ucumCode "[gr].[gal_us]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K41"^^xsd:string ; - rdfs:isDefinedBy . +skos:ConceptScheme a owl:Class ; + rdfs:label "Concept Scheme"@en ; + rdfs:isDefinedBy ; + owl:disjointWith skos:Concept ; + skos:definition "A set of concepts, optionally including statements about semantic relationships between those concepts."@en ; + skos:example "Thesauri, classification schemes, subject heading lists, taxonomies, 'folksonomies', and other types of controlled vocabulary are all examples of concept schemes. Concept schemes are also embedded in glossaries and terminologies."@en ; + skos:scopeNote "A concept scheme may be defined to include concepts from different sources."@en . - a ns1:Unit ; - rdfs:label "Grains per Cubic Metre"@en, - "Grains per Cubic Meter"@en-us ; - dcterms:description "Grains per cubic metre of volume"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.00006479891 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "Grains per cubic metre of volume"^^xsd:string ; - ns1:symbol "Grain/m³"^^xsd:string ; - ns1:ucumCode "[gr]/m3"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +skos:mappingRelation a rdf:Property, + owl:ObjectProperty ; + rdfs:label "is in mapping relation with"@en ; + rdfs:comment "These concept mapping relations mirror semantic relations, and the data model defined below is similar (with the exception of skos:exactMatch) to the data model defined for semantic relations. A distinct vocabulary is provided for concept mapping relations, to provide a convenient way to differentiate links within a concept scheme from links between concept schemes. However, this pattern of usage is not a formal requirement of the SKOS data model, and relies on informal definitions of best practice."@en ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf skos:semanticRelation ; + skos:definition "Relates two concepts coming, by convention, from different schemes, and that have comparable meanings"@en . - a ns1:Unit ; - rdfs:label "Gamma"@en ; - dcterms:description "\"Gamma\" is a C.G.S System unit for 'Magnetic Field'."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-09 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gamma"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB213"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gamma?oldid=494680973"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "γ"^^xsd:string ; - ns1:uneceCommonCode "P12"^^xsd:string ; - rdfs:isDefinedBy . +skos:semanticRelation a rdf:Property, + owl:ObjectProperty ; + rdfs:label "is in semantic relation with"@en ; + rdfs:domain skos:Concept ; + rdfs:isDefinedBy ; + rdfs:range skos:Concept ; + skos:definition "Links a concept to a concept related by meaning."@en ; + skos:scopeNote "This property should not be used directly, but as a super-property for all properties denoting a relationship of meaning between concepts."@en . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "جول لكل مول"@ar, - "joule na mol"@cs, - "Joule je Mol"@de, - "joule per mole"@en, - "julio por mol"@es, - "ژول بر مول"@fa, - "joule par mole"@fr, - "जूल प्रति मोल (इकाई)"@hi, - "joule alla mole"@it, - "ジュール毎立方メートル"@ja, - "joule per mole"@ms, - "dżul na mol"@pl, - "joule por mol"@pt, - "joule pe mol"@ro, - "джоуль на моль"@ru, - "joule na mol"@sl, - "joule bölü metre küp"@tr, - "焦耳每摩尔"@zh ; - dcterms:description "The joule per mole (symbol: \\(J\\cdot mol^{-1}\\)) is an SI derived unit of energy per amount of material. Energy is measured in joules, and the amount of material is measured in moles. Physical quantities measured in \\(J\\cdot mol^{-1}\\)) usually describe quantities of energy transferred during phase transformations or chemical reactions. Division by the number of moles facilitates comparison between processes involving different quantities of material and between similar processes involving different types of materials. The meaning of such a quantity is always context-dependent and, particularly for chemical reactions, is dependent on the (possibly arbitrary) definition of a 'mole' for a particular process."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J/mol\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA183"^^xsd:string ; - ns1:symbol "J/mol"^^xsd:string ; - ns1:ucumCode "J.mol-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B15"^^xsd:string ; - rdfs:isDefinedBy . +s223:Coil a s223:Class, + sh:NodeShape ; + rdfs:label "Coil"^^xsd:string ; + rdfs:comment """ + A Coil is a component that represents a cooling or heating element made of a pipe or tube + that may or may not be finned and formed into a helical or serpentine shape. The physical + characteristics of the coil are not captured in the model. - a ns1:Unit ; - rdfs:label "Kiloampere Per Metre"@en, - "Kiloampere Per Meter"@en-us ; - dcterms:description "1 000-fold of the SI base unit ampere divided by the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA558"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI base unit ampere divided by the SI base unit metre"^^xsd:string ; - ns1:symbol "kA/m"^^xsd:string ; - ns1:ucumCode "kA.m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B24"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilogram Square Centimetre"@en, - "Kilogram Square Centimeter"@en-us ; - dcterms:description "product of the SI base unit kilogram and the 0 0001fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA600"^^xsd:string ; - ns1:plainTextDescription "product of the SI base unit kilogram and the 0 0001fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "kg⋅cm²"^^xsd:string ; - ns1:ucumCode "kg.cm2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F18"^^xsd:string ; - rdfs:isDefinedBy . + A Coil must conform to exactly one of the following patterns: - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "كيلوغرام متر مربع"@ar, - "kilogram čtvereční metr"@cs, - "Kilogramm mal Quadratmeter"@de, - "kilogram square metre"@en, - "Kilogram Square Meter"@en-us, - "kilogramo metro cuadrado"@es, - "نیوتون متر مربع"@fa, - "kilogramme-mètre carré"@fr, - "किलोग्राम वर्ग मीटर"@hi, - "chilogrammo metro quadrato"@it, - "キログラム平方メートル"@ja, - "kilogram meter persegi"@ms, - "quilograma-metro quadrado"@pt, - "kilogram-metru pătrat"@ro, - "килограмм-квадратный метр"@ru, - "kilogram metrekare"@tr, - "千克平方米"@zh ; - dcterms:description "\"Kilogram Square Meter\" is a unit for 'Moment Of Inertia' expressed as \\(kg-m^2\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(kg-m2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA622"^^xsd:string ; - ns1:symbol "kg⋅m²"^^xsd:string ; - ns1:ucumCode "kg.m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B32"^^xsd:string ; - rdfs:isDefinedBy . + **Pattern 1:** + - The Coil has exactly two inlet connection points using the medium `Mix-Fluid`, with exactly one being `Fluid-Air`. + - The Coil has exactly two outlet connection points using the medium `Mix-Fluid`, with exactly one being `Fluid-Air`. - a ns1:Unit ; - rdfs:label "Kilogram Square Millimetre"@en, - "Kilogram Square Millimeter"@en-us ; - dcterms:description "product of the SI base kilogram and the 0.001-fold of the power of the SI base metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA627"^^xsd:string ; - ns1:plainTextDescription "product of the SI base kilogram and the 0.001-fold of the power of the SI base metre with the exponent 2"^^xsd:string ; - ns1:symbol "kg⋅mm²"^^xsd:string ; - ns1:ucumCode "kg.mm2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F19"^^xsd:string ; - rdfs:isDefinedBy . + **Pattern 2:** + - The Coil has exactly one inlet connection point using the medium `Mix-Fluid`. + - The Coil has exactly one outlet connection point using the medium `Mix-Fluid`. + - The Coil has one or two bidirectional connection points using the medium `Mix-Fluid` or `Medium-ThermalContact`. - a ns1:Unit ; - rdfs:label "Kilogram Per Cubic Centimetre"@en, - "Kilogram Per Cubic Centimeter"@en-us ; - dcterms:description "SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA597"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "kg/cm³"^^xsd:string ; - ns1:ucumCode "kg.cm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G31"^^xsd:string ; - rdfs:isDefinedBy . + **Pattern 3:** + - The Coil has exactly three bidirectional connection points using the medium `Mix-Fluid` or `Medium-ThermalContact`. + """^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:message "s223: A Coil shall fit one of the following patterns of ConnectionPoints: 1: Two inlets and two outlets using the medium Mix-Fluid. 2: One inlet and one outlet using the medium Mix-Fluid, and one or two bidirectionals using the medium Mix-Fluid or Medium-ThermalContact. 3: Three bidirectionals using the medium Mix-Fluid or Medium-ThermalContact."^^xsd:string ; + sh:xone ( [ sh:property [ rdfs:comment "Pattern 1: A Coil shall have two outlets using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: For one of the two outlets the Fluid is Air."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: A Coil shall have two inlets using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: For one of the two inlets the Fluid is Air."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "Pattern 2: A Coil shall have one outlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 2: A Coil shall have one inlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 2: A Coil shall have one or two bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ] ] [ sh:property [ rdfs:comment "Pattern 3: A Coil shall have three bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 3 ; + sh:qualifiedMinCount 3 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ] ] ), + ( [ sh:property [ rdfs:comment "Pattern 1: For one of the two inlets the Fluid is Air."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: A Coil shall have two outlets using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: A Coil shall have two inlets using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 2 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 1: For one of the two outlets the Fluid is Air."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "Pattern 2: A Coil shall have one inlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "Pattern 2: A Coil shall have one or two bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 2 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "Pattern 2: A Coil shall have one outlet using the medium Fluid."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Mix-Fluid ; + sh:path s223:hasMedium ] ] ] ] ] [ sh:property [ rdfs:comment "Pattern 3: A Coil shall have three bidirectionals using the medium Fluid or ThermalContact."^^xsd:string ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMaxCount 3 ; + sh:qualifiedMinCount 3 ; + sh:qualifiedValueShape [ sh:class s223:BidirectionalConnectionPoint ; + sh:node [ sh:property [ sh:or ( [ sh:class s223:Mix-Fluid ] [ sh:class s223:Medium-ThermalContact ] ) ; + sh:path s223:hasMedium ] ] ] ; + sh:qualifiedValueShapesDisjoint true ] ] ) . - a ns1:Unit ; - rdfs:label "Kilogram Per Cubic Decimetre"@en, - "Kilogram Per Cubic Decimeter"@en-us ; - dcterms:description "SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA604"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "kg/dm³"^^xsd:string ; - ns1:ucumCode "kg.dm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B34"^^xsd:string ; - rdfs:isDefinedBy . +s223:Domain-HVAC a s223:Class, + s223:Domain-HVAC, + sh:NodeShape ; + rdfs:label "Domain-HVAC"^^xsd:string ; + rdfs:comment "The domain HVAC represents equipment used to provide space conditioning and ventilation within a building. Example equipment that might fall within an HVAC domain include fans, pumps, air-handling units, and variable air volume boxes. "^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Domain . - a ns1:Unit ; - rdfs:label "Kilogram Per Litre"@en, - "Kilogram Per Liter"@en-us ; - dcterms:description "SI base unit kilogram divided by the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA612"^^xsd:string ; - ns1:plainTextDescription "SI base unit kilogram divided by the unit litre"^^xsd:string ; - ns1:symbol "kg/L"^^xsd:string ; - ns1:ucumCode "kg.L-1"^^ns1:UCUMcs, - "kg/L"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B35"^^xsd:string ; - rdfs:isDefinedBy . +s223:Fluid-Oil a s223:Class, + s223:Fluid-Oil, + sh:NodeShape ; + rdfs:label "Fluid-Oil"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of oil."^^xsd:string ; + rdfs:subClassOf s223:Mix-Fluid . - a ns1:Unit ; - rdfs:label "Pound Mass (avoirdupois) Square Foot"@en ; - dcterms:description "product of the unit pound according to the avoirdupois system of units and the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.04214011 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA671"^^xsd:string ; - ns1:plainTextDescription "product of the unit pound according to the avoirdupois system of units and the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 2"^^xsd:string ; - ns1:symbol "lb⋅ft²"^^xsd:string ; - ns1:ucumCode "[lb_av].[sft_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K65"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-10000V a s223:Class, + s223:LineLineVoltage-10000V, + sh:NodeShape ; + rdfs:label "10000V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-10000V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "10000V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound Mass (avoirdupois) Square Inch"@en ; - dcterms:description "product of the unit pound according to the avoirdupois system of units and the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0002926397 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA672"^^xsd:string ; - ns1:plainTextDescription "product of the unit pound according to the avoirdupois system of units and the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 2"^^xsd:string ; - ns1:symbol "lb⋅in²"^^xsd:string ; - ns1:ucumCode "[lb_av].[sin_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F20"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-190V a s223:Class, + s223:LineLineVoltage-190V, + sh:NodeShape ; + rdfs:label "190V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-190V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "190V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound per Cubic Foot"@en ; - dcterms:description "\"Pound per Cubic Foot\" is an Imperial unit for 'Density' expressed as \\(lb/ft^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 16.018463373960138 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(lb/ft^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lb/ft³"^^xsd:string ; - ns1:ucumCode "[lb_av].[cft_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "87"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-208V a s223:Class, + s223:LineLineVoltage-208V, + sh:NodeShape ; + rdfs:label "208V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-208V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "208V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound per Gallon"@en ; - dcterms:description "\"Pound per Gallon\" is an Imperial unit for 'Density' expressed as \\(lb/gal\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 99.7763727 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(lb/gal\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lb/gal"^^xsd:string ; - ns1:ucumCode "[lb_av].[gal_br]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:LineLineVoltage-220V a s223:Class, + s223:LineLineVoltage-220V, + sh:NodeShape ; + rdfs:label "220V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-220V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "220V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound (avoirdupois) Per Gallon (UK)"@en ; - dcterms:description "unit of the mass avoirdupois pound according to the avoirdupois system of units divided by the unit gallon (UK) according to the Imperial system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 99.77637 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA679"^^xsd:string ; - ns1:plainTextDescription "unit of the mass avoirdupois pound according to the avoirdupois system of units divided by the unit gallon (UK) according to the Imperial system of units"^^xsd:string ; - ns1:symbol "lb/gal{UK}"^^xsd:string ; - ns1:ucumCode "[lb_av].[gal_br]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K71"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-3000V a s223:Class, + s223:LineLineVoltage-3000V, + sh:NodeShape ; + rdfs:label "3000V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-3000V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "3000V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound (avoirdupois) Per Gallon (US)"@en ; - dcterms:description "unit of the mass avoirdupois pound according to the avoirdupois system divided by the unit gallon (US, liq.) according to the Anglo-American system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 83.0812213 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA680"^^xsd:string ; - ns1:plainTextDescription "unit of the mass avoirdupois pound according to the avoirdupois system divided by the unit gallon (US, liq.) according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "lb/gal{US}"^^xsd:string ; - ns1:ucumCode "[lb_av].[gal_us]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GE"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-3300V a s223:Class, + s223:LineLineVoltage-3300V, + sh:NodeShape ; + rdfs:label "3300V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-3300V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "3300V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound per Cubic Inch"@en ; - dcterms:description "\"Pound per Cubic Inch\" is an Imperial unit for 'Density' expressed as \\(lb/in^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 27679.904710203125 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(lb/in^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lb/in³"^^xsd:string ; - ns1:ucumCode "[lb_av].[cin_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "LA"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-380V a s223:Class, + s223:LineLineVoltage-380V, + sh:NodeShape ; + rdfs:label "380V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-380V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "380V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound per Cubic Metre"@en, - "Pound per Cubic Meter"@en-us ; - dcterms:description "\"Pound per Cubic Meter\" is a unit for 'Density' expressed as \\(lb/m^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.45359237 ; - ns1:expression "\\(lb/m^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lb/m³"^^xsd:string ; - ns1:ucumCode "[lb_av].m-3"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:LineLineVoltage-400V a s223:Class, + s223:LineLineVoltage-400V, + sh:NodeShape ; + rdfs:label "400V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-400V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "400V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Pound per Cubic Yard"@en ; - dcterms:description "\"Pound per Cubic Yard\" is an Imperial unit for 'Density' expressed as \\(lb/yd^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.5932764212577829 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(lb/yd^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "lb/yd³"^^xsd:string ; - ns1:ucumCode "[lb_av].[cyd_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K84"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-415V a s223:Class, + s223:LineLineVoltage-415V, + sh:NodeShape ; + rdfs:label "415V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-415V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "415V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Metre per Square Second"@en, - "Meter per Square Second"@en-us ; - dcterms:description "The \\(\\textit{meter per Square second}\\) is the unit of acceleration in the International System of Units (SI). As a derived unit it is composed from the SI base units of length, the metre, and the standard unit of time, the second. Its symbol is written in several forms as \\(m/s^2\\), or \\(m s^{-2}\\). As acceleration, the unit is interpreted physically as change in velocity or speed per time interval, that is, \\(\\textit{metre per second per second}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m/s^2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA736"^^xsd:string ; - ns1:symbol "m/s²"^^xsd:string ; - ns1:ucumCode "m.s-2"^^ns1:UCUMcs, - "m/s2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MSK"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-4160V a s223:Class, + s223:LineLineVoltage-4160V, + sh:NodeShape ; + rdfs:label "4160V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-4160V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "4160V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Cubic Metre per Second"@en, - "Cubic Meter per Second"@en-us ; - dcterms:description "A cubic metre per second (\\(m^{3}s^{-1}, m^{3}/s\\)), cumecs or cubic meter per second in American English) is a derived SI unit of flow rate equal to that of a stere or cube with sides of one metre ( u0303 39.37 in) in length exchanged or moving each second. It is popularly used for water flow, especially in rivers and streams, and fractions for HVAC values measuring air flow."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m^{3}/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA772"^^xsd:string ; - ns1:symbol "m³/s"^^xsd:string ; - ns1:ucumCode "m3.s-1"^^ns1:UCUMcs, - "m3/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MQS"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Megacoulomb Per Square Metre"@en, - "Megacoulomb Per Square Meter"@en-us ; - dcterms:description "1 000 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA207"^^xsd:string ; - ns1:plainTextDescription "1 000 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "MC/m²"^^xsd:string ; - ns1:ucumCode "MC.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B70"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-480V a s223:Class, + s223:LineLineVoltage-480V, + sh:NodeShape ; + rdfs:label "480V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-480V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "480V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Megagram Per Cubic Metre"@en, - "Megagram Per Cubic Meter"@en-us ; - dcterms:description "1 000-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA229"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "Mg/m³"^^xsd:string ; - ns1:ucumCode "Mg.m-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B72"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-6000V a s223:Class, + s223:LineLineVoltage-6000V, + sh:NodeShape ; + rdfs:label "6000V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-6000V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "6000V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Microcoulomb Per Square Metre"@en, - "Microcoulomb Per Square Meter"@en-us ; - dcterms:description "0.000001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA060"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "μC/m²"^^xsd:string ; - ns1:ucumCode "uC.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B88"^^xsd:string ; - rdfs:isDefinedBy . +s223:LineLineVoltage-600V a s223:Class, + s223:LineLineVoltage-600V, + sh:NodeShape ; + rdfs:label "600V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-600V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "600V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Microgram Per Decilitre"@en, - "Microgram Per Deciliter"@en-us ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "0.0000000001-fold of the SI base unit kilogram divided by the unit decilitre"^^xsd:string ; - ns1:symbol "μg/dL"^^xsd:string ; - ns1:ucumCode "ug.dL-1"^^ns1:UCUMcs, - "ug/dL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:LineLineVoltage-6600V a s223:Class, + s223:LineLineVoltage-6600V, + sh:NodeShape ; + rdfs:label "6600V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-6600V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "6600V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Microgram Per Litre"@en, - "Microgram Per Liter"@en-us ; - dcterms:description "0.000000001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA084"^^xsd:string ; - ns1:plainTextDescription "0.000000001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; - ns1:symbol "μg/L"^^xsd:string ; - ns1:ucumCode "ug.L-1"^^ns1:UCUMcs, - "ug/L"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H29"^^xsd:string ; - rdfs:isDefinedBy . +s223:Occupancy-Motion a s223:Class, + s223:Occupancy-Motion, + sh:NodeShape ; + rdfs:label "Occupancy Motion"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses indicating whether motion is detected or not."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Occupancy . - a ns1:Unit ; - rdfs:label "Microgram Per Cubic Metre"@en, - "Microgram Per Cubic Meter"@en-us ; - dcterms:description "0.000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA085"^^xsd:string ; - ns1:plainTextDescription "0.000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "μg/m³"^^xsd:string ; - ns1:ucumCode "ug.m-3"^^ns1:UCUMcs, - "ug/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GQ"^^xsd:string ; - rdfs:isDefinedBy . +s223:Occupancy-Presence a s223:Class, + s223:Occupancy-Presence, + sh:NodeShape ; + rdfs:label "Occupancy Presence"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses indicating whether physical presence is detected or not."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Occupancy . - a ns1:Unit ; - rdfs:label "Milliampere Per Inch"@en ; - dcterms:description "0.001-fold of the SI base unit ampere divided by the unit inch according to the Anglo-American and the Imperial system of units"^^rdf:HTML ; - ns1:conversionMultiplier 0.03937008 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA778"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit ampere divided by the unit inch according to the Anglo-American and the Imperial system of units"^^xsd:string ; - ns1:symbol "µA/in"^^xsd:string ; - ns1:ucumCode "mA.[in_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F08"^^xsd:string ; - rdfs:isDefinedBy . +s223:PhysicalSpace a s223:Class, + sh:NodeShape ; + rdfs:label "Physical Space"^^xsd:string ; + rdfs:comment "A PhysicalSpace is an architectural concept representing a room, a part of a room, a collection of rooms, or any other physical region in a building. PhysicalSpaces may be grouped to define larger PhysicalSpaces using the relation contains (see `s223:contains`)."^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; + sh:class s223:DomainSpace ; + sh:message "s223: If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; + sh:path s223:encloses ], + [ rdfs:comment "If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; + sh:class s223:PhysicalSpace ; + sh:message "s223: If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; + sh:path s223:contains ], + [ rdfs:comment "If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; + sh:class s223:PhysicalSpace ; + sh:message "s223: If the relation contains is present it must associate the PhysicalSpace with a PhysicalSpace."^^xsd:string ; + sh:path s223:contains ], + [ rdfs:comment "If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; + sh:class s223:DomainSpace ; + sh:message "s223: If the relation encloses is present it must associate the PhysicalSpace with a DomainSpace."^^xsd:string ; + sh:path s223:encloses ] . - a ns1:Unit ; - rdfs:label "Milliampere Per Millimetre"@en, - "Milliampere Per Millimeter"@en-us ; - dcterms:description "0.001-fold of the SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA781"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^xsd:string ; - ns1:symbol "mA/mm"^^xsd:string ; - ns1:ucumCode "mA.mm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F76"^^xsd:string ; - rdfs:isDefinedBy . +s223:Role-HeatTransfer a s223:Class, + s223:Role-HeatTransfer, + sh:NodeShape ; + rdfs:label "Heat Transfer"^^xsd:string ; + rdfs:comment "Heat Transfer"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Role . - a ns1:Unit ; - rdfs:label "Millicoulomb Per Square Metre"@en, - "Millicoulomb Per Square Meter"@en-us ; - dcterms:description "0.001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA784"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "mC/m²"^^xsd:string ; - ns1:ucumCode "mC.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D89"^^xsd:string ; - rdfs:isDefinedBy . +s223:Voltage-24V a s223:Class, + s223:Voltage-24V, + sh:NodeShape ; + rdfs:label "24V Voltage"^^xsd:string ; + s223:hasValue 24.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "24V Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-Voltage . - a ns1:Unit ; - rdfs:label "Milligram Per Litre"@en, - "Milligram Per Liter"@en-us ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA827"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; - ns1:symbol "mg/L"^^xsd:string ; - ns1:ucumCode "mg.L-1"^^ns1:UCUMcs, - "mg/L"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M1"^^xsd:string ; - rdfs:isDefinedBy . +s223:Voltage-380V a s223:Class, + s223:Voltage-380V, + sh:NodeShape ; + rdfs:label "380V Voltage"^^xsd:string ; + s223:hasValue 380.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "380V Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-Voltage . - a ns1:Unit ; - rdfs:label "Milligram Per Cubic Metre"@en, - "Milligram Per Cubic Meter"@en-us ; - dcterms:description "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA830"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "mg/m³"^^xsd:string ; - ns1:ucumCode "mg.m-3"^^ns1:UCUMcs, - "mg/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "GP"^^xsd:string ; - rdfs:isDefinedBy . +s223:executes a rdf:Property ; + rdfs:label "executes"^^xsd:string ; + rdfs:comment "The relation executes is used to specify that a Controller (see `s223:Controller`) is responsible for the execution of a Function (see `s223:Function`). "^^xsd:string . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "nanograms per decilitre"@en, - "nanograms per decilitre"@en-us ; - dcterms:description "A derived unit for amount-of-substance concentration measured in ng/dL."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.00000001 ; - ns1:expression "\\(ng/dL\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ng/dL"^^xsd:string ; - ns1:ucumCode "ng.dL-1"^^ns1:UCUMcs, - "ng/dL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:isConnectionPointOf a rdf:Property ; + rdfs:label "is connection point of"^^xsd:string ; + s223:inverseOf s223:hasConnectionPoint ; + rdfs:comment "The relation isConnectionPointOf is part of a pair of relations that bind a ConnectionPoint to a Connectable thing. It is the inverse of the relation hasConnectionPoint (see `s223:hasConnectionPoint`)."^^xsd:string . - a ns1:Unit ; - rdfs:label "Nanograms per litre"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ng/L"^^xsd:string ; - ns1:ucumCode "ng.L-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns1:UnitEquivalencePropertyGroup a sh:PropertyGroup ; + rdfs:label "Equivalent Units"^^xsd:string ; + rdfs:isDefinedBy ; + sh:order 50.0 . - a ns1:Unit ; - rdfs:label "Nanogram Per Cubic Metre"@en, - "Nanogram Per Cubic Meter"@en-us ; - dcterms:description "\"0.000000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3\""^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "0.000000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "ng/m³"^^xsd:string ; - ns1:ucumCode "ng.m-3"^^ns1:UCUMcs ; - rdfs:comment "\"Derived from GM-PER-M3 which exists in QUDT\""^^xsd:string ; - rdfs:isDefinedBy . +ns1:isDeltaQuantity a rdf:Property ; + rdfs:label "is Delta Quantity"^^xsd:string ; + rdfs:comment "This property is used to identify a Quantity instance that is a measure of a change, or interval, of some property, rather than a measure of its absolute value. This is important for measurements such as temperature differences where the conversion among units would be calculated differently because of offsets."^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanograms per microlitre"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ng/µL"^^xsd:string ; - ns1:ucumCode "ng.uL-1"^^ns1:UCUMcs, - "ng/uL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns1:latexSymbol a rdf:Property ; + rdfs:label "latex symbol"^^xsd:string ; + dcterms:description "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is $ohm$. This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString, + "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is \\(ohm\\). This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanomoles per litre"@en ; - dcterms:description "A scaled unit of amount-of-substance concentration."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "nmol/L"^^xsd:string ; - ns1:ucumCode "nmol.L-1"^^ns1:UCUMcs, - "nmol/L"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns1:symbol a rdf:Property ; + rdfs:label "symbol"^^xsd:string ; + dcterms:description "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is $ohm$. This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString, + "The symbol is a glyph that is used to represent some concept, typically a unit or a quantity, in a compact form. For example, the symbol for an Ohm is \\(ohm\\). This contrasts with 'unit:abbreviation', which gives a short alphanumeric abbreviation for the unit, 'ohm' for Ohm."^^ns1:LatexString ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf ns1:literal . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Imperial Mass Ounce per Gallon"@en ; - dcterms:description "\"Ounce per Gallon\" is an Imperial unit for 'Density' expressed as \\(oz/gal\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 6.23602329 ; - ns1:expression "oz/gal"^^xsd:string ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "oz/gal{US}"^^xsd:string ; - ns1:ucumCode "[oz_av].[gal_br]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +ns1:ucumCode a rdf:Property ; + rdfs:label "ucum code"^^xsd:string ; + dcterms:description "

ucumCode associates a QUDT unit with its UCUM code (case-sensitive).

In SHACL the values are derived from specific ucum properties using 'sh:values'."^^rdf:HTML ; + dcterms:source "https://ucum.org/ucum.html"^^xsd:anyURI ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + rdfs:subPropertyOf skos:notation . - a ns1:Unit ; - rdfs:label "Ounce (avoirdupois) Per Gallon (UK)"@en ; - dcterms:description "unit of the density according to the Imperial system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 6.236 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA923"^^xsd:string ; - ns1:plainTextDescription "unit of the density according to the Imperial system of units"^^xsd:string ; - ns1:symbol "oz/gal{UK}"^^xsd:string ; - ns1:ucumCode "[oz_av].[gal_br]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L37"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-1I0M-1H1T3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 3 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^{-1} M^{-1} T^3 \\Theta$"^^ns1:LatexString, + "\\(L^{-1} M^{-1} T^3 \\Theta\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ounce (avoirdupois) Per Gallon (US)"@en ; - dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 7.8125 ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA924"^^xsd:string ; - ns1:informativeReference "https://cdd.iec.ch/cdd/iec61360/iec61360.nsf/Units/0112-2---62720%23UAA924"^^xsd:anyURI ; - ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "oz/gal{US}"^^xsd:string ; - ns1:ucumCode "[oz_av].[gal_us]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L38"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-2I0M-1H0T2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-2 M^-1 T^2$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Imperial Mass Ounce per Cubic Inch"@en ; - dcterms:description "\"Ounce per Cubic Inch\" is an Imperial unit for 'Density' expressed as \\(oz/in^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1729.99404 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "oz/in^{3}"^^xsd:string ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "oz/in³{US}"^^xsd:string ; - ns1:ucumCode "[oz_av].[cin_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L39"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-3I0M0H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ounce (avoirdupois) Per Cubic Yard"@en ; - dcterms:description "unit ounce according to the avoirdupois system of units divided by the power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0370798 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA918"^^xsd:string ; - ns1:plainTextDescription "unit ounce according to the avoirdupois system of units divided by the power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; - ns1:symbol "oz/yd³"^^xsd:string ; - ns1:ucumCode "[oz_av].[cyd_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G32"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Reciprocal Pascal"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; - ns1:expression "\\(/Pa\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Pascal?oldid=492989202"^^xsd:anyURI ; - ns1:siUnitsExpression "m^2/N"^^xsd:string ; - ns1:symbol "/Pa"^^xsd:string ; - ns1:ucumCode "Pa-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C96"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Picograms per litre"@en ; - dcterms:description "One 10**15 part of the SI standard unit of mass of the measurand per litre volume of matrix.."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "pg/L"^^xsd:string ; - ns1:ucumCode "pg.L-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Planck Density"@en ; - dcterms:description "The Planck density is the unit of density, denoted by \\(\\rho_P\\), in the system of natural units known as Planck units. \\(1\\ \\rho_P \\ is \\approx 5.155 \\times 10^{96} kg/m^3\\). This is a unit which is very large, about equivalent to \\(10^{23}\\) solar masses squeezed into the space of a single atomic nucleus. At one unit of Planck time after the Big Bang, the mass density of the universe is thought to have been approximately one unit of Planck density."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 5.155e+96 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_density"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_density?oldid=493642128"^^xsd:anyURI ; - ns1:symbol "planckdensity"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Slug per Cubic Foot"@en ; - dcterms:description "\"Slug per Cubic Foot\" is an Imperial unit for 'Density' expressed as \\(slug/ft^{3}\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 515.3788206107324 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(slug/ft^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA981"^^xsd:string ; - ns1:symbol "slug/ft³"^^xsd:string ; - ns1:uneceCommonCode "L65"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, - "voltů na metr"@cs, - "Volt je Meter"@de, - "volt per metre"@en, - "Volt per Meter"@en-us, - "voltio por metro"@es, - "ولت بر متر"@fa, - "volt par mètre"@fr, - "प्रति मीटर वोल्ट"@hi, - "volt al metro"@it, - "ボルト毎メートル"@ja, - "volt per meter"@ms, - "wolt na metr"@pl, - "volt por metro"@pt, - "volți pe metru"@ro, - "вольт на метр"@ru, - "volt na meter"@sl, - "volt bölü metre"@tr, - "伏特每米"@zh ; - dcterms:description "Volt Per Meter (V/m) is a unit in the category of Electric field strength. It is also known as volts per meter, volt/meter, volt/metre, volt per metre, volts per metre. This unit is commonly used in the SI unit system. Volt Per Meter (V/m) has a dimension of \\(MLT^{-3}I^{-1}\\) where M is mass, L is length, T is time, and I is electric current. This unit is the standard SI unit in this category."^^ns1:LatexString ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(V/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA301"^^xsd:string ; - ns1:informativeReference "http://www.efunda.com/glossary/units/units--electric_field_strength--volt_per_meter.cfm"^^xsd:anyURI ; - ns1:symbol "V/m"^^xsd:string ; - ns1:ucumCode "V.m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D50"^^xsd:string ; - rdfs:isDefinedBy . - -ns4:CodeList a owl:Class ; - rdfs:label "Codelist"^^xsd:string ; - dcterms:description """ -A codelist is a controlled vocabulary of terms that are used to represent permissible values of a -variable in information systems. -The representaiton of codes in "dtype" has been influenced by CCTS and UBL. -"""^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subClassOf ns4:Enumeration . - -ns2:CatalogEntry dcterms:description "VAEM Governed Object class is a placeholder for concepts that are fully defined by the voag:GovernedObject concept hierarchy for building a catalog of ontologies and graphs"^^xsd:string . - -sh:Literal a sh:NodeKind ; - rdfs:label "Literal"@en ; - rdfs:comment "The node kind of all literals."@en ; - rdfs:isDefinedBy sh: . - -s223:DayOfWeek-Weekday a s223:Class, - s223:DayOfWeek-Weekday, - sh:NodeShape ; - rdfs:label "Day of week-Weekday"^^xsd:string, - "Weekday"^^xsd:string ; - rdfs:comment "This class defines the EnumerationKind values of Monday, Tuesday, Wednesday, Thursday, and Friday"^^xsd:string ; - rdfs:subClassOf s223:Aspect-DayOfWeek . - -s223:Electricity-Signal a s223:Class, - s223:Electricity-Signal, - sh:NodeShape ; - rdfs:label "Electricity Signal"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of common communication protocols."^^xsd:string ; - rdfs:subClassOf s223:Constituent-Electricity . - -s223:EnumerationKind-HVACOperatingMode a s223:Class, - s223:EnumerationKind-HVACOperatingMode, - sh:NodeShape ; - rdfs:label "HVAC operating mode"^^xsd:string ; - rdfs:comment "HVACOperatingMode has enumerated subclasses of the policy under which the HVAC system or equipment is operating."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:EnumerationKind-HVACOperatingStatus a s223:Class, - s223:EnumerationKind-HVACOperatingStatus, - sh:NodeShape ; - rdfs:label "HVAC operating status"^^xsd:string ; - rdfs:comment "HVACOperatingStatus has enumerated subclasses of the HVAC system/equipment operating status."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:EnumerationKind-OnOff a s223:Class, - s223:EnumerationKind-OnOff, - sh:NodeShape ; - rdfs:label "OnOff enumeration"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of states of either on or off."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:EnumerationKind-Phase a s223:Class, - s223:EnumerationKind-Phase, - sh:NodeShape ; - rdfs:label "EnumerationKind Phase"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of thermodynamic phase, i.e. states of matter."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:EnumerationKind-Speed a s223:Class, - s223:EnumerationKind-Speed, - sh:NodeShape ; - rdfs:label "Speed"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of speed settings of High, Medium, Low (plus Off)."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:Role-Cooling a s223:Class, - s223:Role-Cooling, - sh:NodeShape ; - rdfs:label "Role-Cooling"^^xsd:string ; - rdfs:comment "Role-Cooling"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Role . - -s223:hasValue a rdf:Property ; - rdfs:label "hasValue"^^xsd:string ; - rdfs:comment "hasValue is used to contain a fixed value that is part of a 223 model, rather than a computed, measured, or externally derived variable."^^xsd:string . - -s223:ofConstituent a rdf:Property ; - rdfs:label "of constituent"^^xsd:string ; - rdfs:comment "The relation ofConstituent is used to associate a Property that characterizes a medium mix with one of the constituents of that mix. (ex. Fluid-Water composedOf property ofConstituent Constituent-H2O."^^xsd:string . - -s223:pairedConnectionPoint a s223:SymmetricProperty ; - rdfs:label "paired connection point"^^xsd:string ; - rdfs:comment "The pairedConnectionPoint relation is a symmetric property used to associate two ConnectionPoints where an InletConnectionPoint shares the same medium with an OutletConnectionPoint."^^xsd:string . - -dcterms:creator a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "creator"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:string . - - a ns1:PhysicalConstant ; - rdfs:label "Magnetic Constant"@en ; - dcterms:description """ - The constant $\\textit{Magentic Constant}$, also known as $\\textit{Permeability of Vacuum}$, is a scalar constant - $\\mu_0$ such that, in a vacuum the product with the magnetic field vector, $\\overrightarrow{H}$ - is equal to the magnetic flux density vector, $\\overrightarrow{B}$. - """^^ns1:LatexString ; - ns1:abbreviation "magnetic-constant"^^xsd:string ; - ns1:applicableUnit ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Vacuum_permeability"^^xsd:anyURI ; - ns1:exactConstant true ; - ns1:exactMatch ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI, - "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=705-03-14"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$\\mu_0 = \\frac{\\overrightarrow{B}}{\\overrightarrow{H}}$, where $\\overrightarrow{B}$ is the B-Filed magnetic vector, and $\\overrightarrow{H}$ is the H-Filed magnetic vector. The value of $\\mu_0$ is $\\approx 1.256637e-6\\,H/M$."^^ns1:LatexString ; - ns1:latexSymbol "$\\mu_0$"^^ns1:LatexString ; - ns1:quantityValue ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A-1E0L2I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance -1 ; + rdfs:label "A0E0L-4I0M-2H0T4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLength -4 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForMass -2 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForTime 4 ; ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-4 M^-2 T^4$"^^ns1:LatexString, + "\\(L^-4 M^-2 T^4\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-1L2I0M1H0T-4D0"^^xsd:string ; + rdfs:label "A0E0L0I0M1H1T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent -1 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -4 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-4 I^-1\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M Θ$"^^ns1:LatexString, + "\\(M Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M-1H0T0D0"^^xsd:string ; + rdfs:label "A0E0L0I1M0H0T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForLuminousIntensity 1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$J$"^^ns1:LatexString, + "\\(J\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M-1H0T2D0"^^xsd:string ; + rdfs:label "A0E1L-1I0M0H0T1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength -1 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 2 ; + ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-1 T I$"^^ns1:LatexString, + "\\(L^-1 T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H1T1D0"^^xsd:string ; + rdfs:label "A0E2L0I0M-1H0T4D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForElectricCurrent 2 ; ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 1 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 4 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T Θ\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M^-1 T^4 I^2$"^^ns1:LatexString, + "\\(M^-1 T^4 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L1I0M0H1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; + rdfs:label "A1E0L0I0M-1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexSymbol "\\(L \\cdot H\\)"^^ns1:LatexString, - "\\(L \\cdot \\Theta\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L4I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; + rdfs:label "A1E0L0I0M0H1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 4 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^4\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$\\theta N$"^^ns1:LatexString, + "\\(\\theta N\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Absorbed Dose Rate"@en ; - dcterms:description "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD001"^^xsd:string ; - ns1:informativeReference "http://www.answers.com/topic/absorbed-dose-rate"^^xsd:anyURI ; + a ns1:QuantityKind ; + rdfs:label "Absorbed Dose"@en ; + dcterms:description "\"Absorbed Dose\" (also known as Total Ionizing Dose, TID) is a measure of the energy deposited in a medium by ionizing radiation. It is equal to the energy deposited per unit mass of medium, and so has the unit $J/kg$, which is given the special name Gray ($Gy$)."^^ns1:LatexString, + "\"Absorbed Dose\" (also known as Total Ionizing Dose, TID) is a measure of the energy deposited in a medium by ionizing radiation. It is equal to the energy deposited per unit mass of medium, and so has the unit \\(J/kg\\), which is given the special name Gray (\\(Gy\\))."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Absorbed_dose"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD000"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Absorbed_dose"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "$\\dot{D} = \\frac{dD}{dt}$, where $dD$ is the increment of absorbed dose during time interval with duration $dt$."^^ns1:LatexString ; - ns1:latexSymbol "$\\dot{D}$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Boiling Point Temperature"@en ; - dcterms:description "A temperature that is the one at which a substance will change its physical state from a liquid to a gas. It is also the temperature where the liquid and gaseous forms of a pure substance can exist in equilibrium."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "A temperature that is the one at which a substance will change its physical state from a liquid to a gas. It is also the temperature where the liquid and gaseous forms of a pure substance can exist in equilibrium."^^xsd:string ; + ns1:latexDefinition "$D = \\frac{d\\bar{\\varepsilon}}{dm}$, where $d\\bar{\\varepsilon}$ is the mean energy imparted by ionizing radiation to an element of irradiated matter with the mass $dm$."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "D"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AbsorbedDose"^^xsd:string, + "Note that the absorbed dose is not a good indicator of the likely biological effect. 1 Gy of alpha radiation would be much more biologically damaging than 1 Gy of photon radiation for example. Appropriate weighting factors can be applied reflecting the different relative biological effects to find the equivalent dose. The risk of stoctic effects due to radiation exposure can be quantified using the effective dose, which is a weighted average of the equivalent dose to each organ depending upon its radiosensitivity. When ionising radiation is used to treat cancer, the doctor will usually prescribe the radiotherapy treatment in Gy. When risk from ionising radiation is being discussed, a related unit, the Sievert is used."^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Catalytic Activity Concentration"@en ; - dcterms:description "The catalytic activity of an enzyme per unit volume, where volume refers to that of the original enzyme‐containing preparation, not that of the assay system. It may be expressed in katals per litre."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://doi.org/10.1351/goldbook.C00882"^^xsd:anyURI ; - ns1:plainTextDescription "The catalytic activity of an enzyme per unit volume, where volume refers to that of the original enzyme‐containing preparation, not that of the assay system. It may be expressed in katals per litre."^^xsd:string ; - ns1:siExactMatch ; + a ns1:QuantityKind ; + rdfs:label "Activity Concentration"@en ; + dcterms:description "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^ns1:LatexString, + "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.euronuclear.org/info/encyclopedia/activityconcentration.htm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition "$c_A = \\frac{A}{V}$, where $A$ is the activity of a sample and $V$ is its volume."^^ns1:LatexString ; + ns1:plainTextDescription "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^xsd:string ; + ns1:symbol "c_A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ActivityConcentration"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Curvature"@en ; - dcterms:description "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Curvature"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:latexDefinition "$\\kappa = \\frac{1}{\\rho}$, where $\\rho$ is the radius of the curvature."^^ns1:LatexString ; - ns1:latexSymbol "$\\kappa$"^^ns1:LatexString ; - ns1:plainTextDescription "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "تسارع زاوي"@ar, + "Úhlové zrychlení"@cs, + "Winkelbeschleunigung"@de, + "angular acceleration"@en, + "aceleración angular"@es, + "شتاب زاویه‌ای"@fa, + "accélération angulaire"@fr, + "कोणीय त्वरण"@hi, + "accelerazione angolare"@it, + "角加速度"@ja, + "Pecutan bersudut"@ms, + "Przyspieszenie kątowe"@pl, + "aceleração angular"@pt, + "Accelerație unghiulară"@ro, + "Угловое ускорение"@ru, + "Açısal ivme"@tr, + "角加速度"@zh ; + dcterms:description "Angular acceleration is the rate of change of angular velocity over time. Measurement of the change made in the rate of change of an angle that a spinning object undergoes per unit time. It is a vector quantity. Also called Rotational acceleration. In SI units, it is measured in radians per second squared ($rad/s^2$), and is usually denoted by the Greek letter alpha."^^ns1:LatexString, + "Angular acceleration is the rate of change of angular velocity over time. Measurement of the change made in the rate of change of an angle that a spinning object undergoes per unit time. It is a vector quantity. Also called Rotational acceleration. In SI units, it is measured in radians per second squared (\\(rad/s^2\\)), and is usually denoted by the Greek letter alpha."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:baseCGSUnitDimensions "U/T^2"^^xsd:string ; + ns1:baseSIUnitDimensions "$/s^2$"^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_acceleration"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD006"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:AngularAcceleration"^^xsd:string ; rdfs:isDefinedBy ; - skos:closeMatch . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Dose Equivalent"@en ; - dcterms:description "\"Dose Equivalent} (former), or \\textit{Equivalent Absorbed Radiation Dose}, usually shortened to \\textit{Equivalent Dose\", is a computed average measure of the radiation absorbed by a fixed mass of biological tissue, that attempts to account for the different biological damage potential of different types of ionizing radiation. The equivalent dose to a tissue is found by multiplying the absorbed dose, in gray, by a dimensionless \"quality factor\" \\(Q\\), dependent upon radiation type, and by another dimensionless factor \\(N\\), dependent on all other pertinent factors. N depends upon the part of the body irradiated, the time and volume over which the dose was spread, even the species of the subject."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Equivalent_dose"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD033"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Equivalent_dose"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "At the point of interest in tissue, $H = DQ$, where $D$ is the absorbed dose and $Q$ is the quality factor at that point."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "H"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Area Time"@en ; + ns1:applicableUnit , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AreaTime"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Data Rate"@en ; + dcterms:description "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits."^^ns1:LatexString, + "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Data_rate"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DataRate"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Electric Charge Density"@en ; - dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:expression "$charge-density$"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI, - "http://www.maxwells-equations.com/pho/charge-density.php"^^xsd:anyURI ; - ns1:latexDefinition "$\\rho = \\frac{dQ}{dV}$, where $Q$ is electric charge and $V$ is Volume."^^ns1:LatexString ; - ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; - ns1:plainTextDescription "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - rdfs:seeAlso . + a ns1:QuantityKind ; + rdfs:label "عزم ثنائي قطب"@ar, + "Dipólový moment"@cs, + "elektrisches Dipolmoment"@de, + "electric dipole moment"@en, + "momento de dipolo eléctrico"@es, + "گشتاور دوقطبی الکتریکی"@fa, + "moment dipolaire"@fr, + "विद्युत द्विध्रुव आघूर्ण"@hi, + "momento di dipolo elettrico"@it, + "電気双極子"@ja, + "Momen dwikutub elektrik"@ms, + "elektryczny moment dipolowy"@pl, + "momento do dipolo elétrico"@pt, + "moment electric dipolar"@ro, + "Электрический дипольный момент"@ru, + "elektrik dipol momenti"@tr, + "电偶极矩"@zh ; + dcterms:description "\"Electric Dipole Moment\" is a measure of the separation of positive and negative electrical charges in a system of (discrete or continuous) charges. It is a vector-valued quantity. If the system of charges is neutral, that is if the sum of all charges is zero, then the dipole moment of the system is independent of the choice of a reference frame; however in a non-neutral system, such as the dipole moment of a single proton, a dependence on the choice of reference point arises. In such cases it is conventional to choose the reference point to be the center of mass of the system or the center of charge, not some arbitrary origin. This convention ensures that the dipole moment is an intrinsic property of the system. The electric dipole moment of a substance within a domain is the vector sum of electric dipole moments of all electric dipoles included in the domain."^^ns1:LatexString, + "\"Electric Dipole Moment\" is a measure of the separation of positive and negative electrical charges in a system of (discrete or continuous) charges. It is a vector-valued quantity. If the system of charges is neutral, that is if the sum of all charges is zero, then the dipole moment of the system is independent of the choice of a reference frame; however in a non-neutral system, such as the dipole moment of a single proton, a dependence on the choice of reference point arises. In such cases it is conventional to choose the reference point to be the center of mass of the system or the center of charge, not some arbitrary origin. This convention ensures that the dipole moment is an intrinsic property of the system. The electric dipole moment of a substance within a domain is the vector sum of electric dipole moments of all electric dipoles included in the domain."^^rdf:HTML ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD041"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_dipole_moment"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition """$E_p = -p \\cdot E$, where $E_p$ is the interaction energy of the molecule with electric dipole moment $p$ and an electric field with electric field strength $E$. - a ns1:QuantityKind ; - rdfs:label "محتوى حراري"@ar, - "entalpie"@cs, - "Enthalpie"@de, - "enthalpy"@en, - "entalpía"@es, - "آنتالپی"@fa, - "enthalpie"@fr, - "पूर्ण ऊष्मा"@hi, - "entalpia"@it, - "エンタルピー"@ja, - "Entalpi"@ms, - "entalpia"@pl, - "entalpia"@pt, - "Entalpie"@ro, - "энтальпия"@ru, - "entalpija"@sl, - "Entalpi"@tr, - "焓"@zh ; - dcterms:description "In thermodynamics, $\\textit{enthalpy}$ is the sum of the internal energy $U$ and the product of pressure $p$ and volume $V$ of a system. The characteristic function (also known as thermodynamic potential) $\\textit{enthalpy}$ used to be called $\\textit{heat content}$, which is why it is conventionally indicated by $H$. The specific enthalpy of a working mass is a property of that mass used in thermodynamics, defined as $h=u+p \\cdot v$, where $u$ is the specific internal energy, $p$ is the pressure, and $v$ is specific volume. In other words, $h = H / m$ where $m$ is the mass of the system. The SI unit for $\\textit{Specific Enthalpy}$ is $\\textit{joules per kilogram}$"^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Enthalpy"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Enthalpy"^^xsd:anyURI ; - ns1:latexDefinition "$H = U + pV$, where $U$ is internal energy, $p$ is pressure and $V$ is volume."^^ns1:LatexString ; - ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:symbol "H"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:broader . +$p = q(r_+ - r_i)$, where $r_+$ and $r_-$ are the position vectors to carriers of electric charge $a$ and $-q$, respectively."""^^ns1:LatexString ; + ns1:plainTextDescription "\"Electric Dipole Moment\" is a measure of the separation of positive and negative electrical charges in a system of (discrete or continuous) charges. It is a vector-valued quantity. If the system of charges is neutral, that is if the sum of all charges is zero, then the dipole moment of the system is independent of the choice of a reference frame; however in a non-neutral system, such as the dipole moment of a single proton, a dependence on the choice of reference point arises. In such cases it is conventional to choose the reference point to be the center of mass of the system or the center of charge, not some arbitrary origin. This convention ensures that the dipole moment is an intrinsic property of the system. The electric dipole moment of a substance within a domain is the vector sum of electric dipole moments of all electric dipoles included in the domain."^^xsd:string ; + ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricDipoleMoment"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Flash Point Temperature"@en ; - dcterms:description "A temperature that is the lowest one at which the vapors of a volatile material will ignite if exposed to an ignition source. It is frequently used to characterize fire hazards and distinguish different flammable fuels."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "A temperature that is the lowest one at which the vapors of a volatile material will ignite if exposed to an ignition source. It is frequently used to characterize fire hazards and distinguish different flammable fuels."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . + a ns1:QuantityKind ; + rdfs:label "Extent of Reaction"@en ; + dcterms:description "In physical chemistry, the \"Extent of Reaction\" is a quantity that measures the extent in which the reaction proceeds."^^ns1:LatexString, + "In physical chemistry, the \"Extent of Reaction\" is a quantity that measures the extent in which the reaction proceeds."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Extent_of_reaction"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$dn_B = \\nu_B d\\xi$, where $n_B$ is the amount of substance $B$ and $\\nu_B$ is the stoichiometric number of substance $B$."^^ns1:LatexString ; + ns1:latexSymbol "$\\xi$"^^ns1:LatexString ; + ns1:plainTextDescription "In physical chemistry, the \"Extent of Reaction\" is a quantity that measures the extent in which the reaction proceeds."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ExtentOfReaction"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Incidence"@en ; - dcterms:description "In epidemiology, incidence is a measure of the probability of occurrence of a given medical condition in a population within a specified period of time."^^rdf:HTML ; - ns1:applicableUnit ; + a ns1:QuantityKind ; + rdfs:label "Information flow rate"@en ; + ns1:applicableUnit , + , + ; ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD064"^^xsd:string ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Incidence_(epidemiology)"^^xsd:anyURI ; - ns1:plainTextDescription "In epidemiology, incidence is a measure of the probability of occurrence of a given medical condition in a population within a specified period of time."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - rdfs:isDefinedBy ; - skos:broader . + rdfs:comment "Applicable units are those of quantitykind:InformationFlowRate"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Inverse Pressure"@en ; + a ns1:QuantityKind ; + rdfs:label "Inverse Magnetic Flux"@en ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseMagneticFlux"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Inverse Time Temperature"@en ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseTimeTemperature"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "معامل الانضغاط عند ثبوت درجة الحرارة"@ar, + "objemová stlačitelnost"@cs, + "isotherme Kompressibilität"@de, + "isothermal compressibility"@en, + "compresibilidad isotérmica"@es, + "ضریب تراکم‌پذیری همدما"@fa, + "compressibilité isotherme"@fr, + "comprimibilità isotermica"@it, + "等温圧縮率"@ja, + "Ketermampatan isotermik"@ms, + "ściśliwość izotermiczna"@pl, + "compressibilidade isotérmica"@pt, + "изотермический коэффициент сжимаемости"@ru, + "Izotermna stisljivost"@sl, + "等温压缩率"@zh ; + dcterms:description "The isothermal compressibility defines the rate of change of system volume with pressure."^^ns1:LatexString, + "The isothermal compressibility defines the rate of change of system volume with pressure."^^rdf:HTML ; ns1:applicableUnit , , , , ; - ns1:exactMatch ; + ns1:exactMatch ; ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Compressibility"^^xsd:anyURI ; + ns1:latexDefinition "$\\varkappa_T = \\frac{1}{V}\\left (\\frac{\\partial V}{\\partial p} \\right )_T$, where $V$ is volume, $p$ is $pressure$, and $T$ is thermodynamic temperature."^^ns1:LatexString ; + ns1:latexSymbol "$\\varkappa_T$"^^ns1:LatexString ; + ns1:plainTextDescription "The isothermal compressibility defines the rate of change of system volume with pressure."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:IsothermalCompressibility"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Ionic Strength"@en ; - dcterms:description "The \"Ionic Strength\" of a solution is a measure of the concentration of ions in that solution."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Ionic_strength"^^xsd:anyURI ; + a ns1:QuantityKind ; + rdfs:label "Magnetic Quantum Number"@en ; + dcterms:description "The \"Magnetic Quantum Number\" describes the specific orbital (or \"cloud\") within that subshell, and yields the projection of the orbital angular momentum along a specified axis."^^ns1:LatexString, + "The \"Magnetic Quantum Number\" describes the specific orbital (or \"cloud\") within that subshell, and yields the projection of the orbital angular momentum along a specified axis."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$I = \\frac{1}{2} \\sum z_i^2 b_i$, where the summation is carried out over all ions with charge number $z_i$ and molality $m_i$."^^ns1:LatexString ; - ns1:plainTextDescription "The \"Ionic Strength\" of a solution is a measure of the concentration of ions in that solution."^^xsd:string ; - ns1:symbol "I"^^xsd:string ; - rdfs:isDefinedBy . + ns1:plainTextDescription "The \"Magnetic Quantum Number\" describes the specific orbital (or \"cloud\") within that subshell, and yields the projection of the orbital angular momentum along a specified axis."^^xsd:string ; + ns1:symbol "m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticQuantumNumber"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader ; + skos:closeMatch , + , + . - a ns1:QuantityKind ; - rdfs:label "Length Mass"@en ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; + a ns1:QuantityKind ; + rdfs:label "Mass Concentration"@en ; + dcterms:description "The \"Mass Concentration\" of substance B is defined as the mass of a constituent divided by the volume of the mixture ."^^ns1:LatexString, + "The \"Mass Concentration\" of substance B is defined as the mass of a constituent divided by the volume of the mixture ."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_concentration_(chemistry)"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$\\rho_B = \\frac{m_B}{V}$, where $m_B$ is the mass of substance $B$ and $V$ is the volume."^^ns1:LatexString ; + ns1:latexSymbol "$\\rho_B$"^^ns1:LatexString ; + ns1:plainTextDescription "The \"Mass Concentration\" of substance B is defined as the mass of a constituent divided by the volume of the mixture ."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:MassConcentration"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Length Temperature"@en ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; + a ns1:QuantityKind ; + rdfs:label "Mass Temperature"@en ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:MassTemperature"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Linear Absorption Coefficient"@en ; - dcterms:description "The Linear Absorption Coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; - ns1:latexDefinition "$\\alpha(\\lambda) = \\frac{1}{\\Phi_\\lambda(\\lambda)}\\frac{d\\Phi_\\lambda(\\lambda)}{dl}$, where $\\frac{d\\Phi}{\\Phi}$ is the relative decrease, caused by absorption, in the spectral radiant flux $\\Phi$ of a collimated beam of electromagnetic radiation corresponding to the wavelength $\\lambda$ during traversal of an infinitesimal layer of a medium and $dl$ is the length traversed."^^ns1:LatexString ; - ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; - ns1:plainTextDescription "The Linear Absorption Coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Molar Flow Rate"@en ; + dcterms:description "Molar Flow Rate is a measure of the amount of substance (the number of molecules) that passes through a given area perpendicular to the flow in a given time. Typically this area is constrained, for example a section through a pipe, but it could also apply to an open flow."^^ns1:LatexString, + "Molar Flow Rate is a measure of the amount of substance (the number of molecules) that passes through a given area perpendicular to the flow in a given time. Typically this area is constrained, for example a section through a pipe, but it could also apply to an open flow."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD122"^^xsd:string ; + ns1:informativeReference "https://www.sciencedirect.com/topics/engineering/molar-flow-rate"^^xsd:anyURI ; + ns1:plainTextDescription "Molar Flow Rate is a measure of the amount of substance (the number of molecules) that passes through a given area perpendicular to the flow in a given time. Typically this area is constrained, for example a section through a pipe, but it could also apply to an open flow."^^xsd:string ; + ns1:symbol "q_V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarFlowRate"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Linear Attenuation Coefficient"@en ; - dcterms:description "\"Linear Attenuation Coefficient\", also called the attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient, is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition """$\\mu = -\\frac{1}{J}\\frac{dJ}{dx}$, where $J$ is the magnitude of the current rate of a beam of particles parallel to the $x-direction$. - -Or: - -$\\mu(\\lambda) = \\frac{1}{\\Phi_\\lambda(\\lambda)}\\frac{d\\Phi_\\lambda(\\lambda)}{dl}$, where $\\frac{d\\Phi}{\\Phi}$ is the relative decrease in the spectral radiant flux $\\Phi$ of a collimated beam of electromagnetic radiation corresponding to the wavelength $\\lambda$ during traversal of an infinitesimal layer of a medium and $dl$ is the length traversed."""^^ns1:LatexString ; - ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Linear Attenuation Coefficient\", also called the attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient, is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Molar Heat Capacity"@en ; + dcterms:description "\"Molar Heat Capacity\" is the amount of heat energy required to raise the temperature of 1 mole of a substance. In SI units, molar heat capacity (symbol: cn) is the amount of heat in joules required to raise 1 mole of a substance 1 Kelvin."^^ns1:LatexString, + "\"Molar Heat Capacity\" is the amount of heat energy required to raise the temperature of 1 mole of a substance. In SI units, molar heat capacity (symbol: cn) is the amount of heat in joules required to raise 1 mole of a substance 1 Kelvin."^^rdf:HTML ; + ns1:altSymbol "cn"^^xsd:string ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD123"^^xsd:string ; + ns1:informativeReference "http://chemistry.about.com/od/chemistryglossary/g/Molar-Heat-Capacity-Definition.htm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$C_m = \\frac{C}{n}$, where $C$ is heat capacity and $n$ is amount of substance."^^ns1:LatexString ; + ns1:plainTextDescription "\"Molar Heat Capacity\" is the amount of heat energy required to raise the temperature of 1 mole of a substance. In SI units, molar heat capacity (symbol: cn) is the amount of heat in joules required to raise 1 mole of a substance 1 Kelvin."^^xsd:string ; + ns1:symbol "C_m"^^xsd:string, + "cn"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarHeatCapacity"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Linear Ionization"@en ; - dcterms:description "\"Linear Ionization\" is a description of how the ionization of an atom or molecule takes place. For example, an ion with a +2 charge can be created only from an ion with a +1 charge or a +3 charge. That is, the numerical charge of an atom or molecule must change sequentially, always moving from one number to an adjacent, or sequential, number. Using sequential ionization definition."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Ionization#Classical_ionization"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition "$N_{il} = \\frac{1}{e}\\frac{dQ}{dl}$, where $e$ is the elementary charge and $dQ$ is the average total charge of all positive ions produced over an infinitesimal element of the path with length $dl$ by an ionizing charged particle."^^ns1:LatexString ; - ns1:plainTextDescription "\"Linear Ionization\" is a description of how the ionization of an atom or molecule takes place. For example, an ion with a +2 charge can be created only from an ion with a +1 charge or a +3 charge. That is, the numerical charge of an atom or molecule must change sequentially, always moving from one number to an adjacent, or sequential, number. Using sequential ionization definition."^^xsd:string ; - ns1:symbol "N_{il}"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Molar Refractivity"@en ; + dcterms:description "A quantity kind that is a measure of the total polarizability of a mole of substance that depends on the temperature, the index of refraction and the pressure."^^ns1:LatexString, + "A quantity kind that is a measure of the total polarizability of a mole of substance that depends on the temperature, the index of refraction and the pressure."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "A quantity kind that is a measure of the total polarizability of a mole of substance that depends on the temperature, the index of refraction and the pressure."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarRefractivity"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Luminance"@en ; - dcterms:description "Luminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Luminance"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD090"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Luminance"^^xsd:anyURI ; - ns1:latexDefinition "$L_v = \\frac{dI_v}{dA}$, where $dI_v$ is the luminous intensity of an element of the surface with the area $dA$ of the orthogonal projection of this element on a plane perpendicular to the given direction."^^ns1:LatexString ; - ns1:plainTextDescription "Luminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle."^^xsd:string ; - ns1:siExactMatch ; - ns1:symbol "L_v"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Permeability"@en ; + ns1:applicableUnit , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD134"^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Permeability"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Massieu Function"@en ; - dcterms:description "The Massieu function, $\\Psi$, is defined as: $\\Psi = \\Psi (X_1, \\dots , X_i, Y_{i+1}, \\dots , Y_r )$, where for every system with degree of freedom $r$ one may choose $r$ variables, e.g. , to define a coordinate system, where $X$ and $Y$ are extensive and intensive variables, respectively, and where at least one extensive variable must be within this set in order to define the size of the system. The $(r + 1)^{th}$ variable,$\\Psi$ , is then called the Massieu function."^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Massieu_function"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$J = -A/T$, where $A$ is Helmholtz energy and $T$ is thermodynamic temperature."^^ns1:LatexString ; - ns1:symbol "J"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - , - , - . - - a ns1:QuantityKind ; - rdfs:label "Melting Point Temperature"@en ; - dcterms:description "A temperature that is the one at which a substance will change its physical state from a solid to a liquid. It is also the temperature where the solid and liquid forms of a pure substance can exist in equilibrium."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "A temperature that is the one at which a substance will change its physical state from a solid to a liquid. It is also the temperature where the solid and liquid forms of a pure substance can exist in equilibrium."^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "زخم الحركة"@ar, - "hybnost"@cs, - "Impuls"@de, - "momentum"@en, - "cantidad de movimiento"@es, - "تکانه"@fa, - "quantité de mouvement"@fr, - "quantità di moto"@it, - "運動量"@ja, - "Momentum"@ms, - "pęd"@pl, - "momento linear"@pt, - "impuls"@ro, - "импульс"@ru, - "gibalna količina"@sl, - "Momentum"@tr, - "动量"@zh ; - dcterms:description "The momentum of a system of particles is given by the sum of the momentums of the individual particles which make up the system or by the product of the total mass of the system and the velocity of the center of gravity of the system. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Momentum"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Momentum"^^xsd:anyURI ; - ns1:plainTextDescription "The momentum of a system of particles is given by the sum of the momentums of the individual particles which make up the system or by the product of the total mass of the system and the velocity of the center of gravity of the system. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium."^^xsd:string ; - ns1:symbol "p"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Power Area"@en ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:PowerArea"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Phase coefficient"@en ; - dcterms:description "The phase coefficient is the amount of phase shift that occurs as the wave travels one meter. Increasing the loss of the material, via the manipulation of the material's conductivity, will decrease the wavelength (increase $\\beta$) and increase the attenuation coefficient (increase $\\alpha$)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; - ns1:latexDefinition "If $F(x) = Ae^{-\\alpha x} \\cos{[\\beta (x - x_0)]}$, then $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; + a ns1:QuantityKind ; + rdfs:label "Pressure Coefficient"@en ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:expression "$pres-coef$"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD143"^^xsd:string ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$\\beta = \\left (\\frac{\\partial p}{\\partial T} \\right )_V$, where $p$ is $pressure$, $T$ is thermodynamic temperature and $V$ is volume."^^ns1:LatexString ; ns1:latexSymbol "$\\beta$"^^ns1:LatexString ; - ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PressureCoefficient"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Planck Function"@en ; - dcterms:description "The $\\textit{Planck function}$ is used to compute the radiance emitted from objects that radiate like a perfect \"Black Body\". The inverse of the $\\textit{Planck Function}$ is used to find the $\\textit{Brightness Temperature}$ of an object. The precise formula for the Planck Function depends on whether the radiance is determined on a $\\textit{per unit wavelength}$ or a $\\textit{per unit frequency}$. In the ISO System of Quantities, $\\textit{Planck Function}$ is defined by the formula: $Y = -G/T$, where $G$ is Gibbs Energy and $T$ is thermodynamic temperature."^^ns1:LatexString ; - ns1:expression "$B_{\\nu}(T)$"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19680008986_1968008986.pdf"^^xsd:anyURI, - "http://pds-atmospheres.nmsu.edu/education_and_outreach/encyclopedia/planck_function.htm"^^xsd:anyURI, - "http://www.star.nesdis.noaa.gov/smcd/spb/calibration/planck.html"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition """The Planck function, $B_{\\tilde{\\nu}}(T)$, is given by: -$B_{\\nu}(T) = \\frac{2h c^2\\tilde{\\nu}^3}{e^{hc / k \\tilde{\\nu} T}-1}$ -where, $\\tilde{\\nu}$ is wavelength, $h$ is Planck's Constant, $k$ is Boltzman's Constant, $c$ is the speed of light in a vacuum, $T$ is thermodynamic temperature."""^^ns1:LatexString ; + a ns1:QuantityKind ; + rdfs:label "Principal Quantum Number"@en ; + dcterms:description "The \"Principal Quantum Number\" describes the electron shell, or energy level, of an atom. The value of $n$ ranges from 1 to the shell containing the outermost electron of that atom."^^ns1:LatexString ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PrincipalQuantumNumber"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - , - , - . + skos:broader ; + skos:closeMatch , + , + . - a ns1:QuantityKind ; - rdfs:label "Propagation coefficient"@en ; - dcterms:description "The propagation constant, symbol $\\gamma$, for a given system is defined by the ratio of the amplitude at the source of the wave to the amplitude at some distance x."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Propagation_constant"^^xsd:anyURI ; - ns1:latexDefinition "$\\gamma = \\alpha + j\\beta$, where $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; - ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; - ns2:todo "belongs to SOQ-ISO"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Rotational Mass"@en ; - dcterms:description "\"Rotational Mass\" denotes the inertia of a body with respect to angular acceleration. It is usually measured in kg*m^2."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifcrotationalmassmeasure.htm"^^xsd:anyURI ; - ns1:plainTextDescription "\"Rotational Mass\" denotes the inertia of a body with respect to angular acceleration. It is usually measured in kg*m^2."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Relative Humidity"@en ; + dcterms:description """ + $\\textit{Relative Humidity}$ is the ratio of the partial pressure of water vapor in an air-water mixture to the saturated vapor pressure of water at a prescribed temperature. + The relative humidity of air depends not only on temperature but also on the pressure of the system of interest. + $$$$ + $\\textit{Relative Humidity}$ is also referred to as $\\textit{Relative Partial Pressure}$. + $$$$ + Relative partial pressure is often referred to as $RH$ and expressed in percent. + """^^ns1:LatexString, + "$\\textit{Relative Humidity}$ is the ratio of the partial pressure of water vapor in an air-water mixture to the saturated vapor pressure of water at a prescribed temperature. The relative humidity of air depends not only on temperature but also on the pressure of the system of interest. $\\textit{Relative Humidity}$ is also referred to as $\\textit{Relative Partial Pressure}$. Relative partial pressure is often referred to as $RH$ and expressed in percent."^^ns1:LatexString ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Relative_humidity"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$\\varphi = p / p_{sat}$, where $p$ is partial pressure of vapour, $p_{sat}$ is thermodynamic temperature and $V$ is its partial pressure at saturation (at the same temperature). Relative partial pressure is often referred to as $RH$ and expressed in percent. $\\textit{Relative Humidity}$ is also referred to as $\\textit{Relative Partial Pressure}$."^^ns1:LatexString ; + ns1:latexSymbol "$\\varphi$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:RelativeHumidity"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + skos:altLabel "RH"^^xsd:string ; + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Specific heat capacity at constant pressure"@en ; - dcterms:description "Specific heat at a constant pressure."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "Specific heat at a constant pressure."^^xsd:string ; - ns1:symbol "c_p"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Soil Adsorption Coefficient"@en ; + dcterms:description "A specific volume that is the ratio of the amount of substance adsorbed per unit weight of organic carbon in the soil or sediment to the concentration of the chemical in aqueous solution at equilibrium."^^ns1:LatexString, + "A specific volume that is the ratio of the amount of substance adsorbed per unit weight of organic carbon in the soil or sediment to the concentration of the chemical in aqueous solution at equilibrium."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "A specific volume that is the ratio of the amount of substance adsorbed per unit weight of organic carbon in the soil or sediment to the concentration of the chemical in aqueous solution at equilibrium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SoilAdsorptionCoefficient"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , - . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Specific heat capacity at constant volume"@en ; - dcterms:description "Specific heat per constant volume."^^rdf:HTML ; + a ns1:QuantityKind ; + rdfs:label "Specific Heat Capacity at Saturation"@en ; + dcterms:description "Specific heat per constant volume."^^ns1:LatexString, + "Specific heat per constant volume."^^rdf:HTML ; ns1:applicableUnit , , , @@ -65511,234 +70309,250 @@ where, $\\tilde{\\nu}$ is wavelength, $h$ is Planck's Constant, $k$ is Boltzman' , ; ns1:hasDimensionVector ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; ns1:plainTextDescription "Specific heat per constant volume."^^xsd:string ; - ns1:symbol "c_v"^^xsd:string ; + ns1:symbol "c_{sat}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatCapacityAtSaturation"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , - . + . - a ns1:QuantityKind ; - rdfs:label "Spin Quantum Number"@en ; - dcterms:description "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^rdf:HTML ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD371"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$s^2 = \\hbar^2 s(s + 1)$, where $s$ is the spin quantum number and $\\hbar$ is the Planck constant."^^ns1:LatexString ; - ns1:plainTextDescription "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^xsd:string ; - ns1:symbol "s"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader ; - skos:closeMatch , - , - . + a ns1:QuantityKind ; + rdfs:label "Stress-Optic Coefficient"@en ; + dcterms:description "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law Δ=((2πt)/λ)C(σ₁-σ₂), where Δ is the induced retardation, C is the stress-optic coefficient, t is the specimen thickness, λ is the vacuum wavelength, and σ₁ and σ₂ are the first and second principal stresses, respectively."^^ns1:LatexString, + "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law Δ=((2πt)/λ)C(σ₁-σ₂), where Δ is the induced retardation, C is the stress-optic coefficient, t is the specimen thickness, λ is the vacuum wavelength, and σ₁ and σ₂ are the first and second principal stresses, respectively."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/w/index.php?title=Photoelasticity&oldid=1109858854#Experimental_principles"^^xsd:anyURI ; + ns1:latexDefinition "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law $\\Delta ={\\frac {2\\pi t}{\\lambda }}C(\\sigma _{1}-\\sigma _{2})$, where $\\Delta$ is the induced retardation, $C$ is the stress-optic coefficient, $t$ is the specimen thickness, $\\lambda$ is the vacuum wavelength, and $\\sigma_1$ and $\\sigma_2$ are the first and second principal stresses, respectively."^^ns1:LatexString ; + ns1:plainTextDescription "When a ray of light passes through a photoelastic material, its electromagnetic wave components are resolved along the two principal stress directions and each component experiences a different refractive index due to the birefringence. The difference in the refractive indices leads to a relative phase retardation between the two components. Assuming a thin specimen made of isotropic materials, where two-dimensional photoelasticity is applicable, the magnitude of the relative retardation is given by the stress-optic law Δ=((2πt)/λ)C(σ₁-σ₂), where Δ is the induced retardation, C is the stress-optic coefficient, t is the specimen thickness, λ is the vacuum wavelength, and σ₁ and σ₂ are the first and second principal stresses, respectively."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:StressOpticCoefficient"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:QuantityKind ; + rdfs:label "Thermal Resistivity"@en ; + dcterms:description "The reciprocal of thermal conductivity is thermal resistivity, measured in $kelvin-metres$ per watt ($K \\cdot m/W$)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD194"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalResistivity"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Time Temperature"@en ; + ns1:applicableUnit , + , + , + ; + ns1:hasDimensionVector ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:TimeTemperature"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DimensionlessUnit, + ns1:LogarithmicUnit, ns1:Unit ; - rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, - "ampérů na metr"@cs, - "Ampere je Meter"@de, - "ampere per metre"@en, - "Ampere per Meter"@en-us, - "amperio por metro"@es, - "آمپر بر متر"@fa, - "ampère par mètre"@fr, - "प्रति मीटर एम्पीयर"@hi, - "ampere al metro"@it, - "アンペア毎メートル"@ja, - "ampere per meter"@ms, - "amper na metr"@pl, - "ampere por metro"@pt, - "ampere pe metru"@ro, - "ампер на метр"@ru, - "amper na meter"@sl, - "amper bölü metre"@tr, - "安培每米"@zh ; - dcterms:description " is the SI unit of magnetic field strength. One ampere per meter is equal to \\(\\pi/250\\) oersteds (\\(12.566\\, 371\\,millioersteds\\)) in CGS units. The ampere per meter is also the SI unit of \"magnetization\" in the sense of magnetic dipole moment per unit volume; in this context \\(1 A/m = 0.001\\,emu\\,per\\,cubic\\,centimeter\\)."^^ns1:LatexString ; - ns1:applicableSystem , + rdfs:label "بل"@ar, + "бел"@bg, + "bel"@cs, + "Bel"@de, + "μπέλ"@el, + "Bel"@en, + "bel"@en, + "belio"@es, + "بل"@fa, + "bel"@fr, + "בל"@he, + "बेल"@hi, + "bel"@hu, + "bel"@it, + "ベル"@ja, + "bel"@ms, + "bel"@pl, + "bel"@pt, + "bel"@ro, + "бел"@ru, + "bel"@sl, + "bel"@tr, + "贝"@zh ; + dcterms:description "A logarithmic unit of sound pressure equal to 10 decibels (dB), It is defined as: \\(1 B = (1/2) \\log_{10}(Np)\\)"^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , , + , + , ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(A/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA104"^^xsd:string ; - ns1:symbol "A/m"^^xsd:string ; - ns1:ucumCode "A.m-1"^^ns1:UCUMcs, - "A/m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "AE"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU per Pound Degree Fahrenheit"@en ; - dcterms:description "British Thermal Unit (therm.) Per Pound Per Fahrenheit Degree (Btu (therm.)/lb- degF) is a unit in the category of Specific heat. This unit is commonly used in the UK unit system. British Thermal Unit (therm.) Per Pound Per Fahrenheit Degree (Btu (therm.)/lb-degF) has a dimension of \\(L2T^{-2}Q^{-1}\\) where \\(L\\) is length, \\(T\\) is time, and \\(Q\\) is temperature. It can be converted to the corresponding standard SI unit \\(J/kg-K\\) by multiplying its value by a factor of 4183.99895."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(Btu/(lb-degF)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "Btu{IT}/(lb⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[lb_av]-1.[degF]-1"^^ns1:UCUMcs, - "[Btu_IT]/([lb_av].[degF])"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "British Thermal Unit (thermochemical) Per Pound Degree Fahrenheit"@en ; - dcterms:description "unit of the thermal conductivity according to the Imperial system of units divided by the units pound and degree Fahrenheit"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 426.654 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA127"^^xsd:string ; - ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units divided by the units pound and degree Fahrenheit"^^xsd:string ; - ns1:symbol "Btu{th}/(lb⋅°F)"^^xsd:string ; - ns1:ucumCode "[Btu_th].[lb_av]-1.[degF]-1"^^ns1:UCUMcs, - "[Btu_th]/([lb_av].[degF])"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J50"^^xsd:string ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Bel"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAB351"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Sound_unit"^^xsd:anyURI ; + ns1:symbol "B"^^xsd:string ; + ns1:ucumCode "B"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M72"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Calorie (international Table) Per Gram Degree Celsius"@en ; - dcterms:description "unit calorieIT divided by the products of the units gram and degree Celsius"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Biot"@en ; + dcterms:description "\"Biot\" is another name for the abampere (aA), which is the basic electromagnetic unit of electric current in the emu-cgs (centimeter-gram-second) system of units. It is called after a French physicist, astronomer, and mathematician Jean-Baptiste Biot. One abampere is equal to ten amperes in the SI system of units. One abampere is the current, which produces a force of 2 dyne/cm between two infinitively long parallel wires that are 1 cm apart."^^rdf:HTML ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4186.8 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA362"^^xsd:string ; - ns1:plainTextDescription "unit calorieIT divided by the products of the units gram and degree Celsius"^^xsd:string ; - ns1:symbol "cal{IT}/(g⋅°C)"^^xsd:string ; - ns1:ucumCode "cal_IT.g-1.Cel-1"^^ns1:UCUMcs, - "cal_IT/(g.Cel)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J76"^^xsd:string ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 10.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Biot"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB210"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Biot?oldid=443318821"^^xsd:anyURI, + "http://www.translatorscafe.com/cafe/EN/units-converter/current/10-4/"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "Bi"^^xsd:string ; + ns1:ucumCode "Bi"^^ns1:UCUMcs ; + ns1:uneceCommonCode "N96"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Calorie (international Table) Per Gram Kelvin"@en ; - dcterms:description "unit calorieIT divided by the product of the SI base unit gram and Kelvin"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Statcoulomb"@en ; + dcterms:description "The statcoulomb (\\(statC\\)) or franklin (\\(Fr\\)) or electrostatic unit of charge (\\(esu\\)) is the physical unit for electrical charge used in the centimetre-gram-second system of units (cgs) and Gaussian units. It is a derived unit given by \\(1\\ statC = 1\\ g\\ cm\\ s = 1\\ erg\\ cm\\). The SI system of units uses the coulomb (C) instead. The conversion between C and statC is different in different contexts. The number 2997924580 is 10 times the value of the speed of light expressed in meters/second, and the conversions are exact except where indicated. The coulomb is an extremely large charge rarely encountered in electrostatics, while the statcoulomb is closer to everyday charges."^^ns1:LatexString ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4186.8 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA363"^^xsd:string ; - ns1:plainTextDescription "unit calorieIT divided by the product of the SI base unit gram and Kelvin"^^xsd:string ; - ns1:symbol "cal{IT}/(g⋅K)"^^xsd:string ; - ns1:ucumCode "cal_IT.g-1.K-1"^^ns1:UCUMcs, - "cal_IT/(g.K)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D76"^^xsd:string ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 0.00000000033356409519815204957557671447492, + 3.335641e-10 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Statcoulomb"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Statcoulomb?oldid=492664360"^^xsd:anyURI ; + ns1:latexDefinition "\\(1 C \\leftrightarrow 2997924580 statC \\approx 3.00 \\times 10^9 statC,\\ 1 \\hspace{0.3pc} statC \\leftrightarrow \\hspace{0.3pc} \\approx 3.34 \\times 10^{-10} C\\) for electric charge."^^ns1:LatexString, + "\\(1 C \\leftrightarrow 4 \\pi \\times 2997924580 statC \\approx 3.77 \\times 10^{10} statC,\\ 1 \\hspace{0.3pc} statC \\leftrightarrow \\hspace{0.2pc} \\approx 2.6 \\times 10^{-11} C\\) for electric flux \\(\\Phi_D\\)"^^ns1:LatexString, + "\\(1 C/m \\leftrightarrow 4 \\pi \\times 2997924580 \\times 10^{-4} statC/cm \\approx 3.77 \\times 10^6 statC/cm,\\ 1 \\hspace{0.3pc} statC/cm \\leftrightarrow \\hspace{0.3pc} \\approx 2.65 \\times 10^{-7} C/m\\) for electric displacement field \\(D\\)."^^ns1:LatexString ; + ns1:omUnit ; + ns1:symbol "statC"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Calorie (thermochemical) Per Gram Degree Celsius"@en ; - dcterms:description "unit calorie (thermochemical) divided by the product of the unit gram and degree Celsius"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4184.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA366"^^xsd:string ; - ns1:plainTextDescription "unit calorie (thermochemical) divided by the product of the unit gram and degree Celsius"^^xsd:string ; - ns1:symbol "cal{th}/(g⋅°C)"^^xsd:string ; - ns1:ucumCode "cal_th.g-1.Cel-1"^^ns1:UCUMcs, - "cal_th/(g.Cel)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J79"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Dalton"@en ; + dcterms:description "The unified atomic mass unit (symbol: \\(\\mu\\)) or dalton (symbol: Da) is a unit that is used for indicating mass on an atomic or molecular scale. It is defined as one twelfth of the rest mass of an unbound atom of carbon-12 in its nuclear and electronic ground state, and has a value of \\(1.660538782(83) \\times 10^{-27} kg\\). One \\(Da\\) is approximately equal to the mass of one proton or one neutron. The CIPM have categorised it as a \"non-SI unit whose values in SI units must be obtained experimentally\"."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000000000000000000000000166053878283, + 1.660539e-27 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Dalton"^^xsd:anyURI ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_mass_unit"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Dalton?oldid=495038954"^^xsd:anyURI ; + ns1:symbol "Da"^^xsd:string ; + ns1:ucumCode "u"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D43"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + ; + skos:altLabel "atomic-mass-unit"^^xsd:string . - a ns1:Unit ; - rdfs:label "Calorie (thermochemical) Per Gram Kelvin"@en ; - dcterms:description "unit calorie (thermochemical) divided by the product of the SI derived unit gram and the SI base unit Kelvin"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:DimensionlessUnit, + ns1:LogarithmicUnit, + ns1:Unit ; + rdfs:label "Decibel"@en ; + dcterms:description "A customary logarithmic measure most commonly used (in various ways) for measuring sound.Sound is measured on a logarithmic scale. Informally, if one sound is \\(1\\,bel\\) (10 decibels) \"louder\" than another, this means the louder sound is 10 times louder than the fainter one. A difference of 20 decibels corresponds to an increase of 10 x 10 or 100 times in intensity. The beginning of the scale, 0 decibels, can be set in different ways, depending on exactly the aspect of sound being measured. For sound intensity (the power of the sound waves per unit of area) \\(0\\,decibel\\) is equal to \\(1\\,picoWatts\\,per\\,Metre\\,Squared\\). This corresponds approximately to the faintest sound that can be detected by a person who has good hearing. For sound pressure (the pressure exerted by the sound waves) 0 decibels equals \\(20\\,micropascals\\,RMS\\), and for sound power \\(0\\,decibels\\) sometimes equals \\(1\\,picoWatt\\). In all cases, one decibel equals \\(\\approx\\,0.115129\\,neper\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , , - ; - ns1:conversionMultiplier 4184.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA367"^^xsd:string ; - ns1:plainTextDescription "unit calorie (thermochemical) divided by the product of the SI derived unit gram and the SI base unit Kelvin"^^xsd:string ; - ns1:symbol "cal{th}/(g⋅K)"^^xsd:string ; - ns1:ucumCode "cal_th.g-1.K-1"^^ns1:UCUMcs, - "cal_th/(g.K)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D37"^^xsd:string ; + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Decibel"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA409"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Decibel?oldid=495380648"^^xsd:anyURI ; + ns1:symbol "dB"^^xsd:string ; + ns1:ucumCode "dB"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2N"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DimensionlessUnit, ns1:Unit ; - rdfs:label "Degree per Hour"@en ; - dcterms:description "\"Degree per Hour\" is an Imperial unit for 'Angular Velocity' expressed as \\(deg/h\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.848137e-06 ; - ns1:expression "\\(deg/h\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "°/h"^^xsd:string ; - ns1:ucumCode "deg.h-1"^^ns1:UCUMcs, - "deg/h"^^ns1:UCUMcs ; + rdfs:label "Decibel Referred to 1mw"@en ; + dcterms:description "\"Decibel Referred to 1mw\" is a 'Dimensionless Ratio' expressed as \\(dBm\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:symbol "dBmW"^^xsd:string ; + ns1:udunitsCode "Bm"^^xsd:string ; + ns1:uneceCommonCode "DBM"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree per Minute"@en ; - dcterms:description "A unit of measure for the rate of change of plane angle, \\(d\\omega / dt\\), in durations of one minute.The vector \\(\\omega\\) is directed along the axis of rotation in the direction for which the rotation is clockwise."^^ns1:LatexString ; - ns1:conversionMultiplier 0.000290888209 ; - ns1:expression "\\(deg-per-min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "°/min"^^xsd:string ; - ns1:ucumCode "deg.min-1"^^ns1:UCUMcs, - "deg/min"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Foot Candle"@en ; + dcterms:description "\"Foot Candle\" is a unit for 'Luminous Flux Per Area' expressed as \\(fc\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 10.764 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Foot-candle"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Foot-candle?oldid=475579268"^^xsd:anyURI ; + ns1:symbol "fc"^^xsd:string ; + ns1:uneceCommonCode "P27"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Degree per Second"@en ; - dcterms:description "\"Degree per Second\" is an Imperial unit for 'Angular Velocity' expressed as \\(deg/s\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.0174532925 ; - ns1:expression "\\(deg/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA026"^^xsd:string ; - ns1:symbol "°/s"^^xsd:string ; - ns1:ucumCode "deg.s-1"^^ns1:UCUMcs, - "deg/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "E96"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Franklin"@en ; + dcterms:description "\"Franklin\" is a unit for 'Electric Charge' expressed as \\(Fr\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 3.335641e-10, + 0.0000000003335641 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Franklin"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB212"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Franklin?oldid=495090654"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "Fr"^^xsd:string ; + ns1:uneceCommonCode "N94"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, - "faradů na metr"@cs, - "Farad je Meter"@de, - "farad per metre"@en, - "Farad per Meter"@en-us, - "faradio por metro"@es, - "فاراد بر متر"@fa, - "farad par mètre"@fr, - "प्रति मीटर फैराड"@hi, - "farad al metro"@it, - "ファラド毎メートル"@ja, - "farad per meter"@ms, - "farad na metr"@pl, - "farad por metro"@pt, - "farad pe metru"@ro, - "фарада на метр"@ru, - "farad na meter"@sl, - "farad bölü metre"@tr, - "法拉每米"@zh ; - dcterms:description "Farad Per Meter (\\(F/m\\)) is a unit in the category of Electric permittivity. It is also known as farad/meter. This unit is commonly used in the SI unit system. Farad Per Meter has a dimension of M-1L-3T4I2 where M is mass, L is length, T is time, and I is electric current. This unit is the standard SI unit in this category."^^ns1:LatexString ; + rdfs:label "Gray per Second"@en ; + dcterms:description "\"Gray per Second\" is a unit for 'Absorbed Dose Rate' expressed as \\(Gy/s\\)."^^ns1:LatexString ; ns1:applicableSystem , , , @@ -65746,139 +70560,89 @@ where, $\\tilde{\\nu}$ is wavelength, $h$ is Planck's Constant, $k$ is Boltzman' ns1:conversionMultiplier 1.0 ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(F/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA146"^^xsd:string ; - ns1:symbol "F/m"^^xsd:string ; - ns1:ucumCode "F.m-1"^^ns1:UCUMcs, - "F/m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A69"^^xsd:string ; + ns1:expression "\\(Gy/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA164"^^xsd:string ; + ns1:symbol "Gy/s"^^xsd:string ; + ns1:ucumCode "Gy.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A96"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Femtomoles per litre"@en ; - dcterms:description "A 10**18 part quantity of substance of the measurand per litre volume of matrix."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "fmol/L"^^xsd:string ; - ns1:ucumCode "fmol.L-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Gamma"@en ; + dcterms:description "\"Gamma\" is a C.G.S System unit for 'Magnetic Field'."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gamma"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB213"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gamma?oldid=494680973"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "γ"^^xsd:string ; + ns1:uneceCommonCode "P12"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gauss"@en ; - dcterms:description "CGS unit of the magnetic flux density B"^^rdf:HTML ; - ns1:conversionMultiplier 0.0001 ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB135"^^xsd:string ; - ns1:plainTextDescription "CGS unit of the magnetic flux density B"^^xsd:string ; - ns1:symbol "Gs"^^xsd:string ; - ns1:ucumCode "G"^^ns1:UCUMcs ; - ns1:uneceCommonCode "76"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Gigajoule per Square Metre"@en, - "Gigajoule per Square Meter"@en-us ; - dcterms:description "Gigajoule Per Square Meter (\\(J/m^2\\)) is a unit in the category of Energy density. It is also known as Gigajoules per square meter, Gigajoule per square metre, Gigajoule/square meter, Gigajoule/square metre."^^ns1:LatexString ; + rdfs:label "Kilocalorie per Mole"@en ; + dcterms:description "The kilocalorie per mole is a derived unit of energy per Avogadro's number of particles. It is the quotient of a kilocalorie (1000 thermochemical gram calories) and a mole, mainly used in the United States. In SI units, it is equal to \\(4.184 kJ/mol\\), or \\(6.9477 \\times 10 J per molecule\\). At room temperature it is equal to 1.688 . Physical quantities measured in \\(kcal\\cdot mol\\) are usually thermodynamical quantities; mostly free energies such as: Heat of vaporization Heat of fusion

."^^ns1:LatexString ; ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000000000.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(GJ/m^2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA179"^^xsd:string ; - ns1:symbol "GJ/m²"^^xsd:string ; - ns1:ucumCode "GJ.m-2"^^ns1:UCUMcs, - "GJ/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B13"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Joule per Gram Kelvin"@en ; - dcterms:description "Joule per Gram Kelvin is a unit typically used for specific heat capacity."^^xsd:string ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA176"^^xsd:string ; - ns1:latexSymbol "\\(\\frac{J}{g \\cdot K}\\)"^^ns1:LatexString ; - ns1:symbol "J/(g⋅K)"^^xsd:string ; - ns1:ucumCode "J.g-1.K-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Joule per Kilogram Kelvin"@en ; - dcterms:description "Specific heat capacity - The heat required to raise unit mass of a substance by unit temperature interval under specified conditions, such as constant pressure: usually measured in joules per kelvin per kilogram. Symbol \\(c_p\\) (for constant pressure) Also called specific heat."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J-per-kgK\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA176"^^xsd:string ; - ns1:latexSymbol "\\(J/(kg \\cdot K)\\)"^^ns1:LatexString ; - ns1:symbol "J/(kg⋅K)"^^xsd:string ; - ns1:ucumCode "J.kg-1.K-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B11"^^xsd:string ; + , + ; + ns1:conversionMultiplier 4184.0 ; + ns1:expression "\\(kcal/mol\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kcal/mol"^^xsd:string ; + ns1:ucumCode "kcal.mol-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Joule per Square Metre"@en, - "Joule per Square Meter"@en-us ; - dcterms:description "Joule Per Square Meter (\\(J/m^2\\)) is a unit in the category of Energy density. It is also known as joules per square meter, joule per square metre, joule/square meter, joule/square metre. This unit is commonly used in the SI unit system."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Kilogram Square Centimetre"@en, + "Kilogram Square Centimeter"@en-us ; + dcterms:description "product of the SI base unit kilogram and the 0 0001fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J/m^2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA179"^^xsd:string ; - ns1:symbol "J/m²"^^xsd:string ; - ns1:ucumCode "J.m-2"^^ns1:UCUMcs, - "J/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B13"^^xsd:string ; + ns1:conversionMultiplier 0.0001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA600"^^xsd:string ; + ns1:plainTextDescription "product of the SI base unit kilogram and the 0 0001fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "kg⋅cm²"^^xsd:string ; + ns1:ucumCode "kg.cm2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F18"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Joule per Cubic Metre"@en, - "Joule per Cubic Meter"@en-us ; - dcterms:description "\\(\\textit{Joule Per Cubic Meter}\\) (\\(J/m^{3}\\)) is a unit in the category of Energy density. It is also known as joules per cubic meter, joule per cubic metre, joules per cubic metre, joule/cubic meter, joule/cubic metre. This unit is commonly used in the SI unit system. It has a dimension of \\(ML^{-1}T^{-2}\\) where \\(M\\) is mass, \\(L\\) is length, and \\(T\\) is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; + rdfs:label "كيلوغرام متر مربع"@ar, + "kilogram čtvereční metr"@cs, + "Kilogramm mal Quadratmeter"@de, + "Kilogram Square Metre"@en, + "kilogram square metre"@en, + "Kilogram Square Meter"@en-us, + "kilogramo metro cuadrado"@es, + "نیوتون متر مربع"@fa, + "kilogramme-mètre carré"@fr, + "किलोग्राम वर्ग मीटर"@hi, + "chilogrammo metro quadrato"@it, + "キログラム平方メートル"@ja, + "kilogram meter persegi"@ms, + "quilograma-metro quadrado"@pt, + "kilogram-metru pătrat"@ro, + "килограмм-квадратный метр"@ru, + "kilogram metrekare"@tr, + "千克平方米"@zh ; + dcterms:description "\"Kilogram Square Meter\" is a unit for 'Moment Of Inertia' expressed as \\(kg-m^2\\)."^^ns1:LatexString ; ns1:applicableSystem , , , @@ -65886,1098 +70650,1063 @@ where, $\\tilde{\\nu}$ is wavelength, $h$ is Planck's Constant, $k$ is Boltzman' ns1:conversionMultiplier 1.0 ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(j-per-m3\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA180"^^xsd:string ; - ns1:symbol "J/m³"^^xsd:string ; - ns1:ucumCode "J.m-3"^^ns1:UCUMcs, - "J/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B8"^^xsd:string ; + ns1:expression "\\(kg-m2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA622"^^xsd:string ; + ns1:symbol "kg⋅m²"^^xsd:string ; + ns1:ucumCode "kg.m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilocoulomb Per Square Metre"@en, - "Kilocoulomb Per Square Meter"@en-us ; - dcterms:description "1 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilogram Square Millimetre"@en, + "Kilogram Square Millimeter"@en-us ; + dcterms:description "product of the SI base kilogram and the 0.001-fold of the power of the SI base metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA564"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "kC/m²"^^xsd:string ; - ns1:ucumCode "kC.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B28"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Calorie per Gram Degree Celsius"@en ; - dcterms:description "\\(\\textbf{Calorie per Gram Degree Celsius} is a unit for 'Specific Heat Capacity' expressed as \\(kcal/(gm-degC)\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - ; - ns1:expression "\\(kcal/(gm-degC)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kcal/(g⋅°C)"^^xsd:string ; - ns1:ucumCode "cal.g-1.Cel-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilojoule Per Kilogram Kelvin"@en ; - dcterms:description "1 000-fold of the SI derived unit joule divided by the product of the SI base unit kilogram and the SI base unit kelvin"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA571"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the product of the SI base unit kilogram and the SI base unit kelvin"^^xsd:string ; - ns1:symbol "kJ/(kg⋅K)"^^xsd:string ; - ns1:ucumCode "kJ.(kg.K)-1"^^ns1:UCUMcs, - "kJ.kg-1.K-1"^^ns1:UCUMcs, - "kJ/(kg.K)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B43"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA627"^^xsd:string ; + ns1:plainTextDescription "product of the SI base kilogram and the 0.001-fold of the power of the SI base metre with the exponent 2"^^xsd:string ; + ns1:symbol "kg⋅mm²"^^xsd:string ; + ns1:ucumCode "kg.mm2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F19"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilomole Per Cubic Metre"@en, - "Kilomole Per Cubic Meter"@en-us ; - dcterms:description "1 000-fold of the SI base unit mol divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilojoule Per Mole"@en ; + dcterms:description "1 000-fold of the SI derived unit joule divided by the SI base unit mol"^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA642"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI base unit mol divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "kmol/m³"^^xsd:string ; - ns1:ucumCode "kmol.m-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B46"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA572"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the SI base unit mol"^^xsd:string ; + ns1:symbol "kJ/mol"^^xsd:string ; + ns1:ucumCode "kJ.mol-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B44"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pound Force per Inch"@en ; - dcterms:description "\"Pound Force per Inch\" is an Imperial unit for 'Force Per Length' expressed as \\(lbf/in\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Pound Mass (avoirdupois) Square Foot"@en ; + dcterms:description "product of the unit pound according to the avoirdupois system of units and the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 175.12685 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(lbf/in\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "lbf/in"^^xsd:string ; - ns1:ucumCode "[lbf_av].[in_i]-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 0.04214011 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA671"^^xsd:string ; + ns1:plainTextDescription "product of the unit pound according to the avoirdupois system of units and the power of the unit foot according to the Anglo-American and the Imperial system of units with the exponent 2"^^xsd:string ; + ns1:symbol "lb⋅ft²"^^xsd:string ; + ns1:ucumCode "[lb_av].[sft_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K65"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mole Per Cubic Decimetre"@en, - "Mole Per Cubic Decimeter"@en-us ; - dcterms:description "SI base unit mol divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA883"^^xsd:string ; - ns1:plainTextDescription "SI base unit mol divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "mol/dm³"^^xsd:string ; - ns1:ucumCode "mol.dm-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C35"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound Mass (avoirdupois) Square Inch"@en ; + dcterms:description "product of the unit pound according to the avoirdupois system of units and the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0002926397 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA672"^^xsd:string ; + ns1:plainTextDescription "product of the unit pound according to the avoirdupois system of units and the power of the unit inch according to the Anglo-American and the Imperial system of units with the exponent 2"^^xsd:string ; + ns1:symbol "lb⋅in²"^^xsd:string ; + ns1:ucumCode "[lb_av].[sin_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F20"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mole Per Litre"@en, - "Mole Per Liter"@en-us ; - dcterms:description "SI base unit mol divided by the unit litre"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA888"^^xsd:string ; - ns1:plainTextDescription "SI base unit mol divided by the unit litre"^^xsd:string ; - ns1:symbol "mol/L"^^xsd:string ; - ns1:ucumCode "mol.L-1"^^ns1:UCUMcs, - "mol/L"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C38"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound (avoirdupois) Per Square Inch"@en ; + dcterms:description "unit of the areal-related mass as avoirdupois pound according to the avoirdupois system of units related to the area square inch according to the Anglo-American and Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 703.06957963916 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAB137"^^xsd:string ; + ns1:plainTextDescription "unit of the areal-related mass as avoirdupois pound according to the avoirdupois system of units related to the area square inch according to the Anglo-American and Imperial system of units"^^xsd:string ; + ns1:symbol "lb/in²"^^xsd:string ; + ns1:ucumCode "[lb_av].[sin_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "80"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Mole per Cubic Metre"@en, - "Mole per Cubic Meter"@en-us ; - dcterms:description "The SI derived unit for amount-of-substance concentration is the mole/cubic meter."^^rdf:HTML ; + rdfs:label "لكس"@ar, + "лукс"@bg, + "lux"@cs, + "Lux"@de, + "lux"@el, + "Lux"@en, + "lux"@en, + "lux"@es, + "لوکس"@fa, + "lux"@fr, + "לוקס"@he, + "लक्स"@hi, + "lux"@hu, + "lux"@it, + "ルクス"@ja, + "lux"@ms, + "luks"@pl, + "lux"@pt, + "lux"@ro, + "люкс"@ru, + "luks"@sl, + "lüks"@tr, + "勒克斯"@zh ; + dcterms:description "The SI unit for measuring the illumination (illuminance) of a surface. One lux is defined as an illumination of one lumen per square meter or 0.0001 phot. In considering the various light units, it's useful to think about light originating at a point and shining upon a surface. The intensity of the light source is measured in candelas; the total light flux in transit is measured in lumens (1 lumen = 1 candelau00b7steradian); and the amount of light received per unit of surface area is measured in lux (1 lux = 1 lumen/square meter). One lux is equal to approximately 0.09290 foot candle."^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Lux"^^xsd:anyURI ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(mol/m^{3}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA891"^^xsd:string ; - ns1:symbol "mol/m³"^^xsd:string ; - ns1:ucumCode "mol.m-3"^^ns1:UCUMcs, - "mol/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C36"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA723"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Lux?oldid=494700274"^^xsd:anyURI ; + ns1:omUnit ; + ns1:siUnitsExpression "lm/m^2"^^xsd:string ; + ns1:symbol "lx"^^xsd:string ; + ns1:ucumCode "lx"^^ns1:UCUMcs ; + ns1:udunitsCode "lx"^^xsd:string ; + ns1:uneceCommonCode "LUX"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microgram Per MilliLitre"@en, - "Micrograms per millilitre"@en, - "Microgram Per Milliliter"@en-us ; - dcterms:description "One 10**6 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Metre per Square Second"@en, + "Meter per Square Second"@en-us ; + dcterms:description "The \\(\\textit{meter per Square second}\\) is the unit of acceleration in the International System of Units (SI). As a derived unit it is composed from the SI base units of length, the metre, and the standard unit of time, the second. Its symbol is written in several forms as \\(m/s^2\\), or \\(m s^{-2}\\). As acceleration, the unit is interpreted physically as change in velocity or speed per time interval, that is, \\(\\textit{metre per second per second}\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:plainTextDescription "0.000000000001-fold of the SI base unit kilogram divided by the unit microlitre"^^xsd:string ; - ns1:symbol "µg/mL"^^xsd:string, - "μg/mL"^^xsd:string ; - ns1:ucumCode "ug.mL-1"^^ns1:UCUMcs, - "ug/mL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Micromoles per litre"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "µmol/L"^^xsd:string ; - ns1:ucumCode "umol.L-1"^^ns1:UCUMcs, - "umol/L"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m/s^2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA736"^^xsd:string ; + ns1:symbol "m/s²"^^xsd:string ; + ns1:ucumCode "m.s-2"^^ns1:UCUMcs, + "m/s2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MSK"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "milligrams per decilitre"@en, - "milligrams per decilitre"@en-us ; - dcterms:description "A derived unit for amount-of-substance concentration measured in mg/dL."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Megagram Per Hectare"@en, + "Megagram Per Hectare"@en-us ; + dcterms:description "1 000-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.01 ; - ns1:expression "\\(mg/dL\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "mg/dL"^^xsd:string ; - ns1:ucumCode "mg.dL-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 0.1 ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "1 000-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "Mg/ha"^^xsd:string ; + ns1:ucumCode "Mg.har-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milligram Per Millilitre"@en, - "Milligram Per Milliliter"@en-us ; - dcterms:description "A scaled unit of mass concentration."@en ; + a ns1:Unit ; + rdfs:label "Millirads per hour"@en ; + dcterms:description "One thousandth part of an absorbed ionizing radiation dose equal to 100 ergs per gram of irradiated material received per hour."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000277777777777778, + 2.777778e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "mrad/hr"^^xsd:string ; + ns1:ucumCode "mRAD.h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Milliwatt per Milligram"@en ; + dcterms:description "SI derived unit milliwatt divided by the SI derived unit milligram"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the unit millilitre"^^xsd:string ; - ns1:symbol "mg/mL"^^xsd:string ; - ns1:ucumCode "mg.mL-1"^^ns1:UCUMcs, - "mg/mL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millimoles per cubic metre"@en ; - dcterms:description "Unavailable."@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "mmol/m³"^^xsd:string ; - ns1:ucumCode "mmol.m-3"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "SI derived unit milliwatt divided by the SI derived unit milligram"^^xsd:string ; + ns1:symbol "mW/mg"^^xsd:string ; + ns1:ucumCode "mW.mg-1"^^ns1:UCUMcs, + "mW/mg"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Newton Metre Per Square Metre"@en, - "Newton Meter Per Square Meter"@en-us ; - dcterms:description "product of the SI derived unit newton and the SI base unit metre divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "نيوتن متر"@ar, + "нютон-метър"@bg, + "newton metr"@cs, + "Newtonmeter"@de, + "νιούτον επί μέτρο; νιουτόμετρο"@el, + "Newton Metre"@en, + "newton metre"@en, + "Newton Meter"@en-us, + "newton metro"@es, + "نیوتون متر"@fa, + "newton-mètre"@fr, + "न्यूटन मीटर"@hi, + "newton per metro"@it, + "ニュートンメートル"@ja, + "newton meter"@ms, + "niutonometr; dżul na radian"@pl, + "newton-metro"@pt, + "newton-metru"@ro, + "ньютон-метр"@ru, + "newton meter"@sl, + "newton metre"@tr, + "牛米"@zh ; + dcterms:description "\"Torque\" is the tendency of a force to cause a rotation, is the product of the force and the distance from the center of rotation to the point where the force is applied. Torque has the same units as work or energy, but it is a different physical concept. To stress the difference, scientists measure torque in newton meters rather than in joules, the SI unit of work. One newton meter is approximately 0.737562 pound foot."^^rdf:HTML ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA244"^^xsd:string ; - ns1:plainTextDescription "product of the SI derived unit newton and the SI base unit metre divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "N⋅m/m²"^^xsd:string ; - ns1:ucumCode "N.m.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H86"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Nanograms per millilitre"@en ; - dcterms:description "One 10**12 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "ng/mL"^^xsd:string ; - ns1:ucumCode "ng.mL-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Picograms per millilitre"@en ; - dcterms:description "One 10**15 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "pg/mL"^^xsd:string ; - ns1:ucumCode "pg/mL"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ns1:dbpediaMatch "http://dbpedia.org/resource/Newton_metre"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA239"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Newton_metre?oldid=493923333"^^xsd:anyURI ; + ns1:siUnitsExpression "N.m"^^xsd:string ; + ns1:symbol "N⋅m"^^xsd:string ; + ns1:ucumCode "N.m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "NU"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Picomoles per litre"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "pmol/L"^^xsd:string ; - ns1:ucumCode "pmol.L-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Number per hour"@en, + "Number per individual per hour"@en ; + ns1:conversionMultiplier 0.000277777777777778 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/hr"^^xsd:string ; + ns1:ucumCode "{#}.h-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picomoles per cubic metre"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:symbol "pmol/m³"^^xsd:string ; - ns1:ucumCode "pmol.m-3"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Counts per second"@en ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/s"^^xsd:string ; + ns1:ucumCode "{#}.s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Angular Frequency"@en ; - ns1:conversionMultiplier 1.8548e+43 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_angular_frequency"^^xsd:anyURI ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Number per Year"@en ; + dcterms:description "\"Number per Year\" is a unit for 'Frequency' expressed as \\(\\#/yr\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000003168808781402895023702689684893655, + 3.168809e-08 ; + ns1:expression "\\(\\#/yr\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "planckangularfrequency"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:symbol "#/yr"^^xsd:string ; + ns1:ucumCode "{#}.a-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Radian per Hour"@en ; - dcterms:description "\"Radian per Hour\" is a unit for 'Angular Velocity' expressed as \\(rad/h\\)."^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Reciprocal Pascal"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 3600.0 ; - ns1:expression "\\(rad/h\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "rad/h"^^xsd:string ; - ns1:ucumCode "rad.h-1"^^ns1:UCUMcs, - "rad/h"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; + ns1:expression "\\(/Pa\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Pascal?oldid=492989202"^^xsd:anyURI ; + ns1:siUnitsExpression "m^2/N"^^xsd:string ; + ns1:symbol "/Pa"^^xsd:string ; + ns1:ucumCode "Pa-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C96"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Radian per Minute"@en ; - dcterms:description "Radian Per Minute (rad/min) is a unit in the category of Angular velocity. It is also known as radians per minute, radian/minute. Radian Per Minute (rad/min) has a dimension of aT-1 where T is time. It can be converted to the corresponding standard SI unit rad/s by multiplying its value by a factor of 0.0166666666667. "^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 60.0 ; - ns1:expression "\\(rad/m\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "rad/min"^^xsd:string ; - ns1:ucumCode "rad.min-1"^^ns1:UCUMcs, - "rad/min"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Phot"@en ; + dcterms:description "A phot (ph) is a photometric unit of illuminance, or luminous flux through an area. It is not an SI unit, but rather is associated with the older centimetre gram second system of units. Metric dimensions: \\(illuminance = luminous intensity \\times solid angle / length\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 10000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Phot"^^xsd:anyURI ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB255"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Phot?oldid=477198725"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "ph"^^xsd:string ; + ns1:ucumCode "ph"^^ns1:UCUMcs ; + ns1:udunitsCode "ph"^^xsd:string ; + ns1:uneceCommonCode "P26"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "راديان في الثانية"@ar, - "radián za sekundu"@cs, - "Radian je Sekunde"@de, - "radian per second"@en, - "radián por segundo"@es, - "رادیان بر ثانیه"@fa, - "radian par seconde"@fr, - "वर्ग मीटर प्रति सैकिण्ड"@hi, - "radiante al secondo"@it, - "ラジアン毎秒"@ja, - "radian per saat"@ms, - "radian na sekundę"@pl, - "radiano por segundo"@pt, - "radian pe secundă"@ro, - "радиан в секунду"@ru, - "radian na sekundo"@sl, - "radyan bölü saniye"@tr, - "弧度每秒"@zh ; - dcterms:description "\"Radian per Second\" is the SI unit of rotational speed (angular velocity), and, also the unit of angular frequency. The radian per second is defined as the change in the orientation of an object, in radians, every second."^^rdf:HTML ; - ns1:applicableSystem , - , + rdfs:label "سيمنز"@ar, + "сименс"@bg, + "siemens"@cs, + "Siemens"@de, + "ζίμενς"@el, + "Siemens"@en, + "siemens"@en, + "siemens"@es, + "زیمنس"@fa, + "siemens"@fr, + "סימנס"@he, + "सीमैन्स"@hi, + "siemens"@hu, + "siemens"@it, + "ジーメンス"@ja, + "siemens"@la, + "siemens"@ms, + "simens"@pl, + "siemens"@pt, + "siemens"@ro, + "сименс"@ru, + "siemens"@sl, + "siemens"@tr, + "西门子"@zh ; + dcterms:description "\\(\\textbf{Siemens}\\) is the SI unit of electric conductance, susceptance, and admittance. The most important property of a conductor is the amount of current it will carry when a voltage is applied. Current flow is opposed by resistance in all circuits, and by also by reactance and impedance in alternating current circuits. Conductance, susceptance, and admittance are the inverses of resistance, reactance, and impedance, respectively. To measure these properties, the siemens is the reciprocal of the ohm. In other words, the conductance, susceptance, or admittance, in siemens, is simply 1 divided by the resistance, reactance or impedance, respectively, in ohms. The unit is named for the German electrical engineer Werner von Siemens (1816-1892). \\(\\ \\text{Siemens}\\equiv\\frac{\\text{A}}{\\text{V}}\\equiv\\frac{\\text{amp}}{\\text{volt}}\\equiv\\frac{\\text{F}}{\\text {s}}\\equiv\\frac{\\text{farad}}{\\text{second}}\\)"^^ns1:LatexString ; + ns1:applicableSystem , , + , ; ns1:conversionMultiplier 1.0 ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(rad/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA968"^^xsd:string ; - ns1:symbol "rad/s"^^xsd:string ; - ns1:ucumCode "rad.s-1"^^ns1:UCUMcs, - "rad/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2A"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Revolution per Hour"@en ; - dcterms:description "\"Revolution per Hour\" is a unit for 'Angular Velocity' expressed as \\(rev/h\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 0.00174532925 ; - ns1:expression "\\(rev/h\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "rev/h"^^xsd:string ; - ns1:ucumCode "{#}.h-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Revolution per Minute"@en ; - dcterms:description "\"Revolution per Minute\" is a unit for 'Angular Velocity' expressed as \\(rev/min\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 0.104719755 ; - ns1:expression "\\(rev/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB231"^^xsd:string ; - ns1:symbol "rev/min"^^xsd:string ; - ns1:ucumCode "{#}.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M46"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Revolution per Second"@en ; - dcterms:description "\"Revolution per Second\" is a unit for 'Angular Velocity' expressed as \\(rev/s\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 6.28318531 ; - ns1:expression "\\(rev/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "rev/s"^^xsd:string ; - ns1:ucumCode "{#}.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "RPS"^^xsd:string ; - rdfs:isDefinedBy . + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA277"^^xsd:string ; + ns1:informativeReference "http://www.simetric.co.uk/siderived.htm"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Siemens_(unit)"^^xsd:anyURI ; + ns1:omUnit ; + ns1:siUnitsExpression "A/V"^^xsd:string ; + ns1:symbol "S"^^xsd:string ; + ns1:ucumCode "S"^^ns1:UCUMcs ; + ns1:udunitsCode "S"^^xsd:string ; + ns1:uneceCommonCode "SIE"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "تسلا"@ar, - "тесла"@bg, - "tesla"@cs, - "Tesla"@de, - "τέσλα"@el, - "tesla"@en, - "tesla"@es, - "تسلا"@fa, - "tesla"@fr, - "טסלה"@he, - "टैस्ला"@hi, - "tesla"@hu, - "tesla"@it, - "テスラ"@ja, - "tesla"@la, - "tesla"@ms, - "tesla"@pl, - "tesla"@pt, - "tesla"@ro, - "тесла"@ru, - "tesla"@sl, - "tesla"@tr, - "特斯拉"@zh ; - dcterms:description "The SI unit of flux density (or field intensity) for magnetic fields (also called the magnetic induction). The intensity of a magnetic field can be measured by placing a current-carrying conductor in the field. The magnetic field exerts a force on the conductor, a force which depends on the amount of the current and on the length of the conductor. One tesla is defined as the field intensity generating one newton of force per ampere of current per meter of conductor. Equivalently, one tesla represents a magnetic flux density of one weber per square meter of area. A field of one tesla is quite strong: the strongest fields available in laboratories are about 20 teslas, and the Earth's magnetic flux density, at its surface, is about 50 microteslas. The tesla, defined in 1958, honors the Serbian-American electrical engineer Nikola Tesla (1856-1943), whose work in electromagnetic induction led to the first practical generators and motors using alternating current. \\(T = V\\cdot s \\cdot m^{-2} = N\\cdot A^{-1}\\cdot m^{-1} = Wb\\cdot m^{-1} = kg \\cdot C^{-1}\\cdot s^{-1}\\cdot A^{-1} = kg \\cdot s^{-2}\\cdot A^{-1} = N \\cdot s \\cdot C^{-1}\\cdot m^{-1}\\) where, \\(\\\\\\) \\(A\\) = ampere, \\(C\\)=coulomb, \\(m\\) = meter, \\(N\\) = newton, \\(s\\) = second, \\(T\\) = tesla, \\(Wb\\) = weber"^^ns1:LatexString ; + rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, + "voltů na metr"@cs, + "Volt je Meter"@de, + "Volt per Metre"@en, + "volt per metre"@en, + "Volt per Meter"@en-us, + "voltio por metro"@es, + "ولت بر متر"@fa, + "volt par mètre"@fr, + "प्रति मीटर वोल्ट"@hi, + "volt al metro"@it, + "ボルト毎メートル"@ja, + "volt per meter"@ms, + "wolt na metr"@pl, + "volt por metro"@pt, + "volți pe metru"@ro, + "вольт на метр"@ru, + "volt na meter"@sl, + "volt bölü metre"@tr, + "伏特每米"@zh ; + dcterms:description "Volt Per Meter (V/m) is a unit in the category of Electric field strength. It is also known as volts per meter, volt/meter, volt/metre, volt per metre, volts per metre. This unit is commonly used in the SI unit system. Volt Per Meter (V/m) has a dimension of \\(MLT^{-3}I^{-1}\\) where M is mass, L is length, T is time, and I is electric current. This unit is the standard SI unit in this category."^^ns1:LatexString ; ns1:applicableSystem , , ; ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Tesla"^^xsd:anyURI ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA285"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Tesla?oldid=481198244"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Tesla_(unit)"^^xsd:anyURI, - "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-1406?rskey=AzXBLd"^^xsd:anyURI ; - ns1:omUnit ; - ns1:siUnitsExpression "Wb/m^2"^^xsd:string ; - ns1:symbol "T"^^xsd:string ; - ns1:ucumCode "T"^^ns1:UCUMcs ; - ns1:udunitsCode "T"^^xsd:string ; - ns1:uneceCommonCode "D33"^^xsd:string ; + ns1:expression "\\(V/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA301"^^xsd:string ; + ns1:informativeReference "http://www.efunda.com/glossary/units/units--electric_field_strength--volt_per_meter.cfm"^^xsd:anyURI ; + ns1:symbol "V/m"^^xsd:string ; + ns1:ucumCode "V.m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D50"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Tonne Per Cubic Metre"@en, - "Tonne Per Cubic Meter"@en-us ; - dcterms:description "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Watt per Gram"@en ; + dcterms:description "SI derived unit watt divided by the SI derived unit gram"^^rdf:HTML ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA997"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "t/m³"^^xsd:string ; - ns1:ucumCode "t.m-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D41"^^xsd:string ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "SI derived unit watt divided by the SI derived unit gram"^^xsd:string ; + ns1:symbol "W/g"^^xsd:string ; + ns1:ucumCode "W.g-1"^^ns1:UCUMcs, + "W/g"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Long Ton per Cubic Yard"@en ; - dcterms:description "The long ton per cubic yard density measurement unit is used to measure volume in cubic yards in order to estimate weight or mass in long tons."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1328.9391836174336 ; - ns1:definedUnitOfSystem ; - ns1:exactMatch ; - ns1:expression "\\(ton/yd^3\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "t{long}/yd³"^^xsd:string ; - ns1:ucumCode "[lton_av]/[cyd_i]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L92"^^xsd:string ; - rdfs:isDefinedBy . +ns2:CatalogEntry dcterms:description "VAEM Governed Object class is a placeholder for concepts that are fully defined by the voag:GovernedObject concept hierarchy for building a catalog of ontologies and graphs"^^xsd:string . - a ns1:Unit ; - rdfs:label "Tonne Per Cubic Metre"@en, - "Tonne Per Cubic Meter"@en-us ; - dcterms:description "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA997"^^xsd:string ; - ns1:plainTextDescription "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; - ns1:symbol "t/m³"^^xsd:string ; - ns1:ucumCode "t.m-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D41"^^xsd:string ; - rdfs:isDefinedBy . +s223:ActuatableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Actuatable Property"^^xsd:string ; + rdfs:comment """The term "actuatable" implies that writing to the Property value will directly trigger a physical actuation by either an Actuator or Equipment. + In contrast, the term "observable" (see `s223:ObservableProperty`) implies that reading the Property value will return the result of a physical observation."""^^xsd:string ; + rdfs:subClassOf s223:Property ; + sh:property [ rdfs:comment "An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; + sh:class s223:Equipment ; + sh:message "s223: An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:actuatedByProperty ] ; + sh:severity sh:Warning ], + [ rdfs:comment "An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; + sh:class s223:Equipment ; + sh:message "s223: An ActuatableProperty normally is referred to by Equipment using the relation s223:actuatedByProperty."^^xsd:string ; + sh:minCount 1 ; + sh:path [ sh:inversePath s223:actuatedByProperty ] ; + sh:severity sh:Warning ] . - a ns1:Unit ; - rdfs:label "Short Ton per Cubic Yard"@en ; - dcterms:description "The short ton per cubic yard density measurement unit is used to measure volume in cubic yards in order to estimate weight or mass in short tons."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1186.552842515566 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:expression "\\(ton/yd^3\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ton{short}/yd³"^^xsd:string ; - ns1:ucumCode "[ston_av].[cyd_i]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:Damper a s223:Class, + sh:NodeShape ; + rdfs:label "Damper"^^xsd:string ; + rdfs:comment "An element inserted into an air-distribution system or element of an air-distribution system permitting modification of the air resistance of the system and consequently changing the airflow rate or shutting off the airflow."^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:property [ rdfs:comment "A Damper shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A Damper shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Damper shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A Damper shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Damper shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A Damper shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Damper shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A Damper shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . - a ns1:Unit ; - rdfs:label "Long Ton (UK) Per Cubic Yard"@en ; - dcterms:description "unit of the density according the Imperial system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1328.8778292234224 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB018"^^xsd:string ; - ns1:plainTextDescription "unit of the density according the Imperial system of units"^^xsd:string ; - ns1:symbol "t{long}/yd³"^^xsd:string ; - ns1:ucumCode "[lton_av].[cyd_i]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:DayOfWeek-Weekday a s223:Class, + s223:DayOfWeek-Weekday, + sh:NodeShape ; + rdfs:label "Day of week-Weekday"^^xsd:string, + "Weekday"^^xsd:string ; + rdfs:comment "This class defines the EnumerationKind values of Monday, Tuesday, Wednesday, Thursday, and Friday"^^xsd:string ; + rdfs:subClassOf s223:Aspect-DayOfWeek, + s223:EnumerationKind-DayOfWeek . - a ns1:Unit ; - rdfs:label "Short Ton (US) Per Cubic Yard"@en ; - dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1186.3112117181538 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB020"^^xsd:string ; - ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "ton{US}/yd³"^^xsd:string ; - ns1:ucumCode "[ston_av].[cyd_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L93"^^xsd:string ; - rdfs:isDefinedBy . +s223:Electricity-Signal a s223:Class, + s223:Electricity-Signal, + sh:NodeShape ; + rdfs:label "Electricity Signal"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of common communication protocols."^^xsd:string ; + rdfs:subClassOf s223:Constituent-Electricity . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Watt per Square Metre Kelvin"@en, - "Watt per Square Meter Kelvin"@en-us ; - dcterms:description "\\(\\textbf{Watt Per Square Meter Per Kelvin }(\\(W m^{-2} K^{-1}\\)) is a unit in the category of Thermal heat transfer coefficient. It is also known as watt/square meter-kelvin. This unit is commonly used in the SI unit system. Watt Per Square Meter Per Kelvin (\\(W m^{-2} K^{-1}\\)) has a dimension of \\(MT^{-1}Q^{-1}\\) where \\(M\\) is mass, \\(T\\) is time, and \\(Q\\) is temperature. This unit is the standard SI unit in this category."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(W/(m^{2}-K)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA311"^^xsd:string ; - ns1:symbol "W/(m²⋅K)"^^xsd:string ; - ns1:ucumCode "W.m-2.K-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D55"^^xsd:string ; - rdfs:isDefinedBy . +s223:EnumerationKind-HVACOperatingMode a s223:Class, + s223:EnumerationKind-HVACOperatingMode, + sh:NodeShape ; + rdfs:label "HVAC operating mode"^^xsd:string ; + rdfs:comment "HVACOperatingMode has enumerated subclasses of the policy under which the HVAC system or equipment is operating."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . -ns4:EnumeratedValue a owl:Class ; - rdfs:label "DTYPE Enumerated Value"^^xsd:string ; - dcterms:description """ -The base class for datatypes that have values that are restriced to a set of literals or tokens. -The members of the restriction may themselves be restriced by facets that apply to scalar data types. -"""^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subClassOf [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns4:code ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns4:order ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns4:literal ], - [ a owl:Restriction ; - owl:cardinality 1 ; - owl:onProperty ns4:value ], - owl:Thing . +s223:EnumerationKind-HVACOperatingStatus a s223:Class, + s223:EnumerationKind-HVACOperatingStatus, + sh:NodeShape ; + rdfs:label "HVAC operating status"^^xsd:string ; + rdfs:comment "HVACOperatingStatus has enumerated subclasses of the HVAC system/equipment operating status."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . -skos:note a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "note"@en ; - rdfs:isDefinedBy ; - skos:definition "A general note, for any purpose."@en ; - skos:scopeNote "This property may be used directly, or as a super-property for more specific note types."@en . +s223:EnumerationKind-Phase a s223:Class, + s223:EnumerationKind-Phase, + sh:NodeShape ; + rdfs:label "EnumerationKind Phase"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of thermodynamic phase, i.e. states of matter."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . -s223:EnumerationKind-Numerical a s223:Class, - s223:EnumerationKind-Numerical, +s223:EnumerationKind-Substance a s223:Class, + s223:EnumerationKind-Substance, sh:NodeShape ; - rdfs:label "EnumerationKind Numerical"^^xsd:string ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "Numerical enumeration kinds are used to support the definitions of the Electricity medium. The enumerations instances in these classes have names that are recognizable by humans but are just a string for a computer application. To avoid the need to parse strings, each of these enumeration kinds have properties associated with the enumeration that represent electrical phase, voltage, and frequency. The purpose of these properties is to enable a machine to query them and obtain the same information that a person would associate with the sting"^^xsd:string ; + rdfs:label "Substance"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of the substances that are consumed, produced, transported, sensed, controlled or otherwise interacted with (e.g. water, air, etc.)."^^xsd:string ; rdfs:subClassOf s223:EnumerationKind ; - sh:property [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one QuantityKind using the relation hasQuantityKind."^^xsd:string ; - sh:class ns1:QuantityKind ; - sh:minCount 1 ; - sh:path ns1:hasQuantityKind ], - [ rdfs:comment "An EnumerationKind-Numerical can be associated with a decimal value using the relation hasValue."^^xsd:string ; - sh:datatype xsd:decimal ; - sh:path s223:hasValue ], - [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one Unit using the relation hasUnit."^^xsd:string ; - sh:class ns1:Unit ; - sh:minCount 1 ; - sh:path ns1:hasUnit ; - sh:severity sh:Info ] . + sh:property [ rdfs:comment "A substance may only have atomic constituents, it may not have a constituent that also composed ofs."^^xsd:string ; + sh:path s223:composedOf ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a substance has a constituent, that constituent may not itself have constituents."^^xsd:string ; + sh:message "s223: This substance {$this} has a constituent {?constituent} that itself composed ofs {?nextConstituent}. Create new substance with only atomic constituents."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?constituent ?nextConstituent +WHERE { +$this s223:composedOf ?constituent . +?constituent s223:ofConstituent/s223:composedOf ?nextConstituent . +} +"""^^xsd:string ] ], + [ rdfs:comment """If the relation composedOf is present, it must associate an EnumerationKind-Substance with one or more Properties that +identify and characterize its constituents. The Property identifies the constituent using the relation ofConstituent. If appropriate, a +QuantifiableProperty may be used to also specify the amount of the constituent using the relations qudt:hasQuantityKind, qudt:hasUnit, and s223:hasValue. +For example, see `s223:GlycolSolution-15Percent`."""^^xsd:string ; + sh:class s223:Property ; + sh:path s223:composedOf ], + [ rdfs:comment "A substance may only have atomic constituents, it may not have a constituent that also composed ofs."^^xsd:string ; + sh:path s223:composedOf ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a substance has a constituent, that constituent may not itself have constituents."^^xsd:string ; + sh:message "s223: This substance {$this} has a constituent {?constituent} that itself composed ofs {?nextConstituent}. Create new substance with only atomic constituents."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?constituent ?nextConstituent +WHERE { +$this s223:composedOf ?constituent . +?constituent s223:ofConstituent/s223:composedOf ?nextConstituent . +} +"""^^xsd:string ] ], + [ rdfs:comment """If the relation composedOf is present, it must associate an EnumerationKind-Substance with one or more Properties that +identify and characterize its constituents. The Property identifies the constituent using the relation ofConstituent. If appropriate, a +QuantifiableProperty may be used to also specify the amount of the constituent using the relations qudt:hasQuantityKind, qudt:hasUnit, and s223:hasValue. +For example, see `s223:GlycolSolution-15Percent`."""^^xsd:string ; + sh:class s223:Property ; + sh:path s223:composedOf ] . -s223:EnumerationKind-Occupancy a s223:Class, - s223:EnumerationKind-Occupancy, +s223:EnumerationKind-ThermodynamicPhase a s223:Class, + s223:EnumerationKind-ThermodynamicPhase, sh:NodeShape ; - rdfs:label "Occupancy status"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of occupancy status, i.e. the state of being used or occupied. Some Occupancy enumerations have subclasses for more specific use."^^xsd:string ; + rdfs:label "EnumerationKind ThermodynamicPhase"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of thermodynamic phase, i.e. states of matter."^^xsd:string ; rdfs:subClassOf s223:EnumerationKind . -s223:LineNeutralVoltage-120V a s223:Class, - s223:LineNeutralVoltage-120V, +s223:Medium-ThermalContact a s223:Class, + s223:Medium-ThermalContact, sh:NodeShape ; - rdfs:label "120V Line-Neutral Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-120V ; + rdfs:label "Medium-ThermalContact"^^xsd:string ; + rdfs:comment "Medium-ThermalContact"^^xsd:string ; + rdfs:subClassOf s223:Substance-Medium . + +s223:Numerical-DCVoltage a s223:Class, + s223:Numerical-DCVoltage, + sh:NodeShape ; + rdfs:label "Numerical-DCVoltage"^^xsd:string ; + s223:hasVoltage s223:Numerical-Voltage ; ns1:hasQuantityKind ; ns1:hasUnit ; - rdfs:comment "120V Line-Neutral Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineNeutralVoltage . + rdfs:comment "This class has enumerated instances of common positive and negative voltages, plus zero volts."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical ; + sh:property [ rdfs:comment "A DC-Voltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ], + [ rdfs:comment "A DC-Voltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ] . -s223:Medium-Constituent a s223:Class, - s223:Medium-Constituent, +s223:Numerical-Frequency a s223:Class, + s223:Numerical-Frequency, sh:NodeShape ; - rdfs:label "Medium-Constituent"^^xsd:string ; - rdfs:comment "Medium-Constituent"^^xsd:string ; - rdfs:subClassOf s223:Substance-Medium . + rdfs:label "Dimensioned Frequency"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common electrical frequencies."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical ; + sh:property [ rdfs:comment "A Numerical-Frequency must have a unit of Hertz"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasUnit ], + [ rdfs:comment "A Numerical-Frequency must have a Quantity Kind of Frequency"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A Numerical-Frequency must have a Quantity Kind of Frequency"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A Numerical-Frequency must have a unit of Hertz"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasUnit ] . -s223:Role-Heating a s223:Class, - s223:Role-Heating, +s223:Numerical-NumberOfElectricalPhases a s223:Class, + s223:Numerical-NumberOfElectricalPhases, sh:NodeShape ; - rdfs:label "Role-Heating"^^xsd:string ; - rdfs:comment "Role-Heating"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Role . + rdfs:label "Dimensionless Number of Electrical Phases"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of number of electrical phases. The s223:hasNumberOfElectricalPhases relation points to one of the values of this enumeration."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical . -s223:Valve a s223:Class, +s223:Substance-Particulate a s223:Class, + s223:Substance-Particulate, sh:NodeShape ; - rdfs:label "Valve"^^xsd:string ; - rdfs:comment "A device to regulate or stop the flow of fluid in a pipe or a duct by throttling."^^xsd:string ; - rdfs:subClassOf s223:Equipment . + rdfs:label "Particulate"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of particulates in various size ranges."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Substance . -s223:connectedTo a rdf:Property ; - rdfs:label "connected to"^^xsd:string ; - s223:inverseOf s223:connectedFrom ; - rdfs:comment "The relation connectedTo indicates that connectable things are connected with a specific flow direction. A is connectedTo B, means a directionality beginning at A and ending at B. The inverse direction is indicated by connectedFrom (see `s223:connectedFrom`)."^^xsd:string ; - rdfs:domain s223:Equipment . +s223:actuatedByProperty a rdf:Property ; + rdfs:label "commanded by Property"^^xsd:string ; + rdfs:comment """The relation actuatedByProperty binds an Equipment to the ActuatableProperty that it responds to. If the Equipment +is an Actuator (a subclass of Equipment), actuatedByProperty is a required relation. An Actuator may also identify another piece of +Equipment being actuated. (see `s223:actuates`)."""^^xsd:string . -s223:connectsAt a rdf:Property ; - rdfs:label "connects at"^^xsd:string ; - s223:inverseOf s223:connectsThrough ; - rdfs:comment "The relation connectsAt binds a Connection to a specific ConnectionPoint."^^xsd:string . +s223:connected a s223:SymmetricProperty, + rdf:Property ; + rdfs:label "connected"^^xsd:string ; + rdfs:comment "The relation connected indicates that two connectable things are connected without regard to any directionality of a process flow. "^^xsd:string . -dcterms:abstract a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "abstract"^^xsd:string ; - rdfs:isDefinedBy dcterms:, - ; - rdfs:range xsd:string . +s223:hasDomainSpace a rdf:Property ; + rdfs:label "has domain space"^^xsd:string ; + rdfs:comment "The relation hasDomainSpace is used to associate a Zone with its component DomainSpaces."^^xsd:string . -dcterms:description a rdf:Property, +s223:hasInternalReference a rdf:Property ; + rdfs:label "has internal reference"^^xsd:string ; + rdfs:comment """The relation hasInternalReference is used to relate a Property to another candidate equivalent Property. For example, +a Property that represents a Zone temperature could have one or more hasInternalReference relations to Properties that are measurements by +different sensors."""^^xsd:string . + +s223:hasOutput a rdf:Property ; + rdfs:label "has output"^^xsd:string ; + rdfs:comment "The relation hasOutput is used to relate a Function (see `s223:Function`) to a Property (see `s223:Property`) that is calculated by the Function."^^xsd:string . + +s223:hasZone a rdf:Property ; + rdfs:label "has zone"^^xsd:string ; + rdfs:comment "The relation hasZone is used to associate a ZoneGroup with its component Zones."^^xsd:string . + +dcterms:creator a rdf:Property, owl:AnnotationProperty ; - rdfs:label "description"^^xsd:string ; + rdfs:label "creator"^^xsd:string ; rdfs:isDefinedBy dcterms: ; rdfs:range xsd:string . -ns1:applicableUnit a rdf:Property ; - rdfs:label "applicable unit"^^xsd:string ; - rdfs:isDefinedBy , - . +ns1:value a rdf:Property ; + rdfs:label "value"^^xsd:string ; + dcterms:description "A property to relate an observable thing with a value expressed as a decimal"^^rdf:HTML, + "A property to relate an observable thing with a value that can be of any simple XSD type"^^rdf:HTML ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:PhysicalConstant ; + rdfs:label "Magnetic Constant"@en ; + dcterms:description """ + The constant $\\textit{Magentic Constant}$, also known as $\\textit{Permeability of Vacuum}$, is a scalar constant + $\\mu_0$ such that, in a vacuum the product with the magnetic field vector, $\\overrightarrow{H}$ + is equal to the magnetic flux density vector, $\\overrightarrow{B}$. + """^^ns1:LatexString ; + ns1:abbreviation "magnetic-constant"^^xsd:string ; + ns1:applicableUnit ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Vacuum_permeability"^^xsd:anyURI ; + ns1:exactConstant true ; + ns1:exactMatch ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI, + "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=705-03-14"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$\\mu_0 = \\frac{\\overrightarrow{B}}{\\overrightarrow{H}}$, where $\\overrightarrow{B}$ is the B-Filed magnetic vector, and $\\overrightarrow{H}$ is the H-Filed magnetic vector. The value of $\\mu_0$ is $\\approx 1.256637e-6\\,H/M$."^^ns1:LatexString ; + ns1:latexSymbol "$\\mu_0$"^^ns1:LatexString ; + ns1:quantityValue ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A-1E0L3I0M0H0T0D0"^^xsd:string ; + rdfs:label "A-1E0L2I0M0H0T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance -1 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 N^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-1I0M0H0T1D0"^^xsd:string ; + rdfs:label "A0E-1L2I0M1H0T-4D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForMass 1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; + ns1:dimensionExponentForTime -4 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-1 T\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M T^-4 I^-1$"^^ns1:LatexString, + "\\(L^2 M T^-4 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-3I0M1H0T-1D0"^^xsd:string ; + rdfs:label "A0E0L0I0M-1H0T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForMass -1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M-1H0T-1D0"^^xsd:string ; + rdfs:label "A0E0L0I0M-1H0T2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass -1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; + ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L1I0M1H0T0D0"^^xsd:string ; + rdfs:label "A0E0L0I0M0H1T1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$T Θ$"^^ns1:LatexString, + "\\(T Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L4I0M1H0T-3D0"^^xsd:string ; + rdfs:label "A0E0L1I0M0H1T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 4 ; + ns1:dimensionExponentForLength 1 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -3 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^4 M T^-3\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexSymbol "$L \\cdot H$"^^ns1:LatexString, + "$L \\cdot \\Theta$"^^ns1:LatexString, + "\\(L \\cdot H\\)"^^ns1:LatexString, + "\\(L \\cdot \\Theta\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L0I0M-1H0T0D0"^^xsd:string ; + rdfs:label "A0E0L4I0M0H0T0D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 4 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^4$"^^ns1:LatexString, + "\\(L^4\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L2I0M0H0T0D0"^^xsd:string ; + rdfs:label "A0E1L-2I0M-1H0T2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLength -2 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForMass -1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 I\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-2 M^-1 T^2 I$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^2 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Centi"@en ; - dcterms:description "'centi' is a decimal prefix for expressing a value with a scaling of \\(10^{-2}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Centi-"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Centi-?oldid=480291808"^^xsd:anyURI ; - ns1:prefixMultiplier 1e-02 ; - ns1:siExactMatch ; - ns1:symbol "c"^^xsd:string ; - ns1:ucumCode "c"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Deca"@en ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Deca"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:prefixMultiplier 1e+01 ; - ns1:siExactMatch ; - ns1:symbol "da"^^xsd:string ; - ns1:ucumCode "da"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Deci"@en ; - dcterms:description "\"deci\" is a decimal prefix for expressing a value with a scaling of \\(10^{-1}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Deci-"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Deci-?oldid=469980160"^^xsd:anyURI ; - ns1:prefixMultiplier 1e-01 ; - ns1:siExactMatch ; - ns1:symbol "d"^^xsd:string ; - ns1:ucumCode "d"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Absorbed Dose Rate"@en ; + dcterms:description "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^ns1:LatexString, + "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD001"^^xsd:string ; + ns1:informativeReference "http://www.answers.com/topic/absorbed-dose-rate"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition "$\\dot{D} = \\frac{dD}{dt}$, where $dD$ is the increment of absorbed dose during time interval with duration $dt$."^^ns1:LatexString ; + ns1:latexSymbol "$\\dot{D}$"^^ns1:LatexString ; + ns1:plainTextDescription "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:AbsorbedDoseRate"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Tera"@en ; - dcterms:description "'tera' is a decimal prefix for expressing a value with a scaling of \\(10^{12}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Tera"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Tera?oldid=494204788"^^xsd:anyURI ; - ns1:prefixMultiplier 1e+12 ; - ns1:siExactMatch ; - ns1:symbol "T"^^xsd:string ; - ns1:ucumCode "T"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "تردد زاوى"@ar, + "Kreisfrequenz"@de, + "angular frequency"@en, + "pulsación"@es, + "Pulsación"@fr, + "frequenza angolare"@it, + "角振動数"@ja, + "pulsacja"@pl, + "frequência angular"@pt, + "角频率"@zh ; + dcterms:description "\"Angular frequency\", symbol $\\omega$ (also referred to by the terms angular speed, radial frequency, circular frequency, orbital frequency, radian frequency, and pulsatance) is a scalar measure of rotation rate. Angular frequency (or angular speed) is the magnitude of the vector quantity angular velocity."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_frequency"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Angular_frequency"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:latexDefinition "$\\omega = 2\\pi f$, where $f$ is frequency."^^ns1:LatexString ; + ns1:latexSymbol "$\\omega$"^^ns1:LatexString ; + ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularFrequency"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + ; + skos:altLabel "نابض"@ar, + "Pulsatanzpulsation"@de, + "pulsatance"@en, + "pulsazione"@it, + "角周波数"@ja, + "pulsação"@pt, + "角速度"@zh ; + skos:broader . - a ns1:QuantityKind ; - rdfs:label "نبضة دفعية زاوية"@ar, - "Drehstoß"@de, - "angular impulse"@en, - "impulso angular"@es, - "impulsion angulaire"@fr, - "impulso angolare"@it, - "角力積"@ja, - "popęd kątowy"@pl, - "impulsão angular"@pt, - "角冲量;冲量矩"@zh ; - dcterms:description "The Angular Impulse, also known as angular momentum, is the moment of linear momentum around a point. It is defined as$H = \\int Mdt$, where $M$ is the moment of force and $t$ is time."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/AngularMomentum"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://emweb.unl.edu/NEGAHBAN/EM373/note13/note.htm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:symbol "H"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Boiling Point Temperature"@en ; + dcterms:description "A temperature that is the one at which a substance will change its physical state from a liquid to a gas. It is also the temperature where the liquid and gaseous forms of a pure substance can exist in equilibrium."^^ns1:LatexString, + "A temperature that is the one at which a substance will change its physical state from a liquid to a gas. It is also the temperature where the liquid and gaseous forms of a pure substance can exist in equilibrium."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "A temperature that is the one at which a substance will change its physical state from a liquid to a gas. It is also the temperature where the liquid and gaseous forms of a pure substance can exist in equilibrium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:BoilingPoint"^^xsd:string ; rdfs:isDefinedBy ; - skos:altLabel "Drehmomentstoß"@de . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Angular Reciprocal Lattice Vector"@en ; - dcterms:description "\"Angular Reciprocal Lattice Vector\" is a vector whose scalar products with all fundamental lattice vectors are integral multiples of $2\\pi$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.matter.org.uk/diffraction/geometry/lattice_vectors.htm"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; - ns1:symbol "G"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Catalytic Activity Concentration"@en ; + dcterms:description "The catalytic activity of an enzyme per unit volume, where volume refers to that of the original enzyme‐containing preparation, not that of the assay system. It may be expressed in katals per litre."^^ns1:LatexString, + "The catalytic activity of an enzyme per unit volume, where volume refers to that of the original enzyme‐containing preparation, not that of the assay system. It may be expressed in katals per litre."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://doi.org/10.1351/goldbook.C00882"^^xsd:anyURI ; + ns1:plainTextDescription "The catalytic activity of an enzyme per unit volume, where volume refers to that of the original enzyme‐containing preparation, not that of the assay system. It may be expressed in katals per litre."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:CatalyticActivityConcentration"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Attenuation Coefficient"@en ; - dcterms:description "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^rdf:HTML ; + a ns1:QuantityKind ; + rdfs:label "Curvature"@en ; + dcterms:description "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^ns1:LatexString, + "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^rdf:HTML ; ns1:applicableUnit , , , , , - , - ; + ; ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; - ns1:latexDefinition "$F(x) = Ae^{-\\alpha x} \\cos{[\\beta (x - x_0)]}$, then $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; - ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; - ns1:plainTextDescription "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^xsd:string ; - ns2:todo "belongs to SOQ-ISO"^^xsd:string ; - rdfs:isDefinedBy . + ns1:informativeReference "http://en.wikipedia.org/wiki/Curvature"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:latexDefinition "$\\kappa = \\frac{1}{\\rho}$, where $\\rho$ is the radius of the curvature."^^ns1:LatexString ; + ns1:latexSymbol "$\\kappa$"^^ns1:LatexString ; + ns1:plainTextDescription "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CurvatureFromRadius"^^xsd:string ; + rdfs:isDefinedBy ; + skos:closeMatch . - a ns1:QuantityKind ; - rdfs:label "Count"@en ; - dcterms:description "\"Count\" is the value of a count of items."^^rdf:HTML ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "\"Count\" is the value of a count of items."^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Dose Equivalent"@en ; + dcterms:description "\"Dose Equivalent\" (former), or $\\textit{Equivalent Absorbed Radiation Dose}$, usually shortened to $\\textit{Equivalent Dose}$, is a computed average measure of the radiation absorbed by a fixed mass of biological tissue, that attempts to account for the different biological damage potential of different types of ionizing radiation. The equivalent dose to a tissue is found by multiplying the absorbed dose, in gray, by a dimensionless \"quality factor\" $Q$, dependent upon radiation type, and by another dimensionless factor $N$, dependent on all other pertinent factors. N depends upon the part of the body irradiated, the time and volume over which the dose was spread, even the species of the subject."^^ns1:LatexString, + "\"Dose Equivalent} (former), or \\textit{Equivalent Absorbed Radiation Dose}, usually shortened to \\textit{Equivalent Dose\", is a computed average measure of the radiation absorbed by a fixed mass of biological tissue, that attempts to account for the different biological damage potential of different types of ionizing radiation. The equivalent dose to a tissue is found by multiplying the absorbed dose, in gray, by a dimensionless \"quality factor\" \\(Q\\), dependent upon radiation type, and by another dimensionless factor \\(N\\), dependent on all other pertinent factors. N depends upon the part of the body irradiated, the time and volume over which the dose was spread, even the species of the subject."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Equivalent_dose"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD033"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Equivalent_dose"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition "At the point of interest in tissue, $H = DQ$, where $D$ is the absorbed dose and $Q$ is the quality factor at that point."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "H"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:DoseEquivalent"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Electric Charge Volume Density"@en ; - dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively. The respective SI units are $C \\cdot m^{-1}$, $C \\cdot m^{-2}$ or $C \\cdot m^{-3}$."^^ns1:LatexString ; + a ns1:QuantityKind ; + rdfs:label "Electric Charge Density"@en ; + dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^ns1:LatexString, + "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^rdf:HTML ; ns1:applicableUnit , , - , , - , - , - , - ; + , + ; + ns1:expression "$charge-density$"^^ns1:LatexString ; ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI, + "http://www.maxwells-equations.com/pho/charge-density.php"^^xsd:anyURI ; + ns1:latexDefinition "$\\rho = \\frac{dQ}{dV}$, where $Q$ is electric charge and $V$ is Volume."^^ns1:LatexString ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "elektrische Leitfähigkeit"@de, - "electric conductivity"@en, - "conductividad eléctrica"@es, - "رسانايى الکتريکى/هدایت الکتریکی"@fa, - "conductivité électrique"@fr, - "conducibilità elettrica"@it, - "Kekonduksian elektrik"@ms, - "condutividade elétrica"@pt, - "električna prevodnost"@sl, - "elektrik iletkenliği"@tr, - "电导率"@zh ; - dcterms:description "\"Electric Conductivity} or \\textit{Specific Conductance\" is a measure of a material's ability to conduct an electric current. When an electrical potential difference is placed across a conductor, its movable charges flow, giving rise to an electric current. The conductivity $\\sigma$ is defined as the ratio of the electric current density $J$ to the electric field $E$: $J = \\sigma E$. In isotropic materials, conductivity is scalar-valued, however in general, conductivity is a tensor-valued quantity."^^ns1:LatexString ; - ns1:applicableUnit , - , - ; - ns1:hasDimensionVector ; - ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "إزاحة كهربائية"@ar, - "Elektrická indukce"@cs, - "elektrische Flussdichte"@de, - "electric flux density"@en, - "Densidad de flujo eléctrico"@es, - "چگالی شار الکتریکی"@fa, - "Induction électrique"@fr, - "spostamento elettrico"@it, - "電束密度"@ja, - "Ketumpatan fluks elektrik"@ms, - "Indukcja elektryczna"@pl, - "campo de deslocamento elétrico"@pt, - "Inducție electrică"@ro, - "Электрическая индукция"@ru, - "elektrik akı yoğunluğu"@tr, - "電位移"@zh ; - dcterms:description "\\(\\textbf{Electric Flux Density}\\), also referred to as \\(\\textit{Electric Displacement}\\), is related to electric charge density by the following equation: \\(\\text{div} \\; D = \\rho\\), where \\(\\text{div}\\) denotes the divergence."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Electric_flux"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD043"^^xsd:string ; - ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$\\mathbf{D} = \\epsilon_0 E + P$, where $\\epsilon_0$ is the electric constant, $\\mathbf{E} $ is electric field strength, and $P$ is electric polarization."^^ns1:LatexString ; - ns1:latexSymbol "$\\mathbf{D}$"^^ns1:LatexString ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - skos:altLabel "elektrische Induktion"@de, - "elektrische Verschiebung"@de, - "displacement"@en, - "densité de flux électrique"@fr, - "induzione elettrica"@it, - "anjakan"@ms, - "yer değiştirme"@tr ; - skos:broader . - - a ns1:QuantityKind ; - rdfs:label "Permeability"@en ; - dcterms:description "\"Permeability} is the degree of magnetization of a material that responds linearly to an applied magnetic field. In general permeability is a tensor-valued quantity. The definition given applies to an isotropic medium. For an anisotropic medium permeability is a second order tensor. In electromagnetism, permeability is the measure of the ability of a material to support the formation of a magnetic field within itself. In other words, it is the degree of magnetization that a material obtains in response to an applied magnetic field. Magnetic permeability is typically represented by the Greek letter $\\mu$. The term was coined in September, 1885 by Oliver Heaviside. The reciprocal of magnetic permeability is \\textit{Magnetic Reluctivity\"."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Permeability"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Permeability_(electromagnetism)"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$\\mu = \\frac{B}{H}$, where $B$ is magnetic flux density, and $H$ is magnetic field strength."^^ns1:LatexString ; - ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - . - - a ns1:QuantityKind ; - rdfs:label "Expansion Ratio"@en ; - ns1:applicableUnit , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Impedance"@en ; - dcterms:description "\"Impedance\" is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is the complex ratio of the voltage to the current in an alternating current (AC) circuit. Impedance extends the concept of resistance to AC circuits, and possesses both magnitude and phase, unlike resistance, which has only magnitude. When a circuit is driven with direct current (DC), there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle."^^rdf:HTML ; - ns1:applicableUnit ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Electrical_impedance"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Electrical_impedance"^^xsd:anyURI, - "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-43"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:latexDefinition "$\\underline{Z} = \\underline{U} / \\underline{I}$, where $\\underline{U}$ is the voltage phasor and $\\underline{I}$ is the electric current phasor."^^ns1:LatexString ; - ns1:latexSymbol "$\\underline{Z}$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Impedance\" is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is the complex ratio of the voltage to the current in an alternating current (AC) circuit. Impedance extends the concept of resistance to AC circuits, and possesses both magnitude and phase, unlike resistance, which has only magnitude. When a circuit is driven with direct current (DC), there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle."^^xsd:string ; + ns1:plainTextDescription "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargeDensity"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - . + rdfs:seeAlso . - a ns1:QuantityKind ; - rdfs:label "Internal Energy"@en ; - dcterms:description "\"Internal Energy\" is simply its energy. \"internal\" refers to the fact that some energy contributions are not considered. For instance, when the total system is in uniform motion, it has kinetic energy. This overall kinetic energy is never seen as part of the internal energy; one could call it external energy. Or, if the system is at constant non-zero height above the surface the Earth, it has constant potential energy in the gravitational field of the Earth. Gravitational energy is only taken into account when it plays a role in the phenomenon of interest, for instance in a colloidal suspension, where the gravitation influences the up- downward motion of the small particles comprising the colloid. In all other cases, gravitational energy is assumed not to contribute to the internal energy; one may call it again external energy."^^rdf:HTML ; - ns1:abbreviation "int-energy"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "محتوى حراري"@ar, + "entalpie"@cs, + "Enthalpie"@de, + "enthalpy"@en, + "entalpía"@es, + "آنتالپی"@fa, + "enthalpie"@fr, + "पूर्ण ऊष्मा"@hi, + "entalpia"@it, + "エンタルピー"@ja, + "Entalpi"@ms, + "entalpia"@pl, + "entalpia"@pt, + "Entalpie"@ro, + "энтальпия"@ru, + "entalpija"@sl, + "Entalpi"@tr, + "焓"@zh ; + dcterms:description "In thermodynamics, $\\textit{enthalpy}$ is the sum of the internal energy $U$ and the product of pressure $p$ and volume $V$ of a system. The characteristic function (also known as thermodynamic potential) $\\textit{enthalpy}$ used to be called $\\textit{heat content}$, which is why it is conventionally indicated by $H$. The specific enthalpy of a working mass is a property of that mass used in thermodynamics, defined as $h=u+p \\cdot v$, where $u$ is the specific internal energy, $p$ is the pressure, and $v$ is specific volume. In other words, $h = H / m$ where $m$ is the mass of the system. The SI unit for $\\textit{Specific Enthalpy}$ is $\\textit{joules per kilogram}$"^^ns1:LatexString ; ns1:applicableUnit , , , @@ -67027,3646 +71756,6053 @@ ns1:applicableUnit a rdf:Property ; , , ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Internal_energy"^^xsd:anyURI ; - ns1:exactMatch , - ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Enthalpy"^^xsd:anyURI ; ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Internal_energy"^^xsd:anyURI ; - ns1:latexDefinition "For a closed thermodynamic system, $\\Delta U = Q + W$, where $Q$ is amount of heat transferred to the system and $W$ is work done on the system provided that no chemical reactions occur."^^ns1:LatexString ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Enthalpy"^^xsd:anyURI ; + ns1:latexDefinition "$H = U + pV$, where $U$ is internal energy, $p$ is pressure and $V$ is volume."^^ns1:LatexString ; ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:plainTextDescription "\"Internal Energy\" is simply its energy. \"internal\" refers to the fact that some energy contributions are not considered. For instance, when the total system is in uniform motion, it has kinetic energy. This overall kinetic energy is never seen as part of the internal energy; one could call it external energy. Or, if the system is at constant non-zero height above the surface the Earth, it has constant potential energy in the gravitational field of the Earth. Gravitational energy is only taken into account when it plays a role in the phenomenon of interest, for instance in a colloidal suspension, where the gravitation influences the up- downward motion of the small particles comprising the colloid. In all other cases, gravitational energy is assumed not to contribute to the internal energy; one may call it again external energy."^^xsd:string ; - ns1:symbol "U"^^xsd:string ; + ns1:symbol "H"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - ; + rdfs:seeAlso ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Linear Electric Current Density"@en ; - dcterms:description "\"Linear Electric Linear Current Density\" is the electric current per unit length. Electric current, $I$, through a curve $C$ is defined as $I = \\int_C J _s \\times e_n$, where $e_n$ is a unit vector perpendicular to the surface and line vector element, and $dr$ is the differential of position vector $r$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.asknumbers.com/ElectricalConversion.aspx"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$J_s = \\rho_A v$, where $\\rho_A$ is surface density of electric charge and $v$ is velocity."^^ns1:LatexString ; - ns1:symbol "J_s"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Flash Point Temperature"@en ; + dcterms:description "A temperature that is the lowest one at which the vapors of a volatile material will ignite if exposed to an ignition source. It is frequently used to characterize fire hazards and distinguish different flammable fuels."^^ns1:LatexString, + "A temperature that is the lowest one at which the vapors of a volatile material will ignite if exposed to an ignition source. It is frequently used to characterize fire hazards and distinguish different flammable fuels."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "A temperature that is the lowest one at which the vapors of a volatile material will ignite if exposed to an ignition source. It is frequently used to characterize fire hazards and distinguish different flammable fuels."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:FlashPoint"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Quantum Number"@en ; - dcterms:description "The \"Quantum Number\" describes values of conserved quantities in the dynamics of the quantum system. Perhaps the most peculiar aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of integers or half-integers."^^rdf:HTML ; - ns1:applicableUnit ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; + a ns1:QuantityKind ; + rdfs:label "Inverse Pressure"@en ; + ns1:applicableUnit , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InversePressure"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Ionic Strength"@en ; + dcterms:description "The \"Ionic Strength\" of a solution is a measure of the concentration of ions in that solution."^^ns1:LatexString, + "The \"Ionic Strength\" of a solution is a measure of the concentration of ions in that solution."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Ionic_strength"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:plainTextDescription "The \"Quantum Number\" describes values of conserved quantities in the dynamics of the quantum system. Perhaps the most peculiar aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of integers or half-integers."^^xsd:string ; - ns1:symbol "n"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . + ns1:latexDefinition "$I = \\frac{1}{2} \\sum z_i^2 b_i$, where the summation is carried out over all ions with charge number $z_i$ and molality $m_i$."^^ns1:LatexString ; + ns1:plainTextDescription "The \"Ionic Strength\" of a solution is a measure of the concentration of ions in that solution."^^xsd:string ; + ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:IonicStrength"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Specific Enthalpy"@en ; - dcterms:description "$\\textit{Specific Enthalpy}$ is enthalpy per mass of substance involved. Specific enthalpy is denoted by a lower case h, with dimension of energy per mass (SI unit: joule/kg). In thermodynamics, $\\textit{enthalpy}$ is the sum of the internal energy U and the product of pressure p and volume V of a system: $H = U + pV$. The internal energy U and the work term pV have dimension of energy, in SI units this is joule; the extensive (linear in size) quantity H has the same dimension."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Entropy"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$h = H/m$, where $H$ is enthalpy and $m$ is mass."^^ns1:LatexString ; - ns1:symbol "h"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - , - , - , - ; - skos:broader . + a ns1:QuantityKind ; + rdfs:label "Length Mass"@en ; + ns1:applicableUnit , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:LengthMass"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Specific Gibbs Energy"@en ; - dcterms:description "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is \"Specific Gibbs Energy}, which is \\textit{Gibbs Energy} per mass of substance involved. \\textit{Specific Gibbs Energy\" is denoted by a lower case g, with dimension of energy per mass (SI unit: joule/kg)."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + a ns1:QuantityKind ; + rdfs:label "Length Temperature"@en ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:LengthTemperature"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Linear Absorption Coefficient"@en ; + dcterms:description "The Linear Absorption Coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^ns1:LatexString, + "The Linear Absorption Coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; + ns1:latexDefinition "$\\alpha(\\lambda) = \\frac{1}{\\Phi_\\lambda(\\lambda)}\\frac{d\\Phi_\\lambda(\\lambda)}{dl}$, where $\\frac{d\\Phi}{\\Phi}$ is the relative decrease, caused by absorption, in the spectral radiant flux $\\Phi$ of a collimated beam of electromagnetic radiation corresponding to the wavelength $\\lambda$ during traversal of an infinitesimal layer of a medium and $dl$ is the length traversed."^^ns1:LatexString ; + ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + ns1:plainTextDescription "The Linear Absorption Coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearAbsorptionCoefficient"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Linear Attenuation Coefficient"@en ; + dcterms:description "\"Linear Attenuation Coefficient\", also called the attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient, is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^ns1:LatexString, + "\"Linear Attenuation Coefficient\", also called the attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient, is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition """$\\mu = -\\frac{1}{J}\\frac{dJ}{dx}$, where $J$ is the magnitude of the current rate of a beam of particles parallel to the $x-direction$. + +Or: + +$\\mu(\\lambda) = \\frac{1}{\\Phi_\\lambda(\\lambda)}\\frac{d\\Phi_\\lambda(\\lambda)}{dl}$, where $\\frac{d\\Phi}{\\Phi}$ is the relative decrease in the spectral radiant flux $\\Phi$ of a collimated beam of electromagnetic radiation corresponding to the wavelength $\\lambda$ during traversal of an infinitesimal layer of a medium and $dl$ is the length traversed."""^^ns1:LatexString ; + ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + ns1:plainTextDescription "\"Linear Attenuation Coefficient\", also called the attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient, is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearAttenuationCoefficient"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Linear Ionization"@en ; + dcterms:description "\"Linear Ionization\" is a description of how the ionization of an atom or molecule takes place. For example, an ion with a +2 charge can be created only from an ion with a +1 charge or a +3 charge. That is, the numerical charge of an atom or molecule must change sequentially, always moving from one number to an adjacent, or sequential, number. Using sequential ionization definition."^^ns1:LatexString, + "\"Linear Ionization\" is a description of how the ionization of an atom or molecule takes place. For example, an ion with a +2 charge can be created only from an ion with a +1 charge or a +3 charge. That is, the numerical charge of an atom or molecule must change sequentially, always moving from one number to an adjacent, or sequential, number. Using sequential ionization definition."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Ionization#Classical_ionization"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; + ns1:latexDefinition "$N_{il} = \\frac{1}{e}\\frac{dQ}{dl}$, where $e$ is the elementary charge and $dQ$ is the average total charge of all positive ions produced over an infinitesimal element of the path with length $dl$ by an ionizing charged particle."^^ns1:LatexString ; + ns1:plainTextDescription "\"Linear Ionization\" is a description of how the ionization of an atom or molecule takes place. For example, an ion with a +2 charge can be created only from an ion with a +1 charge or a +3 charge. That is, the numerical charge of an atom or molecule must change sequentially, always moving from one number to an adjacent, or sequential, number. Using sequential ionization definition."^^xsd:string ; + ns1:symbol "N_{il}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearIonization"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Luminance"@en ; + dcterms:description "Luminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle."^^ns1:LatexString, + "Luminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Luminance"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD090"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Luminance"^^xsd:anyURI ; + ns1:latexDefinition "$L_v = \\frac{dI_v}{dA}$, where $dI_v$ is the luminous intensity of an element of the surface with the area $dA$ of the orthogonal projection of this element on a plane perpendicular to the given direction."^^ns1:LatexString ; + ns1:plainTextDescription "Luminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle."^^xsd:string ; + ns1:siExactMatch ; + ns1:symbol "L_v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Luminance"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Luminous Flux per Area"@en ; + dcterms:description "In photometry, illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of how much the incident light illuminates the surface, wavelength-weighted by the luminosity function to correlate with human brightness perception. Similarly, luminous emittance is the luminous flux per unit area emitted from a surface. In SI derived units these are measured in $lux (lx)$ or $lumens per square metre$ ($cd \\cdot m^{-2}$). In the CGS system, the unit of illuminance is the $phot$, which is equal to $10,000 lux$. The $foot-candle$ is a non-metric unit of illuminance that is used in photography."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Illuminance"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:LuminousFluxPerArea"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Massieu Function"@en ; + dcterms:description "The Massieu function, $\\Psi$, is defined as: $\\Psi = \\Psi (X_1, \\dots , X_i, Y_{i+1}, \\dots , Y_r )$, where for every system with degree of freedom $r$ one may choose $r$ variables, e.g. , to define a coordinate system, where $X$ and $Y$ are extensive and intensive variables, respectively, and where at least one extensive variable must be within this set in order to define the size of the system. The $(r + 1)^{th}$ variable,$\\Psi$ , is then called the Massieu function."^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Massieu_function"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$g = G/m$, where $G$ is Gibbs energy and $m$ is mass."^^ns1:LatexString ; - ns1:plainTextDescription "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is \"Specific Gibbs Energy}, which is \\textit{Gibbs Energy} per mass of substance involved. \\textit{Specific Gibbs Energy\" is denoted by a lower case g, with dimension of energy per mass (SI unit: joule/kg)."^^xsd:string ; - ns1:symbol "g"^^xsd:string ; + ns1:latexDefinition "$J = -A/T$, where $A$ is Helmholtz energy and $T$ is thermodynamic temperature."^^ns1:LatexString ; + ns1:symbol "J"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , + rdfs:seeAlso , , , + , , - ; - skos:broader . + . - a ns1:QuantityKind ; - rdfs:label "Specific Helmholtz Energy"@en ; - dcterms:description "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is $\\textit{Specific Helmholtz Energy}$, which is $\\textit{Helmholz Energy}$ per mass of substance involved.$ \\textit{Specific Helmholz Energy}$ is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$a = A/m$, where $A$ is Helmholtz energy and $m$ is mass."^^ns1:LatexString ; - ns1:symbol "a"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Melting Point Temperature"@en ; + dcterms:description "A temperature that is the one at which a substance will change its physical state from a solid to a liquid. It is also the temperature where the solid and liquid forms of a pure substance can exist in equilibrium."^^ns1:LatexString, + "A temperature that is the one at which a substance will change its physical state from a solid to a liquid. It is also the temperature where the solid and liquid forms of a pure substance can exist in equilibrium."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "A temperature that is the one at which a substance will change its physical state from a solid to a liquid. It is also the temperature where the solid and liquid forms of a pure substance can exist in equilibrium."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MeltingPoint"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - , - , - ; - skos:broader . + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Specific Internal Energy"@en ; - dcterms:description "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is specific internal energy, which is energy per mass of substance involved. Specific internal energy is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD173"^^xsd:string ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + a ns1:QuantityKind ; + rdfs:label "زخم الحركة"@ar, + "hybnost"@cs, + "Impuls"@de, + "momentum"@en, + "cantidad de movimiento"@es, + "تکانه"@fa, + "quantité de mouvement"@fr, + "quantità di moto"@it, + "運動量"@ja, + "Momentum"@ms, + "pęd"@pl, + "momento linear"@pt, + "impuls"@ro, + "импульс"@ru, + "gibalna količina"@sl, + "Momentum"@tr, + "动量"@zh ; + dcterms:description "The momentum of a system of particles is given by the sum of the momentums of the individual particles which make up the system or by the product of the total mass of the system and the velocity of the center of gravity of the system. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium."^^ns1:LatexString, + "The momentum of a system of particles is given by the sum of the momentums of the individual particles which make up the system or by the product of the total mass of the system and the velocity of the center of gravity of the system. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Momentum"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Momentum"^^xsd:anyURI ; + ns1:plainTextDescription "The momentum of a system of particles is given by the sum of the momentums of the individual particles which make up the system or by the product of the total mass of the system and the velocity of the center of gravity of the system. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium."^^xsd:string ; + ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Momentum"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Phase coefficient"@en ; + dcterms:description "The phase coefficient is the amount of phase shift that occurs as the wave travels one meter. Increasing the loss of the material, via the manipulation of the material's conductivity, will decrease the wavelength (increase $\\beta$) and increase the attenuation coefficient (increase $\\alpha$)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; + ns1:latexDefinition "If $F(x) = Ae^{-\\alpha x} \\cos{[\\beta (x - x_0)]}$, then $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; + ns1:latexSymbol "$\\beta$"^^ns1:LatexString ; + ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PhaseCoefficient"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Planck Function"@en ; + dcterms:description "The $\\textit{Planck function}$ is used to compute the radiance emitted from objects that radiate like a perfect \"Black Body\". The inverse of the $\\textit{Planck Function}$ is used to find the $\\textit{Brightness Temperature}$ of an object. The precise formula for the Planck Function depends on whether the radiance is determined on a $\\textit{per unit wavelength}$ or a $\\textit{per unit frequency}$. In the ISO System of Quantities, $\\textit{Planck Function}$ is defined by the formula: $Y = -G/T$, where $G$ is Gibbs Energy and $T$ is thermodynamic temperature."^^ns1:LatexString ; + ns1:expression "$B_{\\nu}(T)$"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19680008986_1968008986.pdf"^^xsd:anyURI, + "http://pds-atmospheres.nmsu.edu/education_and_outreach/encyclopedia/planck_function.htm"^^xsd:anyURI, + "http://www.star.nesdis.noaa.gov/smcd/spb/calibration/planck.html"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; - ns1:latexDefinition "$u = U/m$, where $U$ is thermodynamic energy and $m$ is mass."^^ns1:LatexString ; - ns1:plainTextDescription "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is specific internal energy, which is energy per mass of substance involved. Specific internal energy is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^xsd:string ; - ns1:symbol "u"^^xsd:string ; + ns1:latexDefinition """The Planck function, $B_{\\tilde{\\nu}}(T)$, is given by: +$B_{\\nu}(T) = \\frac{2h c^2\\tilde{\\nu}^3}{e^{hc / k \\tilde{\\nu} T}-1}$ +where, $\\tilde{\\nu}$ is wavelength, $h$ is Planck's Constant, $k$ is Boltzman's Constant, $c$ is the speed of light in a vacuum, $T$ is thermodynamic temperature."""^^ns1:LatexString ; rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , + rdfs:seeAlso , , , , - ; - skos:broader . + , + . - a ns1:QuantityKind ; - rdfs:label "Volume Thermal Expansion"@en ; - dcterms:description """When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. + a ns1:QuantityKind ; + rdfs:label "polarisability"@en, + "Polarizability"@en-us ; + dcterms:description "\"Polarizability\" is the relative tendency of a charge distribution, like the electron cloud of an atom or molecule, to be distorted from its normal shape by an external electric field, which may be caused by the presence of a nearby ion or dipole. The electronic polarizability $\\alpha$ is defined as the ratio of the induced dipole moment of an atom to the electric field that produces this dipole moment. Polarizability is often a scalar valued quantity, however in the general case it is tensor-valued."^^ns1:LatexString, + "measure of the deformability of the electron shell of molecules and atoms"@en ; + ns1:applicableUnit , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Polarizability"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD141"^^xsd:string ; + ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; + ns1:plainTextDescription "Maß für die Deformierbarkeit der Elektronenhülle von Molekülen und Atomen "@de ; + ns1:symbol "0173-1#Z4-BAJ365#002"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Polarizability"^^xsd:string ; + rdfs:isDefinedBy . -Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: + a ns1:QuantityKind ; + rdfs:label "Propagation coefficient"@en ; + dcterms:description "The propagation constant, symbol $\\gamma$, for a given system is defined by the ratio of the amplitude at the source of the wave to the amplitude at some distance x."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Propagation_constant"^^xsd:anyURI ; + ns1:latexDefinition "$\\gamma = \\alpha + j\\beta$, where $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; + ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; + ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:PropagationCoefficient"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Rotational Mass"@en ; + dcterms:description "\"Rotational Mass\" denotes the inertia of a body with respect to angular acceleration. It is usually measured in kg*m^2."^^ns1:LatexString, + "\"Rotational Mass\" denotes the inertia of a body with respect to angular acceleration. It is usually measured in kg*m^2."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC2/HTML/link/ifcrotationalmassmeasure.htm"^^xsd:anyURI ; + ns1:plainTextDescription "\"Rotational Mass\" denotes the inertia of a body with respect to angular acceleration. It is usually measured in kg*m^2."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:RotationalMass"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Specific heat capacity at constant pressure"@en ; + dcterms:description "Specific heat at a constant pressure."^^ns1:LatexString, + "Specific heat at a constant pressure."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Specific heat at a constant pressure."^^xsd:string ; + ns1:symbol "c_p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatCapacityAtConstantPressure"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + . + + a ns1:QuantityKind ; + rdfs:label "Specific heat capacity at constant volume"@en ; + dcterms:description "Specific heat per constant volume."^^ns1:LatexString, + "Specific heat per constant volume."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "Specific heat per constant volume."^^xsd:string ; + ns1:symbol "c_v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatCapacityAtConstantVolume"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + . + + a ns1:QuantityKind ; + rdfs:label "Spin Quantum Number"@en ; + dcterms:description "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^ns1:LatexString, + "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD371"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$s^2 = \\hbar^2 s(s + 1)$, where $s$ is the spin quantum number and $\\hbar$ is the Planck constant."^^ns1:LatexString ; + ns1:plainTextDescription "The \"Spin Quantum Number\" describes the spin (intrinsic angular momentum) of the electron within that orbital, and gives the projection of the spin angular momentum S along the specified axis"^^xsd:string ; + ns1:symbol "s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpinQuantumNumber"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader ; + skos:closeMatch , + , + . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU per Pound Degree Fahrenheit"@en ; + dcterms:description "British Thermal Unit (therm.) Per Pound Per Fahrenheit Degree (Btu (therm.)/lb- degF) is a unit in the category of Specific heat. This unit is commonly used in the UK unit system. British Thermal Unit (therm.) Per Pound Per Fahrenheit Degree (Btu (therm.)/lb-degF) has a dimension of \\(L2T^{-2}Q^{-1}\\) where \\(L\\) is length, \\(T\\) is time, and \\(Q\\) is temperature. It can be converted to the corresponding standard SI unit \\(J/kg-K\\) by multiplying its value by a factor of 4183.99895."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(Btu/(lb-degF)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "Btu{IT}/(lb⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[lb_av]-1.[degF]-1"^^ns1:UCUMcs, + "[Btu_IT]/([lb_av].[degF])"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "British Thermal Unit (thermochemical) Per Pound Degree Fahrenheit"@en ; + dcterms:description "unit of the thermal conductivity according to the Imperial system of units divided by the units pound and degree Fahrenheit"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 426.654 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA127"^^xsd:string ; + ns1:plainTextDescription "unit of the thermal conductivity according to the Imperial system of units divided by the units pound and degree Fahrenheit"^^xsd:string ; + ns1:symbol "Btu{th}/(lb⋅°F)"^^xsd:string ; + ns1:ucumCode "[Btu_th].[lb_av]-1.[degF]-1"^^ns1:UCUMcs, + "[Btu_th]/([lb_av].[degF])"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J50"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Coulomb Per Square Centimetre"@en, + "Coulomb Per Square Centimeter"@en-us ; + dcterms:description "derived SI unit coulomb divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 10000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB101"^^xsd:string ; + ns1:plainTextDescription "derived SI unit coulomb divided by the 0.0001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; + ns1:symbol "C/cm²"^^xsd:string ; + ns1:ucumCode "C.cm-2"^^ns1:UCUMcs, + "C/cm2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A33"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Coulomb Per Square Millimetre"@en, + "Coulomb Per Square Millimeter"@en-us ; + dcterms:description "derived SI unit coulomb divided by the 0.000 001-fold of the power of the SI base unit metre by exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB100"^^xsd:string ; + ns1:plainTextDescription "derived SI unit coulomb divided by the 0.000 001-fold of the power of the SI base unit metre by exponent 2"^^xsd:string ; + ns1:symbol "C/mm²"^^xsd:string ; + ns1:ucumCode "C.mm-2"^^ns1:UCUMcs, + "C/mm2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A35"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (international Table) Per Gram Degree Celsius"@en ; + dcterms:description "unit calorieIT divided by the products of the units gram and degree Celsius"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4186.8 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA362"^^xsd:string ; + ns1:plainTextDescription "unit calorieIT divided by the products of the units gram and degree Celsius"^^xsd:string ; + ns1:symbol "cal{IT}/(g⋅°C)"^^xsd:string ; + ns1:ucumCode "cal_IT.g-1.Cel-1"^^ns1:UCUMcs, + "cal_IT/(g.Cel)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J76"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (international Table) Per Gram Kelvin"@en ; + dcterms:description "unit calorieIT divided by the product of the SI base unit gram and Kelvin"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4186.8 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA363"^^xsd:string ; + ns1:plainTextDescription "unit calorieIT divided by the product of the SI base unit gram and Kelvin"^^xsd:string ; + ns1:symbol "cal{IT}/(g⋅K)"^^xsd:string ; + ns1:ucumCode "cal_IT.g-1.K-1"^^ns1:UCUMcs, + "cal_IT/(g.K)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D76"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (thermochemical) Per Gram Degree Celsius"@en ; + dcterms:description "unit calorie (thermochemical) divided by the product of the unit gram and degree Celsius"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4184.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA366"^^xsd:string ; + ns1:plainTextDescription "unit calorie (thermochemical) divided by the product of the unit gram and degree Celsius"^^xsd:string ; + ns1:symbol "cal{th}/(g⋅°C)"^^xsd:string ; + ns1:ucumCode "cal_th.g-1.Cel-1"^^ns1:UCUMcs, + "cal_th/(g.Cel)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J79"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (thermochemical) Per Gram Kelvin"@en ; + dcterms:description "unit calorie (thermochemical) divided by the product of the SI derived unit gram and the SI base unit Kelvin"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4184.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA367"^^xsd:string ; + ns1:plainTextDescription "unit calorie (thermochemical) divided by the product of the SI derived unit gram and the SI base unit Kelvin"^^xsd:string ; + ns1:symbol "cal{th}/(g⋅K)"^^xsd:string ; + ns1:ucumCode "cal_th.g-1.K-1"^^ns1:UCUMcs, + "cal_th/(g.K)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D37"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Cases per 1000 individuals per year"@en ; + dcterms:description "The typical expression of morbidity rate, expressed as cases per 1000 individuals, per year."^^rdf:HTML ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Incidence_(epidemiology)"^^xsd:anyURI ; + ns1:plainTextDescription "The typical expression of morbidity rate, expressed as cases per 1000 individuals, per year."^^xsd:string ; + ns1:symbol "Cases/1000 individuals/year"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Abcoulomb per Square Centimetre"@en, + "Abcoulomb per Square Centimeter"@en-us ; + dcterms:description """Abcoulomb Per Square Centimeter is a unit in the category of Electric charge surface density. It is also known as abcoulombs per square centimeter, abcoulomb per square centimetre, abcoulombs per square centimetre, abcoulomb/square centimeter,abcoulomb/square centimetre. This unit is commonly used in the cgs unit system. +Abcoulomb Per Square Centimeter (abcoulomb/cm2) has a dimension of \\(L_2TI\\). where L is length, T is time, and I is electric current. It can be converted to the corresponding standard SI unit \\(C/m^2\\) by multiplying its value by a factor of 100,000."""^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 100000.0, + 1e+05 ; + ns1:derivedUnitOfSystem ; + ns1:expression "\\(abc-per-cm2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://www.efunda.com/glossary/units/units--electric_charge_surface_density--abcoulomb_per_square_centimeter.cfm"^^xsd:anyURI ; + ns1:latexDefinition "\\(abcoulomb/cm^2\\)"^^ns1:LatexString ; + ns1:symbol "abC/cm²"^^xsd:string ; + ns1:ucumCode "10.C.cm-2"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Statcoulomb per Square Centimetre"@en, + "Statcoulomb per Square Centimeter"@en-us ; + dcterms:description "\\(\\textbf{Statcoulomb per Square Centimeter}\\) is a unit of measure for electric flux density and electric polarization. One Statcoulomb per Square Centimeter is \\(2.15\\times 10^9 \\, coulomb\\,per\\,square\\,inch\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00000333564, + 3.33564e-06 ; + ns1:derivedUnitOfSystem ; + ns1:expression "\\(statc-per-cm2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "statC/cm²"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Degree per Hour"@en ; + dcterms:description "\"Degree per Hour\" is an Imperial unit for 'Angular Velocity' expressed as \\(deg/h\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000484813681, + 4.848137e-06 ; + ns1:expression "\\(deg/h\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "°/h"^^xsd:string ; + ns1:ucumCode "deg.h-1"^^ns1:UCUMcs, + "deg/h"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree per Minute"@en ; + dcterms:description "A unit of measure for the rate of change of plane angle, \\(d\\omega / dt\\), in durations of one minute.The vector \\(\\omega\\) is directed along the axis of rotation in the direction for which the rotation is clockwise."^^ns1:LatexString ; + ns1:conversionMultiplier 0.000290888209 ; + ns1:expression "\\(deg-per-min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "°/min"^^xsd:string ; + ns1:ucumCode "deg.min-1"^^ns1:UCUMcs, + "deg/min"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Degree per Second"@en ; + dcterms:description "\"Degree per Second\" is an Imperial unit for 'Angular Velocity' expressed as \\(deg/s\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0174532925 ; + ns1:expression "\\(deg/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA026"^^xsd:string ; + ns1:symbol "°/s"^^xsd:string ; + ns1:ucumCode "deg.s-1"^^ns1:UCUMcs, + "deg/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "E96"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Balling"@en ; + dcterms:description "unit for the mixing ratio of a soluble dry substance in water at 17.5 degrees C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/ water solution corresponds to 1 degree Balling and respectively a one percent solution"^^rdf:HTML ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA031"^^xsd:string ; + ns1:plainTextDescription "unit for the mixing ratio of a soluble dry substance in water at 17.5 degrees C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/ water solution corresponds to 1 degree Balling and respectively a one percent solution"^^xsd:string ; + ns1:symbol "°Balling"^^xsd:string ; + ns1:uneceCommonCode "J17"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Baume (origin Scale)"@en ; + dcterms:description """graduation of the areometer scale for determination of densitiy of fluids. + +The Baumé scale is a pair of hydrometer scales developed by French pharmacist Antoine Baumé in 1768 to measure density of various liquids. The unit of the Baumé scale has been notated variously as degrees Baumé, B°, Bé° and simply Baumé (the accent is not always present). One scale measures the density of liquids heavier than water and the other, liquids lighter than water. The Baumé of distilled water is 0. The API gravity scale is based on errors in early implementations of the Baumé scale."""^^xsd:string ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA028"^^xsd:string ; + ns1:plainTextDescription """graduation of the areometer scale for determination of densitiy of fluids. + +The Baumé scale is a pair of hydrometer scales developed by French pharmacist Antoine Baumé in 1768 to measure density of various liquids. The unit of the Baumé scale has been notated variously as degrees Baumé, B°, Bé° and simply Baumé (the accent is not always present). One scale measures the density of liquids heavier than water and the other, liquids lighter than water. The Baumé of distilled water is 0. The API gravity scale is based on errors in early implementations of the Baumé scale."""^^xsd:string ; + ns1:symbol "°Bé{origin}"^^xsd:string ; + ns1:uneceCommonCode "J14"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Baume (US Heavy)"@en ; + dcterms:description "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are heavier than water"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA029"^^xsd:string ; + ns1:plainTextDescription "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are heavier than water"^^xsd:string ; + ns1:symbol "°Bé{US Heavy}"^^xsd:string ; + ns1:uneceCommonCode "J15"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Baume (US Light)"@en ; + dcterms:description "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are lighter than water"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA030"^^xsd:string ; + ns1:plainTextDescription "graduation of the areometer scale for determination of density of fluids according to the Anglo-American system of units, which are lighter than water"^^xsd:string ; + ns1:symbol "°Bé{US Light}"^^xsd:string ; + ns1:uneceCommonCode "J16"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Brix"@en ; + dcterms:description "unit named according to Adolf Brix for the mixing ratio of a soluble dry substance in water with 15.5 °C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/water solution corresponds to 1 °Brix and respectively an one percent solution"^^rdf:HTML ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA032"^^xsd:string ; + ns1:plainTextDescription "unit named according to Adolf Brix for the mixing ratio of a soluble dry substance in water with 15.5 °C similar to the percent designation for solutions, in which a solution of 1 g saccharose in 100 g saccharose/water solution corresponds to 1 °Brix and respectively an one percent solution"^^xsd:string ; + ns1:symbol "°Bx"^^xsd:string ; + ns1:uneceCommonCode "J18"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Oechsle"@en ; + dcterms:description "unit of the density of the must, as measure for the proportion of the soluble material in the grape must"^^rdf:HTML ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA048"^^xsd:string ; + ns1:plainTextDescription "unit of the density of the must, as measure for the proportion of the soluble material in the grape must"^^xsd:string ; + ns1:symbol "°Oe"^^xsd:string ; + ns1:uneceCommonCode "J27"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Plato"@en ; + dcterms:description "unit for the mixing ratio of the original gravity in the beer brew at 17,5 °C before the fermentation"^^rdf:HTML ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA049"^^xsd:string ; + ns1:plainTextDescription "unit for the mixing ratio of the original gravity in the beer brew at 17,5 °C before the fermentation"^^xsd:string ; + ns1:symbol "°P"^^xsd:string ; + ns1:uneceCommonCode "PLA"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Degree Twaddell"@en ; + dcterms:description "unit of the density of fluids, which are heavier than water"^^rdf:HTML ; + ns1:conversionMultiplier 0.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA054"^^xsd:string ; + ns1:plainTextDescription "unit of the density of fluids, which are heavier than water"^^xsd:string ; + ns1:symbol "°Tw"^^xsd:string ; + ns1:uneceCommonCode "J31"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, + "faradů na metr"@cs, + "Farad je Meter"@de, + "Farad per Metre"@en, + "farad per metre"@en, + "Farad per Meter"@en-us, + "faradio por metro"@es, + "فاراد بر متر"@fa, + "farad par mètre"@fr, + "प्रति मीटर फैराड"@hi, + "farad al metro"@it, + "ファラド毎メートル"@ja, + "farad per meter"@ms, + "farad na metr"@pl, + "farad por metro"@pt, + "farad pe metru"@ro, + "фарада на метр"@ru, + "farad na meter"@sl, + "farad bölü metre"@tr, + "法拉每米"@zh ; + dcterms:description "Farad Per Meter (\\(F/m\\)) is a unit in the category of Electric permittivity. It is also known as farad/meter. This unit is commonly used in the SI unit system. Farad Per Meter has a dimension of M-1L-3T4I2 where M is mass, L is length, T is time, and I is electric current. This unit is the standard SI unit in this category."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(F/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA146"^^xsd:string ; + ns1:symbol "F/m"^^xsd:string ; + ns1:ucumCode "F.m-1"^^ns1:UCUMcs, + "F/m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A69"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Femtograms per litre"@en ; + dcterms:description "One 10**18 part of the SI standard unit of mass of the measurand per litre volume of matrix.."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "fg/L"^^xsd:string ; + ns1:ucumCode "fg.L-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gram Per Cubic Centimetre"@en, + "Gram Per Cubic Centimeter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA469"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string, + "0.001-fold of the SI base unit kilogram divided by the 0.000001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "g/cm³"^^xsd:string ; + ns1:ucumCode "g.cm-3"^^ns1:UCUMcs, + "g/cm3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "23"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "grams per decilitre"@en, + "grams per decilitre"@en-us ; + dcterms:description "A derived unit for amount-of-substance concentration measured in g/dL."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 10.0 ; + ns1:expression "\\(g/dL\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "g/dL"^^xsd:string ; + ns1:ucumCode "g.dL-1"^^ns1:UCUMcs, + "g/dL"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - * linear thermal expansion - * area thermal expansion - * volumetric thermal expansion + a ns1:Unit ; + rdfs:label "Gram Per Cubic Decimetre"@en, + "Gram Per Cubic Decimeter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA475"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "g/dm³"^^xsd:string ; + ns1:ucumCode "g.dm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F23"^^xsd:string ; + rdfs:isDefinedBy . -These characteristics are closely related. The volumetric thermal expansion coefficient can be defined for both liquids and solids. The linear thermal expansion can only be defined for solids, and is common in engineering applications. + a ns1:Unit ; + rdfs:label "Gram Per Litre"@en, + "Gram Per Liter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA482"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; + ns1:symbol "g/L"^^xsd:string ; + ns1:ucumCode "g.L-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GL"^^xsd:string ; + rdfs:isDefinedBy . -Some substances expand when cooled, such as freezing water, so they have negative thermal expansion coefficients. [Wikipedia]"""^^xsd:string ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription """When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. + a ns1:Unit ; + rdfs:label "Gram Per Cubic Metre"@en, + "Gram Per Cubic Meter"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA487"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "g/m³"^^xsd:string ; + ns1:ucumCode "g.m-3"^^ns1:UCUMcs, + "g/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A93"^^xsd:string ; + rdfs:isDefinedBy . -Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: + a ns1:Unit ; + rdfs:label "Gram Per Millilitre"@en, + "Gram Per Millilitre"@en-us ; + dcterms:description "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA493"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI base unit kilogram divided by the 0.001-fold of the unit litre"^^xsd:string ; + ns1:symbol "g/mL"^^xsd:string ; + ns1:ucumCode "g.mL-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GJ"^^xsd:string ; + rdfs:isDefinedBy . - * linear thermal expansion - * area thermal expansion - * volumetric thermal expansion + a ns1:Unit ; + rdfs:label "Grain per Gallon"@en ; + dcterms:description "\"Grain per Gallon\" is an Imperial unit for 'Density' expressed as \\(gr/gal\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.017118061 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(gr/gal\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "grain{UK}/gal"^^xsd:string ; + ns1:ucumCode "[gr].[gal_br]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K41"^^xsd:string ; + rdfs:isDefinedBy . -These characteristics are closely related. The volumetric thermal expansion coefficient can be defined for both liquids and solids. The linear thermal expansion can only be defined for solids, and is common in engineering applications. + a ns1:Unit ; + rdfs:label "Grain Per Gallon (US)"@en ; + dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.01711806 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA524"^^xsd:string ; + ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "grain{US}/gal"^^xsd:string ; + ns1:ucumCode "[gr].[gal_us]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K41"^^xsd:string ; + rdfs:isDefinedBy . -Some substances expand when cooled, such as freezing water, so they have negative thermal expansion coefficients. [Wikipedia]"""^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Grains per Cubic Metre"@en, + "Grains per Cubic Meter"@en-us ; + dcterms:description "Grains per cubic metre of volume"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00006479891 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "Grains per cubic metre of volume"^^xsd:string ; + ns1:symbol "Grain/m³"^^xsd:string ; + ns1:ucumCode "[gr]/m3"^^ns1:UCUMcs ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Bar Litre Per Second"@en, - "Bar Liter Per Second"@en-us ; - dcterms:description "product of the unit bar and the unit litre divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA326"^^xsd:string ; - ns1:plainTextDescription "product of the unit bar and the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bar⋅L/s"^^xsd:string ; - ns1:ucumCode "bar.L.s-1"^^ns1:UCUMcs, - "bar.L/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F91"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Gigajoule per Square Metre"@en, + "Gigajoule per Square Meter"@en-us ; + dcterms:description "Gigajoule Per Square Meter (\\(J/m^2\\)) is a unit in the category of Energy density. It is also known as Gigajoules per square meter, Gigajoule per square metre, Gigajoule/square meter, Gigajoule/square metre."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000000.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(GJ/m^2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA179"^^xsd:string ; + ns1:symbol "GJ/m²"^^xsd:string ; + ns1:ucumCode "GJ.m-2"^^ns1:UCUMcs, + "GJ/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B13"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Bar Cubic Metre Per Second"@en, - "Bar Cubic Meter Per Second"@en-us ; - dcterms:description "product out of the 0.001-fold of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA814"^^xsd:string ; - ns1:plainTextDescription "product out of the 0.001-fold of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "bar⋅m³/s"^^xsd:string ; - ns1:ucumCode "bar.m3.s-1"^^ns1:UCUMcs, - "bar.m3/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F92"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Joule per Gram Kelvin"@en ; + dcterms:description "Joule per Gram Kelvin is a unit typically used for specific heat capacity."^^xsd:string ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1000.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA176"^^xsd:string ; + ns1:latexSymbol "\\(\\frac{J}{g \\cdot K}\\)"^^ns1:LatexString ; + ns1:symbol "J/(g⋅K)"^^xsd:string ; + ns1:ucumCode "J.g-1.K-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "BTU-IT-PER-lb"@en ; - dcterms:description "The amount of energy generated by a pound of substance is measured in British thermal units (IT) per pound of mass. 1 \\(Btu_{IT}/lb\\) is equivalent to \\(2.326 \\times 10^3\\) joule per kilogram (J/kg)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 2326.0 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(Btu/lb\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, - "http://www.efunda.com/glossary/units/units--energy_density--british_thermal_unit_it_per_cubic_foot.cfm"^^xsd:anyURI ; - ns1:symbol "Btu{IT}/lb"^^xsd:string ; - ns1:ucumCode "[Btu_IT].[lb_av]-1"^^ns1:UCUMcs, - "[Btu_IT]/[lb_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "AZ"^^xsd:string ; + rdfs:label "Joule per Kilogram Kelvin"@en, + "Joules per kilogram per Kelvin"@en ; + dcterms:description "Specific heat capacity - The heat required to raise unit mass of a substance by unit temperature interval under specified conditions, such as constant pressure: usually measured in joules per kelvin per kilogram. Symbol \\(c_p\\) (for constant pressure) Also called specific heat."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J-per-kgK\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA176"^^xsd:string ; + ns1:latexSymbol "\\(J/(kg \\cdot K)\\)"^^ns1:LatexString ; + ns1:symbol "J/(kg⋅K)"^^xsd:string ; + ns1:ucumCode "J.kg-1.K-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B11"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "British Thermal Unit (TH) Per Pound"@en ; - dcterms:description "\\({\\bf Btu_{th} / lbm}\\), British Thermal Unit (therm.) Per Pound Mass, is a unit in the category of Thermal heat capacity. It is also known as Btu per pound, Btu/pound, Btu/lb. This unit is commonly used in the UK unit system. British Thermal Unit (therm.) Per Pound Mass (Btu (therm.)/lbm) has a dimension of \\(L^2T^{-2}\\) where \\(L\\) is length, and \\(T\\) is time. It can be converted to the corresponding standard SI unit J/kg by multiplying its value by a factor of 2324.443861."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 2324.443861 ; - ns1:expression "\\(btu_th-per-lb\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, - "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; - ns1:symbol "btu{th}/lb"^^xsd:string ; - ns1:ucumCode "[Btu_th].[lb_av]-1"^^ns1:UCUMcs, - "[Btu_th]/[lb_av]"^^ns1:UCUMcs ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Joule per Square Metre"@en, + "Joule per Square Meter"@en-us ; + dcterms:description "Joule Per Square Meter (\\(J/m^2\\)) is a unit in the category of Energy density. It is also known as joules per square meter, joule per square metre, joule/square meter, joule/square metre. This unit is commonly used in the SI unit system."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J/m^2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA179"^^xsd:string ; + ns1:symbol "J/m²"^^xsd:string ; + ns1:ucumCode "J.m-2"^^ns1:UCUMcs, + "J/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B13"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "كولوم في المتر المربع"@ar, - "coulomb na metr čtvereční"@cs, - "Coulomb je Quadratmeter"@de, - "coulomb per square metre"@en, - "Coulomb per Square Meter"@en-us, - "culombio por metro cuadrado"@es, - "کولمب/کولن بر مترمربع"@fa, - "coulomb par mètre carré"@fr, - "कूलम्ब प्रति वर्ग मीटर"@hi, - "coulomb al metro quadrato"@it, - "クーロン毎平方メートル"@ja, - "coulomb per meter persegi"@ms, - "kulomb na metr kwadratowy"@pl, - "coulomb por metro quadrado"@pt, - "coulomb pe metru pătrat"@ro, - "кулон на квадратный метр"@ru, - "coulomb bölü metre kare"@tr, - "库伦每平方米"@zh ; - dcterms:description "Coulomb Per Square Meter (\\(C/m^2\\)) is a unit in the category of Electric charge surface density. It is also known as coulombs per square meter, coulomb per square metre, coulombs per square metre, coulomb/square meter, coulomb/square metre. This unit is commonly used in the SI unit system. Coulomb Per Square Meter (C/m2) has a dimension of \\(L^{-2}TI\\) where L is length, T is time, and I is electric current. This unit is the standard SI unit in this category. "^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Joule per Cubic Metre"@en, + "Joule per Cubic Meter"@en-us ; + dcterms:description "\\(\\textit{Joule Per Cubic Meter}\\) (\\(J/m^{3}\\)) is a unit in the category of Energy density. It is also known as joules per cubic meter, joule per cubic metre, joules per cubic metre, joule/cubic meter, joule/cubic metre. This unit is commonly used in the SI unit system. It has a dimension of \\(ML^{-1}T^{-2}\\) where \\(M\\) is mass, \\(L\\) is length, and \\(T\\) is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(C/m^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA134"^^xsd:string ; - ns1:symbol "C/m²"^^xsd:string ; - ns1:ucumCode "C.m-2"^^ns1:UCUMcs, - "C/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A34"^^xsd:string ; + ns1:expression "\\(j-per-m3\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA180"^^xsd:string ; + ns1:symbol "J/m³"^^xsd:string ; + ns1:ucumCode "J.m-3"^^ns1:UCUMcs, + "J/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B8"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Calorie (international Table) Per Gram"@en ; - dcterms:description "Calories produced per gram of substance."^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Calorie per Gram Degree Celsius"@en ; + dcterms:description "\\(\\textbf{Calorie per Gram Degree Celsius} is a unit for 'Specific Heat Capacity' expressed as \\(kcal/(gm-degC)\\)."^^ns1:LatexString ; ns1:applicableSystem , , ; - ns1:conversionMultiplier 4186.8 ; - ns1:expression "\\(cal_{it}-per-gm\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB176"^^xsd:string ; - ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, - "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; - ns1:plainTextDescription "unit calorie according to the international steam table divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "cal{IT}/g"^^xsd:string ; - ns1:ucumCode "cal_IT.g-1"^^ns1:UCUMcs, - "cal_IT/g"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D75"^^xsd:string ; + ns1:expression "\\(kcal/(gm-degC)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kcal/(g⋅°C)"^^xsd:string ; + ns1:ucumCode "cal.g-1.Cel-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Erg Per Gram"@en ; - dcterms:description "CGS unit of the mass-related energy"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kilogram Per Cubic Centimetre"@en, + "Kilogram Per Cubic Centimeter"@en-us ; + dcterms:description "SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB061"^^xsd:string ; - ns1:plainTextDescription "CGS unit of the mass-related energy"^^xsd:string ; - ns1:symbol "erg/g"^^xsd:string ; - ns1:ucumCode "erg.g-1"^^ns1:UCUMcs, - "erg/g"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A61"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1e-06, + 1000000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA597"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the 0.000 001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "kg/cm³"^^xsd:string ; + ns1:ucumCode "kg.cm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G31"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Erg per Second"@en ; - dcterms:description "\"Erg per Second\" is a C.G.S System unit for 'Power' expressed as \\(erg/s\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Kilogram Per Cubic Decimetre"@en, + "Kilogram Per Cubic Decimeter"@en-us ; + dcterms:description "SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , - ; - ns1:conversionMultiplier 1e-07 ; - ns1:derivedUnitOfSystem , - ; - ns1:expression "\\(erg/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA430"^^xsd:string ; - ns1:latexDefinition "\\(g\\cdot cm^{2}/s^{3}\\)"^^ns1:LatexString ; - ns1:symbol "erg/s"^^xsd:string ; - ns1:ucumCode "erg.s-1"^^ns1:UCUMcs, - "erg/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A63"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA604"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "kg/dm³"^^xsd:string ; + ns1:ucumCode "kg.dm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B34"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Electron Volt Second"@en ; - dcterms:description "\"Electron Volt Second\" is a unit for 'Angular Momentum' expressed as \\(eV s\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Kilogram Per Litre"@en, + "Kilogram Per Liter"@en-us ; + dcterms:description "SI base unit kilogram divided by the unit litre"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.602177e-19 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "eV⋅s"^^xsd:string ; - ns1:ucumCode "eV.s"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA612"^^xsd:string ; + ns1:plainTextDescription "SI base unit kilogram divided by the unit litre"^^xsd:string ; + ns1:symbol "kg/L"^^xsd:string ; + ns1:ucumCode "kg.L-1"^^ns1:UCUMcs, + "kg/L"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B35"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilogram per Square Metre"@en, + "Kilogram per Square Meter"@en-us ; + dcterms:description "Kilogram Per Square Meter (kg/m2) is a unit in the category of Surface density. It is also known as kilograms per square meter, kilogram per square metre, kilograms per square metre, kilogram/square meter, kilogram/square metre. This unit is commonly used in the SI unit system. Kilogram Per Square Meter (kg/m2) has a dimension of ML-2 where M is mass, and L is length. This unit is the standard SI unit in this category."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(kg/m^2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA617"^^xsd:string ; + ns1:symbol "kg/m²"^^xsd:string ; + ns1:ucumCode "kg.m-2"^^ns1:UCUMcs, + "kg/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "28"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilojoule Per Kilogram Kelvin"@en ; + dcterms:description "1 000-fold of the SI derived unit joule divided by the product of the SI base unit kilogram and the SI base unit kelvin"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA571"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the product of the SI base unit kilogram and the SI base unit kelvin"^^xsd:string ; + ns1:symbol "kJ/(kg⋅K)"^^xsd:string ; + ns1:ucumCode "kJ.(kg.K)-1"^^ns1:UCUMcs, + "kJ.kg-1.K-1"^^ns1:UCUMcs, + "kJ/(kg.K)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B43"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Pound per Cubic Foot"@en ; + dcterms:description "\"Pound per Cubic Foot\" is an Imperial unit for 'Density' expressed as \\(lb/ft^{3}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 16.018463373960138 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(lb/ft^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lb/ft³"^^xsd:string ; + ns1:ucumCode "[lb_av].[cft_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "87"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Pound per Gallon"@en ; + dcterms:description "\"Pound per Gallon\" is an Imperial unit for 'Density' expressed as \\(lb/gal\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 99.7763727 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(lb/gal\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lb/gal"^^xsd:string ; + ns1:ucumCode "[lb_av].[gal_br]-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gigajoule Per Hour"@en ; - dcterms:description "SI derived unit Gigajoule divided by the 3600 times the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 3600000000000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "SI derived unit gigajoule divided by the 3600 times the SI base unit second"^^xsd:string ; - ns1:symbol "GJ/hr"^^xsd:string ; - ns1:ucumCode "GJ.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P16"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound (avoirdupois) Per Gallon (UK)"@en ; + dcterms:description "unit of the mass avoirdupois pound according to the avoirdupois system of units divided by the unit gallon (UK) according to the Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 99.77637 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA679"^^xsd:string ; + ns1:plainTextDescription "unit of the mass avoirdupois pound according to the avoirdupois system of units divided by the unit gallon (UK) according to the Imperial system of units"^^xsd:string ; + ns1:symbol "lb/gal{UK}"^^xsd:string ; + ns1:ucumCode "[lb_av].[gal_br]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K71"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gs"@en ; - dcterms:description "The gauss, abbreviated as \\(G\\), is the cgs unit of measurement of a magnetic field \\(B\\), which is also known as the \"magnetic flux density\" or the \"magnetic induction\". One gauss is defined as one maxwell per square centimeter; it equals \\(10^{-4} tesla\\) (or \\(100 micro T\\)). The Gauss is identical to maxwells per square centimetre; technically defined in a three-dimensional system, it corresponds in the SI, with its extra base unit the ampere. The gauss is quite small by earthly standards, 1 Gs being only about four times Earth's flux density, but it is subdivided, with \\(1 gauss = 105 gamma\\). This unit of magnetic induction is also known as the \\(\\textit{abtesla}\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gauss_%28unit%29"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gauss_(unit)"^^xsd:anyURI, - "http://www.diracdelta.co.uk/science/source/g/a/gauss/source.html"^^xsd:anyURI, - "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-526?rskey=HAbfz2"^^xsd:anyURI ; - ns1:symbol "G"^^xsd:string ; - ns1:ucumCode "G"^^ns1:UCUMcs ; - ns1:uneceCommonCode "76"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound (avoirdupois) Per Gallon (US)"@en ; + dcterms:description "unit of the mass avoirdupois pound according to the avoirdupois system divided by the unit gallon (US, liq.) according to the Anglo-American system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 83.0812213 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA680"^^xsd:string ; + ns1:plainTextDescription "unit of the mass avoirdupois pound according to the avoirdupois system divided by the unit gallon (US, liq.) according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "lb/gal{US}"^^xsd:string ; + ns1:ucumCode "[lb_av].[gal_us]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GE"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Horsepower"@en ; - dcterms:description "550 foot-pound force per second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Pound per Cubic Inch"@en ; + dcterms:description "\"Pound per Cubic Inch\" is an Imperial unit for 'Density' expressed as \\(lb/in^{3}\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 745.6999 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Horsepower"^^xsd:anyURI ; + ns1:conversionMultiplier 27679.904710203125 ; ns1:definedUnitOfSystem , ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Horsepower?oldid=495510329"^^xsd:anyURI ; - ns1:symbol "HP"^^xsd:string ; - ns1:ucumCode "[HP]"^^ns1:UCUMcs ; - ns1:udunitsCode "hp"^^xsd:string ; - ns1:uneceCommonCode "K43"^^xsd:string ; + ns1:expression "\\(lb/in^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lb/in³"^^xsd:string ; + ns1:ucumCode "[lb_av].[cin_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "LA"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Horsepower (brake)"@en ; - dcterms:description "unit of the power according to the Imperial system of units"^^rdf:HTML ; - ns1:conversionMultiplier 9809.5 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA536"^^xsd:string ; - ns1:plainTextDescription "unit of the power according to the Imperial system of units"^^xsd:string ; - ns1:symbol "HP{brake}"^^xsd:string ; - ns1:uneceCommonCode "K42"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound per Cubic Metre"@en, + "Pound per Cubic Meter"@en-us ; + dcterms:description "\"Pound per Cubic Meter\" is a unit for 'Density' expressed as \\(lb/m^{3}\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.45359237 ; + ns1:expression "\\(lb/m^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lb/m³"^^xsd:string ; + ns1:ucumCode "[lb_av].m-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Horsepower (electric)"@en ; - dcterms:description "unit of the power according to the Anglo-American system of units"^^rdf:HTML ; - ns1:conversionMultiplier 746.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA537"^^xsd:string ; - ns1:plainTextDescription "unit of the power according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "HP{electric}"^^xsd:string ; - ns1:uneceCommonCode "K43"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound per Cubic Yard"@en ; + dcterms:description "\"Pound per Cubic Yard\" is an Imperial unit for 'Density' expressed as \\(lb/yd^{3}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.5932764212577829 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(lb/yd^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "lb/yd³"^^xsd:string ; + ns1:ucumCode "[lb_av].[cyd_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K84"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Horsepower (metric)"@en ; - dcterms:description "unit of the mechanical power according to the Anglo-American system of units"^^rdf:HTML ; - ns1:conversionMultiplier 735.4988 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA534"^^xsd:string ; - ns1:plainTextDescription "unit of the mechanical power according to the Anglo-American system of units"^^xsd:string ; - ns1:symbol "HP{metric}"^^xsd:string ; - ns1:uneceCommonCode "HJ"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Pound Force per Inch"@en ; + dcterms:description "\"Pound Force per Inch\" is an Imperial unit for 'Force Per Length' expressed as \\(lbf/in\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 175.12685 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(lbf/in\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "lbf/in"^^xsd:string ; + ns1:ucumCode "[lbf_av].[in_i]-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Hectopascal Litre Per Second"@en, - "Hectopascal Liter Per Second"@en-us ; - dcterms:description "product out of the 100-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Cubic Metre per Second"@en, + "Cubic Meter per Second"@en-us ; + dcterms:description "A cubic metre per second (\\(m^{3}s^{-1}, m^{3}/s\\)), cumecs or cubic meter per second in American English) is a derived SI unit of flow rate equal to that of a stere or cube with sides of one metre ( u0303 39.37 in) in length exchanged or moving each second. It is popularly used for water flow, especially in rivers and streams, and fractions for HVAC values measuring air flow."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.1 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA530"^^xsd:string ; - ns1:plainTextDescription "product out of the 100-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "hPa⋅L/s"^^xsd:string ; - ns1:ucumCode "hPa.L.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F93"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m^{3}/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA772"^^xsd:string ; + ns1:symbol "m³/s"^^xsd:string ; + ns1:ucumCode "m3.s-1"^^ns1:UCUMcs, + "m3/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MQS"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Hectopascal Cubic Metre Per Second"@en, - "Hectopascal Cubic Meter Per Second"@en-us ; - dcterms:description "product out of the 100-fold of the SI unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Megacoulomb Per Square Metre"@en, + "Megacoulomb Per Square Meter"@en-us ; + dcterms:description "1 000 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA531"^^xsd:string ; - ns1:plainTextDescription "product out of the 100-fold of the SI unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "hPa⋅m³/s"^^xsd:string ; - ns1:ucumCode "hPa.m3.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F94"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA207"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "MC/m²"^^xsd:string ; + ns1:ucumCode "MC.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B70"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Joule Per Gram"@en ; - dcterms:description "SI derived unit joule divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Megagram Per Cubic Metre"@en, + "Megagram Per Cubic Meter"@en-us ; + dcterms:description "1 000-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA174"^^xsd:string ; - ns1:plainTextDescription "SI derived unit joule divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "J/g"^^xsd:string ; - ns1:ucumCode "J.g-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D95"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA229"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "Mg/m³"^^xsd:string ; + ns1:ucumCode "Mg.m-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B72"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Joule Per Hour"@en ; - dcterms:description "SI derived unit joule divided by the 3600 times the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Microcoulomb Per Square Metre"@en, + "Microcoulomb Per Square Meter"@en-us ; + dcterms:description "0.000001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 3600.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "SI derived unit joule divided by the 3600 times the SI base unit second"^^xsd:string ; - ns1:symbol "J/hr"^^xsd:string ; - ns1:ucumCode "J.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P16"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA060"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "μC/m²"^^xsd:string ; + ns1:ucumCode "uC.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B88"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Joule per Kilogram"@en ; - dcterms:description "Joule Per Kilogram} (\\(J/kg\\)) is a unit in the category of Thermal heat capacity. It is also known as \\textit{joule/kilogram}, \\textit{joules per kilogram}. This unit is commonly used in the SI unit system. The unit has a dimension of \\(L2T^{-2}\\) where \\(L\\) is length, and \\(T\\) is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Microgram Per Decilitre"@en, + "Microgram Per Deciliter"@en-us ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(J/kg\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA175"^^xsd:string ; - ns1:symbol "J/kg"^^xsd:string ; - ns1:ucumCode "J.kg-1"^^ns1:UCUMcs, - "J/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J2"^^xsd:string ; + ns1:conversionMultiplier 0.0001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "0.0000000001-fold of the SI base unit kilogram divided by the unit decilitre"^^xsd:string ; + ns1:symbol "μg/dL"^^xsd:string ; + ns1:ucumCode "ug.dL-1"^^ns1:UCUMcs, + "ug/dL"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Joule Per Second"@en ; - dcterms:description "SI derived unit joule divided by the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Microgram Per Cubic Metre"@en, + "Microgram Per Cubic Meter"@en-us ; + dcterms:description "0.000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "SI derived unit joule divided by the SI base unit second"^^xsd:string ; - ns1:symbol "J/s"^^xsd:string ; - ns1:ucumCode "J.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P14"^^xsd:string ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA085"^^xsd:string ; + ns1:plainTextDescription "0.000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "μg/m³"^^xsd:string ; + ns1:ucumCode "ug.m-3"^^ns1:UCUMcs, + "ug/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie per Gram"@en ; - dcterms:description "\"Kilocalorie per Gram\" is a unit for 'Specific Energy' expressed as \\(kcal/gm\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Millicoulomb Per Square Metre"@en, + "Millicoulomb Per Square Meter"@en-us ; + dcterms:description "0.001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4.184e+06 ; - ns1:expression "\\(kcal/gm\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kcal/g"^^xsd:string ; - ns1:ucumCode "kcal.g-1"^^ns1:UCUMcs ; + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA784"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "mC/m²"^^xsd:string ; + ns1:ucumCode "mC.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D89"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilojoule Per Kilogram"@en ; - dcterms:description "1 000-fold of the SI derived unit joule divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Newton Metre Per Square Metre"@en, + "Newton Meter Per Square Meter"@en-us ; + dcterms:description "product of the SI derived unit newton and the SI base unit metre divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA570"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "kJ/kg"^^xsd:string ; - ns1:ucumCode "kJ.kg-1"^^ns1:UCUMcs, - "kJ/kg"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B42"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA244"^^xsd:string ; + ns1:plainTextDescription "product of the SI derived unit newton and the SI base unit metre divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "N⋅m/m²"^^xsd:string ; + ns1:ucumCode "N.m.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H86"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pound Force Foot Per Pound"@en ; - dcterms:description "product of the Anglo-American unit pound-force and the Anglo-American unit foot divided by the Anglo-American unit pound (US) of mass"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 2989.067 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB484"^^xsd:string ; - ns1:plainTextDescription "product of the Anglo-American unit pound-force and the Anglo-American unit foot divided by the Anglo-American unit pound (US) of mass"^^xsd:string ; - ns1:symbol "klbf⋅ft/lb"^^xsd:string ; - ns1:ucumCode "[lbf_av].[ft_i].[lb_av]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G20"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "nanograms per decilitre"@en, + "nanograms per decilitre"@en-us ; + dcterms:description "A derived unit for amount-of-substance concentration measured in ng/dL."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000001 ; + ns1:expression "\\(ng/dL\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ng/dL"^^xsd:string ; + ns1:ucumCode "ng.dL-1"^^ns1:UCUMcs, + "ng/dL"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilovolt"@en ; - dcterms:description "1 000-fold of the SI derived unit volt"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Nanogram Per Cubic Metre"@en, + "Nanogram Per Cubic Meter"@en-us ; + dcterms:description "\"0.000000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3\""^^rdf:HTML ; + ns1:applicableSystem , + , , - , ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA580"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit volt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "kV"^^xsd:string ; - ns1:ucumCode "kV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KVT"^^xsd:string ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "0.000000000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "ng/m³"^^xsd:string ; + ns1:ucumCode "ng.m-3"^^ns1:UCUMcs ; + rdfs:comment "\"Derived from GM-PER-M3 which exists in QUDT\""^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megajoule Per Hour"@en ; - dcterms:description "SI derived unit MegaJoule divided by the 3600 times the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Nanograms per microlitre"@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 3600000000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "SI derived unit Megajoule divided by the 3600 times the SI base unit second"^^xsd:string ; - ns1:symbol "MJ/hr"^^xsd:string ; - ns1:ucumCode "MJ.h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "P16"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ng/µL"^^xsd:string ; + ns1:ucumCode "ng.uL-1"^^ns1:UCUMcs, + "ng/uL"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Imperial Mass Ounce per Gallon"@en ; + dcterms:description "\"Ounce per Gallon\" is an Imperial unit for 'Density' expressed as \\(oz/gal\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 6.23602329 ; + ns1:expression "oz/gal"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "oz/gal{US}"^^xsd:string ; + ns1:ucumCode "[oz_av].[gal_br]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ounce (avoirdupois) Per Gallon (UK)"@en ; + dcterms:description "unit of the density according to the Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 6.236 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA923"^^xsd:string ; + ns1:plainTextDescription "unit of the density according to the Imperial system of units"^^xsd:string ; + ns1:symbol "oz/gal{UK}"^^xsd:string ; + ns1:ucumCode "[oz_av].[gal_br]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L37"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ounce (avoirdupois) Per Gallon (US)"@en ; + dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 7.8125 ; + ns1:definedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA924"^^xsd:string ; + ns1:informativeReference "https://cdd.iec.ch/cdd/iec61360/iec61360.nsf/Units/0112-2---62720%23UAA924"^^xsd:anyURI ; + ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "oz/gal{US}"^^xsd:string ; + ns1:ucumCode "[oz_av].[gal_us]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L38"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Imperial Mass Ounce per Cubic Inch"@en ; + dcterms:description "\"Ounce per Cubic Inch\" is an Imperial unit for 'Density' expressed as \\(oz/in^{3}\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1729.99404 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "oz/in^{3}"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "oz/in³{US}"^^xsd:string ; + ns1:ucumCode "[oz_av].[cin_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L39"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ounce (avoirdupois) Per Cubic Yard"@en ; + dcterms:description "unit ounce according to the avoirdupois system of units divided by the power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0370798 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA918"^^xsd:string ; + ns1:plainTextDescription "unit ounce according to the avoirdupois system of units divided by the power of the unit yard according to the Anglo-American and the Imperial system of units with the exponent 3"^^xsd:string ; + ns1:symbol "oz/yd³"^^xsd:string ; + ns1:ucumCode "[oz_av].[cyd_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megajoule Per Kilogram"@en ; - dcterms:description "1,000,000-fold of the derived SI unit joule divided by the SI base unit kilogram"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Picofarad Per Metre"@en, + "Picograms per litre"@en, + "Picofarad Per Meter"@en-us ; + dcterms:description "One 10**15 part of the SI standard unit of mass of the measurand per litre volume of matrix.."@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB093"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the derived SI unit joule divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "MJ/kg"^^xsd:string ; - ns1:ucumCode "MJ.kg-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "JK"^^xsd:string ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "pg/L"^^xsd:string ; + ns1:ucumCode "pg.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megajoule Per Second"@en ; - dcterms:description "quotient of the 1,000,000-fold of the derived SI unit joule divided by the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Planck Density"@en ; + dcterms:description "The Planck density is the unit of density, denoted by \\(\\rho_P\\), in the system of natural units known as Planck units. \\(1\\ \\rho_P \\ is \\approx 5.155 \\times 10^{96} kg/m^3\\). This is a unit which is very large, about equivalent to \\(10^{23}\\) solar masses squeezed into the space of a single atomic nucleus. At one unit of Planck time after the Big Bang, the mass density of the universe is thought to have been approximately one unit of Planck density."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 5.155e+96 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_density"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_density?oldid=493642128"^^xsd:anyURI ; + ns1:symbol "planckdensity"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Planck Angular Frequency"@en ; + ns1:conversionMultiplier 1.8548e+43, + 18548700000000000000000000000000000000000000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_angular_frequency"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "planckangularfrequency"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Radian per Hour"@en ; + dcterms:description "\"Radian per Hour\" is a unit for 'Angular Velocity' expressed as \\(rad/h\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB177"^^xsd:string ; - ns1:plainTextDescription "quotient of the 1,000,000-fold of the derived SI unit joule divided by the SI base unit second"^^xsd:string ; - ns1:symbol "MJ/s"^^xsd:string ; - ns1:ucumCode "MJ.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D78"^^xsd:string ; + ns1:conversionMultiplier 3600.0 ; + ns1:expression "\\(rad/h\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "rad/h"^^xsd:string ; + ns1:ucumCode "rad.h-1"^^ns1:UCUMcs, + "rad/h"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megapascal Litre Per Second"@en, - "Megapascal Liter Per Second"@en-us ; - dcterms:description "product out of the 1,000,000-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Radian per Minute"@en ; + dcterms:description "Radian Per Minute (rad/min) is a unit in the category of Angular velocity. It is also known as radians per minute, radian/minute. Radian Per Minute (rad/min) has a dimension of aT-1 where T is time. It can be converted to the corresponding standard SI unit rad/s by multiplying its value by a factor of 0.0166666666667. "^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA218"^^xsd:string ; - ns1:plainTextDescription "product out of the 1,000,000-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "MPa⋅L/s"^^xsd:string ; - ns1:ucumCode "MPa.L.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F97"^^xsd:string ; + ns1:conversionMultiplier 60.0 ; + ns1:expression "\\(rad/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "rad/min"^^xsd:string ; + ns1:ucumCode "rad.min-1"^^ns1:UCUMcs, + "rad/min"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megapascal Cubic Metre Per Second"@en, - "Megapascal Cubic Meter Per Second"@en-us ; - dcterms:description "product out of the 1,000,000-fold of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "راديان في الثانية"@ar, + "radián za sekundu"@cs, + "Radian je Sekunde"@de, + "radian per second"@en, + "radián por segundo"@es, + "رادیان بر ثانیه"@fa, + "radian par seconde"@fr, + "वर्ग मीटर प्रति सैकिण्ड"@hi, + "radiante al secondo"@it, + "ラジアン毎秒"@ja, + "radian per saat"@ms, + "radian na sekundę"@pl, + "radiano por segundo"@pt, + "radian pe secundă"@ro, + "радиан в секунду"@ru, + "radian na sekundo"@sl, + "radyan bölü saniye"@tr, + "弧度每秒"@zh ; + dcterms:description "\"Radian per Second\" is the SI unit of rotational speed (angular velocity), and, also the unit of angular frequency. The radian per second is defined as the change in the orientation of an object, in radians, every second."^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA219"^^xsd:string ; - ns1:plainTextDescription "product out of the 1,000,000-fold of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "MPa⋅m³/s"^^xsd:string ; - ns1:ucumCode "MPa.m3.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F98"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(rad/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA968"^^xsd:string ; + ns1:symbol "rad/s"^^xsd:string ; + ns1:ucumCode "rad.s-1"^^ns1:UCUMcs, + "rad/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2A"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Megavolt"@en ; - dcterms:description "1,000,000-fold of the derived unit volt"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Slug per Cubic Foot"@en ; + dcterms:description "\"Slug per Cubic Foot\" is an Imperial unit for 'Density' expressed as \\(slug/ft^{3}\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 515.3788206107324 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(slug/ft^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA981"^^xsd:string ; + ns1:symbol "slug/ft³"^^xsd:string ; + ns1:uneceCommonCode "L65"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "تسلا"@ar, + "тесла"@bg, + "tesla"@cs, + "Tesla"@de, + "τέσλα"@el, + "Tesla"@en, + "tesla"@en, + "tesla"@es, + "تسلا"@fa, + "tesla"@fr, + "טסלה"@he, + "टैस्ला"@hi, + "tesla"@hu, + "tesla"@it, + "テスラ"@ja, + "tesla"@la, + "tesla"@ms, + "tesla"@pl, + "tesla"@pt, + "tesla"@ro, + "тесла"@ru, + "tesla"@sl, + "tesla"@tr, + "特斯拉"@zh ; + dcterms:description "The SI unit of flux density (or field intensity) for magnetic fields (also called the magnetic induction). The intensity of a magnetic field can be measured by placing a current-carrying conductor in the field. The magnetic field exerts a force on the conductor, a force which depends on the amount of the current and on the length of the conductor. One tesla is defined as the field intensity generating one newton of force per ampere of current per meter of conductor. Equivalently, one tesla represents a magnetic flux density of one weber per square meter of area. A field of one tesla is quite strong: the strongest fields available in laboratories are about 20 teslas, and the Earth's magnetic flux density, at its surface, is about 50 microteslas. The tesla, defined in 1958, honors the Serbian-American electrical engineer Nikola Tesla (1856-1943), whose work in electromagnetic induction led to the first practical generators and motors using alternating current. \\(T = V\\cdot s \\cdot m^{-2} = N\\cdot A^{-1}\\cdot m^{-1} = Wb\\cdot m^{-1} = kg \\cdot C^{-1}\\cdot s^{-1}\\cdot A^{-1} = kg \\cdot s^{-2}\\cdot A^{-1} = N \\cdot s \\cdot C^{-1}\\cdot m^{-1}\\) where, \\(\\\\\\) \\(A\\) = ampere, \\(C\\)=coulomb, \\(m\\) = meter, \\(N\\) = newton, \\(s\\) = second, \\(T\\) = tesla, \\(Wb\\) = weber"^^ns1:LatexString ; ns1:applicableSystem , , - , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA221"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the derived unit volt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mV"^^xsd:string ; - ns1:ucumCode "MV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B78"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Tesla"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA285"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Tesla?oldid=481198244"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Tesla_(unit)"^^xsd:anyURI, + "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-1406?rskey=AzXBLd"^^xsd:anyURI ; + ns1:omUnit ; + ns1:siUnitsExpression "Wb/m^2"^^xsd:string ; + ns1:symbol "T"^^xsd:string ; + ns1:ucumCode "T"^^ns1:UCUMcs ; + ns1:udunitsCode "T"^^xsd:string ; + ns1:uneceCommonCode "D33"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microvolt"@en ; - dcterms:description "0.000001-fold of the SI derived unit volt"^^rdf:HTML ; - ns1:applicableSystem , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "tonne per hectare"@en ; + dcterms:description "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; + ns1:applicableSystem , + , , - , ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA078"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit volt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "µV"^^xsd:string ; - ns1:ucumCode "uV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D82"^^xsd:string ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 0.1 ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^xsd:string ; + ns1:symbol "t/ha"^^xsd:string ; + ns1:ucumCode "t.har-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Millibar Litre Per Second"@en, - "Millibar Liter Per Second"@en-us ; - dcterms:description "product out of the 0.001-fold of the unit bar and the unit litre divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "metric tonne per hectare"@en ; + dcterms:description "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; ns1:conversionMultiplier 0.1 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA813"^^xsd:string ; - ns1:plainTextDescription "product out of the 0.001-fold of the unit bar and the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "mbar⋅L/s"^^xsd:string ; - ns1:ucumCode "mbar.L.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F95"^^xsd:string ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "A measure of density equivalent to 1000kg per hectare or one Megagram per hectare, typically used to express a volume of biomass or crop yield."^^xsd:string ; + ns1:symbol "t/ha"^^xsd:string ; + ns1:ucumCode "t.har-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Watt per Square Metre Kelvin"@en, + "Watt per Square Meter Kelvin"@en-us ; + dcterms:description "\\(\\textbf{Watt Per Square Meter Per Kelvin }(\\(W m^{-2} K^{-1}\\)) is a unit in the category of Thermal heat transfer coefficient. It is also known as watt/square meter-kelvin. This unit is commonly used in the SI unit system. Watt Per Square Meter Per Kelvin (\\(W m^{-2} K^{-1}\\)) has a dimension of \\(MT^{-1}Q^{-1}\\) where \\(M\\) is mass, \\(T\\) is time, and \\(Q\\) is temperature. This unit is the standard SI unit in this category."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(W/(m^{2}-K)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA311"^^xsd:string ; + ns1:symbol "W/(m²⋅K)"^^xsd:string ; + ns1:ucumCode "W.m-2.K-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D55"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millibar Cubic Metre Per Second"@en, - "Millibar Cubic Meter Per Second"@en-us ; - dcterms:description "product of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 100.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA327"^^xsd:string ; - ns1:plainTextDescription "product of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "mbar⋅m³/s"^^xsd:string ; - ns1:ucumCode "mbar.m3.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F96"^^xsd:string ; - rdfs:isDefinedBy . +ns3:objectValue a owl:ObjectProperty ; + rdfs:label "object value"^^xsd:string ; + dcterms:description """ +The property "dtype:objectValue" is a general property for specifying an object value in situations where +none is specified. +"""^^xsd:string ; + rdfs:isDefinedBy . + +ns2:Party a owl:Class ; + rdfs:label "Party"^^xsd:string ; + dcterms:description "A \"Party\" is a generalization for an actor that may be realized as a person, organizaiton or named role."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:url ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns2:name ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:url ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:id ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns2:name ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:id ], + owl:Thing . + +ns2:QUDT a ns2:Party ; + rdfs:label "QUDT"^^xsd:string ; + dcterms:description "QUDT is a non-profit organization that governs the QUDT ontologies."^^rdf:HTML ; + ns2:graphName "qudt.org"^^xsd:string ; + ns2:website "http://www.qudt.org"^^xsd:anyURI ; + rdfs:isDefinedBy . + +skos:broader a rdf:Property, + owl:ObjectProperty ; + rdfs:label "has broader"@en ; + rdfs:comment "Broader concepts are typically rendered as parents in a concept hierarchy (tree)."@en ; + rdfs:isDefinedBy ; + rdfs:subPropertyOf skos:broaderTransitive ; + owl:inverseOf skos:narrower ; + skos:definition "Relates a concept to a concept that is more general in meaning."@en ; + skos:scopeNote "By convention, skos:broader is only used to assert an immediate (i.e. direct) hierarchical link between two conceptual resources."@en . + +skos:note a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "note"@en ; + rdfs:isDefinedBy ; + skos:definition "A general note, for any purpose."@en ; + skos:scopeNote "This property may be used directly, or as a super-property for more specific note types."@en . + +sh:Literal a sh:NodeKind ; + rdfs:label "Literal"@en ; + rdfs:comment "The node kind of all literals."@en ; + rdfs:isDefinedBy sh: . + +s223:EnumerationKind-Numerical a s223:Class, + s223:EnumerationKind-Numerical, + sh:NodeShape ; + rdfs:label "EnumerationKind Numerical"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "Numerical enumeration kinds are used to support the definitions of the Electricity medium. The enumerations instances in these classes have names that are recognizable by humans but are just a string for a computer application. To avoid the need to parse strings, each of these enumeration kinds have properties associated with the enumeration that represent electrical phase, voltage, and frequency. The purpose of these properties is to enable a machine to query them and obtain the same information that a person would associate with the sting"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind ; + sh:property [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:class ns1:QuantityKind ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "An EnumerationKind-Numerical can be associated with a decimal value using the relation hasValue."^^xsd:string ; + sh:datatype xsd:decimal ; + sh:path s223:hasValue ], + [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one Unit using the relation hasUnit."^^xsd:string ; + sh:class ns1:Unit ; + sh:minCount 1 ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ], + [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:class ns1:QuantityKind ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "An EnumerationKind-Numerical must be associated with at least one Unit using the relation hasUnit."^^xsd:string ; + sh:class ns1:Unit ; + sh:minCount 1 ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ], + [ rdfs:comment "An EnumerationKind-Numerical can be associated with a decimal value using the relation hasValue."^^xsd:string ; + sh:datatype xsd:decimal ; + sh:path s223:hasValue ] . + +s223:EnumerationKind-Speed a s223:Class, + s223:EnumerationKind-Speed, + sh:NodeShape ; + rdfs:label "Speed"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of speed settings of High, Medium, Low (plus Off)."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . + +s223:Fan a s223:Class, + sh:NodeShape ; + rdfs:label "Fan"^^xsd:string ; + rdfs:comment "A machine used to create flow within a gas such as air. "^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:property [ rdfs:comment "A Fan shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A Fan shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Fan shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A Fan shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Fan shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A Fan shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A Fan shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A Fan shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + +s223:Fluid-Refrigerant a s223:Class, + s223:Fluid-Refrigerant, + sh:NodeShape ; + rdfs:label "Fluid-Refrigerant"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of commonly used refrigerants."^^xsd:string ; + rdfs:subClassOf s223:Mix-Fluid . + +s223:Function a s223:Class, + sh:NodeShape ; + rdfs:label "Function"^^xsd:string ; + rdfs:comment "A Function is used to model transfer and/or transformation of information (i.e. Property). It has relations to input Properties and output Properties. The actual algorithms that perform the transformations are described in CDL and are out of scope of the 223 standard."^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; + sh:path s223:hasInput ], + [ rdfs:comment "If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; + sh:path s223:hasOutput ], + [ rdfs:comment "If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasOutput is present it must associate a Function with a Property."^^xsd:string ; + sh:path s223:hasOutput ], + [ rdfs:comment "If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasInput is present it must associate a Function with a Property."^^xsd:string ; + sh:path s223:hasInput ] . + +s223:HeatPump a s223:Class, + sh:NodeShape ; + rdfs:label "Heat pump"^^xsd:string, + "HeatPump"^^xsd:string ; + rdfs:comment "A device that can heat or cool by transferring thermal energy using a reversible refrigeration cycle."^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:property [ rdfs:comment "A HeatPump shall have at least one inlet using the medium Air."^^xsd:string ; + sh:message "s223: A HeatPump shall have at least one inlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:InletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ], + [ rdfs:comment "A HeatPump shall have at least one outlet using the medium Air."^^xsd:string ; + sh:message "s223: A HeatPump shall have at least one outlet using the medium Air."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasConnectionPoint ; + sh:qualifiedMinCount 1 ; + sh:qualifiedValueShape [ sh:class s223:OutletConnectionPoint ; + sh:node [ sh:property [ sh:class s223:Fluid-Air ; + sh:path s223:hasMedium ] ] ] ] . + +s223:LineNeutralVoltage-120V a s223:Class, + s223:LineNeutralVoltage-120V, + sh:NodeShape ; + rdfs:label "120V Line-Neutral Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-120V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "120V Line-Neutral Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineNeutralVoltage . + +s223:Medium-Constituent a s223:Class, + s223:Medium-Constituent, + sh:NodeShape ; + rdfs:label "Medium-Constituent"^^xsd:string ; + rdfs:comment "Medium-Constituent"^^xsd:string ; + rdfs:subClassOf s223:Substance-Medium . + +s223:Signal-Ethernet a s223:Class, + s223:Signal-Ethernet, + sh:NodeShape ; + rdfs:label "Signal Ethernet"^^xsd:string ; + rdfs:comment "Signal Ethernet"^^xsd:string ; + rdfs:subClassOf s223:Electricity-Signal . + +s223:Valve a s223:Class, + sh:NodeShape ; + rdfs:label "Valve"^^xsd:string ; + rdfs:comment "A device to regulate or stop the flow of fluid in a pipe or a duct by throttling."^^xsd:string ; + rdfs:subClassOf s223:Equipment . + +s223:connectedFrom a rdf:Property ; + rdfs:label "connected from"^^xsd:string ; + s223:inverseOf s223:connectedTo ; + rdfs:comment "The relation connectedFrom indicates that connectable things are connected with a specific flow direction. B is connectedFrom A, means a directionality beginning at A and ending at B. The inverse direction is indicated by connectedTo (see `s223:connectedTo`)."^^xsd:string ; + rdfs:domain s223:Equipment . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A-1E0L3I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance -1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^3 N^-1$"^^ns1:LatexString, + "\\(L^3 N^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-3I0M1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millijoule Per Gram"@en ; - dcterms:description "The 0.001-fold of the SI base unit joule divided by the 0.001-fold of the SI base unit kilogram."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA174"^^xsd:string ; - ns1:plainTextDescription "The 0.001-fold of the SI base unit joule divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "mJ/g"^^xsd:string ; - ns1:ucumCode "mJ.g-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M-1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "millimoles per litre"@en, - "millimoles per litre"@en-us ; - dcterms:description "The SI derived unit for amount-of-substance concentration is the mmo/L."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(mmo/L\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:symbol "mmol/L"^^xsd:string ; - ns1:ucumCode "mmol.L-1"^^ns1:UCUMcs, - "mmol/L"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M33"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L1I0M1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L M$"^^ns1:LatexString, + "\\(L M\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millivolt"@en ; - dcterms:description "0,001-fold of the SI derived unit volt"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA804"^^xsd:string ; - ns1:plainTextDescription "0,001-fold of the SI derived unit volt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mV"^^xsd:string ; - ns1:ucumCode "mV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2Z"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L4I0M1H0T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 4 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^4 M T^-3$"^^ns1:LatexString, + "\\(L^4 M T^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Newton Metre Per Kilogram"@en, - "Newton Meter Per Kilogram"@en-us ; - dcterms:description "product of the derived SI unit newton and the SI base unit metre divided by the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB490"^^xsd:string ; - ns1:plainTextDescription "product of the derived SI unit newton and the SI base unit metre divided by the SI base unit kilogram"^^xsd:string ; - ns1:symbol "N⋅m/kg"^^xsd:string ; - ns1:ucumCode "N.m.kg-1"^^ns1:UCUMcs ; - ns1:udunitsCode "gp"^^xsd:string ; - ns1:uneceCommonCode "G19"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:ISO-DimensionVector, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L0I0M-1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind , + ; + ns1:latexDefinition "$I M^{-1}$"^^ns1:LatexString ; + rdfs:isDefinedBy , + . - a ns1:Unit ; - rdfs:label "Pascal Litre Per Second"@en, - "Pascal Liter Per Second"@en-us ; - dcterms:description "product out of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA261"^^xsd:string ; - ns1:plainTextDescription "product out of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "Pa⋅L/s"^^xsd:string ; - ns1:ucumCode "Pa.L.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F99"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L2I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 I$"^^ns1:LatexString, + "\\(L^2 I\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pascal Cubic Metre Per Second"@en, - "Pascal Cubic Meter Per Second"@en-us ; - dcterms:description "product out of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA264"^^xsd:string ; - ns1:plainTextDescription "product out of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; - ns1:symbol "Pa⋅m³/s"^^xsd:string ; - ns1:ucumCode "Pa.m3.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G01"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Centi"@en ; + dcterms:description "'centi' is a decimal prefix for expressing a value with a scaling of \\(10^{-2}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Centi-"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Centi-?oldid=480291808"^^xsd:anyURI ; + ns1:prefixMultiplier 1e-02 ; + ns1:siExactMatch ; + ns1:symbol "c"^^xsd:string ; + ns1:ucumCode "c"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Kelvin"@en ; - dcterms:description "Per Kelvin Unit is a denominator unit with dimensions \\(/k\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(/K\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:symbol "/K"^^xsd:string ; - ns1:ucumCode "K-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C91"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Deca"@en ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Deca"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:prefixMultiplier 1e+01 ; + ns1:siExactMatch ; + ns1:symbol "da"^^xsd:string ; + ns1:ucumCode "da"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Tesla Second Unit"@en ; - dcterms:description "Per Tesla Second Unit is a denominator unit with dimensions \\(/s . T\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(/s . T\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/T⋅s"^^xsd:string ; - ns1:ucumCode "T-1.s-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Deci"@en ; + dcterms:description "\"deci\" is a decimal prefix for expressing a value with a scaling of \\(10^{-1}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Deci-"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Deci-?oldid=469980160"^^xsd:anyURI ; + ns1:prefixMultiplier 1e-01 ; + ns1:siExactMatch ; + ns1:symbol "d"^^xsd:string ; + ns1:ucumCode "d"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Psi Cubic Inch Per Second"@en ; - dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic inch per second)"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.1129848 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA703"^^xsd:string ; - ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic inch per second)"^^xsd:string ; - ns1:symbol "psi⋅in³/s"^^xsd:string ; - ns1:ucumCode "[psi].[cin_i].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K87"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Tera"@en ; + dcterms:description "'tera' is a decimal prefix for expressing a value with a scaling of \\(10^{12}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Tera"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Tera?oldid=494204788"^^xsd:anyURI ; + ns1:prefixMultiplier 1e+12 ; + ns1:siExactMatch ; + ns1:symbol "T"^^xsd:string ; + ns1:ucumCode "T"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Psi Litre Per Second"@en, - "Psi Liter Per Second"@en-us ; - dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (litre per second)"^^rdf:HTML ; - ns1:conversionMultiplier 6.894757 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA704"^^xsd:string ; - ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (litre per second)"^^xsd:string ; - ns1:symbol "psi⋅L³/s"^^xsd:string ; - ns1:ucumCode "[psi].L.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K88"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "نبضة دفعية زاوية"@ar, + "Drehstoß"@de, + "angular impulse"@en, + "impulso angular"@es, + "impulsion angulaire"@fr, + "impulso angolare"@it, + "角力積"@ja, + "popęd kątowy"@pl, + "impulsão angular"@pt, + "角冲量;冲量矩"@zh ; + dcterms:description "The Angular Impulse, also known as angular momentum, is the moment of linear momentum around a point. It is defined as$H = \\int Mdt$, where $M$ is the moment of force and $t$ is time."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/AngularMomentum"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://emweb.unl.edu/NEGAHBAN/EM373/note13/note.htm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:symbol "H"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularImpulse"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "Drehmomentstoß"@de . - a ns1:Unit ; - rdfs:label "PSI Cubic Metre Per Second"@en, - "PSI Cubic Meter Per Second"@en-us ; - dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic metre per second)"^^rdf:HTML ; - ns1:conversionMultiplier 6894.757 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA705"^^xsd:string ; - ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic metre per second)"^^xsd:string ; - ns1:symbol "psi⋅m³/s"^^xsd:string ; - ns1:ucumCode "[psi].m3.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K89"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Angular Reciprocal Lattice Vector"@en ; + dcterms:description "\"Angular Reciprocal Lattice Vector\" is a vector whose scalar products with all fundamental lattice vectors are integral multiples of $2\\pi$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.matter.org.uk/diffraction/geometry/lattice_vectors.htm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ; + ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularReciprocalLatticeVector"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Psi Cubic Yard Per Second"@en ; - dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the square inch) and the composed unit for volume flow (cubic yard per second)"^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 5271.42 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA706"^^xsd:string ; - ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the square inch) and the composed unit for volume flow (cubic yard per second)"^^xsd:string ; - ns1:symbol "psi⋅yd³/s"^^xsd:string ; - ns1:ucumCode "[psi].[cyd_i].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K90"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Attenuation Coefficient"@en ; + dcterms:description "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^ns1:LatexString, + "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ; + ns1:latexDefinition "$F(x) = Ae^{-\\alpha x} \\cos{[\\beta (x - x_0)]}$, then $\\alpha$ is the attenuation coefficient and $\\beta$ is the phase coefficient."^^ns1:LatexString ; + ns1:latexSymbol "$\\alpha$"^^ns1:LatexString ; + ns1:plainTextDescription "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^xsd:string ; + ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AttenuationCoefficient"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Power"@en ; - dcterms:description "The Planck energy divided by the Planck time is the Planck power \\(P_p \\), equal to about \\(3.62831 \\times 10^{52} W\\). This is an extremely large unit; even gamma-ray bursts, the most luminous phenomena known, have output on the order of \\(1 \\times 10^{45} W\\), less than one ten-millionth of the Planck power."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3.62831e+52 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_power"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_power?oldid=493642483"^^xsd:anyURI ; - ns1:latexDefinition "\\(P_p = {\\frac{ c^5}{G}}\\), where \\(c\\) is the speed of light in a vacuum, and \\(G\\) is the gravitational constant."^^ns1:LatexString ; - ns1:symbol "planckpower"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Concentration"@en ; + dcterms:description "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^ns1:LatexString, + "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Concentration"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Concentration"^^xsd:anyURI ; + ns1:plainTextDescription "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Volt"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.04295e+27 ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:symbol "Vₚ"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Electric Charge Volume Density"@en ; + dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively. The respective SI units are $C \\cdot m^{-1}$, $C \\cdot m^{-2}$ or $C \\cdot m^{-3}$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI ; + ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargeVolumeDensity"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Abtesla"@en ; - dcterms:description "The unit of magnetic induction in the cgs system, \\(10^{-4}\\,tesla\\). Also known as the gauss."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0001 ; - ns1:derivedUnitOfSystem ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://www.diracdelta.co.uk/science/source/g/a/gauss/source.html"^^xsd:anyURI ; - ns1:symbol "abT"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "elektrische Leitfähigkeit"@de, + "electric conductivity"@en, + "conductividad eléctrica"@es, + "رسانايى الکتريکى/هدایت الکتریکی"@fa, + "conductivité électrique"@fr, + "conducibilità elettrica"@it, + "Kekonduksian elektrik"@ms, + "condutividade elétrica"@pt, + "električna prevodnost"@sl, + "elektrik iletkenliği"@tr, + "电导率"@zh ; + dcterms:description """ + The quantity kind $\\textit{Electric Conductivity}$ or $\\textit{Specific Conductance}$ is a measure of a material's ability to conduct an electric current. + When an electrical potential difference is placed across a conductor, its movable charges flow, giving rise to an electric current. + The conductivity $\\sigma$ is defined as the ratio of the electric current density $J$ to the electric field, $E$: $J = \\sigma E$. + In isotropic materials, conductivity is scalar-valued, however in general, conductivity is a tensor-valued quantity. + """^^ns1:LatexString, + "\"Electric Conductivity} or \\textit{Specific Conductance\" is a measure of a material's ability to conduct an electric current. When an electrical potential difference is placed across a conductor, its movable charges flow, giving rise to an electric current. The conductivity $\\sigma$ is defined as the ratio of the electric current density $J$ to the electric field $E$: $J = \\sigma E$. In isotropic materials, conductivity is scalar-valued, however in general, conductivity is a tensor-valued quantity."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ElectricConductivity"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "إزاحة كهربائية"@ar, + "Elektrická indukce"@cs, + "elektrische Flussdichte"@de, + "electric flux density"@en, + "Densidad de flujo eléctrico"@es, + "چگالی شار الکتریکی"@fa, + "Induction électrique"@fr, + "spostamento elettrico"@it, + "電束密度"@ja, + "Ketumpatan fluks elektrik"@ms, + "Indukcja elektryczna"@pl, + "campo de deslocamento elétrico"@pt, + "Inducție electrică"@ro, + "Электрическая индукция"@ru, + "elektrik akı yoğunluğu"@tr, + "電位移"@zh ; + dcterms:description "$\\textit{Electric Flux Density}$, also referred to as $\\textit{Electric Displacement}$, is related to electric charge density by the following equation: $\\text{div} \\; D = \\rho$, where $\\text{div}$ denotes the divergence."^^ns1:LatexString, + "\\(\\textbf{Electric Flux Density}\\), also referred to as \\(\\textit{Electric Displacement}\\), is related to electric charge density by the following equation: \\(\\text{div} \\; D = \\rho\\), where \\(\\text{div}\\) denotes the divergence."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Electric_flux"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD043"^^xsd:string ; + ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$\\mathbf{D} = \\epsilon_0 E + P$, where $\\epsilon_0$ is the electric constant, $\\mathbf{E} $ is electric field strength, and $P$ is electric polarization."^^ns1:LatexString ; + ns1:latexSymbol "$\\mathbf{D}$"^^ns1:LatexString ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "elektrische Induktion"@de, + "elektrische Verschiebung"@de, + "displacement"@en, + "densité de flux électrique"@fr, + "induzione elettrica"@it, + "anjakan"@ms, + "yer değiştirme"@tr ; + skos:broader . - a ns1:Unit ; - rdfs:label "Abvolt"@en ; - dcterms:description "A unit of electrical potential equal to one hundred millionth of a volt (\\(10^{-8}\\,volts\\)), used in the centimeter-gram-second (CGS) system of units. One abV is the potential difference that exists between two points when the work done to transfer one abcoulomb of charge between them equals: \\(1\\,erg\\cdot\\,1\\,abV\\,=\\,10\\,nV\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1e-08 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Abvolt"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Abvolt?oldid=477198646"^^xsd:anyURI, - "http://www.lexic.us/definition-of/abvolt"^^xsd:anyURI, - "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-27"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "abV"^^xsd:string ; - ns1:ucumCode "10.nV"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Permeability"@en ; + dcterms:description """ + $\\textit{Permeability}$ is the degree of magnetization of a material that responds linearly to an applied magnetic field. + In general permeability is a tensor-valued quantity. + The definition given applies to an isotropic medium. + For an anisotropic medium permeability is a second order tensor. + In electromagnetism, permeability is the measure of the ability of a material to support the formation of a magnetic field within itself. + In other words, it is the degree of magnetization that a material obtains in response to an applied magnetic field. + Magnetic permeability is typically represented by the Greek letter $\\mu$. + The term was coined in September, 1885 by Oliver Heaviside. + The reciprocal of magnetic permeability is $\\textit{Magnetic Reluctivity}$. + """^^ns1:LatexString, + "\"Permeability} is the degree of magnetization of a material that responds linearly to an applied magnetic field. In general permeability is a tensor-valued quantity. The definition given applies to an isotropic medium. For an anisotropic medium permeability is a second order tensor. In electromagnetism, permeability is the measure of the ability of a material to support the formation of a magnetic field within itself. In other words, it is the degree of magnetization that a material obtains in response to an applied magnetic field. Magnetic permeability is typically represented by the Greek letter $\\mu$. The term was coined in September, 1885 by Oliver Heaviside. The reciprocal of magnetic permeability is \\textit{Magnetic Reluctivity\"."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Permeability"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Permeability_(electromagnetism)"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$\\mu = \\frac{B}{H}$, where $B$ is magnetic flux density, and $H$ is magnetic field strength."^^ns1:LatexString ; + ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ElectromagneticPermeability"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + . - a ns1:Unit ; - rdfs:label "Statvolt"@en ; - dcterms:description "\"statvolt\" is a unit of voltage and electrical potential used in the cgs system of units. The conversion to the SI system is \\(1 statvolt = 299.792458 volts\\). The conversion factor 299.792458 is simply the numerical value of the speed of light in m/s divided by 106. The statvolt is also defined in the cgs system as \\(1 erg / esu\\). It is a useful unit for electromagnetism because one statvolt per centimetre is equal in magnitude to one gauss. Thus, for example, an electric field of one statvolt/cm has the same energy density as a magnetic field of one gauss. Likewise, a plane wave propagating in a vacuum has perpendicular electric and magnetic fields such that for every gauss of magnetic field intensity there is one statvolt/cm of electric field intensity. The abvolt is another option for a unit of voltage in the cgs system."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 299.792458 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Statvolt"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Statvolt"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Statvolt?oldid=491769750"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "statV"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Expansion Ratio"@en ; + ns1:applicableUnit , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ExpansionRatio"^^xsd:string ; + rdfs:isDefinedBy . -ns2:VocabularyGraph a ns2:GraphRole ; - rdfs:label "Vocabulary graph"^^xsd:string ; - dcterms:description "An RDF/OWL Graph that is a controlled set of instances."^^xsd:string ; - ns2:filePrefix "VOCAB"^^xsd:string ; - rdfs:isDefinedBy , - . + a ns1:QuantityKind ; + rdfs:label "Impedance"@en ; + dcterms:description "\"Impedance\" is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is the complex ratio of the voltage to the current in an alternating current (AC) circuit. Impedance extends the concept of resistance to AC circuits, and possesses both magnitude and phase, unlike resistance, which has only magnitude. When a circuit is driven with direct current (DC), there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle."^^ns1:LatexString, + "\"Impedance\" is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is the complex ratio of the voltage to the current in an alternating current (AC) circuit. Impedance extends the concept of resistance to AC circuits, and possesses both magnitude and phase, unlike resistance, which has only magnitude. When a circuit is driven with direct current (DC), there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Electrical_impedance"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Electrical_impedance"^^xsd:anyURI, + "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-43"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:latexDefinition "$\\underline{Z} = \\underline{U} / \\underline{I}$, where $\\underline{U}$ is the voltage phasor and $\\underline{I}$ is the electric current phasor."^^ns1:LatexString ; + ns1:latexSymbol "$\\underline{Z}$"^^ns1:LatexString ; + ns1:plainTextDescription "\"Impedance\" is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is the complex ratio of the voltage to the current in an alternating current (AC) circuit. Impedance extends the concept of resistance to AC circuits, and possesses both magnitude and phase, unlike resistance, which has only magnitude. When a circuit is driven with direct current (DC), there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Impedance"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + . -skos:Concept a owl:Class ; - rdfs:label "Concept"@en ; - rdfs:isDefinedBy ; - skos:definition "An idea or notion; a unit of thought."@en . + a ns1:QuantityKind ; + rdfs:label "Incidence"@en ; + dcterms:description "In epidemiology, incidence is a measure of the probability of occurrence of a given medical condition in a population within a specified period of time."^^ns1:LatexString, + "In epidemiology, incidence is a measure of the probability of occurrence of a given medical condition in a population within a specified period of time."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD064"^^xsd:string ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Incidence_(epidemiology)"^^xsd:anyURI ; + ns1:plainTextDescription "In epidemiology, incidence is a measure of the probability of occurrence of a given medical condition in a population within a specified period of time."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:Incidence"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . -sh:IRI a sh:NodeKind ; - rdfs:label "IRI"@en ; - rdfs:comment "The node kind of all IRIs."@en ; - rdfs:isDefinedBy sh: . + a ns1:QuantityKind ; + rdfs:label "Internal Energy"@en ; + dcterms:description "\"Internal Energy\" is simply its energy. \"internal\" refers to the fact that some energy contributions are not considered. For instance, when the total system is in uniform motion, it has kinetic energy. This overall kinetic energy is never seen as part of the internal energy; one could call it external energy. Or, if the system is at constant non-zero height above the surface the Earth, it has constant potential energy in the gravitational field of the Earth. Gravitational energy is only taken into account when it plays a role in the phenomenon of interest, for instance in a colloidal suspension, where the gravitation influences the up- downward motion of the small particles comprising the colloid. In all other cases, gravitational energy is assumed not to contribute to the internal energy; one may call it again external energy."^^ns1:LatexString, + "\"Internal Energy\" is simply its energy. \"internal\" refers to the fact that some energy contributions are not considered. For instance, when the total system is in uniform motion, it has kinetic energy. This overall kinetic energy is never seen as part of the internal energy; one could call it external energy. Or, if the system is at constant non-zero height above the surface the Earth, it has constant potential energy in the gravitational field of the Earth. Gravitational energy is only taken into account when it plays a role in the phenomenon of interest, for instance in a colloidal suspension, where the gravitation influences the up- downward motion of the small particles comprising the colloid. In all other cases, gravitational energy is assumed not to contribute to the internal energy; one may call it again external energy."^^rdf:HTML ; + ns1:abbreviation "int-energy"^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Internal_energy"^^xsd:anyURI ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.citizendium.org/wiki/Internal_energy"^^xsd:anyURI ; + ns1:latexDefinition "For a closed thermodynamic system, $\\Delta U = Q + W$, where $Q$ is amount of heat transferred to the system and $W$ is work done on the system provided that no chemical reactions occur."^^ns1:LatexString ; + ns1:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:plainTextDescription "\"Internal Energy\" is simply its energy. \"internal\" refers to the fact that some energy contributions are not considered. For instance, when the total system is in uniform motion, it has kinetic energy. This overall kinetic energy is never seen as part of the internal energy; one could call it external energy. Or, if the system is at constant non-zero height above the surface the Earth, it has constant potential energy in the gravitational field of the Earth. Gravitational energy is only taken into account when it plays a role in the phenomenon of interest, for instance in a colloidal suspension, where the gravitation influences the up- downward motion of the small particles comprising the colloid. In all other cases, gravitational energy is assumed not to contribute to the internal energy; one may call it again external energy."^^xsd:string ; + ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + ; + skos:broader . -s223:EnumerationKind-Binary a s223:Class, - s223:EnumerationKind-Binary, - sh:NodeShape ; - rdfs:label "EnumerationKind Binary"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of True, False and Unknown used to describe the possible values of a binary property"^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . + a ns1:QuantityKind ; + rdfs:label "Molar Energy"@en ; + dcterms:description "\"Molar Energy\" is the total energy contained by a thermodynamic system. The unit is $$J/mol$$, also expressed as $$joule/mole$$, or $$joules per mole$$. This unit is commonly used in the SI unit system. The quantity has the dimension of $$M \\cdot L^2 \\cdot T^{-2} \\cdot N^{-1}$$ where $$M$$ is mass, $$L$$ is length, $$T$$ is time, and $$N$$ is amount of substance."^^ns1:LatexString, + "\"Molar Energy\" is the total energy contained by a thermodynamic system. The unit is \\(J/mol\\), also expressed as \\(joule/mole\\), or \\(joules per mole\\). This unit is commonly used in the SI unit system. The quantity has the dimension of \\(M \\cdot L^2 \\cdot T^{-2} \\cdot N^{-1}\\) where \\(M\\) is mass, \\(L\\) is length, \\(T\\) is time, and \\(N\\) is amount of substance."^^ns1:LatexString ; + ns1:applicableUnit , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.efunda.com/glossary/units/units-molar_energy-joule_per_mole.cfm"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$U_m = \\frac{U}{n}$, where $U$ is internal energy and $n$ is amount of substance."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "U_M"^^xsd:string ; + ns2:todo "dimensions are wrong"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarEnergy"^^xsd:string ; + rdfs:isDefinedBy . -s223:Substance-Medium a s223:Class, - s223:Substance-Medium, - sh:NodeShape ; - rdfs:label "Medium"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of a physical substance or anything that allows for the transfer of energy or information."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Substance . + a ns1:QuantityKind ; + rdfs:label "Quantum Number"@en ; + dcterms:description "The \"Quantum Number\" describes values of conserved quantities in the dynamics of the quantum system. Perhaps the most peculiar aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of integers or half-integers."^^ns1:LatexString, + "The \"Quantum Number\" describes values of conserved quantities in the dynamics of the quantum system. Perhaps the most peculiar aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of integers or half-integers."^^rdf:HTML ; + ns1:applicableUnit ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Quantum_number"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:plainTextDescription "The \"Quantum Number\" describes values of conserved quantities in the dynamics of the quantum system. Perhaps the most peculiar aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of integers or half-integers."^^xsd:string ; + ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:QuantumNumber"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . -s223:composedOf a rdf:Property ; - rdfs:label "composed of"^^xsd:string ; - rdfs:comment "The relation composedOf is used to indicate what substances constitute a material. Allowable values are instances of Property that in turn identify constituents defined in Medium-Constituent (see `s223:Medium-Constituent`) via the relation ofConstituent."^^xsd:string . + a ns1:QuantityKind ; + rdfs:label "Specific Enthalpy"@en ; + dcterms:description "$\\textit{Specific Enthalpy}$ is enthalpy per mass of substance involved. Specific enthalpy is denoted by a lower case h, with dimension of energy per mass (SI unit: joule/kg). In thermodynamics, $\\textit{enthalpy}$ is the sum of the internal energy U and the product of pressure p and volume V of a system: $H = U + pV$. The internal energy U and the work term pV have dimension of energy, in SI units this is joule; the extensive (linear in size) quantity H has the same dimension."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Entropy"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$h = H/m$, where $H$ is enthalpy and $m$ is mass."^^ns1:LatexString ; + ns1:symbol "h"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + , + , + , + ; + skos:broader . -s223:contains a rdf:Property ; - rdfs:label "contains"^^xsd:string ; - rdfs:comment "The relation contains is used to associate a PhysicalSpace with its component PhysicalSpaces or a piece of Equipment with its component pieces of Equipment."^^xsd:string . + a ns1:QuantityKind ; + rdfs:label "Specific Gibbs Energy"@en ; + dcterms:description """ + $\\textit{Specific Gibbs Energy}$ is a "corresponding intensive property", + which is $\\textit{Gibbs Energy}$ per mass of substance involved. + Energy has corresponding intensive (size-independent) properties for pure materials. + $\\textit{Specific Gibbs Energy}$ is denoted by a lower case $g$, + with dimension of energy per mass (SI unit: $joule/kg$). + """^^ns1:LatexString, + "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is \"Specific Gibbs Energy}, which is \\textit{Gibbs Energy} per mass of substance involved. \\textit{Specific Gibbs Energy\" is denoted by a lower case g, with dimension of energy per mass (SI unit: joule/kg)."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$g = G/m$, where $G$ is Gibbs energy and $m$ is mass."^^ns1:LatexString ; + ns1:plainTextDescription "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is \"Specific Gibbs Energy}, which is $\\textit{Gibbs Energy} per mass of substance involved. $\\textit{Specific Gibbs Energy\" is denoted by a lower case g, with dimension of energy per mass (SI unit: joule/kg)."^^xsd:string, + "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is \"Specific Gibbs Energy}, which is \\textit{Gibbs Energy} per mass of substance involved. \\textit{Specific Gibbs Energy\" is denoted by a lower case g, with dimension of energy per mass (SI unit: joule/kg)."^^xsd:string ; + ns1:symbol "g"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + , + , + ; + skos:broader . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A-1E0L2I0M1H-1T-2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance -1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature -1 ; - ns1:dimensionExponentForTime -2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-2 Θ^-1 N^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Specific Helmholtz Energy"@en ; + dcterms:description """ + $\\textit{Specific Helmholtz Energy}$ is a "corresponding intensive property", + which is $\\textit{Helmholz Energy}$ per mass of substance involved. + Energy has corresponding intensive (size-independent) properties for pure materials. + $\\textit{Specific Helmholz Energy}$ is denoted by a lower case $u$, + with dimension of energy per mass (SI unit: $joule/kg$). + """^^ns1:LatexString, + "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is $\\textit{Specific Helmholtz Energy}$, which is $\\textit{Helmholz Energy}$ per mass of substance involved.$ \\textit{Specific Helmholz Energy}$ is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$a = A/m$, where $A$ is Helmholtz energy and $m$ is mass."^^ns1:LatexString ; + ns1:symbol "a"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + , + , + ; + skos:broader . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-2L1I0M1H0T-2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent -2 ; - ns1:dimensionExponentForLength 1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M T^-2 I^-2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Specific Internal Energy"@en ; + dcterms:description "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is specific internal energy, which is energy per mass of substance involved. Specific internal energy is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^ns1:LatexString, + "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is specific internal energy, which is energy per mass of substance involved. Specific internal energy is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD173"^^xsd:string ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; + ns1:latexDefinition "$u = U/m$, where $U$ is thermodynamic energy and $m$ is mass."^^ns1:LatexString ; + ns1:plainTextDescription "Energy has corresponding intensive (size-independent) properties for pure materials. A corresponding intensive property is specific internal energy, which is energy per mass of substance involved. Specific internal energy is denoted by a lower case u, with dimension of energy per mass (SI unit: joule/kg)."^^xsd:string ; + ns1:symbol "u"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + , + , + , + ; + skos:broader . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M-1H1T3D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 3 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M^-1 T^3 Θ\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Specific Power"@en ; + dcterms:description "Specific power, also known as power-to-weight ratio, is the amount of power output per unit mass of the power source. It is generally used to measure the performance of that power source. The higher the ratio, the more power a system produces relative to its weight. It's commonly used in the automotive and aerospace industries to compare the performance of different engines. It's generally measured in watts per kilogram (W/kg) or horsepower per pound (hp/lb)."^^ns1:LatexString, + "Specific power, also known as power-to-weight ratio, is the amount of power output per unit mass of the power source. It is generally used to measure the performance of that power source. The higher the ratio, the more power a system produces relative to its weight. It's commonly used in the automotive and aerospace industries to compare the performance of different engines. It's generally measured in watts per kilogram (W/kg) or horsepower per pound (hp/lb)."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Power-to-weight_ratio"^^xsd:anyURI ; + ns1:plainTextDescription "Specific power, also known as power-to-weight ratio, is the amount of power output per unit mass of the power source. It is generally used to measure the performance of that power source. The higher the ratio, the more power a system produces relative to its weight. It's commonly used in the automotive and aerospace industries to compare the performance of different engines. It's generally measured in watts per kilogram (W/kg) or horsepower per pound (hp/lb)."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificPower"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "Power-to-Weight Ratio"@en . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H0T-2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(U T^-2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Volume Thermal Expansion"@en ; + dcterms:description """When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L2I0M0H0T1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . +Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L3I0M0H-1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature -1 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 Θ^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + * linear thermal expansion + * area thermal expansion + * volumetric thermal expansion - a ns1:QuantityKind ; - rdfs:label "Complex Power"@en ; - dcterms:description "\"Complex Power\", under sinusoidal conditions, is the product of the phasor $U$ representing the voltage between the terminals of a linear two-terminal element or two-terminal circuit and the complex conjugate of the phasor $I$ representing the electric current in the element or circuit."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - ; - ns1:expression "$complex-power$"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-11-39"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$\\underline{S} = \\underline{U}\\underline{I^*}$, where $\\underline{U}$ is voltage phasor and $\\underline{I^*}$ is the complex conjugate of the current phasor."^^ns1:LatexString ; - ns1:latexSymbol "$\\underline{S}$"^^ns1:LatexString ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - ; - skos:broader . +These characteristics are closely related. The volumetric thermal expansion coefficient can be defined for both liquids and solids. The linear thermal expansion can only be defined for solids, and is common in engineering applications. + +Some substances expand when cooled, such as freezing water, so they have negative thermal expansion coefficients. [Wikipedia]"""^^xsd:string ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription """When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. - a ns1:QuantityKind ; - rdfs:label "Dry Volume"@en ; - dcterms:description "Dry measures are units of volume used to measure bulk commodities which are not gas or liquid. They are typically used in agriculture, agronomy, and commodity markets to measure grain, dried beans, and dried and fresh fruit; formerly also salt pork and fish. They are also used in fishing for clams, crabs, etc. and formerly for many other substances (for example coal, cement, lime) which were typically shipped and delivered in a standardized container such as a barrel. In the original metric system, the unit of dry volume was the stere, but this is not part of the modern metric system; the liter and the cubic meter ($m^{3}$) are now used. However, the stere is still widely used for firewood."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Dry_measure"^^xsd:anyURI ; - rdfs:isDefinedBy ; - skos:broader . +Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: - a ns1:QuantityKind ; - rdfs:label "Force Per Area Time"@en ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + * linear thermal expansion + * area thermal expansion + * volumetric thermal expansion - a ns1:QuantityKind ; - rdfs:label "سعة حرارية"@ar, - "tepelná kapacita"@cs, - "Wärmekapazität"@de, - "heat capacity"@en, - "capacidad calorífica"@es, - "ظرفیت گرمایی"@fa, - "capacité thermique"@fr, - "ऊष्मा धारिता"@hi, - "capacità termica"@it, - "熱容量"@ja, - "muatan haba"@ms, - "pojemność cieplna"@pl, - "capacidade térmica"@pt, - "capacitate termică"@ro, - "теплоёмкость"@ru, - "toplotna kapaciteta"@sl, - "isı kapasitesi"@tr, - "热容"@zh ; - dcterms:description "\"Heat Capacity\" (usually denoted by a capital \\(C\\), often with subscripts), or thermal capacity, is the measurable physical quantity that characterizes the amount of heat required to change a substance's temperature by a given amount. In the International System of Units (SI), heat capacity is expressed in units of joule(s) (J) per kelvin (K)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_capacity"^^xsd:anyURI ; - ns1:latexDefinition "$C = dQ/dT$, where $Q$ is amount of heat and $T$ is thermodynamic temperature."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "C_P"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . +These characteristics are closely related. The volumetric thermal expansion coefficient can be defined for both liquids and solids. The linear thermal expansion can only be defined for solids, and is common in engineering applications. - a ns1:QuantityKind ; - rdfs:label "Linear Thermal Expansion"@en ; - dcterms:description "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: linear thermal expansion, area thermal expansion, or volumetric thermal expansion."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/linear_thermal_expansion"^^xsd:anyURI ; - ns1:plainTextDescription "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: linear thermal expansion, area thermal expansion, or volumetric thermal expansion."^^xsd:string ; +Some substances expand when cooled, such as freezing water, so they have negative thermal expansion coefficients. [Wikipedia]"""^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VolumeThermalExpansion"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Mass per Time"@en ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Ampere Per Centimetre"@en, + "Ampere Per Centimeter"@en-us ; + dcterms:description "SI base unit ampere divided by the 0.01-fold of the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 100.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB073"^^xsd:string ; + ns1:plainTextDescription "SI base unit ampere divided by the 0.01-fold of the SI base unit metre"^^xsd:string ; + ns1:symbol "A/cm"^^xsd:string ; + ns1:ucumCode "A.cm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A2"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Thermal Insulance"@en ; - dcterms:description "$\\textit{Thermal Insulance}$ is the reduction of heat transfer (the transfer of thermal energy between objects of differing temperature) between objects in thermal contact or in range of radiative influence. In building technology, this quantity is often called $\\textit{Thermal Resistance}$, with the symbol $R$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD192"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Thermal_insulation"^^xsd:anyURI ; - ns1:latexDefinition "$M = 1/K$, where $K$ is \"Coefficient of Heat Transfer\""^^ns1:LatexString ; - ns1:symbol "M"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . + a ns1:Unit ; + rdfs:label "Ampere Per Millimetre"@en, + "Ampere Per Millimeter"@en-us ; + dcterms:description "SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB072"^^xsd:string ; + ns1:plainTextDescription "SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^xsd:string ; + ns1:symbol "A/mm"^^xsd:string ; + ns1:ucumCode "A.mm-1"^^ns1:UCUMcs, + "A/mm"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A3"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Calorie (thermochemical) Per Gram"@en ; - dcterms:description "Thermochemical Calorie. Calories produced per gram of substance."^^rdf:HTML ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Bar Litre Per Second"@en, + "Bar Liter Per Second"@en-us ; + dcterms:description "product of the unit bar and the unit litre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 100.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA326"^^xsd:string ; + ns1:plainTextDescription "product of the unit bar and the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bar⋅L/s"^^xsd:string ; + ns1:ucumCode "bar.L.s-1"^^ns1:UCUMcs, + "bar.L/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F91"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Bar Cubic Metre Per Second"@en, + "Bar Cubic Meter Per Second"@en-us ; + dcterms:description "product out of the 0.001-fold of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 100.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA814"^^xsd:string ; + ns1:plainTextDescription "product out of the 0.001-fold of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "bar⋅m³/s"^^xsd:string ; + ns1:ucumCode "bar.m3.s-1"^^ns1:UCUMcs, + "bar.m3/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F92"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU-IT-PER-lb"@en ; + dcterms:description "The amount of energy generated by a pound of substance is measured in British thermal units (IT) per pound of mass. 1 \\(Btu_{IT}/lb\\) is equivalent to \\(2.326 \\times 10^3\\) joule per kilogram (J/kg)."^^ns1:LatexString ; + ns1:applicableSystem , ; - ns1:conversionMultiplier 4184.0 ; - ns1:expression "\\(cal\\)"^^ns1:LatexString ; + ns1:conversionMultiplier 2326.0 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(Btu/lb\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB153"^^xsd:string ; ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, - "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; - ns1:plainTextDescription "unit thermochemical calorie divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "cal{th}/g"^^xsd:string ; - ns1:ucumCode "cal_th.g-1"^^ns1:UCUMcs, - "cal_th/g"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B36"^^xsd:string ; + "http://www.efunda.com/glossary/units/units--energy_density--british_thermal_unit_it_per_cubic_foot.cfm"^^xsd:anyURI ; + ns1:symbol "Btu{IT}/lb"^^xsd:string ; + ns1:ucumCode "[Btu_IT].[lb_av]-1"^^ns1:UCUMcs, + "[Btu_IT]/[lb_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "AZ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot Pound Force per Hour"@en ; - dcterms:description "\"Foot Pound Force per Hour\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/hr\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "British Thermal Unit (TH) Per Pound"@en ; + dcterms:description "\\({\\bf Btu_{th} / lbm}\\), British Thermal Unit (therm.) Per Pound Mass, is a unit in the category of Thermal heat capacity. It is also known as Btu per pound, Btu/pound, Btu/lb. This unit is commonly used in the UK unit system. British Thermal Unit (therm.) Per Pound Mass (Btu (therm.)/lbm) has a dimension of \\(L^2T^{-2}\\) where \\(L\\) is length, and \\(T\\) is time. It can be converted to the corresponding standard SI unit J/kg by multiplying its value by a factor of 2324.443861."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 0.00376616129 ; - ns1:definedUnitOfSystem , + ns1:conversionMultiplier 2324.443861 ; + ns1:expression "\\(btu_th-per-lb\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, + "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; + ns1:symbol "btu{th}/lb"^^xsd:string ; + ns1:ucumCode "[Btu_th].[lb_av]-1"^^ns1:UCUMcs, + "[Btu_th]/[lb_av]"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Calorie (international Table) Per Gram"@en ; + dcterms:description "Calories produced per gram of substance."^^rdf:HTML, + "Calories produced per gram of substance."^^xsd:string ; + ns1:applicableSystem , + , ; - ns1:expression "\\(ft-lbf/hr\\)"^^ns1:LatexString ; + ns1:conversionMultiplier 4186.8 ; + ns1:expression "\\(cal_{it}-per-gm\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB176"^^xsd:string ; + ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, + "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; + ns1:plainTextDescription "unit calorie according to the international steam table divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "cal{IT}/g"^^xsd:string ; + ns1:ucumCode "cal_IT.g-1"^^ns1:UCUMcs, + "cal_IT/g"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D75"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Erg Per Gram"@en ; + dcterms:description "CGS unit of the mass-related energy"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB061"^^xsd:string ; + ns1:plainTextDescription "CGS unit of the mass-related energy"^^xsd:string ; + ns1:symbol "erg/g"^^xsd:string ; + ns1:ucumCode "erg.g-1"^^ns1:UCUMcs, + "erg/g"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A61"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Erg per Second"@en ; + dcterms:description "\"Erg per Second\" is a C.G.S System unit for 'Power' expressed as \\(erg/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; + ns1:derivedUnitOfSystem , + ; + ns1:expression "\\(erg/s\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:symbol "ft⋅lbf/hr"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av].h-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K15"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA430"^^xsd:string ; + ns1:latexDefinition "\\(g\\cdot cm^{2}/s^{3}\\)"^^ns1:LatexString ; + ns1:symbol "erg/s"^^xsd:string ; + ns1:ucumCode "erg.s-1"^^ns1:UCUMcs, + "erg/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A63"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot Pound Force per Minute"@en ; - dcterms:description "\"Foot Pound Force per Minute\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/min\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0225969678 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft-lbf/min\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Electron Volt Second"@en ; + dcterms:description "\"Electron Volt Second\" is a unit for 'Angular Momentum' expressed as \\(eV s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "eV⋅s"^^xsd:string ; + ns1:ucumCode "eV.s"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gigajoule Per Hour"@en ; + dcterms:description "SI derived unit Gigajoule divided by the 3600 times the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 3600000000000.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:symbol "ft⋅lbf/min"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av].min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K16"^^xsd:string ; + ns1:plainTextDescription "SI derived unit gigajoule divided by the 3600 times the SI base unit second"^^xsd:string ; + ns1:symbol "GJ/hr"^^xsd:string ; + ns1:ucumCode "GJ.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P16"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot Pound Force per Second"@en ; - dcterms:description "\"Foot Pound Force per Second\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/s\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Horsepower"@en ; + dcterms:description "550 foot-pound force per second"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.35581807 ; + ns1:conversionMultiplier 745.6999 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Horsepower"^^xsd:anyURI ; ns1:definedUnitOfSystem , ; - ns1:expression "\\(ft-lbf/s\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:symbol "ft⋅lbf/s"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av].s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A74"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Horsepower?oldid=495510329"^^xsd:anyURI ; + ns1:symbol "HP"^^xsd:string ; + ns1:ucumCode "[HP]"^^ns1:UCUMcs ; + ns1:udunitsCode "hp"^^xsd:string ; + ns1:uneceCommonCode "K43"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gigawatt"@en ; - dcterms:description "1,000,000,000-fold of the SI derived unit watt"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - ; - ns1:conversionMultiplier 1e+09 ; + a ns1:Unit ; + rdfs:label "Horsepower (brake)"@en ; + dcterms:description "unit of the power according to the Imperial system of units"^^rdf:HTML ; + ns1:conversionMultiplier 9809.5 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA154"^^xsd:string ; - ns1:plainTextDescription "1 000 000 000-fold of the SI derived unit watt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "GW"^^xsd:string ; - ns1:ucumCode "GW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A90"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA536"^^xsd:string ; + ns1:plainTextDescription "unit of the power according to the Imperial system of units"^^xsd:string ; + ns1:symbol "HP{brake}"^^xsd:string ; + ns1:uneceCommonCode "K42"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Boiler Horsepower"@en ; - dcterms:description "\"Boiler Horsepower\" is a unit for 'Power' expressed as \\(hp_boiler\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 9809.5 ; - ns1:expression "\\(boiler_hp\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Horsepower (electric)"@en ; + dcterms:description "unit of the power according to the Anglo-American system of units"^^rdf:HTML ; + ns1:conversionMultiplier 746.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:symbol "HP{boiler}"^^xsd:string ; - ns1:uneceCommonCode "K42"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA537"^^xsd:string ; + ns1:plainTextDescription "unit of the power according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "HP{electric}"^^xsd:string ; + ns1:uneceCommonCode "K43"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "كيلوغرام لكل متر مكعب"@ar, - "килограм на кубичен метър"@bg, - "kilogram na metr krychlový"@cs, - "Kilogramm je Kubikmeter"@de, - "χιλιόγραμμο ανά κυβικό μέτρο"@el, - "kilogram per cubic metre"@en, - "kilogram per cubic meter"@en-us, - "kilogramo por metro cúbico"@es, - "کیلوگرم بر متر مکعب"@fa, - "kilogramme par mètre cube"@fr, - "किलोग्राम प्रति घन मीटर"@hi, - "chilogrammo al metro cubo"@it, - "キログラム毎立方メートル"@ja, - "kilogram per meter kubik"@ms, - "kilogram na metr sześcienny"@pl, - "quilograma por metro cúbico"@pt, - "kilogram pe metru cub"@ro, - "килограмм на кубический метр"@ru, - "kilogram na kubični meter"@sl, - "kilogram bölü metre küp"@tr, - "千克每立方米"@zh ; - dcterms:description "Kilogram per cubic metre is an SI derived unit of density, defined by mass in kilograms divided by volume in cubic metres. The official SI symbolic abbreviation is \\(kg \\cdot m^{-3}\\), or equivalently either \\(kg/m^3\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Horsepower (metric)"@en ; + dcterms:description "unit of the mechanical power according to the Anglo-American system of units"^^rdf:HTML ; + ns1:conversionMultiplier 735.4988 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA534"^^xsd:string ; + ns1:plainTextDescription "unit of the mechanical power according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "HP{metric}"^^xsd:string ; + ns1:uneceCommonCode "HJ"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Hectopascal Litre Per Second"@en, + "Hectopascal Liter Per Second"@en-us ; + dcterms:description "product out of the 100-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:expression "\\(kg/m^3\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA619"^^xsd:string ; - ns1:plainTextDescription "Kilogram per cubic metre is an SI derived unit of density, defined by mass in kilograms divided by volume in cubic metres. The official SI symbolic abbreviation is kg . m^-3, or equivalently either kg/m^3."^^xsd:string ; - ns1:symbol "kg/m³"^^xsd:string ; - ns1:ucumCode "kg.m-3"^^ns1:UCUMcs, - "kg/m3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KMQ"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilogram_force Metre Per Second"@en, - "Kilogram_force Meter Per Second"@en-us ; - dcterms:description "product of the SI base unit metre and the unit kilogram-force according to the Anglo-American and Imperial system of units divided by the SI base unit second"^^rdf:HTML ; - ns1:conversionMultiplier 9.80665 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB154"^^xsd:string ; - ns1:plainTextDescription "product of the SI base unit metre and the unit kilogram-force according to the Anglo-American and Imperial system of units divided by the SI base unit second"^^xsd:string ; - ns1:symbol "kgf⋅m/s"^^xsd:string ; - ns1:ucumCode "kgf.m.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B39"^^xsd:string ; + ns1:conversionMultiplier 0.1 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA530"^^xsd:string ; + ns1:plainTextDescription "product out of the 100-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "hPa⋅L/s"^^xsd:string ; + ns1:ucumCode "hPa.L.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F93"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "متر مربع في الثانية"@ar, - "čtvereční metr za sekundu"@cs, - "Quadratmeter je Sekunde"@de, - "square metre per second"@en, - "Square Meter per Second"@en-us, - "metro cuadrado por segundo"@es, - "متر مربع بر ثانیه"@fa, - "mètre carré par seconde"@fr, - "वर्ग मीटर प्रति सैकिण्ड"@hi, - "metro quadrato al secondo"@it, - "平方メートル毎秒"@ja, - "meter persegi per saat"@ms, - "metr kwadratowy na sekundę"@pl, - "metro quadrado por segundo"@pt, - "metru pătrat pe secundă"@ro, - "квадратный метр в секунду"@ru, - "kvadratni meter na sekundo"@sl, - "metrekare bölü saniye"@tr, - "平方米每秒"@zh ; - dcterms:description "\\(Square Metres per second is the SI derived unit of angular momentum, defined by distance or displacement in metres multiplied by distance again in metres and divided by time in seconds. The unit is written in symbols as m2/s or m2u00b7s-1 or m2s-1. It may be better understood when phrased as \"metres per second times metres\", i.e. the momentum of an object with respect to a position.\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Hectopascal Cubic Metre Per Second"@en, + "Hectopascal Cubic Meter Per Second"@en-us ; + dcterms:description "product out of the 100-fold of the SI unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m^{2} s^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA752"^^xsd:string ; - ns1:symbol "m²/s"^^xsd:string ; - ns1:ucumCode "m2.s-1"^^ns1:UCUMcs, - "m2/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "S4"^^xsd:string ; + ns1:conversionMultiplier 100.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA531"^^xsd:string ; + ns1:plainTextDescription "product out of the 100-fold of the SI unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "hPa⋅m³/s"^^xsd:string ; + ns1:ucumCode "hPa.m3.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F94"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mega Hertz per Tesla"@en ; - dcterms:description "\"Mega Hertz per Tesla\" is a unit for 'Electric Charge Per Mass' expressed as \\(MHz T^{-1}\\)."^^ns1:LatexString ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Joule Per Gram"@en ; + dcterms:description "SI derived unit joule divided by the 0.001-fold of the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , , ; - ns1:conversionMultiplier 1e+06 ; - ns1:expression "\\(MHz T^{-1}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "MHz/T"^^xsd:string ; - ns1:ucumCode "MHz.T-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA174"^^xsd:string ; + ns1:plainTextDescription "SI derived unit joule divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "J/g"^^xsd:string ; + ns1:ucumCode "J.g-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D95"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microwatt"@en ; - dcterms:description "0.000001-fold of the SI derived unit watt"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Joule Per Hour"@en ; + dcterms:description "SI derived unit joule divided by the 3600 times the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 3600.0 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA080"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit watt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mW"^^xsd:string ; - ns1:ucumCode "uW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D80"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "SI derived unit joule divided by the 3600 times the SI base unit second"^^xsd:string ; + ns1:symbol "J/hr"^^xsd:string ; + ns1:ucumCode "J.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P16"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nanowatt"@en ; - dcterms:description "0.000000001-fold of the SI derived unit watt"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Joule per Kilogram"@en ; + dcterms:description "Joule Per Kilogram} (\\(J/kg\\)) is a unit in the category of Thermal heat capacity. It is also known as \\textit{joule/kilogram}, \\textit{joules per kilogram}. This unit is commonly used in the SI unit system. The unit has a dimension of \\(L2T^{-2}\\) where \\(L\\) is length, and \\(T\\) is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA910"^^xsd:string ; - ns1:plainTextDescription "0.000000001-fold of the SI derived unit watt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "nW"^^xsd:string ; - ns1:ucumCode "nW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C49"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J/kg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA175"^^xsd:string ; + ns1:symbol "J/kg"^^xsd:string ; + ns1:ucumCode "J.kg-1"^^ns1:UCUMcs, + "J/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J2"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "أوم"@ar, - "ом"@bg, - "ohm"@cs, - "Ohm"@de, - "ωμ"@el, - "ohm"@en, - "ohmio"@es, - "اهم"@fa, - "ohm"@fr, - "אוהם"@he, - "ओह्म"@hi, - "ohm"@hu, - "ohm"@it, - "オーム"@ja, - "ohmium"@la, - "ohm"@ms, - "om"@pl, - "ohm"@pt, - "ohm"@ro, - "ом"@ru, - "ohm"@sl, - "ohm"@tr, - "欧姆"@zh ; - dcterms:description "The \\textit{ohm} is the SI derived unit of electrical resistance, named after German physicist Georg Simon Ohm. \\(\\Omega \\equiv\\ \\frac{\\text{V}}{\\text{A}}\\ \\equiv\\ \\frac{\\text{volt}}{\\text{amp}}\\ \\equiv\\ \\frac{\\text{W}}{\\text {A}^{2}}\\ \\equiv\\ \\frac{\\text{watt}}{\\text{amp}^{2}}\\ \\equiv\\ \\frac{\\text{H}}{\\text {s}}\\ \\equiv\\ \\frac{\\text{henry}}{\\text{second}}\\)"^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; + rdfs:label "جول لكل مول"@ar, + "joule na mol"@cs, + "Joule je Mol"@de, + "Joule per Mole"@en, + "joule per mole"@en, + "julio por mol"@es, + "ژول بر مول"@fa, + "joule par mole"@fr, + "जूल प्रति मोल (इकाई)"@hi, + "joule alla mole"@it, + "ジュール毎立方メートル"@ja, + "joule per mole"@ms, + "dżul na mol"@pl, + "joule por mol"@pt, + "joule pe mol"@ro, + "джоуль на моль"@ru, + "joule na mol"@sl, + "joule bölü metre küp"@tr, + "焦耳每摩尔"@zh ; + dcterms:description "The joule per mole (symbol: \\(J\\cdot mol^{-1}\\)) is an SI derived unit of energy per amount of material. Energy is measured in joules, and the amount of material is measured in moles. Physical quantities measured in \\(J\\cdot mol^{-1}\\)) usually describe quantities of energy transferred during phase transformations or chemical reactions. Division by the number of moles facilitates comparison between processes involving different quantities of material and between similar processes involving different types of materials. The meaning of such a quantity is always context-dependent and, particularly for chemical reactions, is dependent on the (possibly arbitrary) definition of a 'mole' for a particular process."^^ns1:LatexString ; + ns1:applicableSystem ; ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Ohm"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA017"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Ohm?oldid=494685555"^^xsd:anyURI ; - ns1:omUnit ; - ns1:siUnitsExpression "V/A"^^xsd:string ; - ns1:symbol "Ω"^^xsd:string ; - ns1:ucumCode "Ohm"^^ns1:UCUMcs ; - ns1:udunitsCode "Ω"^^xsd:string ; - ns1:uneceCommonCode "OHM"^^xsd:string ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(J/mol\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA183"^^xsd:string ; + ns1:symbol "J/mol"^^xsd:string ; + ns1:ucumCode "J.mol-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B15"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picowatt"@en ; - dcterms:description "0.000000000001-fold of the SI derived unit watt"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Joule Per Second"@en ; + dcterms:description "SI derived unit joule divided by the SI base unit second"^^rdf:HTML ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1.0 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA935"^^xsd:string ; - ns1:plainTextDescription "0.000000000001-fold of the SI derived unit watt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "pW"^^xsd:string ; - ns1:ucumCode "pW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C75"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "SI derived unit joule divided by the SI base unit second"^^xsd:string ; + ns1:symbol "J/s"^^xsd:string ; + ns1:ucumCode "J.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P14"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Terawatt"@en ; - dcterms:description "1,000,000,000,000-fold of the SI derived unit watt"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Kiloampere Per Metre"@en, + "Kiloampere Per Meter"@en-us ; + dcterms:description "1 000-fold of the SI base unit ampere divided by the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA558"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI base unit ampere divided by the SI base unit metre"^^xsd:string ; + ns1:symbol "kA/m"^^xsd:string ; + ns1:ucumCode "kA.m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B24"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilocoulomb Per Square Metre"@en, + "Kilocoulomb Per Square Meter"@en-us ; + dcterms:description "1 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1e+12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA289"^^xsd:string ; - ns1:plainTextDescription "1,000,000,000,000-fold of the SI derived unit watt"^^xsd:string ; - ns1:prefix ; - ns1:symbol "TW"^^xsd:string ; - ns1:ucumCode "TW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D31"^^xsd:string ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA564"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit coulomb divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "kC/m²"^^xsd:string ; + ns1:ucumCode "kC.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B28"^^xsd:string ; rdfs:isDefinedBy . -owl:Ontology ns2:hasGraphMetadata ns2:GMD_VAEM . - -s223:Aspect-ElectricalVoltagePhases a s223:Aspect-ElectricalVoltagePhases, - s223:Class, - sh:NodeShape ; - rdfs:label "Aspect-Electrical Voltage Phases"^^xsd:string ; - rdfs:comment "This class enumerates the relevant electrical phases for a voltage difference for AC electricity inside a Connection."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Aspect . - -s223:Connection a s223:Class, - sh:NodeShape ; - rdfs:label "Connection"^^xsd:string ; - rdfs:comment """A Connection is the modeling construct used to represent the thing (e.g., pipe, duct,conductor, or free space) that is used to convey -some Medium (e.g., water, air, electricity, light, wi-fi) between two connectable things. All Connections have two or more ConnectionPoints bound -to either Equipment (see `s223:Equipment`), DomainSpace (see `s223:DomainSpace`), or Junction (see `s223:Junction`) See Figure 6-2. If the direction -of flow is constrained, that constraint is indicated by using one or more InletConnectionPoints (see `s223:InletConnectionPoint`) to represent the -inflow points and OutletConnectionPoints (see `s223:OutletConnectionPoint`) to represent the outflow points. - -A Connection may contain branches or intersections. These may be modeled using Junctions if it is necessary to identify a specific intersection. -(see `s223:Junction`). - -![Graphical Depiction of Connection.](figures/Figure_5-3_Connection.svg) -"""^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "Incompatible Medium. Case 1: A Connection with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; - sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m1 . -$this s223:hasMedium ?m2 . -FILTER (?m1 != ?m2 ) . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS {?m2 s223:composedOf ?c2} -FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . -FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-Phase."^^xsd:string ; - sh:class s223:EnumerationKind-Phase ; - sh:maxCount 1 ; - sh:message "s223: If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-Phase."^^xsd:string ; - sh:path s223:hasThermodynamicPhase ], - [ rdfs:comment "A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; - sh:minCount 2 ; - sh:path s223:connectsAt ; - sh:severity sh:Warning ], - [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one with a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 6: A medium with constituents and a pure medium."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m1 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -FILTER (?cp1 != ?cp2 ) . -?cp2 s223:hasMedium ?m2 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; - sh:class s223:Connectable ; - sh:message "s223: If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; - sh:name "ConnectionToDownstreamConnectableShape"^^xsd:string ; - sh:path s223:connectsTo ], - [ rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m2 . -$this s223:hasMedium ?m1 . - ?m1 s223:composedOf/s223:ofConstituent ?s1 . - ?m2 s223:composedOf/s223:ofConstituent ?s2 . - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s11 . - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - FILTER (?s11 = ?s12) . - } - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s21 . - ?m2 s223:composedOf/s223:ofConstituent ?s22 . - {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . - } -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m2} is incompatible with {?cp2} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m2 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -FILTER (?cp1 != ?cp2 ) . -?cp2 s223:hasMedium ?m1 . - ?m1 s223:composedOf/s223:ofConstituent ?s1 . - ?m2 s223:composedOf/s223:ofConstituent ?s2 . - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s11 . - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - FILTER (?s11 = ?s12) . - } - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s21 . - ?m2 s223:composedOf/s223:ofConstituent ?s22 . - {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . - } -} -"""^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; - sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m2 . -$this s223:hasMedium ?m1 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; - sh:class s223:Substance-Medium ; - sh:maxCount 1 ; - sh:message "s223: A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; - sh:minCount 1 ; - sh:name "Connection medium"^^xsd:string ; - sh:path s223:hasMedium ], - [ rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; - sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?m2 ?cp ?m1 -WHERE { -$this s223:cnx ?cp . -?cp a/rdfs:subClassOf* s223:ConnectionPoint . -?cp s223:hasMedium ?m1 . -$this s223:hasMedium ?m2 . -?m2 s223:composedOf/s223:ofConstituent ?s2 . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS { - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; - sh:class s223:Connectable ; - sh:message "s223: If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; - sh:name "ConnectionToUpstreamConnectableShape"^^xsd:string ; - sh:path s223:connectsFrom ], - [ rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; - sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?cp1 ?m1 ?cp2 ?m2 -WHERE { -$this s223:cnx ?cp1 . -?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp1 s223:hasMedium ?m1 . -$this s223:cnx ?cp2 . -?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . -?cp2 s223:hasMedium ?m2 . -FILTER (?m1 != ?m2 ) . -FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . -FILTER NOT EXISTS {?m2 s223:composedOf ?c2} -FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . -FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; - sh:class s223:EnumerationKind-Role ; - sh:message "s223: If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; - sh:path s223:hasRole ], - [ rdfs:comment "A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; - sh:path s223:cnx ], - [ rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; - sh:path s223:cnx ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; - sh:message "s223: {$this} cannot have a s223:cnx relation to {?something}, because {?something} is not a ConnectionPoint."^^xsd:string ; - sh:prefixes ; - sh:select """SELECT $this ?something -WHERE { -$this s223:cnx ?something . -FILTER NOT EXISTS {?something a/rdfs:subClassOf* s223:ConnectionPoint} . -}"""^^xsd:string ] ] ; - sh:rule [ a sh:TripleRule ; - rdfs:comment "Infer the connectsAt relation using cnx"^^xsd:string, - "InferredConnectionToConnectionPointProperty"^^xsd:string ; - sh:object [ sh:path s223:cnx ] ; - sh:predicate s223:connectsAt ; - sh:subject sh:this ], - [ a sh:TripleRule ; - rdfs:comment "Infer cnx relation using connectsAt"^^xsd:string, - "InferredConnectionToConnectionPointBaseProperty"^^xsd:string ; - sh:object [ sh:path s223:connectsAt ] ; - sh:predicate s223:cnx ; - sh:subject sh:this ], - [ a sh:TripleRule ; - rdfs:comment "Infer cnx relation using connectsThrough"^^xsd:string, - "InferredConnectionToConnectionPointBasePropertyFromInverse"^^xsd:string ; - sh:object [ sh:path [ sh:inversePath s223:connectsThrough ] ] ; - sh:predicate s223:cnx ; - sh:subject sh:this ], - [ a sh:SPARQLRule ; - rdfs:comment "Infer the connectsTo relation using connectsAt"^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:connectsTo ?equipment .} -WHERE { -$this s223:connectsAt ?cp . -?cp a s223:InletConnectionPoint . -?cp s223:isConnectionPointOf ?equipment . -} -"""^^xsd:string ; - sh:name "InferredConnectionToDownstreamEquipmentProperty"^^xsd:string ; - sh:prefixes ], - [ a sh:SPARQLRule ; - rdfs:comment "Infer the connectsFrom relation using connectsAt"^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:connectsFrom ?equipment .} -WHERE { -$this s223:connectsAt ?cp . -?cp a s223:OutletConnectionPoint . -?cp s223:isConnectionPointOf ?equipment . -} -"""^^xsd:string ; - sh:name "InferredConnectionToUpstreamEquipmentProperty"^^xsd:string ; - sh:prefixes ] . - -s223:Constituent-H2O a s223:Class, - s223:Constituent-H2O, - sh:NodeShape ; - rdfs:label "Constituent-H2O"^^xsd:string ; - rdfs:comment "Constituent-H2O"^^xsd:string ; - rdfs:subClassOf s223:Medium-Constituent . - -s223:EM-Light a s223:Class, - s223:EM-Light, - sh:NodeShape ; - rdfs:label "EM-Light"^^xsd:string ; - rdfs:comment "The EM-Light class has enumerated subclasses of what are considered visible or near-visible light."^^xsd:string ; - rdfs:subClassOf s223:Constituent-EM . - -dcterms:created a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "created"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:date . - -dcterms:modified a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "modified"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:date . - -dcterms:title a rdf:Property, - owl:AnnotationProperty ; - rdfs:label "title"^^xsd:string ; - rdfs:isDefinedBy dcterms: ; - rdfs:range xsd:string . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilocalorie per Gram"@en ; + dcterms:description "\"Kilocalorie per Gram\" is a unit for 'Specific Energy' expressed as \\(kcal/gm\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4184000.0, + 4.184e+06 ; + ns1:expression "\\(kcal/gm\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kcal/g"^^xsd:string ; + ns1:ucumCode "kcal.g-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -ns1:LatexString a rdfs:Datatype, - sh:NodeShape ; - rdfs:label "Latex String"^^xsd:string ; - rdfs:comment "A type of string in which some characters may be wrapped with '\\(' and '\\) characters for LaTeX rendering."^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:subClassOf xsd:string . + a ns1:Unit ; + rdfs:label "Kilojoule Per Kilogram"@en ; + dcterms:description "1 000-fold of the SI derived unit joule divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA570"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit joule divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "kJ/kg"^^xsd:string ; + ns1:ucumCode "kJ.kg-1"^^ns1:UCUMcs, + "kJ/kg"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B42"^^xsd:string ; + rdfs:isDefinedBy . -ns1:NumericUnionList a rdf:List ; - rdfs:label "Numeric Union List"^^xsd:string ; - rdf:first [ sh:datatype xsd:string ] ; - rdf:rest ( [ sh:datatype xsd:nonNegativeInteger ] [ sh:datatype xsd:positiveInteger ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:int ] [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:decimal ] ) ; - rdfs:comment "An rdf:List that can be used in property constraints as value for sh:or to indicate that all values of a property must be either xsd:integer, xsd:float, xsd:double or xsd:decimal."^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pound Force Foot Per Pound"@en ; + dcterms:description "product of the Anglo-American unit pound-force and the Anglo-American unit foot divided by the Anglo-American unit pound (US) of mass"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 2989.067 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB484"^^xsd:string ; + ns1:plainTextDescription "product of the Anglo-American unit pound-force and the Anglo-American unit foot divided by the Anglo-American unit pound (US) of mass"^^xsd:string ; + ns1:symbol "klbf⋅ft/lb"^^xsd:string ; + ns1:ucumCode "[lbf_av].[ft_i].[lb_av]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G20"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-3I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-3T^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Kilovolt"@en ; + dcterms:description "1 000-fold of the SI derived unit volt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA580"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit volt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "kV"^^xsd:string ; + ns1:ucumCode "kV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KVT"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L1I0M0H-1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature -1 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L .H^{-1}\\)"^^ns1:LatexString ; - ns1:latexSymbol "\\(L .\\Theta^{-1}\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megajoule Per Hour"@en ; + dcterms:description "SI derived unit MegaJoule divided by the 3600 times the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 3600000000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "SI derived unit Megajoule divided by the 3600 times the SI base unit second"^^xsd:string ; + ns1:symbol "MJ/hr"^^xsd:string ; + ns1:ucumCode "MJ.h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "P16"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L3I0M1H0T-2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind , - ; - ns1:latexDefinition "\\(L^3 M T^-2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megajoule Per Kilogram"@en ; + dcterms:description "1,000,000-fold of the derived SI unit joule divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB093"^^xsd:string ; + ns1:plainTextDescription "1,000,000-fold of the derived SI unit joule divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "MJ/kg"^^xsd:string ; + ns1:ucumCode "MJ.kg-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "JK"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E2L-2I0M-1H0T4D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 2 ; - ns1:dimensionExponentForLength -2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 4 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M^-1 T^4 I^2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megajoule Per Second"@en ; + dcterms:description "quotient of the 1,000,000-fold of the derived SI unit joule divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB177"^^xsd:string ; + ns1:plainTextDescription "quotient of the 1,000,000-fold of the derived SI unit joule divided by the SI base unit second"^^xsd:string ; + ns1:symbol "MJ/s"^^xsd:string ; + ns1:ucumCode "MJ.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D78"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Giga"@en ; - dcterms:description "'giga' is a decimal prefix for expressing a value with a scaling of \\(10^{9}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Giga-"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Giga-?oldid=473222816"^^xsd:anyURI ; - ns1:prefixMultiplier 1e+09 ; - ns1:siExactMatch ; - ns1:symbol "G"^^xsd:string ; - ns1:ucumCode "G"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megapascal Litre Per Second"@en, + "Megapascal Liter Per Second"@en-us ; + dcterms:description "product out of the 1,000,000-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA218"^^xsd:string ; + ns1:plainTextDescription "product out of the 1,000,000-fold of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "MPa⋅L/s"^^xsd:string ; + ns1:ucumCode "MPa.L.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F97"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Pico"@en ; - dcterms:description "'pico' is a decimal prefix for expressing a value with a scaling of \\(10^{-12}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pico"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Pico?oldid=485697614"^^xsd:anyURI ; - ns1:prefixMultiplier 1e-12 ; - ns1:siExactMatch ; - ns1:symbol "p"^^xsd:string ; - ns1:ucumCode "p"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megapascal Cubic Metre Per Second"@en, + "Megapascal Cubic Meter Per Second"@en-us ; + dcterms:description "product out of the 1,000,000-fold of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA219"^^xsd:string ; + ns1:plainTextDescription "product out of the 1,000,000-fold of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "MPa⋅m³/s"^^xsd:string ; + ns1:ucumCode "MPa.m3.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F98"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Capacitance"@en ; - dcterms:description "\"Capacitance\" is the ability of a body to hold an electrical charge; it is quantified as the amount of electric charge stored for a given electric potential. Capacitance is a scalar-valued quantity."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Capacitance"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD021"^^xsd:string ; - ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; - ns1:latexDefinition "$C = Q/U$, where $Q$ is electric charge and $V$ is voltage."^^ns1:LatexString ; - ns1:plainTextDescription "\"Capacitance\" is the ability of a body to hold an electrical charge; it is quantified as the amount of electric charge stored for a given electric potential. Capacitance is a scalar-valued quantity."^^xsd:string ; - ns1:siExactMatch ; - ns1:symbol "C"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Megavolt"@en ; + dcterms:description "1,000,000-fold of the derived unit volt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA221"^^xsd:string ; + ns1:plainTextDescription "1,000,000-fold of the derived unit volt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mV"^^xsd:string ; + ns1:ucumCode "MV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B78"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Conductance"@en ; - dcterms:description "$\\textit{Conductance}$, for a resistive two-terminal element or two-terminal circuit with terminals A and B, quotient of the electric current i in the element or circuit by the voltage $u_{AB}$ between the terminals: $G = \\frac{1}{R}$, where the electric current is taken as positive if its direction is from A to B and negative in the opposite case. The conductance of an element or circuit is the inverse of its resistance."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-06"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition """$G = Re\\underline{Y}$, where $\\underline{Y}$ is admittance. + a ns1:Unit ; + rdfs:label "Microgram Per Litre"@en, + "Microgram Per Liter"@en-us ; + dcterms:description "0.000000001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA084"^^xsd:string ; + ns1:plainTextDescription "0.000000001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; + ns1:symbol "μg/L"^^xsd:string ; + ns1:ucumCode "ug.L-1"^^ns1:UCUMcs, + "ug/L"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H29"^^xsd:string ; + rdfs:isDefinedBy . -Alternatively: + a ns1:Unit ; + rdfs:label "Microgram Per MilliLitre"@en, + "Micrograms per millilitre"@en, + "Microgram Per Milliliter"@en-us ; + dcterms:description "One 10**6 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:plainTextDescription "0.000000000001-fold of the SI base unit kilogram divided by the unit microlitre"^^xsd:string ; + ns1:symbol "µg/mL"^^xsd:string, + "μg/mL"^^xsd:string ; + ns1:ucumCode "ug.mL-1"^^ns1:UCUMcs, + "ug/mL"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -$G = \\frac{1}{R}$, where $R$ is resistance."""^^ns1:LatexString ; - ns1:symbol "G"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . + a ns1:Unit ; + rdfs:label "Microvolt"@en ; + dcterms:description "0.000001-fold of the SI derived unit volt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA078"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit volt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "µV"^^xsd:string ; + ns1:ucumCode "uV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D82"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Energy Density"@en ; - dcterms:description "Energy density is defined as energy per unit volume. The SI unit for energy density is the joule per cubic meter."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:baseISOUnitDimensions "$m^{-1} \\cdot kg \\cdot s^{-2}$"^^xsd:string ; - ns1:baseImperialUnitDimensions "$ft^{-1} \\cdot lb \\cdot s^{-2}$"^^ns1:LatexString ; - ns1:baseSIUnitDimensions "$m^{-1} \\cdot kg \\cdot s^{-2}$"^^ns1:LatexString ; - ns1:baseUSCustomaryUnitDimensions "$L^{-1} \\cdot M \\cdot T^{-2}$"^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Energy_density"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD047"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Energy_density"^^xsd:anyURI ; - ns1:plainTextDescription "Energy density is defined as energy per unit volume. The SI unit for energy density is the joule per cubic meter."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Milliampere Per Inch"@en ; + dcterms:description "0.001-fold of the SI base unit ampere divided by the unit inch according to the Anglo-American and the Imperial system of units"^^rdf:HTML ; + ns1:conversionMultiplier 0.03937008 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA778"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit ampere divided by the unit inch according to the Anglo-American and the Imperial system of units"^^xsd:string ; + ns1:symbol "µA/in"^^xsd:string ; + ns1:ucumCode "mA.[in_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F08"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Pressure Ratio"@en ; - ns1:applicableUnit , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - rdfs:isDefinedBy ; - skos:broader . + a ns1:Unit ; + rdfs:label "Milliampere Per Millimetre"@en, + "Milliampere Per Millimeter"@en-us ; + dcterms:description "0.001-fold of the SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA781"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit ampere divided by the 0.001-fold of the SI base unit metre"^^xsd:string ; + ns1:symbol "mA/mm"^^xsd:string ; + ns1:ucumCode "mA.mm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F76"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU per Hour"@en ; - dcterms:description "The British thermal unit (BTU or Btu) is a traditional unit of energy equal to about 1 055.05585 joules. It is approximately the amount of energy needed to heat 1 pound (0.454 kg) of water from \\(39 \\,^{\\circ}{\\rm F}\\) (\\(3.9 \\,^{\\circ}{\\rm C}\\)) to \\(40 \\,^{\\circ}{\\rm F}\\) (\\(4.4 \\,^{\\circ}{\\rm C}\\)). The unit is most often used in the power, steam generation, heating and air conditioning industries. In scientific contexts the BTU has largely been replaced by the SI unit of energy, the joule, though it may be used as a measure of agricultural energy production (BTU/kg)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.29307107 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(Btu/hr\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Millibar Litre Per Second"@en, + "Millibar Liter Per Second"@en-us ; + dcterms:description "product out of the 0.001-fold of the unit bar and the unit litre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.1 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://www.simetric.co.uk/sibtu.htm"^^xsd:anyURI ; - ns1:symbol "Btu{IT}/hr"^^xsd:string ; - ns1:ucumCode "[Btu_IT].h-1"^^ns1:UCUMcs, - "[Btu_IT]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2I"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA813"^^xsd:string ; + ns1:plainTextDescription "product out of the 0.001-fold of the unit bar and the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "mbar⋅L/s"^^xsd:string ; + ns1:ucumCode "mbar.L.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F95"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU per Second"@en ; - dcterms:description "\\({\\bf BTU \\, per \\, Second}\\) is an Imperial unit for 'Heat Flow Rate' expressed as \\(Btu/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1055.05585262 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(Btu/s\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Millibar Cubic Metre Per Second"@en, + "Millibar Cubic Meter Per Second"@en-us ; + dcterms:description "product of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 100.0 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://www.simetric.co.uk/sibtu.htm"^^xsd:anyURI ; - ns1:symbol "Btu{IT}/s"^^xsd:string ; - ns1:ucumCode "[Btu_IT].s-1"^^ns1:UCUMcs, - "[Btu_IT]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J45"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA327"^^xsd:string ; + ns1:plainTextDescription "product of the unit bar and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "mbar⋅m³/s"^^xsd:string ; + ns1:ucumCode "mbar.m3.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F96"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Kilo British Thermal Unit (International Definition) per Hour"@en ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 293.07107 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(kBtu/hr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "kBtu{IT}/hr"^^xsd:string ; - ns1:ucumCode "k[Btu_IT].h-1"^^ns1:UCUMcs, - "k[Btu_IT]/h"^^ns1:UCUMcs ; + rdfs:label "milligrams per decilitre"@en, + "milligrams per decilitre"@en-us ; + dcterms:description "A derived unit for amount-of-substance concentration measured in mg/dL."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.01 ; + ns1:expression "\\(mg/L\\)"^^ns1:LatexString, + "\\(mg/dL\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "mg/L"^^xsd:string, + "mg/dL"^^xsd:string ; + ns1:ucumCode "mg.dL-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Milligram Per Litre"@en, + "Milligram Per Liter"@en-us ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the unit litre"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA827"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the unit litre"^^xsd:string ; + ns1:symbol "mg/L"^^xsd:string ; + ns1:ucumCode "mg.L-1"^^ns1:UCUMcs, + "mg/L"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M1"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie Per Minute"@en ; - dcterms:description "\\(\\textbf{Kilocalorie per Minute} is a unit for \\textit{Heat Flow Rate} and \\textit{Power} expressed as \\(kcal/min\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Milligram Per Cubic Metre"@en, + "Milligram Per Cubic Meter"@en-us ; + dcterms:description "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 69.7333333 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(kcal/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "kcal/min"^^xsd:string ; - ns1:ucumCode "kcal.min-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K54"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA830"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "mg/m³"^^xsd:string ; + ns1:ucumCode "mg.m-3"^^ns1:UCUMcs, + "mg/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "GP"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie Per Second"@en ; - dcterms:description "\\(\\textbf{Kilocalorie per Second} is a unit for \\textit{Heat Flow Rate} and \\textit{Power} expressed as \\(kcal/s\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Milligram Per Millilitre"@en, + "Milligram Per Milliliter"@en-us ; + dcterms:description "A scaled unit of mass concentration."@en ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4184.0 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(kcal/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "kcal/s"^^xsd:string ; - ns1:ucumCode "kcal.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K55"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:plainTextDescription "0.000001-fold of the SI base unit kilogram divided by the unit millilitre"^^xsd:string ; + ns1:symbol "mg/mL"^^xsd:string ; + ns1:ucumCode "mg.mL-1"^^ns1:UCUMcs, + "mg/mL"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilowatt"@en ; - dcterms:description "\\(The kilowatt is a derived unit of power in the International System of Units (SI), The unit, defined as 1,000 joule per second, measures the rate of energy conversion or transfer.\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Millijoule Per Gram"@en ; + dcterms:description "The 0.001-fold of the SI base unit joule divided by the 0.001-fold of the SI base unit kilogram."^^rdf:HTML ; ns1:applicableSystem , , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA174"^^xsd:string ; + ns1:plainTextDescription "The 0.001-fold of the SI base unit joule divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "mJ/g"^^xsd:string ; + ns1:ucumCode "mJ.g-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millivolt"@en ; + dcterms:description "0,001-fold of the SI derived unit volt"^^rdf:HTML ; + ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Watt"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA583"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Watt?oldid=494906356"^^xsd:anyURI ; - ns1:prefix ; - ns1:symbol "kW"^^xsd:string ; - ns1:ucumCode "kW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KWT"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA804"^^xsd:string ; + ns1:plainTextDescription "0,001-fold of the SI derived unit volt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mV"^^xsd:string ; + ns1:ucumCode "mV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2Z"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Mega British Thermal Unit (International Definition) per Hour"@en ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 293071.07 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(MBtu/hr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "MBtu{IT}/hr"^^xsd:string ; - ns1:ucumCode "M[Btu_IT].h-1"^^ns1:UCUMcs, - "M[Btu_IT]/h"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Newton Metre Per Kilogram"@en, + "Newton Meter Per Kilogram"@en-us ; + dcterms:description "product of the derived SI unit newton and the SI base unit metre divided by the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB490"^^xsd:string ; + ns1:plainTextDescription "product of the derived SI unit newton and the SI base unit metre divided by the SI base unit kilogram"^^xsd:string ; + ns1:symbol "N⋅m/kg"^^xsd:string ; + ns1:ucumCode "N.m.kg-1"^^ns1:UCUMcs ; + ns1:udunitsCode "gp"^^xsd:string ; + ns1:uneceCommonCode "G19"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "MegaW"@en ; + a ns1:Unit ; + rdfs:label "Nanograms per litre"@en ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:prefix ; - ns1:symbol "MW"^^xsd:string ; - ns1:ucumCode "MW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MAW"^^xsd:string ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ng/L"^^xsd:string ; + ns1:ucumCode "ng.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "MilliW"@en ; + a ns1:Unit ; + rdfs:label "Nanograms per millilitre"@en ; + dcterms:description "One 10**12 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:prefix ; - ns1:symbol "mW"^^xsd:string ; - ns1:ucumCode "mW"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C31"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "ng/mL"^^xsd:string ; + ns1:ucumCode "ng.mL-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per litre"@en ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/L"^^xsd:string ; - ns1:ucumCode "/L"^^ns1:UCUMcs, - "{#}.L-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Pascal Litre Per Second"@en, + "Pascal Liter Per Second"@en-us ; + dcterms:description "product out of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA261"^^xsd:string ; + ns1:plainTextDescription "product out of the SI derived unit pascal and the unit litre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "Pa⋅L/s"^^xsd:string ; + ns1:ucumCode "Pa.L.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F99"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per cubic metre"@en ; + a ns1:Unit ; + rdfs:label "Pascal Cubic Metre Per Second"@en, + "Pascal Cubic Meter Per Second"@en-us ; + dcterms:description "product out of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/m³"^^xsd:string ; - ns1:ucumCode "/m3"^^ns1:UCUMcs, - "{#}.m-3"^^ns1:UCUMcs ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA264"^^xsd:string ; + ns1:plainTextDescription "product out of the SI derived unit pascal and the power of the SI base unit metre with the exponent 3 divided by the SI base unit second"^^xsd:string ; + ns1:symbol "Pa⋅m³/s"^^xsd:string ; + ns1:ucumCode "Pa.m3.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G01"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per microlitre"@en ; - ns1:conversionMultiplier 1e+09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/µL"^^xsd:string ; - ns1:ucumCode "/uL"^^ns1:UCUMcs, - "{#}.uL-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Reciprocal Kelvin"@en ; + dcterms:description "Per Kelvin Unit is a denominator unit with dimensions \\(/k\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(/K\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:symbol "/K"^^xsd:string ; + ns1:ucumCode "K-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C91"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per cubic millimeter"@en ; - ns1:conversionMultiplier 1000000000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/mm³"^^xsd:string ; - ns1:ucumCode "/mm3"^^ns1:UCUMcs, - "{#}.mm-3"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Reciprocal Tesla Second Unit"@en ; + dcterms:description "Per Tesla Second Unit is a denominator unit with dimensions \\(/s . T\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(/s . T\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/T⋅s"^^xsd:string ; + ns1:ucumCode "T-1.s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per nanoliter"@en, - "Number per nanolitre"@en ; - ns1:conversionMultiplier 1e+12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/nL"^^xsd:string ; - ns1:ucumCode "/nL"^^ns1:UCUMcs, - "{#}.nL-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Psi Cubic Inch Per Second"@en ; + dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic inch per second)"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.1129848 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA703"^^xsd:string ; + ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic inch per second)"^^xsd:string ; + ns1:symbol "psi⋅in³/s"^^xsd:string ; + ns1:ucumCode "[psi].[cin_i].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K87"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Number per picoliter"@en ; - ns1:conversionMultiplier 1000000000000000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "/pL"^^xsd:string ; - ns1:ucumCode "/pL"^^ns1:UCUMcs, - "{#}.pL-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Psi Litre Per Second"@en, + "Psi Liter Per Second"@en-us ; + dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (litre per second)"^^rdf:HTML ; + ns1:conversionMultiplier 6.894757 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA704"^^xsd:string ; + ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (litre per second)"^^xsd:string ; + ns1:symbol "psi⋅L³/s"^^xsd:string ; + ns1:ucumCode "[psi].L.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K88"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Therm US per Hour"@en ; - dcterms:description "\\(\\textbf{Therm} (symbol \\(thm\\)) is a non-SI unit of heat energy. It was defined in the United States in 1968 as the energy equivalent of burning 100 cubic feet of natural gas at standard temperature and pressure. Industrial processes in the U.S. use therm/hr unit most often in the power, steam generation, heating, and air conditioning industries."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 29300.1111 ; - ns1:expression "\\(thm/hr\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "PSI Cubic Metre Per Second"@en, + "PSI Cubic Meter Per Second"@en-us ; + dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic metre per second)"^^rdf:HTML ; + ns1:conversionMultiplier 6894.757 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://www.convertunits.com/info/therm%2B%5BU.S.%5D"^^xsd:anyURI ; - ns1:symbol "thm{US}/hr"^^xsd:string ; - ns1:ucumCode "[thm{US}].h-1"^^ns1:UCUMcs, - "[thm{US}]/h"^^ns1:UCUMcs ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA705"^^xsd:string ; + ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the composed unit for volume flow (cubic metre per second)"^^xsd:string ; + ns1:symbol "psi⋅m³/s"^^xsd:string ; + ns1:ucumCode "[psi].m3.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K89"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Ton of Refrigeration"@en ; - dcterms:description "12000 btu per hour

"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 3516.853 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Ton_of_refrigeration"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(t/fg\\)"^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Psi Cubic Yard Per Second"@en ; + dcterms:description "product of the composed unit for pressure (pound-force per square inch) and the square inch) and the composed unit for volume flow (cubic yard per second)"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 5271.42 ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Ton_of_refrigeration?oldid=494342824"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "t/fg"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA706"^^xsd:string ; + ns1:plainTextDescription "product of the composed unit for pressure (pound-force per square inch) and the square inch) and the composed unit for volume flow (cubic yard per second)"^^xsd:string ; + ns1:symbol "psi⋅yd³/s"^^xsd:string ; + ns1:ucumCode "[psi].[cyd_i].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K90"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "واط"@ar, - "ват"@bg, - "watt"@cs, - "Watt"@de, - "βατ"@el, - "watt"@en, - "vatio"@es, - "وات"@fa, - "watt"@fr, - "ואט"@he, - "वाट"@hi, - "watt"@hu, - "watt"@it, - "ワット"@ja, - "wattium"@la, - "watt"@ms, - "wat"@pl, - "watt"@pt, - "watt"@ro, - "ватт"@ru, - "watt"@sl, - "watt"@tr, - "瓦特"@zh ; - dcterms:description "The SI unit of power. Power is the rate at which work is done, or (equivalently) the rate at which energy is expended. One watt is equal to a power rate of one joule of work per second of time. This unit is used both in mechanics and in electricity, so it links the mechanical and electrical units to one another. In mechanical terms, one watt equals about 0.001 341 02 horsepower (hp) or 0.737 562 foot-pound per second (lbf/s). In electrical terms, one watt is the power produced by a current of one ampere flowing through an electric potential of one volt. The name of the unit honors James Watt (1736-1819), the British engineer whose improvements to the steam engine are often credited with igniting the Industrial Revolution."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Picograms per millilitre"@en ; + dcterms:description "One 10**15 part of the SI standard unit of mass of the measurand per millilitre volume of matrix."@en ; ns1:applicableSystem , , , - , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Watt"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "pg/mL"^^xsd:string ; + ns1:ucumCode "pg.mL-1"^^ns1:UCUMcs, + "pg/mL"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Planck Power"@en ; + dcterms:description "The Planck energy divided by the Planck time is the Planck power \\(P_p \\), equal to about \\(3.62831 \\times 10^{52} W\\). This is an extremely large unit; even gamma-ray bursts, the most luminous phenomena known, have output on the order of \\(1 \\times 10^{45} W\\), less than one ten-millionth of the Planck power."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 3.62831e+52, + 36283100000000000000000000000000000000000000000000000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_power"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA306"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Watt?oldid=494906356"^^xsd:anyURI ; - ns1:latexDefinition "\\(\\text{W}\\ \\equiv\\ \\text{watt}\\ \\equiv\\ \\frac{\\text{J}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{joule}}{\\text{second}}\\ \\equiv\\ \\frac{\\text{N.m}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{newton.metre}}{\\text{second}}\\ \\equiv\\ \\text{V.A}\\ \\equiv\\ \\text{volt.amp}\\ \\equiv\\ \\Omega\\text{.A}^{2}\\ \\equiv\\ \\text{ohm.amp}^{2}\\)"^^ns1:LatexString ; - ns1:omUnit ; - ns1:symbol "W"^^xsd:string ; - ns1:ucumCode "W"^^ns1:UCUMcs ; - ns1:udunitsCode "W"^^xsd:string ; - ns1:uneceCommonCode "WTT"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_power?oldid=493642483"^^xsd:anyURI ; + ns1:latexDefinition "\\(P_p = {\\frac{ c^5}{G}}\\), where \\(c\\) is the speed of light in a vacuum, and \\(G\\) is the gravitational constant."^^ns1:LatexString ; + ns1:symbol "planckpower"^^xsd:string ; rdfs:isDefinedBy . -s223:Aspect-ElectricalPhaseIdentifier a s223:Aspect-ElectricalPhaseIdentifier, - s223:Class, - sh:NodeShape ; - rdfs:label "Aspect-Electrical phase identifier"^^xsd:string ; - rdfs:comment "The value of the associated Property identifies the electrical phase of the Connection."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Aspect . + a ns1:Unit ; + rdfs:label "Planck Volt"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.04295e+27, + 1042950000000000000000000000.0 ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:symbol "Vₚ"^^xsd:string ; + rdfs:isDefinedBy . -s223:DCVoltage-DCNegativeVoltage a s223:Class, - s223:DCVoltage-DCNegativeVoltage, - sh:NodeShape ; - rdfs:label "DC Negative Voltage"^^xsd:string ; - s223:hasVoltage s223:Numerical-Voltage ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common negative voltages."^^xsd:string ; - rdfs:subClassOf s223:Numerical-DCVoltage . + a ns1:Unit ; + rdfs:label "Abvolt"@en ; + dcterms:description "A unit of electrical potential equal to one hundred millionth of a volt (\\(10^{-8}\\,volts\\)), used in the centimeter-gram-second (CGS) system of units. One abV is the potential difference that exists between two points when the work done to transfer one abcoulomb of charge between them equals: \\(1\\,erg\\cdot\\,1\\,abV\\,=\\,10\\,nV\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Abvolt"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Abvolt?oldid=477198646"^^xsd:anyURI, + "http://www.lexic.us/definition-of/abvolt"^^xsd:anyURI, + "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-27"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "abV"^^xsd:string ; + ns1:ucumCode "10.nV"^^ns1:UCUMcs ; + rdfs:isDefinedBy . -s223:DCVoltage-DCPositiveVoltage a s223:Class, - s223:DCVoltage-DCPositiveVoltage, + a ns1:Unit ; + rdfs:label "Statvolt"@en ; + dcterms:description "\"statvolt\" is a unit of voltage and electrical potential used in the cgs system of units. The conversion to the SI system is \\(1 statvolt = 299.792458 volts\\). The conversion factor 299.792458 is simply the numerical value of the speed of light in m/s divided by 106. The statvolt is also defined in the cgs system as \\(1 erg / esu\\). It is a useful unit for electromagnetism because one statvolt per centimetre is equal in magnitude to one gauss. Thus, for example, an electric field of one statvolt/cm has the same energy density as a magnetic field of one gauss. Likewise, a plane wave propagating in a vacuum has perpendicular electric and magnetic fields such that for every gauss of magnetic field intensity there is one statvolt/cm of electric field intensity. The abvolt is another option for a unit of voltage in the cgs system."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 299.792458 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Statvolt"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Statvolt"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Statvolt?oldid=491769750"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "statV"^^xsd:string ; + rdfs:isDefinedBy . + +ns3:CodeList a owl:Class ; + rdfs:label "Codelist"^^xsd:string ; + dcterms:description """ +A codelist is a controlled vocabulary of terms that are used to represent permissible values of a +variable in information systems. +The representaiton of codes in "dtype" has been influenced by CCTS and UBL. +"""^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subClassOf ns3:Enumeration . + +ns2:VocabularyGraph a ns2:GraphRole ; + rdfs:label "Vocabulary graph"^^xsd:string ; + dcterms:description "An RDF/OWL Graph that is a controlled set of instances."^^xsd:string ; + ns2:filePrefix "VOCAB"^^xsd:string ; + rdfs:isDefinedBy , + . + +s223:EnumerationKind-Occupancy a s223:Class, + s223:EnumerationKind-Occupancy, sh:NodeShape ; - rdfs:label "DC Positive Voltage"^^xsd:string ; - s223:hasVoltage s223:Numerical-Voltage ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common positive voltages."^^xsd:string ; - rdfs:subClassOf s223:Numerical-DCVoltage . + rdfs:label "Occupancy status"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of occupancy status, i.e. the state of being used or occupied. Some Occupancy enumerations have subclasses for more specific use."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . -s223:LineLineVoltage-240V a s223:Class, - s223:LineLineVoltage-240V, +s223:EnumerationKind-OnOff a s223:Class, + s223:EnumerationKind-OnOff, sh:NodeShape ; - rdfs:label "240V Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-240V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "240V Line-Line Voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-LineLineVoltage . + rdfs:label "OnOff enumeration"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of states of either on or off."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . -s223:hasAspect a rdf:Property ; - rdfs:label "has aspect"^^xsd:string ; - rdfs:comment "hasAspect is used to establish the context of a Property. The value must be an instance of EnumerationKind. For example, if a Property has a Temperature value of 45.3, the hasAspect relation is used to state what that represents, such as a Temperature limit during working hours, etc. A Property can have any number of hasAspect relations, as needed to establish the context."^^xsd:string . +dcterms:abstract a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "abstract"^^xsd:string ; + rdfs:isDefinedBy dcterms:, + ; + rdfs:range xsd:string . -s223:hasEnumerationKind a rdf:Property ; - rdfs:label "has enumeration kind"^^xsd:string ; - rdfs:comment "The relation hasEnumerationKind is used to associate an EnumerableProperty with a class of enumeration values. This is used to, for example, identify what kind of substance is transported along a Connection or which day of the week a setpoint is active."^^xsd:string . +dcterms:description a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "description"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:string . -s223:mapsTo a rdf:Property ; - rdfs:label "mapsTo"^^xsd:string ; - rdfs:comment "The relation mapsTo is used to associate a ConnectionPoint of a Connectable to a corresponding ConnectionPoint of the one containing it (see `pub:equipment-containment`). The associated ConnectionPoints must have the same direction (see `s223:EnumerationKind-Direction`) and compatiable medium Substance-Medium."^^xsd:string . +ns1:Verifiable a ns1:AspectClass, + sh:NodeShape ; + rdfs:label "Verifiable"^^xsd:string ; + rdfs:comment "An aspect class that holds properties that provide external knowledge and specifications of a given resource."^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subClassOf ns1:Aspect ; + sh:property ns1:Verifiable-dbpediaMatch, + ns1:Verifiable-informativeReference, + ns1:Verifiable-isoNormativeReference, + ns1:Verifiable-normativeReference . -ns1:HTMLOrStringOrLangStringOrLatexString a rdf:List ; - rdfs:label "HTML or string or langString or LatexString"^^xsd:string ; - rdf:first [ sh:datatype rdf:HTML ] ; - rdf:rest ( [ sh:datatype xsd:string ] [ sh:datatype rdf:langString ] [ sh:datatype ns1:LatexString ] ) ; - rdfs:comment "Defines an rdf:List that can be used in property constraints as value for sh:or to indicate that all values of a property must be either rdf:HTML, xsd:string or rdf:langString, or a qudt:LatexString"^^xsd:string ; - rdfs:isDefinedBy . +ns1:applicableUnit a rdf:Property ; + rdfs:label "applicable unit"^^xsd:string ; + dcterms:description "See https://github.com/qudt/qudt-public-repo/wiki/Advanced-User-Guide#4-computing-applicable-units-for-a-quantitykind on how `qudt:applicableUnit` is computed from `qudt:hasQuantityKind` and then materialized"^^rdf:HTML ; + rdfs:isDefinedBy , + . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-2L2I0M1H0T-2D0"^^xsd:string ; + rdfs:label "A-1E0L2I0M1H-1T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance -1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M T^-2 Θ^-1 N^-1$"^^ns1:LatexString, + "\\(L^2 M T^-2 Θ^-1 N^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E-2L1I0M1H0T-2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent -2 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLength 1 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-2 I^-2\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L M T^-2 I^-2$"^^ns1:LatexString, + "\\(L M T^-2 I^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-1I0M1H-1T-2D0"^^xsd:string ; + rdfs:label "A0E0L-1I0M0H0T1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; ns1:dimensionExponentForLength -1 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature -1 ; - ns1:dimensionExponentForTime -2 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexSymbol "\\(M / (L \\cdot T^2 H)\\)"^^ns1:LatexString, - "\\(M / (L \\cdot T^2 \\Theta)\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 T$"^^ns1:LatexString, + "\\(L^-1 T\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-2I0M1H0T-2D0"^^xsd:string ; + rdfs:label "A0E0L0I0M-1H1T3D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -2 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M T^-2\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M^-1 T^3 Θ$"^^ns1:LatexString, + "\\(M^-1 T^3 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L1I0M1H0T-1D0"^^xsd:string ; + rdfs:label "A0E0L0I0M0H0T-2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; + ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M T^-1\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$U T^-2$"^^ns1:LatexString, + "\\(U T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L2I0M-1H0T0D0"^^xsd:string ; + rdfs:label "A0E0L2I0M0H0T1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; + ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 T$"^^ns1:LatexString, + "\\(L^2 T\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L-2I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; + rdfs:label "A0E0L3I0M0H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLength 3 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^3 Θ^-1$"^^ns1:LatexString, + "\\(L^3 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Action"@en ; - dcterms:description """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system. -The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle."""^^xsd:string ; - ns1:applicableUnit , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Action_(physics)"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:latexDefinition "$S = \\int Ldt$, where $L$ is the Lagrange function and $t$ is time."^^ns1:LatexString ; - ns1:plainTextDescription """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system. -The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle."""^^xsd:string ; - ns1:symbol "S"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Admittance"@en ; - dcterms:description "\"Admittance\" is a measure of how easily a circuit or device will allow a current to flow. It is defined as the inverse of the impedance ($Z$). "^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Admittance"^^xsd:anyURI, - "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-51"^^xsd:anyURI, + a ns1:QuantityKind ; + rdfs:label "Complex Power"@en ; + dcterms:description """ + $\\textit{Complex Power}$, under sinusoidal conditions, + is the product of the phasor $\\mathbf{U}$ representing the voltage between the terminals of a linear two-terminal element, + or two-terminal circuit and the complex conjugate of the phasor $I$ representing the electric current in the element or circuit. + """^^ns1:LatexString, + "\"Complex Power\", under sinusoidal conditions, is the product of the phasor $U$ representing the voltage between the terminals of a linear two-terminal element or two-terminal circuit and the complex conjugate of the phasor $I$ representing the electric current in the element or circuit."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; + ns1:expression "$complex-power$"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-11-39"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$Y = \\frac{1}{Z}$, where $Z$ is impedance."^^ns1:LatexString ; - ns1:latexSymbol "$Y$"^^ns1:LatexString ; + ns1:latexDefinition "$\\underline{S} = \\underline{U}\\underline{I^*}$, where $\\underline{U}$ is voltage phasor and $\\underline{I^*}$ is the complex conjugate of the current phasor."^^ns1:LatexString ; + ns1:latexSymbol "$\\underline{S}$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ComplexPower"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso . + rdfs:seeAlso , + ; + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Angular Momentum"@en ; - dcterms:description "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_momentum"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Angular_momentum"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:latexDefinition "$L = I\\omega$, where $I$ is the moment of inertia, and $\\omega$ is the angular velocity."^^ns1:LatexString ; - ns1:plainTextDescription "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^xsd:string ; - ns1:symbol "L"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Dry Volume"@en ; + dcterms:description "Dry measures are units of volume used to measure bulk commodities which are not gas or liquid. They are typically used in agriculture, agronomy, and commodity markets to measure grain, dried beans, and dried and fresh fruit; formerly also salt pork and fish. They are also used in fishing for clams, crabs, etc. and formerly for many other substances (for example coal, cement, lime) which were typically shipped and delivered in a standardized container such as a barrel. In the original metric system, the unit of dry volume was the stere, but this is not part of the modern metric system; the liter and the cubic meter ($m^{3}$) are now used. However, the stere is still widely used for firewood."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Dry_measure"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:DryVolume"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . - a ns1:QuantityKind ; - rdfs:label "Gyromagnetic Ratio"@en ; - dcterms:description "\"Gyromagnetic Ratio}, also sometimes known as the magnetogyric ratio in other disciplines, of a particle or system is the ratio of its magnetic dipole moment to its angular momentum, and it is often denoted by the symbol, $\\gamma$. Its SI units are radian per second per tesla ($rad s^{-1} \\cdot T^{1}$) or, equivalently, coulomb per kilogram ($C \\cdot kg^{-1\"$)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gyromagnetic_ratio"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gyromagnetic_ratio"^^xsd:anyURI ; - ns1:latexDefinition "$\\mu = \\gamma J$, where $\\mu$ is the magnetic dipole moment, and $J$ is the total angular momentum."^^ns1:LatexString ; - ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; + a ns1:QuantityKind ; + rdfs:label "Force Per Area Time"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerAreaTime"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "المحاثة (التحريض)"@ar, - "Индуктивност"@bg, - "Indukčnost"@cs, - "Induktivität"@de, - "inductance"@en, - "inductancia"@es, - "القاوری"@fa, - "Inductance électrique"@fr, - "השראות"@he, - "प्रेरकत्व"@hi, - "induktivitás"@hu, - "induttanza"@it, - "インダクタンス・誘導係数"@ja, - "inductantia"@la, - "Indukstans"@ms, - "indukcyjność"@pl, - "indutância"@pt, - "inductanță"@ro, - "Индуктивность"@ru, - "induktivnost"@sl, - "İndüktans"@tr, - "电感"@zh ; - dcterms:description "\"Inductance\" is an electromagentic quantity that characterizes a circuit's resistance to any change of electric current; a change in the electric current through induces an opposing electromotive force (EMF). Quantitatively, inductance is proportional to the magnetic flux per unit of electric current."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Inductance"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD065"^^xsd:string ; - ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-19"^^xsd:anyURI, + a ns1:QuantityKind ; + rdfs:label "سعة حرارية"@ar, + "tepelná kapacita"@cs, + "Wärmekapazität"@de, + "heat capacity"@en, + "capacidad calorífica"@es, + "ظرفیت گرمایی"@fa, + "capacité thermique"@fr, + "ऊष्मा धारिता"@hi, + "capacità termica"@it, + "熱容量"@ja, + "muatan haba"@ms, + "pojemność cieplna"@pl, + "capacidade térmica"@pt, + "capacitate termică"@ro, + "теплоёмкость"@ru, + "toplotna kapaciteta"@sl, + "isı kapasitesi"@tr, + "热容"@zh ; + dcterms:description "\"Heat Capacity\" (usually denoted by a capital $C$, often with subscripts), or thermal capacity, is the measurable physical quantity that characterizes the amount of heat required to change a substance's temperature by a given amount. In the International System of Units (SI), heat capacity is expressed in units of joule(s) (J) per kelvin (K)."^^ns1:LatexString, + "\"Heat Capacity\" (usually denoted by a capital \\(C\\), often with subscripts), or thermal capacity, is the measurable physical quantity that characterizes the amount of heat required to change a substance's temperature by a given amount. In the International System of Units (SI), heat capacity is expressed in units of joule(s) (J) per kelvin (K)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Heat_capacity"^^xsd:anyURI ; + ns1:latexDefinition "$C = dQ/dT$, where $Q$ is amount of heat and $T$ is thermodynamic temperature."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "C_P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HeatCapacity"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Linear Electric Current Density"@en ; + dcterms:description "\"Linear Electric Linear Current Density\" is the electric current per unit length. Electric current, $I$, through a curve $C$ is defined as $I = \\int_C J _s \\times e_n$, where $e_n$ is a unit vector perpendicular to the surface and line vector element, and $dr$ is the differential of position vector $r$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.asknumbers.com/ElectricalConversion.aspx"^^xsd:anyURI, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$L =\\frac{\\Psi}{I}$, where $I$ is an electric current in a thin conducting loop, and $\\Psi$ is the linked flux caused by that electric current."^^ns1:LatexString ; - ns1:plainTextDescription "\"Inductance\" is an electromagentic quantity that characterizes a circuit's resistance to any change of electric current; a change in the electric current through induces an opposing electromotive force (EMF). Quantitatively, inductance is proportional to the magnetic flux per unit of electric current."^^xsd:string ; - ns1:siExactMatch ; - ns1:symbol "L"^^xsd:string ; + ns1:latexDefinition "$J_s = \\rho_A v$, where $\\rho_A$ is surface density of electric charge and $v$ is velocity."^^ns1:LatexString ; + ns1:symbol "J_s"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearElectricCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:altLabel "inductivity"@en, - "Induktiviti"@ms . + rdfs:seeAlso , + . - a ns1:QuantityKind ; - rdfs:label "Inverse Volume"@en ; - ns1:applicableUnit , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; + a ns1:QuantityKind ; + rdfs:label "Linear Thermal Expansion"@en ; + dcterms:description "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: linear thermal expansion, area thermal expansion, or volumetric thermal expansion."^^ns1:LatexString, + "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: linear thermal expansion, area thermal expansion, or volumetric thermal expansion."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/linear_thermal_expansion"^^xsd:anyURI ; + ns1:plainTextDescription "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion. Different coefficients of thermal expansion can be defined for a substance depending on whether the expansion is measured by: linear thermal expansion, area thermal expansion, or volumetric thermal expansion."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearThermalExpansion"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Linear Momentum"@en ; - dcterms:description "Linear momentum is the quantity obtained by multiplying the mass of a body by its linear velocity. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium.The SI unit for linear momentum is meter-kilogram per second ($m-kg/s$)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Momentum"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Momentum"^^xsd:anyURI ; - ns1:latexDefinition "p = m\\upsilon"^^ns1:LatexString ; - ns1:symbol "p"^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Mass per Time"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:MassPerTime"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "عزم القصور الذاتي"@ar, - "Moment setrvačnosti"@cs, - "Massenträgheitsmoment"@de, - "moment of inertia"@en, - "momento de inercia"@es, - "گشتاور لختی"@fa, - "moment d'inertie"@fr, - "जड़त्वाघूर्ण"@hi, - "momento di inerzia"@it, - "慣性モーメント"@ja, - "Momen inersia"@ms, - "Moment bezwładności"@pl, - "momento de inércia"@pt, - "Moment de inerție"@ro, - "Момент инерции"@ru, - "Eylemsizlik momenti"@tr, - "轉動慣量"@zh ; - dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD128"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Moment_of_inertia"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:latexDefinition "$I_Q = \\int r^2_Q dm$, where $r_Q$ is the radial distance from a $Q-axis$ and $m$ is mass."^^ns1:LatexString ; - ns1:plainTextDescription "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^xsd:string ; - ns1:symbol "I"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "MOI"^^xsd:string . - - a ns1:QuantityKind ; - rdfs:label "Water Solubility"@en ; - dcterms:description "An amount of substance per unit volume that is the concentration of a saturated solution expressed as the ratio of the solute concentration over the volume of water. A substance's solubility fundamentally depends on several physical and chemical properties of the solution as well as the environment it is in."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:plainTextDescription "An amount of substance per unit volume that is the concentration of a saturated solution expressed as the ratio of the solute concentration over the volume of water. A substance's solubility fundamentally depends on several physical and chemical properties of the solution as well as the environment it is in."^^xsd:string ; + a ns1:QuantityKind ; + rdfs:label "Thermal Insulance"@en ; + dcterms:description "$\\textit{Thermal Insulance}$ is the reduction of heat transfer (the transfer of thermal energy between objects of differing temperature) between objects in thermal contact or in range of radiative influence. In building technology, this quantity is often called $\\textit{Thermal Resistance}$, with the symbol $R$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD192"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Thermal_insulation"^^xsd:anyURI ; + ns1:latexDefinition "$M = 1/K$, where $K$ is \"Coefficient of Heat Transfer\""^^ns1:LatexString ; + ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermalInsulance"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + rdfs:seeAlso . - a ns1:Unit ; - rdfs:label "أمبير"@ar, - "ампер"@bg, - "ampér"@cs, - "Ampere"@de, - "αμπέρ"@el, - "ampere"@en, - "amperio"@es, - "آمپر"@fa, - "ampère"@fr, - "אמפר"@he, - "एम्पीयर"@hi, - "amper"@hu, - "ampere"@it, - "アンペア"@ja, - "amperium"@la, - "ampere"@ms, - "amper"@pl, - "ampere"@pt, - "amper"@ro, - "ампер"@ru, - "amper"@sl, - "amper"@tr, - "安培"@zh ; - dcterms:description """The \\(\\textit{ampere}\\), often shortened to \\(\\textit{amp}\\), is the SI unit of electric current and is one of the seven SI base units. -\\(\\text{A}\\ \\equiv\\ \\text{amp (or ampere)}\\ \\equiv\\ \\frac{\\text{C}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{coulomb}}{\\text{second}}\\ \\equiv\\ \\frac{\\text{J}}{\\text{Wb}}\\ \\equiv\\ \\frac{\\text{joule}}{\\text{weber}}\\) -Note that SI supports only the use of symbols and deprecates the use of any abbreviations for units."""^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "مقياس التبادل، الأس السالب للمتر"@ar, + "ampérů na metr"@cs, + "Ampere je Meter"@de, + "Ampere per Metre"@en, + "ampere per metre"@en, + "Ampere per Meter"@en-us, + "amperio por metro"@es, + "آمپر بر متر"@fa, + "ampère par mètre"@fr, + "प्रति मीटर एम्पीयर"@hi, + "ampere al metro"@it, + "アンペア毎メートル"@ja, + "ampere per meter"@ms, + "amper na metr"@pl, + "ampere por metro"@pt, + "ampere pe metru"@ro, + "ампер на метр"@ru, + "amper na meter"@sl, + "amper bölü metre"@tr, + "安培每米"@zh ; + dcterms:description " is the SI unit of magnetic field strength. One ampere per meter is equal to \\(\\pi/250\\) oersteds (\\(12.566\\, 371\\,millioersteds\\)) in CGS units. The ampere per meter is also the SI unit of \"magnetization\" in the sense of magnetic dipole moment per unit volume; in this context \\(1 A/m = 0.001\\,emu\\,per\\,cubic\\,centimeter\\)."^^ns1:LatexString ; ns1:applicableSystem , , - , ; ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Ampere"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA101"^^xsd:string, - "0112/2///62720#UAD717"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Ampere?oldid=494026699"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "A"^^xsd:string ; - ns1:ucumCode "A"^^ns1:UCUMcs ; - ns1:udunitsCode "A"^^xsd:string ; - ns1:uneceCommonCode "AMP"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "amp"^^xsd:string . + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(A/m\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA104"^^xsd:string ; + ns1:symbol "A/m"^^xsd:string ; + ns1:ucumCode "A.m-1"^^ns1:UCUMcs, + "A/m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "AE"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "كولوم في المتر المربع"@ar, + "coulomb na metr čtvereční"@cs, + "Coulomb je Quadratmeter"@de, + "Coulomb per Square Metre"@en, + "coulomb per square metre"@en, + "Coulomb per Square Meter"@en-us, + "culombio por metro cuadrado"@es, + "کولمب/کولن بر مترمربع"@fa, + "coulomb par mètre carré"@fr, + "कूलम्ब प्रति वर्ग मीटर"@hi, + "coulomb al metro quadrato"@it, + "クーロン毎平方メートル"@ja, + "coulomb per meter persegi"@ms, + "kulomb na metr kwadratowy"@pl, + "coulomb por metro quadrado"@pt, + "coulomb pe metru pătrat"@ro, + "кулон на квадратный метр"@ru, + "coulomb bölü metre kare"@tr, + "库伦每平方米"@zh ; + dcterms:description "Coulomb Per Square Meter (\\(C/m^2\\)) is a unit in the category of Electric charge surface density. It is also known as coulombs per square meter, coulomb per square metre, coulombs per square metre, coulomb/square meter, coulomb/square metre. This unit is commonly used in the SI unit system. Coulomb Per Square Meter (C/m2) has a dimension of \\(L^{-2}TI\\) where L is length, T is time, and I is electric current. This unit is the standard SI unit in this category. "^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(C/m^{2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA134"^^xsd:string ; + ns1:symbol "C/m²"^^xsd:string ; + ns1:ucumCode "C.m-2"^^ns1:UCUMcs, + "C/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A34"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU per Hour Square Foot"@en ; - dcterms:description "\\(\\textit{BTU per Hour Square Foot}\\) is an Imperial unit for 'Power Per Area' expressed as \\(Btu/(hr-ft^2)\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Calorie (thermochemical) Per Gram"@en ; + dcterms:description "Thermochemical Calorie. Calories produced per gram of substance."^^rdf:HTML, + "Thermochemical Calorie. Calories produced per gram of substance."^^xsd:string ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 4184.0 ; + ns1:expression "\\(cal\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB153"^^xsd:string ; + ns1:informativeReference "http://physics.nist.gov/Pubs/SP811/appenB9.html"^^xsd:anyURI, + "http://www.efunda.com/glossary/units/units--thermal_heat_capacity--british_thermal_unit_therm_per_pound_mass.cfm"^^xsd:anyURI ; + ns1:plainTextDescription "unit thermochemical calorie divided by the 0.001-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "cal{th}/g"^^xsd:string ; + ns1:ucumCode "cal_th.g-1"^^ns1:UCUMcs, + "cal_th/g"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B36"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Centimole per litre"@en ; + dcterms:description "1/100 of SI unit of amount of substance per litre"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 10.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "cmol/L"^^xsd:string ; + ns1:ucumCode "cmol.L-1"^^ns1:UCUMcs, + "cmol/L"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot Pound Force per Hour"@en ; + dcterms:description "\"Foot Pound Force per Hour\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/hr\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 3.15459075 ; + ns1:conversionMultiplier 0.00376616129 ; ns1:definedUnitOfSystem , ; - ns1:expression "\\(Btu/(hr-ft^{2})\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "Btu{IT}/(hr⋅ft²)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].h-1.[ft_i]-2"^^ns1:UCUMcs, - "[Btu_IT]/(h.[ft_i]2)"^^ns1:UCUMcs ; + ns1:expression "\\(ft-lbf/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "ft⋅lbf/hr"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av].h-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K15"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "BTU per Second Square Foot"@en ; - dcterms:description "\\(\\textit{BTU per Second Square Foot}\\) is an Imperial unit for 'Power Per Area' expressed as \\(Btu/(s\\cdot ft^2)\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Foot Pound Force per Minute"@en ; + dcterms:description "\"Foot Pound Force per Minute\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/min\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 11356.5267 ; + ns1:conversionMultiplier 0.0225969678 ; ns1:definedUnitOfSystem , ; - ns1:expression "\\(Btu/(s-ft^{2})\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "Btu{IT}/(s⋅ft²)"^^xsd:string ; - ns1:ucumCode "[Btu_IT].s-1.[ft_i]-2"^^ns1:UCUMcs, - "[Btu_IT]/(s.[ft_i]2)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "N53"^^xsd:string ; + ns1:expression "\\(ft-lbf/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "ft⋅lbf/min"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av].min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K16"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centipoise Per Bar"@en ; - dcterms:description "0.01-fold of the CGS unit of the dynamic viscosity poise divided by the unit of the pressure bar"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA358"^^xsd:string ; - ns1:plainTextDescription "0.01-fold of the CGS unit of the dynamic viscosity poise divided by the unit of the pressure bar"^^xsd:string ; - ns1:symbol "cP/bar"^^xsd:string ; - ns1:ucumCode "cP.bar-1"^^ns1:UCUMcs, - "cP/bar"^^ns1:UCUMcs ; - ns1:uneceCommonCode "J74"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Foot Pound Force per Second"@en ; + dcterms:description "\"Foot Pound Force per Second\" is an Imperial unit for 'Power' expressed as \\(ft-lbf/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1.35581807 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft-lbf/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "ft⋅lbf/s"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av].s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A74"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Sidereal Day"@en ; - dcterms:description "The length of time which passes between a given fixed star in the sky crossing a given projected meridian (line of longitude). The sidereal day is \\(23 h 56 m 4.1 s\\), slightly shorter than the solar day because the Earth 's orbital motion about the Sun means the Earth has to rotate slightly more than one turn with respect to the \"fixed\" stars in order to reach the same Earth-Sun orientation. Another way of thinking about the difference is that it amounts to \\(1/365.2425^{th}\\) of a day per day, since even if the Earth did not spin on its axis at all, the Sun would appear to make one rotation around the Earth as the Earth completed a single orbit (which takes one year)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Gauss"@en ; + dcterms:description "CGS unit of the magnetic flux density B"^^rdf:HTML ; + ns1:conversionMultiplier 0.0001 ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB135"^^xsd:string ; + ns1:plainTextDescription "CGS unit of the magnetic flux density B"^^xsd:string ; + ns1:symbol "Gs"^^xsd:string ; + ns1:ucumCode "G"^^ns1:UCUMcs ; + ns1:uneceCommonCode "76"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + . + + a ns1:Unit ; + rdfs:label "Gigawatt"@en ; + dcterms:description "1,000,000,000-fold of the SI derived unit watt"^^rdf:HTML ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 86164.099 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI, - "http://scienceworld.wolfram.com/astronomy/SiderealDay.html"^^xsd:anyURI ; - ns1:symbol "day{sidereal}"^^xsd:string ; - ns1:ucumCode "d"^^ns1:UCUMcs ; + , + ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA154"^^xsd:string ; + ns1:plainTextDescription "1 000 000 000-fold of the SI derived unit watt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "GW"^^xsd:string ; + ns1:ucumCode "GW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A90"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Erg per Square Centimetre Second"@en, - "Erg per Square Centimeter Second"@en-us ; - dcterms:description "\"Erg per Square Centimeter Second\" is a C.G.S System unit for 'Power Per Area' expressed as \\(erg/(cm^{2}-s)\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.001 ; - ns1:derivedUnitOfSystem , - ; - ns1:expression "\\(erg/(cm^{2}-s)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB055"^^xsd:string ; - ns1:symbol "erg/(cm²⋅s)"^^xsd:string ; - ns1:ucumCode "erg.cm-2.s-1"^^ns1:UCUMcs, - "erg/(cm2.s)"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A65"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Boiler Horsepower"@en ; + dcterms:description "\"Boiler Horsepower\" is a unit for 'Power' expressed as \\(hp_boiler\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 9809.5 ; + ns1:expression "\\(boiler_hp\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "HP{boiler}"^^xsd:string ; + ns1:uneceCommonCode "K42"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot Pound Force per Square Foot Second"@en ; - dcterms:description "\"Foot Pound Force per Square Foot Second\" is an Imperial unit for 'Power Per Area' expressed as \\(ft \\cdot lbf/(ft^2 \\cdot s)\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 14.5939042 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft-lbf/ft^2s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:latexSymbol "\\(ft \\cdot lbf/(ft^2 \\cdot s)\\)"^^ns1:LatexString ; - ns1:symbol "ft⋅lbf/ft²s"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av].[sft_i]-1.s-1"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Kilogram?force Metre Per Second"@en, + "Kilogram_force Metre Per Second"@en, + "Kilogram?force Meter Per Second"@en-us, + "Kilogram_force Meter Per Second"@en-us ; + dcterms:description "product of the SI base unit metre and the unit kilogram-force according to the Anglo-American and Imperial system of units divided by the SI base unit second"^^rdf:HTML ; + ns1:conversionMultiplier 9.80665 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB154"^^xsd:string ; + ns1:plainTextDescription "product of the SI base unit metre and the unit kilogram-force according to the Anglo-American and Imperial system of units divided by the SI base unit second"^^xsd:string ; + ns1:symbol "kgf⋅m/s"^^xsd:string ; + ns1:ucumCode "kgf.m.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B39"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Henry Per Kiloohm"@en ; - dcterms:description "SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "متر مربع في الثانية"@ar, + "čtvereční metr za sekundu"@cs, + "Quadratmeter je Sekunde"@de, + "Square Metre per Second"@en, + "square metre per second"@en, + "Square Meter per Second"@en-us, + "metro cuadrado por segundo"@es, + "متر مربع بر ثانیه"@fa, + "mètre carré par seconde"@fr, + "वर्ग मीटर प्रति सैकिण्ड"@hi, + "metro quadrato al secondo"@it, + "平方メートル毎秒"@ja, + "meter persegi per saat"@ms, + "metr kwadratowy na sekundę"@pl, + "metro quadrado por segundo"@pt, + "metru pătrat pe secundă"@ro, + "квадратный метр в секунду"@ru, + "kvadratni meter na sekundo"@sl, + "metrekare bölü saniye"@tr, + "平方米每秒"@zh ; + dcterms:description "\\(Square Metres per second is the SI derived unit of angular momentum, defined by distance or displacement in metres multiplied by distance again in metres and divided by time in seconds. The unit is written in symbols as m2/s or m2u00b7s-1 or m2s-1. It may be better understood when phrased as \"metres per second times metres\", i.e. the momentum of an object with respect to a position.\\)"^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m^{2} s^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA752"^^xsd:string ; + ns1:symbol "m²/s"^^xsd:string ; + ns1:ucumCode "m2.s-1"^^ns1:UCUMcs, + "m2/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "S4"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mega Hertz per Tesla"@en ; + dcterms:description "\"Mega Hertz per Tesla\" is a unit for 'Electric Charge Per Mass' expressed as \\(MHz T^{-1}\\)."^^ns1:LatexString ; ns1:applicableSystem , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA167"^^xsd:string ; - ns1:plainTextDescription "SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^xsd:string ; - ns1:symbol "H/kΩ"^^xsd:string ; - ns1:ucumCode "H.kOhm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H03"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:expression "\\(MHz T^{-1}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "MHz/T"^^xsd:string ; + ns1:ucumCode "MHz.T-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Henry Per Ohm"@en ; - dcterms:description "SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Microwatt"@en ; + dcterms:description "0.000001-fold of the SI derived unit watt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA080"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit watt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mW"^^xsd:string ; + ns1:ucumCode "uW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D80"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Nanomoles per litre"@en ; + dcterms:description "A scaled unit of amount-of-substance concentration."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "nmol/L"^^xsd:string ; + ns1:ucumCode "nmol.L-1"^^ns1:UCUMcs, + "nmol/L"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Nanowatt"@en ; + dcterms:description "0.000000001-fold of the SI derived unit watt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA910"^^xsd:string ; + ns1:plainTextDescription "0.000000001-fold of the SI derived unit watt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "nW"^^xsd:string ; + ns1:ucumCode "nW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C49"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "أوم"@ar, + "ом"@bg, + "ohm"@cs, + "Ohm"@de, + "ωμ"@el, + "Ohm"@en, + "ohm"@en, + "ohmio"@es, + "اهم"@fa, + "ohm"@fr, + "אוהם"@he, + "ओह्म"@hi, + "ohm"@hu, + "ohm"@it, + "オーム"@ja, + "ohmium"@la, + "ohm"@ms, + "om"@pl, + "ohm"@pt, + "ohm"@ro, + "ом"@ru, + "ohm"@sl, + "ohm"@tr, + "欧姆"@zh ; + dcterms:description "The \\textit{ohm} is the SI derived unit of electrical resistance, named after German physicist Georg Simon Ohm. \\(\\Omega \\equiv\\ \\frac{\\text{V}}{\\text{A}}\\ \\equiv\\ \\frac{\\text{volt}}{\\text{amp}}\\ \\equiv\\ \\frac{\\text{W}}{\\text {A}^{2}}\\ \\equiv\\ \\frac{\\text{watt}}{\\text{amp}^{2}}\\ \\equiv\\ \\frac{\\text{H}}{\\text {s}}\\ \\equiv\\ \\frac{\\text{henry}}{\\text{second}}\\)"^^ns1:LatexString ; ns1:applicableSystem , , + , ; ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA166"^^xsd:string ; - ns1:plainTextDescription "SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; - ns1:symbol "H/Ω"^^xsd:string ; - ns1:ucumCode "H.Ohm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H04"^^xsd:string ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Ohm"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA017"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Ohm?oldid=494685555"^^xsd:anyURI ; + ns1:omUnit ; + ns1:siUnitsExpression "V/A"^^xsd:string ; + ns1:symbol "Ω"^^xsd:string ; + ns1:ucumCode "Ohm"^^ns1:UCUMcs ; + ns1:udunitsCode "Ω"^^xsd:string ; + ns1:uneceCommonCode "OHM"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Reciprocal Second"@en ; + dcterms:description "A reciprical unit of time for \\(\\textit{reciprocal second}\\) or \\(\\textit{inverse second}\\). The \\(\\textit{Per Second}\\) is a unit of rate."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/s"^^xsd:string ; + ns1:ucumCode "/s"^^ns1:UCUMcs, + "s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C97"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Picowatt"@en ; + dcterms:description "0.000000000001-fold of the SI derived unit watt"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA935"^^xsd:string ; + ns1:plainTextDescription "0.000000000001-fold of the SI derived unit watt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "pW"^^xsd:string ; + ns1:ucumCode "pW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C75"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Revolution per Hour"@en ; + dcterms:description "\"Revolution per Hour\" is a unit for 'Angular Velocity' expressed as \\(rev/h\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 0.00174532925 ; + ns1:expression "\\(rev/h\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "rev/h"^^xsd:string ; + ns1:ucumCode "{#}.h-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Revolution per Minute"@en ; + dcterms:description "\"Revolution per Minute\" is a unit for 'Angular Velocity' expressed as \\(rev/min\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 0.104719755 ; + ns1:expression "\\(rev/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB231"^^xsd:string ; + ns1:symbol "rev/min"^^xsd:string ; + ns1:ucumCode "{#}.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M46"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Revolution per Second"@en ; + dcterms:description "\"Revolution per Second\" is a unit for 'Angular Velocity' expressed as \\(rev/s\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 6.28318531 ; + ns1:expression "\\(rev/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "rev/s"^^xsd:string ; + ns1:ucumCode "{#}.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "RPS"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Hour"@en ; - dcterms:description "The hour (common symbol: h or hr) is a unit of measurement of time. In modern usage, an hour comprises 60 minutes, or 3,600 seconds. It is approximately 1/24 of a mean solar day. An hour in the Universal Coordinated Time (UTC) time standard can include a negative or positive leap second, and may therefore have a duration of 3,599 or 3,601 seconds for adjustment purposes. Although it is not a standard defined by the International System of Units, the hour is a unit accepted for use with SI, represented by the symbol h."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Tonne Per Cubic Metre"@en, + "Tonne Per Cubic Meter"@en-us ; + dcterms:description "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA997"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "t/m³"^^xsd:string ; + ns1:ucumCode "t.m-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D41"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Long Ton per Cubic Yard"@en ; + dcterms:description "The long ton per cubic yard density measurement unit is used to measure volume in cubic yards in order to estimate weight or mass in long tons."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1328.9391836174336 ; + ns1:definedUnitOfSystem ; + ns1:exactMatch ; + ns1:expression "\\(ton/yd^3\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "t{long}/yd³"^^xsd:string ; + ns1:ucumCode "[lton_av]/[cyd_i]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L92"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Tonne Per Cubic Metre"@en, + "Tonne Per Cubic Meter"@en-us ; + dcterms:description "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; ns1:applicableSystem , , , - , - , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA997"^^xsd:string ; + ns1:plainTextDescription "unit tonne divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "t/m³"^^xsd:string ; + ns1:ucumCode "t.m-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D41"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Short Ton per Cubic Yard"@en ; + dcterms:description "The short ton per cubic yard density measurement unit is used to measure volume in cubic yards in order to estimate weight or mass in short tons."^^rdf:HTML ; + ns1:applicableSystem , ; - ns1:conversionMultiplier 3600.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Hour"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA525"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Hour?oldid=495040268"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "hr"^^xsd:string ; - ns1:ucumCode "h"^^ns1:UCUMcs ; - ns1:udunitsCode "h"^^xsd:string ; - ns1:uneceCommonCode "HUR"^^xsd:string ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 1186.552842515566 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:expression "\\(ton/yd^3\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ton{short}/yd³"^^xsd:string ; + ns1:ucumCode "[ston_av].[cyd_i]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Sidereal Hour"@en ; - dcterms:description "Sidereal time is a time-keeping system astronomers use to keep track of the direction to point their telescopes to view a given star in the night sky. A mean sidereal day is about 23 h 56 m 4.1 s in length. However, due to variations in the rotation rate of the Earth, the rate of an ideal sidereal clock deviates from any simple multiple of a civil clock. In practice, the difference is kept track of by the difference UTC-UT1, which is measured by radio telescopes and kept on file and available to the public at the IERS and at the United States Naval Observatory. A Sidereal Hour is \\(1/24^{th}\\) of a Sidereal Day. A mean sidereal day is 23 hours, 56 minutes, 4.0916 seconds (23.9344699 hours or 0.99726958 mean solar days), the time it takes Earth to make one rotation relative to the vernal equinox. (Due to nutation, an actual sidereal day is not quite so constant.) The vernal equinox itself precesses slowly westward relative to the fixed stars, completing one revolution in about 26,000 years, so the misnamed sidereal day (\"sidereal\" is derived from the Latin sidus meaning \"star\") is 0.0084 seconds shorter than Earth's period of rotation relative to the fixed stars."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Long Ton (UK) Per Cubic Yard"@en ; + dcterms:description "unit of the density according the Imperial system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1328.8778292234224 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB018"^^xsd:string ; + ns1:plainTextDescription "unit of the density according the Imperial system of units"^^xsd:string ; + ns1:symbol "t{long}/yd³"^^xsd:string ; + ns1:ucumCode "[lton_av].[cyd_i]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Short Ton (US) Per Cubic Yard"@en ; + dcterms:description "unit of the density according to the Anglo-American system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1186.3112117181538 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB020"^^xsd:string ; + ns1:plainTextDescription "unit of the density according to the Anglo-American system of units"^^xsd:string ; + ns1:symbol "ton{US}/yd³"^^xsd:string ; + ns1:ucumCode "[ston_av].[cyd_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L93"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Terawatt"@en ; + dcterms:description "1,000,000,000,000-fold of the SI derived unit watt"^^rdf:HTML ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 3590.17 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI ; - ns1:symbol "hr{sidereal}"^^xsd:string ; - ns1:ucumCode "h"^^ns1:UCUMcs ; + , + ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA289"^^xsd:string ; + ns1:plainTextDescription "1,000,000,000,000-fold of the SI derived unit watt"^^xsd:string ; + ns1:prefix ; + ns1:symbol "TW"^^xsd:string ; + ns1:ucumCode "TW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D31"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie per Square Centimetre Minute"@en, - "Kilocalorie per Square Centimeter Minute"@en-us ; - dcterms:description "\"Kilocalorie per Square Centimeter Minute\" is a unit for 'Power Per Area' expressed as \\(kcal/(cm^{2}-min)\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 6.973333e-05 ; - ns1:expression "\\(kcal/(cm^{2}-min)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kcal/(cm²⋅min)"^^xsd:string ; - ns1:ucumCode "kcal.cm-2.min-1"^^ns1:UCUMcs ; +owl:Ontology ns2:hasGraphMetadata ns2:GMD_VAEM . + +skos:Concept a owl:Class ; + rdfs:label "Concept"@en ; + rdfs:isDefinedBy ; + skos:definition "An idea or notion; a unit of thought."@en . + +sh:IRI a sh:NodeKind ; + rdfs:label "IRI"@en ; + rdfs:comment "The node kind of all IRIs."@en ; + rdfs:isDefinedBy sh: . + +s223:Aspect-ElectricalVoltagePhases a s223:Aspect-ElectricalVoltagePhases, + s223:Class, + sh:NodeShape ; + rdfs:label "Aspect-Electrical Voltage Phases"^^xsd:string ; + rdfs:comment "This class enumerates the relevant electrical phases for a voltage difference for AC electricity inside a Connection."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + +s223:Constituent-Glycol a s223:Class, + s223:Constituent-Glycol, + sh:NodeShape ; + rdfs:label "Constituent-Glycol"^^xsd:string ; + rdfs:comment "Constituent-Glycol"^^xsd:string ; + rdfs:subClassOf s223:Medium-Constituent . + +s223:connectsThrough a rdf:Property ; + rdfs:label "connects through"^^xsd:string ; + s223:inverseOf s223:connectsAt ; + rdfs:comment "The relation connectsThrough binds a ConnectionPoint to a Connection without regard to the direction of flow."^^xsd:string . + +ns1:NumericUnionList a rdf:List ; + rdfs:label "Numeric Union List"^^xsd:string ; + rdf:first [ sh:datatype xsd:string ], + [ sh:datatype xsd:string ] ; + rdf:rest ( [ sh:datatype xsd:nonNegativeInteger ] [ sh:datatype xsd:positiveInteger ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:int ] [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:decimal ] ), + ( [ sh:datatype xsd:nonNegativeInteger ] [ sh:datatype xsd:positiveInteger ] [ sh:datatype xsd:integer ] [ sh:datatype xsd:int ] [ sh:datatype xsd:float ] [ sh:datatype xsd:double ] [ sh:datatype xsd:decimal ] ) ; + rdfs:comment "An rdf:List that can be used in property constraints as value for sh:or to indicate that all values of a property must be either xsd:integer, xsd:float, xsd:double or xsd:decimal."^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-3I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-3T^-1$"^^ns1:LatexString, + "\\(L^-3T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L1I0M0H-1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L .H^{-1}$"^^ns1:LatexString, + "\\(L .H^{-1}\\)"^^ns1:LatexString ; + ns1:latexSymbol "$L .\\Theta^{-1}$"^^ns1:LatexString, + "\\(L .\\Theta^{-1}\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L3I0M1H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind , + ; + ns1:latexDefinition "$L^3 M T^-2$"^^ns1:LatexString, + "\\(L^3 M T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E2L-2I0M-1H0T4D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 2 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 4 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-2 M^-1 T^4 I^2$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^4 I^2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Giga"@en ; + dcterms:description "'giga' is a decimal prefix for expressing a value with a scaling of \\(10^{9}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Giga-"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Giga-?oldid=473222816"^^xsd:anyURI ; + ns1:prefixMultiplier 1e+09 ; + ns1:siExactMatch ; + ns1:symbol "G"^^xsd:string ; + ns1:ucumCode "G"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Pico"@en ; + dcterms:description "'pico' is a decimal prefix for expressing a value with a scaling of \\(10^{-12}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pico"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Pico?oldid=485697614"^^xsd:anyURI ; + ns1:prefixMultiplier 1e-12 ; + ns1:siExactMatch ; + ns1:symbol "p"^^xsd:string ; + ns1:ucumCode "p"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Capacitance"@en ; + dcterms:description "\"Capacitance\" is the ability of a body to hold an electrical charge; it is quantified as the amount of electric charge stored for a given electric potential. Capacitance is a scalar-valued quantity."^^ns1:LatexString, + "\"Capacitance\" is the ability of a body to hold an electrical charge; it is quantified as the amount of electric charge stored for a given electric potential. Capacitance is a scalar-valued quantity."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Capacitance"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD021"^^xsd:string ; + ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ; + ns1:latexDefinition "$C = Q/U$, where $Q$ is electric charge and $V$ is voltage."^^ns1:LatexString ; + ns1:plainTextDescription "\"Capacitance\" is the ability of a body to hold an electrical charge; it is quantified as the amount of electric charge stored for a given electric potential. Capacitance is a scalar-valued quantity."^^xsd:string ; + ns1:siExactMatch ; + ns1:symbol "C"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Capacitance"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Conductance"@en ; + dcterms:description "$\\textit{Conductance}$, for a resistive two-terminal element or two-terminal circuit with terminals A and B, quotient of the electric current i in the element or circuit by the voltage $u_{AB}$ between the terminals: $G = \\frac{1}{R}$, where the electric current is taken as positive if its direction is from A to B and negative in the opposite case. The conductance of an element or circuit is the inverse of its resistance."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-06"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition """$G = Re\\underline{Y}$, where $\\underline{Y}$ is admittance. + +Alternatively: + +$G = \\frac{1}{R}$, where $R$ is resistance."""^^ns1:LatexString ; + ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Conductance"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . + + a ns1:QuantityKind ; + rdfs:label "Count"@en ; + dcterms:description "\"Count\" is the value of a count of items."^^ns1:LatexString, + "\"Count\" is the value of a count of items."^^rdf:HTML ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "\"Count\" is the value of a count of items."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Count"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:QuantityKind ; + rdfs:label "Energy Density"@en ; + dcterms:description """ + Energy density is defined as energy per unit volume. + The SI unit for energy density is the joule per cubic meter. + """^^ns1:LatexString, + "Energy density is defined as energy per unit volume. The SI unit for energy density is the joule per cubic meter."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:baseISOUnitDimensions "$m^{-1} \\cdot kg \\cdot s^{-2}$"^^xsd:string ; + ns1:baseImperialUnitDimensions "$ft^{-1} \\cdot lb \\cdot s^{-2}$"^^ns1:LatexString ; + ns1:baseSIUnitDimensions "$m^{-1} \\cdot kg \\cdot s^{-2}$"^^ns1:LatexString ; + ns1:baseUSCustomaryUnitDimensions "$L^{-1} \\cdot M \\cdot T^{-2}$"^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Energy_density"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD047"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Energy_density"^^xsd:anyURI ; + ns1:plainTextDescription "Energy density is defined as energy per unit volume. The SI unit for energy density is the joule per cubic meter."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:EnergyDensity"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Pressure Ratio"@en ; + ns1:applicableUnit , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:PressureRatio"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:Unit ; + rdfs:label "Femtomoles per litre"@en ; + dcterms:description "A 10**18 part quantity of substance of the measurand per litre volume of matrix."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "fmol/L"^^xsd:string ; + ns1:ucumCode "fmol.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilocalorie per Square Centimetre Second"@en, - "Kilocalorie per Square Centimeter Second"@en-us ; - dcterms:description "\"Kilocalorie per Square Centimeter Second\" is a unit for 'Power Per Area' expressed as \\(kcal/(cm^{2}-s)\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Gs"@en ; + dcterms:description "The gauss, abbreviated as \\(G\\), is the cgs unit of measurement of a magnetic field \\(B\\), which is also known as the \"magnetic flux density\" or the \"magnetic induction\". One gauss is defined as one maxwell per square centimeter; it equals \\(10^{-4} tesla\\) (or \\(100 micro T\\)). The Gauss is identical to maxwells per square centimetre; technically defined in a three-dimensional system, it corresponds in the SI, with its extra base unit the ampere. The gauss is quite small by earthly standards, 1 Gs being only about four times Earth's flux density, but it is subdivided, with \\(1 gauss = 105 gamma\\). This unit of magnetic induction is also known as the \\(\\textit{abtesla}\\)."^^ns1:LatexString ; ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 4.184e-07 ; - ns1:expression "\\(kcal/(cm^{2}-s)\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kcal/(cm²⋅s)"^^xsd:string ; - ns1:ucumCode "kcal.cm-2.s-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 0.0001 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gauss_%28unit%29"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gauss_(unit)"^^xsd:anyURI, + "http://www.diracdelta.co.uk/science/source/g/a/gauss/source.html"^^xsd:anyURI, + "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-526?rskey=HAbfz2"^^xsd:anyURI ; + ns1:symbol "G"^^xsd:string ; + ns1:ucumCode "G"^^ns1:UCUMcs ; + ns1:uneceCommonCode "76"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "kilosecond"@en ; - dcterms:description "\"Killosecond\" is an Imperial unit for 'Time' expressed as \\(ks\\)."^^ns1:LatexString ; + rdfs:label "كيلوغرام لكل متر مكعب"@ar, + "килограм на кубичен метър"@bg, + "kilogram na metr krychlový"@cs, + "Kilogramm je Kubikmeter"@de, + "χιλιόγραμμο ανά κυβικό μέτρο"@el, + "Kilogram per Cubic Metre"@en, + "kilogram per cubic metre"@en, + "Kilogram per Cubic Meter"@en-us, + "kilogram per cubic meter"@en-us, + "kilogramo por metro cúbico"@es, + "کیلوگرم بر متر مکعب"@fa, + "kilogramme par mètre cube"@fr, + "किलोग्राम प्रति घन मीटर"@hi, + "chilogrammo al metro cubo"@it, + "キログラム毎立方メートル"@ja, + "kilogram per meter kubik"@ms, + "kilogram na metr sześcienny"@pl, + "quilograma por metro cúbico"@pt, + "kilogram pe metru cub"@ro, + "килограмм на кубический метр"@ru, + "kilogram na kubični meter"@sl, + "kilogram bölü metre küp"@tr, + "千克每立方米"@zh ; + dcterms:description "Kilogram per cubic metre is an SI derived unit of density, defined by mass in kilograms divided by volume in cubic metres. The official SI symbolic abbreviation is \\(kg \\cdot m^{-3}\\), or equivalently either \\(kg/m^3\\)."^^ns1:LatexString ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Millisecond"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA647"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Millisecond?oldid=495102042"^^xsd:anyURI ; - ns1:prefix ; - ns1:symbol "ks"^^xsd:string ; - ns1:ucumCode "ks"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B52"^^xsd:string ; + ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(kg/m^3\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA619"^^xsd:string ; + ns1:plainTextDescription "Kilogram per cubic metre is an SI derived unit of density, defined by mass in kilograms divided by volume in cubic metres. The official SI symbolic abbreviation is kg . m^-3, or equivalently either kg/m^3."^^xsd:string ; + ns1:symbol "kg/m³"^^xsd:string ; + ns1:ucumCode "kg.m-3"^^ns1:UCUMcs, + "kg/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KMQ"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "KiloYear"@en ; - ns1:applicableSystem , - , - , - , - , - ; + a ns1:Unit ; + rdfs:label "Kilomole Per Cubic Metre"@en, + "Kilomole Per Cubic Meter"@en-us ; + dcterms:description "1 000-fold of the SI base unit mol divided by the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem ; ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "1000 yr"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Minute"@en ; - dcterms:description "A minute is a unit of measurement of time. The minute is a unit of time equal to 1/60 (the first sexagesimal fraction of an hour or 60 seconds. In the UTC time scale, a minute on rare occasions has 59 or 61 seconds; see leap second. The minute is not an SI unit; however, it is accepted for use with SI units. The SI symbol for minute or minutes is min (for time measurement) or the prime symbol after a number, e.g. 5' (for angle measurement, even if it is informally used for time)."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 60.0 ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA842"^^xsd:string ; - ns1:omUnit ; - ns1:symbol "min"^^xsd:string ; - ns1:ucumCode "min"^^ns1:UCUMcs ; - ns1:udunitsCode "min"^^xsd:string ; - ns1:uneceCommonCode "MIN"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA642"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI base unit mol divided by the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "kmol/m³"^^xsd:string ; + ns1:ucumCode "kmol.m-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B46"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Sidereal Minute"@en ; - dcterms:description "Sidereal time is a time-keeping system astronomers use to keep track of the direction to point their telescopes to view a given star in the night sky. A mean sidereal day is about \\(23 h 56 m 4.1 s\\) in length. However, due to variations in the rotation rate of the Earth, the rate of an ideal sidereal clock deviates from any simple multiple of a civil clock. In practice, the difference is kept track of by the difference UTC-UT1, which is measured by radio telescopes and kept on file and available to the public at the IERS and at the United States Naval Observatory. A Sidereal Minute is \\(1/60^{th}\\) of a Sidereal Hour, which is \\(1/24^{th}\\) of a Sidereal Day."^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilowatt"@en ; + dcterms:description "\\(The kilowatt is a derived unit of power in the International System of Units (SI), The unit, defined as 1,000 joule per second, measures the rate of energy conversion or transfer.\\)"^^ns1:LatexString ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 59.83617 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI ; - ns1:symbol "min{sidereal}"^^xsd:string ; - ns1:ucumCode "min"^^ns1:UCUMcs ; + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Watt"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA583"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Watt?oldid=494906356"^^xsd:anyURI ; + ns1:prefix ; + ns1:symbol "kW"^^xsd:string ; + ns1:ucumCode "kW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KWT"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mean Gregorian Month"@en ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#iso1000"^^xsd:anyURI ; - ns1:ucumCode "mo_g"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MON"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Mole Per Cubic Decimetre"@en, + "Mole Per Cubic Decimeter"@en-us ; + dcterms:description "SI base unit mol divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA883"^^xsd:string ; + ns1:plainTextDescription "SI base unit mol divided by the 0.001-fold of the power of the SI base unit metre with the exponent 3"^^xsd:string ; + ns1:symbol "mol/dm³"^^xsd:string ; + ns1:ucumCode "mol.dm-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C35"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mean Julian Month"@en ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#iso1000"^^xsd:anyURI ; - ns1:ucumCode "mo_j"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Mole Per Litre"@en, + "Mole Per Liter"@en-us ; + dcterms:description "SI base unit mol divided by the unit litre"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA888"^^xsd:string ; + ns1:plainTextDescription "SI base unit mol divided by the unit litre"^^xsd:string ; + ns1:symbol "mol/L"^^xsd:string ; + ns1:ucumCode "mol.L-1"^^ns1:UCUMcs, + "mol/L"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C38"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Million Years"@en ; - dcterms:description "1,000,000-fold of the derived unit year."^^rdf:HTML ; + rdfs:label "Mole per Cubic Metre"@en, + "Mole per Cubic Meter"@en-us ; + dcterms:description "The SI derived unit for amount-of-substance concentration is the mole/cubic meter."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(mol/m^{3}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA891"^^xsd:string ; + ns1:symbol "mol/m³"^^xsd:string ; + ns1:ucumCode "mol.m-3"^^ns1:UCUMcs, + "mol/m3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C36"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "MegaW"@en ; ns1:applicableSystem , , , - , - , - ; - ns1:conversionMultiplier 3.15576e+13 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wiktionary.org/wiki/megayear"^^xsd:anyURI ; - ns1:plainTextDescription "1,000,000-fold of the derived unit year."^^xsd:string ; - ns1:prefix ; - ns1:symbol "Myr"^^xsd:string ; - ns1:ucumCode "Ma"^^ns1:UCUMcs ; - rdfs:isDefinedBy ; - skos:altLabel "Ma"^^xsd:string, - "Mega Year"@en, - "megannum"@la . - - a ns1:Unit ; - rdfs:label "Microhenry Per Kiloohm"@en ; - dcterms:description "0.000001-fold of the SI derived unit henry divided by the 1,000-fold of the SI derived unit ohm"^^rdf:HTML ; - ns1:applicableSystem , - , + , ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA068"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit henry divided by the 1,000-fold of the SI derived unit ohm"^^xsd:string ; - ns1:symbol "µH/kΩ"^^xsd:string ; - ns1:ucumCode "uH.kOhm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G98"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:prefix ; + ns1:symbol "MW"^^xsd:string ; + ns1:ucumCode "MW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MAW"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microhenry Per Ohm"@en ; - dcterms:description "0.000001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA067"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; - ns1:symbol "µH/Ω"^^xsd:string ; - ns1:ucumCode "uH.Ohm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "G99"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Micromoles per litre"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "µmol/L"^^xsd:string ; + ns1:ucumCode "umol.L-1"^^ns1:UCUMcs, + "umol/L"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "microsecond"@en ; - dcterms:description "\"Microsecond\" is a unit for 'Time' expressed as \\(microsec\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA095"^^xsd:string ; - ns1:prefix ; - ns1:symbol "µs"^^xsd:string ; - ns1:ucumCode "us"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B98"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Millimoles per cubic metre"@en ; + dcterms:description "Unavailable."@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "mmol/m³"^^xsd:string ; + ns1:ucumCode "mmol.m-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Microwatt Per Square Metre"@en, - "Microwatt Per Square Meter"@en-us ; - dcterms:description "0.000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "MilliW"@en ; ns1:applicableSystem , , , + , ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA081"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "µW/m²"^^xsd:string ; - ns1:ucumCode "uW.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D85"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:prefix ; + ns1:symbol "mW"^^xsd:string ; + ns1:ucumCode "mW"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C31"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millihenry Per Kiloohm"@en ; - dcterms:description "0.001-fold of the SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA791"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^xsd:string ; - ns1:symbol "mH/kΩ"^^xsd:string ; - ns1:ucumCode "mH.kOhm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H05"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per litre"@en ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/L"^^xsd:string ; + ns1:ucumCode "/L"^^ns1:UCUMcs, + "{#}.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millihenry Per Ohm"@en ; - dcterms:description "0.001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA790"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; - ns1:symbol "mH/Ω"^^xsd:string ; - ns1:ucumCode "mH.Ohm-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H06"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per cubic metre"@en ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/m³"^^xsd:string ; + ns1:ucumCode "/m3"^^ns1:UCUMcs, + "{#}.m-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millipascal Second Per Bar"@en ; - dcterms:description "0.001-fold of the product of the SI derived unit pascal and the SI base unit second divided by the unit of the pressure bar"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA799"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the product of the SI derived unit pascal and the SI base unit second divided by the unit of the pressure bar"^^xsd:string ; - ns1:symbol "mPa⋅s/bar"^^xsd:string ; - ns1:ucumCode "mPa.s.bar-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L16"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per microlitre"@en ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/µL"^^xsd:string ; + ns1:ucumCode "/uL"^^ns1:UCUMcs, + "{#}.uL-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "millisecond"@en ; - dcterms:description "\"Millisecond\" is an Imperial unit for 'Time' expressed as \\(ms\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Millisecond"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA899"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Millisecond?oldid=495102042"^^xsd:anyURI ; - ns1:prefix ; - ns1:symbol "ms"^^xsd:string ; - ns1:ucumCode "ms"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C26"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per cubic millimeter"@en ; + ns1:conversionMultiplier 1000000000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/mm³"^^xsd:string ; + ns1:ucumCode "/mm3"^^ns1:UCUMcs, + "{#}.mm-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Milliwatt Per Square Metre"@en, - "Milliwatt Per Square Meter"@en-us ; - dcterms:description "0.001-fold of the SI derived unit weber divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA808"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit weber divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "mW/m²"^^xsd:string ; - ns1:ucumCode "mW.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C32"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per nanoliter"@en, + "Number per nanolitre"@en ; + ns1:conversionMultiplier 2147483647.0, + 1e+12 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/nL"^^xsd:string ; + ns1:ucumCode "/nL"^^ns1:UCUMcs, + "{#}.nL-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "nanosecond"@en ; - dcterms:description "A nanosecond is a SI unit of time equal to one billionth of a second (10-9 or 1/1,000,000,000 s). One nanosecond is to one second as one second is to 31.69 years. The word nanosecond is formed by the prefix nano and the unit second."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e-09 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Nanosecond"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA913"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Nanosecond?oldid=919778950"^^xsd:anyURI ; - ns1:prefix ; - ns1:symbol "ns"^^xsd:string ; - ns1:ucumCode "ns"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C47"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Number per picoliter"@en ; + ns1:conversionMultiplier 1000000000000000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "/pL"^^xsd:string ; + ns1:ucumCode "/pL"^^ns1:UCUMcs, + "{#}.pL-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Pascal Second Per Bar"@en ; - dcterms:description "product out of the SI derived unit pascal and the SI base unit second divided by the unit bar"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA267"^^xsd:string ; - ns1:plainTextDescription "product out of the SI derived unit pascal and the SI base unit second divided by the unit bar"^^xsd:string ; - ns1:symbol "Pa⋅s/bar"^^xsd:string ; - ns1:ucumCode "Pa.s.bar-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H07"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Picomoles per litre"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "pmol/L"^^xsd:string ; + ns1:ucumCode "pmol.L-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Poise Per Bar"@en ; - dcterms:description "CGS unit poise divided by the unit bar"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA257"^^xsd:string ; - ns1:plainTextDescription "CGS unit poise divided by the unit bar"^^xsd:string ; - ns1:symbol "P/bar"^^xsd:string ; - ns1:ucumCode "P.bar-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F06"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Picomoles per cubic metre"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:symbol "pmol/m³"^^xsd:string ; + ns1:ucumCode "pmol.m-3"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Picosecond"@en ; - dcterms:description "0.000000000001-fold of the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Abtesla"@en ; + dcterms:description "The unit of magnetic induction in the cgs system, \\(10^{-4}\\,tesla\\). Also known as the gauss."^^ns1:LatexString ; ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA950"^^xsd:string ; - ns1:plainTextDescription "0.000000000001-fold of the SI base unit second"^^xsd:string ; - ns1:prefix ; - ns1:symbol "ps"^^xsd:string ; - ns1:ucumCode "ps"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H70"^^xsd:string ; - rdfs:isDefinedBy . + ; + ns1:conversionMultiplier 0.0001 ; + ns1:derivedUnitOfSystem ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://www.diracdelta.co.uk/science/source/g/a/gauss/source.html"^^xsd:anyURI ; + ns1:symbol "abT"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + . - a ns1:Unit ; - rdfs:label "Picowatt Per Square Metre"@en, - "Picowatt Per Square Meter"@en-us ; - dcterms:description "0.000000000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "واط"@ar, + "ват"@bg, + "watt"@cs, + "Watt"@de, + "βατ"@el, + "Watt"@en, + "watt"@en, + "vatio"@es, + "وات"@fa, + "watt"@fr, + "ואט"@he, + "वाट"@hi, + "watt"@hu, + "watt"@it, + "ワット"@ja, + "wattium"@la, + "watt"@ms, + "wat"@pl, + "watt"@pt, + "watt"@ro, + "ватт"@ru, + "watt"@sl, + "watt"@tr, + "瓦特"@zh ; + dcterms:description "The SI unit of power. Power is the rate at which work is done, or (equivalently) the rate at which energy is expended. One watt is equal to a power rate of one joule of work per second of time. This unit is used both in mechanics and in electricity, so it links the mechanical and electrical units to one another. In mechanical terms, one watt equals about 0.001 341 02 horsepower (hp) or 0.737 562 foot-pound per second (lbf/s). In electrical terms, one watt is the power produced by a current of one ampere flowing through an electric potential of one volt. The name of the unit honors James Watt (1736-1819), the British engineer whose improvements to the steam engine are often credited with igniting the Industrial Revolution."^^rdf:HTML, + "The SI unit of power. Power is the rate at which work is done, or (equivalently) the rate at which energy is expended. One watt is equal to a power rate of one joule of work per second of time. This unit is used both in mechanics and in electricity, so it links the mechanical and electrical units to one another. In mechanical terms, one watt equals about 0.001 341 02 horsepower (hp) or 0.737 562 foot-pound per second (lbf/s). In electrical terms, one watt is the power produced by a current of one ampere flowing through an electric potential of one volt. The name of the unit honors James Watt (1736-1819), the British engineer whose improvements to the steam engine are often credited with igniting the Industrial Revolution."^^xsd:string ; ns1:applicableSystem , , , + , ; - ns1:conversionMultiplier 1e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA936"^^xsd:string ; - ns1:plainTextDescription "0.000000000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; - ns1:symbol "pW/m²"^^xsd:string ; - ns1:ucumCode "pW.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C76"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Watt"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA306"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Watt?oldid=494906356"^^xsd:anyURI ; + ns1:latexDefinition "\\(\\text{W}\\ \\equiv\\ \\text{watt}\\ \\equiv\\ \\frac{\\text{J}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{joule}}{\\text{second}}\\ \\equiv\\ \\frac{\\text{N.m}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{newton.metre}}{\\text{second}}\\ \\equiv\\ \\text{V.A}\\ \\equiv\\ \\text{volt.amp}\\ \\equiv\\ \\Omega\\text{.A}^{2}\\ \\equiv\\ \\text{ohm.amp}^{2}\\)"^^ns1:LatexString ; + ns1:omUnit ; + ns1:symbol "W"^^xsd:string ; + ns1:ucumCode "W"^^ns1:UCUMcs ; + ns1:udunitsCode "W"^^xsd:string ; + ns1:uneceCommonCode "WTT"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Shake"@en ; - dcterms:description "A shake is an informal unit of time equal to 10 nanoseconds. It has applications in nuclear physics, helping to conveniently express the timing of various events in a nuclear explosion. The typical time required for one step in the chain reaction (i.e. the typical time for each neutron to cause a fission event which releases more neutrons) is of order 1 shake, and the chain reaction is typically complete by 50 to 100 shakes."^^rdf:HTML ; - ns1:conversionMultiplier 1e-08 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Shake"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB226"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Shake?oldid=494796779"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "shake"^^xsd:string ; - ns1:ucumCode "10.ns"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M56"^^xsd:string ; - rdfs:isDefinedBy . +s223:Aspect-ElectricalPhaseIdentifier a s223:Aspect-ElectricalPhaseIdentifier, + s223:Class, + sh:NodeShape ; + rdfs:label "Aspect-Electrical phase identifier"^^xsd:string ; + rdfs:comment "The value of the associated Property identifies the electrical phase of the Connection."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Aspect . + +s223:DCVoltage-DCNegativeVoltage a s223:Class, + s223:DCVoltage-DCNegativeVoltage, + sh:NodeShape ; + rdfs:label "DC Negative Voltage"^^xsd:string ; + s223:hasVoltage s223:Numerical-Voltage ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common negative voltages."^^xsd:string ; + rdfs:subClassOf s223:Numerical-DCVoltage . + +s223:DCVoltage-DCPositiveVoltage a s223:Class, + s223:DCVoltage-DCPositiveVoltage, + sh:NodeShape ; + rdfs:label "DC Positive Voltage"^^xsd:string ; + s223:hasVoltage s223:Numerical-Voltage ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common positive voltages."^^xsd:string ; + rdfs:subClassOf s223:Numerical-DCVoltage . + +s223:EnumeratedActuatableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Enumerated actuatable property"^^xsd:string ; + rdfs:comment "An EnumeratedActuatableProperty is a property with an enumerated (fixed) set of possible values that can be changed (actuated)."^^xsd:string ; + rdfs:subClassOf s223:ActuatableProperty, + s223:EnumerableProperty . + +s223:EnumeratedObservableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Enumerated observable property"^^xsd:string ; + rdfs:comment "An EnumeratedObservableProperty is a property with an enumerated (fixed) set of possible values that cannot be changed (can only be observed)."^^xsd:string ; + rdfs:subClassOf s223:EnumerableProperty, + s223:ObservableProperty . + +s223:EnumerationKind-ElectricalPhaseIdentifier a s223:Class, + s223:EnumerationKind-ElectricalPhaseIdentifier, + sh:NodeShape ; + rdfs:label "Aspect-Electrical phase identifier"^^xsd:string ; + rdfs:comment "The value of the associated Property identifies the electrical phase of the Connection."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . + +s223:LineLineVoltage-240V a s223:Class, + s223:LineLineVoltage-240V, + sh:NodeShape ; + rdfs:label "240V Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-240V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "240V Line-Line Voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-LineLineVoltage . - a ns1:Unit ; - rdfs:label "Watt per Square Centimetre"@en, - "Watt per Square Centimeter"@en-us ; - dcterms:description "Watt Per Square Centimeter is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 10000.0 ; - ns1:expression "\\(W/ft^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB224"^^xsd:string ; - ns1:symbol "W/cm²"^^xsd:string ; - ns1:ucumCode "W.cm-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "N48"^^xsd:string ; - rdfs:isDefinedBy . +s223:QuantifiableActuatableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Quantifiable Actuatable Property"^^xsd:string ; + rdfs:comment "This class is for quantifiable properties of which numerical values are specified to be modifiable by a user or a machine outside of the model, like a setpoint."^^xsd:string ; + rdfs:subClassOf s223:ActuatableProperty, + s223:QuantifiableProperty . - a ns1:Unit ; - rdfs:label "Watt per Square Foot"@en ; - dcterms:description "Watt Per Square Foot is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 10.7639104 ; - ns1:expression "\\(W/ft^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "W/ft²"^^xsd:string ; - ns1:ucumCode "W.[sft_i]-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . +s223:QuantifiableObservableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Quantifiable Observable Property"^^xsd:string ; + rdfs:comment "This class is for quantifiable properties of which numerical values are observed, like a temperature reading or a voltage measure."^^xsd:string ; + rdfs:subClassOf s223:ObservableProperty, + s223:QuantifiableProperty ; + sh:property [ rdfs:comment "A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "s223: A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; + sh:path s223:hasSetpoint ], + [ rdfs:comment "A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "s223: A QuantifiableObservableProperty can be associated with zero or more QuantifiableProperty(s) indicating the desired value(s) which the control process is trying to maintain using the relation hasSetpoint."^^xsd:string ; + sh:path s223:hasSetpoint ] . - a ns1:Unit ; - rdfs:label "Watt per Square Inch"@en ; - dcterms:description "Watt Per Square Inch is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1550.0031 ; - ns1:expression "\\(W/in^{2}\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB225"^^xsd:string ; - ns1:symbol "W/in²"^^xsd:string ; - ns1:ucumCode "W.[sin_i]-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "N49"^^xsd:string ; - rdfs:isDefinedBy . +s223:hasObservationLocation a rdf:Property ; + rdfs:label "has observation location"^^xsd:string ; + rdfs:comment "The relation hasObservationLocation is used to associate a sensor to the topological location where it is observing the property (see `s223:observes`). The observation location shall be a Connectable (see `s223:Connectable`), Connection (see `s223:Connection`), or ConnectionPoint (see `s223:ConnectionPoint`)."^^xsd:string . - a ns1:Unit ; - rdfs:label "Week"@en ; - dcterms:description "Mean solar week"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 6.048e+05 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Week"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB024"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Week?oldid=493867029"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "wk"^^xsd:string ; - ns1:ucumCode "wk"^^ns1:UCUMcs ; - ns1:uneceCommonCode "WEE"^^xsd:string ; - rdfs:isDefinedBy . +s223:hasReferenceLocation a rdf:Property ; + rdfs:label "has reference location"^^xsd:string ; + rdfs:comment "The relation hasReferenceLocation is used to associate a differential sensor to the topological location of the baseline (reference) property (see `s223:observes`)."^^xsd:string . - a ns1:Unit ; - rdfs:label "Year"@en ; - dcterms:description "A year is any of the various periods equated with one passage of Earth about the Sun, and hence of roughly 365 days. The familiar calendar has a mixture of 365- and 366-day years, reflecting the fact that the time for one complete passage takes about 365¼ days; the precise value for this figure depends on the manner of defining the year."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 3.15576e+07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB026"^^xsd:string ; - ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-1533?rskey=b94Fd6"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "yr"^^xsd:string ; - ns1:ucumCode "a"^^ns1:UCUMcs ; - ns1:udunitsCode "yr"^^xsd:string ; - ns1:uneceCommonCode "ANN"^^xsd:string ; - rdfs:isDefinedBy . +s223:hasVoltage a rdf:Property ; + rdfs:label "hasVoltage"^^xsd:string ; + rdfs:comment "The relation hasVoltage is used to identify the voltage of an electricity enumeration kind. "^^xsd:string . - a ns1:Unit ; - rdfs:label "Common Year"@en ; - dcterms:description "31,536,000-fold of the SI base unit second according a common year with 365 days"^^rdf:HTML ; - ns1:conversionMultiplier 3.1536e+07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB025"^^xsd:string ; - ns1:plainTextDescription "31,536,000-fold of the SI base unit second according a common year with 365 days"^^xsd:string ; - ns1:symbol "yr"^^xsd:string ; - ns1:uneceCommonCode "L95"^^xsd:string ; - rdfs:isDefinedBy . +dcterms:created a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "created"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:date . - a ns1:Unit ; - rdfs:label "Sidereal Year"@en ; - dcterms:description "A sidereal year is the time taken for Sun to return to the same position with respect to the stars of the celestial sphere."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 3.155815e+07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB028"^^xsd:string ; - ns1:symbol "yr{sidereal}"^^xsd:string ; - ns1:uneceCommonCode "L96"^^xsd:string ; - rdfs:isDefinedBy . +dcterms:modified a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "modified"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:date . -s223:EnumerationKind-Position a s223:Class, - s223:EnumerationKind-Position, - sh:NodeShape ; - rdfs:label "Position"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of position such as closed or open."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . +dcterms:title a rdf:Property, + owl:AnnotationProperty ; + rdfs:label "title"^^xsd:string ; + rdfs:isDefinedBy dcterms: ; + rdfs:range xsd:string . - a ns1:QuantityKindDimensionVector_ISO, +ns1:HTMLOrStringOrLangStringOrLatexString a rdf:List ; + rdfs:label "HTML or string or langString or LatexString"^^xsd:string ; + rdf:first [ sh:datatype rdf:HTML ], + [ sh:datatype rdf:HTML ] ; + rdf:rest ( [ sh:datatype xsd:string ] [ sh:datatype rdf:langString ] [ sh:datatype ns1:LatexString ] ), + ( [ sh:datatype xsd:string ] [ sh:datatype rdf:langString ] [ sh:datatype ns1:LatexString ] ) ; + rdfs:comment "Defines an rdf:List that can be used in property constraints as value for sh:or to indicate that all values of a property must be either rdf:HTML, xsd:string or rdf:langString, or a qudt:LatexString"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-1L2I0M1H0T-2D0"^^xsd:string ; + rdfs:label "A0E-2L2I0M1H0T-2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForElectricCurrent -2 ; ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-2 I^-1\\)"^^ns1:LatexString ; - ns1:latexSymbol "\\(m^2 \\cdot kg \\cdot s^{-2} \\cdot A^{-1}\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M T^-2 I^-2$"^^ns1:LatexString, + "\\(L^2 M T^-2 I^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-1I0M1H-1T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature -1 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexSymbol "$M / (L \\cdot T^2 H)$"^^ns1:LatexString, + "$M / (L \\cdot T^2 \\Theta)$"^^ns1:LatexString, + "\\(M / (L \\cdot T^2 H)\\)"^^ns1:LatexString, + "\\(M / (L \\cdot T^2 \\Theta)\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-2I0M1H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-2 M T^-2$"^^ns1:LatexString, + "\\(L^-2 M T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L1I0M1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L M T^-1$"^^ns1:LatexString, + "\\(L M T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L2I0M-1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A1E0L-2I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Action"@en ; + dcterms:description """ + An action is usually an integral over time. + But for action pertaining to fields, it may be integrated over spatial variables as well. + In some cases, the action is integrated along the path followed by the physical system. + $$$$ + The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, + be stationary for small perturbations about the true evolution. + This requirement leads to differential equations that describe the true evolution. + Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. + Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle. + """^^ns1:LatexString, + """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system. +The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle."""^^xsd:string ; + ns1:applicableUnit , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Action_(physics)"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:latexDefinition "$S = \\int Ldt$, where $L$ is the Lagrange function and $t$ is time."^^ns1:LatexString ; + ns1:plainTextDescription """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system. +The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle."""^^xsd:string ; + ns1:symbol "S"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Action"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Admittance"@en ; + dcterms:description "\"Admittance\" is a measure of how easily a circuit or device will allow a current to flow. It is defined as the inverse of the impedance ($Z$). "^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Admittance"^^xsd:anyURI, + "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-51"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$Y = \\frac{1}{Z}$, where $Z$ is impedance."^^ns1:LatexString ; + ns1:latexSymbol "$Y$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Admittance"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . + + a ns1:QuantityKind ; + rdfs:label "Angular Momentum"@en ; + dcterms:description """ + $\\textit{Angular Momentum}$, $\\textit{Moment of Momentum}$, or $\\textit{Rotational Momentum}$, is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis. + The $\\textit{Angular Momentum}$ of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. + In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. + While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. + """^^ns1:LatexString, + "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_momentum"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Angular_momentum"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:latexDefinition "$L = I\\omega$, where $I$ is the moment of inertia, and $\\omega$ is the angular velocity."^^ns1:LatexString ; + ns1:plainTextDescription "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. $\\textit{Angular Momentum}$, $\\textit{Moment of Momentum}, or $\\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^xsd:string, + "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^xsd:string ; + ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AngularMomentum"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Gyromagnetic Ratio"@en ; + dcterms:description """ + $\\textit{Gyromagnetic Ratio}$, also sometimes known as the magnetogyric ratio in other disciplines, + of a particle or system is the ratio of its magnetic dipole moment to its angular momentum, + and it is often denoted by the symbol, $\\gamma$. + Its SI units are radian per second per tesla ($rad s^{-1} \\cdot T^{1}$) or, equivalently, + coulomb per kilogram ($C \\cdot kg^{-1}$). + """^^ns1:LatexString, + "\"Gyromagnetic Ratio}, also sometimes known as the magnetogyric ratio in other disciplines, of a particle or system is the ratio of its magnetic dipole moment to its angular momentum, and it is often denoted by the symbol, $\\gamma$. Its SI units are radian per second per tesla ($rad s^{-1} \\cdot T^{1}$) or, equivalently, coulomb per kilogram ($C \\cdot kg^{-1\"$)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gyromagnetic_ratio"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gyromagnetic_ratio"^^xsd:anyURI ; + ns1:latexDefinition "$\\mu = \\gamma J$, where $\\mu$ is the magnetic dipole moment, and $J$ is the total angular momentum."^^ns1:LatexString ; + ns1:latexSymbol "$\\gamma$"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "المحاثة (التحريض)"@ar, + "Индуктивност"@bg, + "Indukčnost"@cs, + "Induktivität"@de, + "inductance"@en, + "inductancia"@es, + "القاوری"@fa, + "Inductance électrique"@fr, + "השראות"@he, + "प्रेरकत्व"@hi, + "induktivitás"@hu, + "induttanza"@it, + "インダクタンス・誘導係数"@ja, + "inductantia"@la, + "Indukstans"@ms, + "indukcyjność"@pl, + "indutância"@pt, + "inductanță"@ro, + "Индуктивность"@ru, + "induktivnost"@sl, + "İndüktans"@tr, + "电感"@zh ; + dcterms:description "\"Inductance\" is an electromagentic quantity that characterizes a circuit's resistance to any change of electric current; a change in the electric current through induces an opposing electromotive force (EMF). Quantitatively, inductance is proportional to the magnetic flux per unit of electric current."^^ns1:LatexString, + "\"Inductance\" is an electromagentic quantity that characterizes a circuit's resistance to any change of electric current; a change in the electric current through induces an opposing electromotive force (EMF). Quantitatively, inductance is proportional to the magnetic flux per unit of electric current."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Inductance"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD065"^^xsd:string ; + ns1:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-19"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$L =\\frac{\\Psi}{I}$, where $I$ is an electric current in a thin conducting loop, and $\\Psi$ is the linked flux caused by that electric current."^^ns1:LatexString ; + ns1:plainTextDescription "\"Inductance\" is an electromagentic quantity that characterizes a circuit's resistance to any change of electric current; a change in the electric current through induces an opposing electromotive force (EMF). Quantitatively, inductance is proportional to the magnetic flux per unit of electric current."^^xsd:string ; + ns1:siExactMatch ; + ns1:symbol "L"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Inductance"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + skos:altLabel "inductivity"@en, + "Induktiviti"@ms . + + a ns1:QuantityKind ; + rdfs:label "Linear Momentum"@en ; + dcterms:description "Linear momentum is the quantity obtained by multiplying the mass of a body by its linear velocity. The momentum of a continuous medium is given by the integral of the velocity over the mass of the medium or by the product of the total mass of the medium and the velocity of the center of gravity of the medium.The SI unit for linear momentum is meter-kilogram per second ($m-kg/s$)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Momentum"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Momentum"^^xsd:anyURI ; + ns1:latexDefinition "p = m\\upsilon"^^ns1:LatexString ; + ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearMomentum"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "عزم القصور الذاتي"@ar, + "Moment setrvačnosti"@cs, + "Massenträgheitsmoment"@de, + "moment of inertia"@en, + "momento de inercia"@es, + "گشتاور لختی"@fa, + "moment d'inertie"@fr, + "जड़त्वाघूर्ण"@hi, + "momento di inerzia"@it, + "慣性モーメント"@ja, + "Momen inersia"@ms, + "Moment bezwładności"@pl, + "momento de inércia"@pt, + "Moment de inerție"@ro, + "Момент инерции"@ru, + "Eylemsizlik momenti"@tr, + "轉動慣量"@zh ; + dcterms:description "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^ns1:LatexString, + "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD128"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Moment_of_inertia"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:latexDefinition "$I_Q = \\int r^2_Q dm$, where $r_Q$ is the radial distance from a $Q-axis$ and $m$ is mass."^^ns1:LatexString ; + ns1:plainTextDescription "The rotational inertia or resistance to change in direction or speed of rotation about a defined axis."^^xsd:string ; + ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MomentOfInertia"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "MOI"^^xsd:string . + + a ns1:QuantityKind ; + rdfs:label "Water Solubility"@en ; + dcterms:description "An amount of substance per unit volume that is the concentration of a saturated solution expressed as the ratio of the solute concentration over the volume of water. A substance's solubility fundamentally depends on several physical and chemical properties of the solution as well as the environment it is in."^^ns1:LatexString, + "An amount of substance per unit volume that is the concentration of a saturated solution expressed as the ratio of the solute concentration over the volume of water. A substance's solubility fundamentally depends on several physical and chemical properties of the solution as well as the environment it is in."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:plainTextDescription "An amount of substance per unit volume that is the concentration of a saturated solution expressed as the ratio of the solute concentration over the volume of water. A substance's solubility fundamentally depends on several physical and chemical properties of the solution as well as the environment it is in."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Solubility_Water"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader , + . + + a ns1:Unit ; + rdfs:label "أمبير"@ar, + "ампер"@bg, + "ampér"@cs, + "Ampere"@de, + "αμπέρ"@el, + "Ampere"@en, + "ampere"@en, + "amperio"@es, + "آمپر"@fa, + "ampère"@fr, + "אמפר"@he, + "एम्पीयर"@hi, + "amper"@hu, + "ampere"@it, + "アンペア"@ja, + "amperium"@la, + "ampere"@ms, + "amper"@pl, + "ampere"@pt, + "amper"@ro, + "ампер"@ru, + "amper"@sl, + "amper"@tr, + "安培"@zh ; + dcterms:description """The \\(\\textit{ampere}\\), often shortened to \\(\\textit{amp}\\), is the SI unit of electric current and is one of the seven SI base units. +\\(\\text{A}\\ \\equiv\\ \\text{amp (or ampere)}\\ \\equiv\\ \\frac{\\text{C}}{\\text{s}}\\ \\equiv\\ \\frac{\\text{coulomb}}{\\text{second}}\\ \\equiv\\ \\frac{\\text{J}}{\\text{Wb}}\\ \\equiv\\ \\frac{\\text{joule}}{\\text{weber}}\\) +Note that SI supports only the use of symbols and deprecates the use of any abbreviations for units."""^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Ampere"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA101"^^xsd:string, + "0112/2///62720#UAD717"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Ampere?oldid=494026699"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "A"^^xsd:string ; + ns1:ucumCode "A"^^ns1:UCUMcs ; + ns1:udunitsCode "A"^^xsd:string ; + ns1:uneceCommonCode "AMP"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "amp"^^xsd:string . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "millimoles per litre"@en, + "millimoles per litre"@en-us ; + dcterms:description "The SI derived unit for amount-of-substance concentration is the mmo/L."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:expression "\\(mmo/L\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:symbol "mmo/L"^^xsd:string, + "mmol/L"^^xsd:string ; + ns1:ucumCode "mmol.L-1"^^ns1:UCUMcs, + "mmol/L"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M33"^^xsd:string ; + rdfs:isDefinedBy . + +s223:Role-Cooling a s223:Class, + s223:Role-Cooling, + sh:NodeShape ; + rdfs:label "Role-Cooling"^^xsd:string ; + rdfs:comment "Role-Cooling"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Role . + +ns1:LatexString a rdfs:Datatype, + sh:NodeShape ; + rdfs:label "Latex String"^^xsd:string ; + rdfs:comment "A type of string in which some characters may be wrapped with '$' and '$ characters for LaTeX rendering."^^xsd:string, + "A type of string in which some characters may be wrapped with '\\(' and '\\) characters for LaTeX rendering."^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:subClassOf xsd:string . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -70710,7 +77846,8 @@ s223:EnumerationKind-Position a s223:Class, ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 M^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3 M^-1$"^^ns1:LatexString, + "\\(L^3 M^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -70726,7 +77863,8 @@ s223:EnumerationKind-Position a s223:Class, ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 I$"^^ns1:LatexString, + "\\(L^-2 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -70742,7 +77880,8 @@ s223:EnumerationKind-Position a s223:Class, ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-3 T I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-3 T I$"^^ns1:LatexString, + "\\(L^-3 T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:DecimalPrefix, @@ -70788,6 +77927,7 @@ s223:EnumerationKind-Position a s223:Class, "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; ns1:latexDefinition "$P = \\frac{1}{T}\\int_{0}^{T} pdt$, where $T$ is the period and $p$ is instantaneous power."^^ns1:LatexString ; ns1:symbol "P"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ActivePower"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , ; @@ -70795,8 +77935,15 @@ s223:EnumerationKind-Position a s223:Class, a ns1:QuantityKind ; rdfs:label "Activity"@en ; - dcterms:description "\"Activity\" is the number of decays per unit time of a radioactive sample, the term used to characterise the number of nuclei which disintegrate in a radioactive substance per unit time. Activity is usually measured in Becquerels (\\(Bq\\)), where 1 \\(Bq\\) is 1 disintegration per second, in honor of the scientist Henri Becquerel."^^ns1:LatexString ; + dcterms:description """ + $\\textit{Activity}$ is the number of decays per unit time of a radioactive sample, + the term used to characterise the number of nuclei which disintegrate in a radioactive substance per unit time. + Activity is usually measured in Becquerels ($Bq$), where 1 $Bq$ is 1 disintegration per second, + in honor of the scientist Henri Becquerel. + """^^ns1:LatexString, + "\"Activity\" is the number of decays per unit time of a radioactive sample, the term used to characterise the number of nuclei which disintegrate in a radioactive substance per unit time. Activity is usually measured in Becquerels (\\(Bq\\)), where 1 \\(Bq\\) is 1 disintegration per second, in honor of the scientist Henri Becquerel."^^ns1:LatexString ; ns1:applicableUnit , + , , , , @@ -70815,11 +77962,18 @@ s223:EnumerationKind-Position a s223:Class, "http://en.wikipedia.org/wiki/Radioactive_decay"^^xsd:anyURI, "http://en.wikipedia.org/wiki/Radioactive_decay#Radioactive_decay_rates"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ; - ns1:latexDefinition """$A = Z + N$, where $Z$ is the atomic number and $N$ is the neutron number. + ns1:latexDefinition """ + $A = Z + N$, where $Z$ is the atomic number and $N$ is the neutron number. + Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, + in a sample of radionuclide, due to spontaneous nuclear transitions from this state during an infinitesimal time interval, + divided by its duration $dt$, thus $A = -\\frac{dN}{dt}$. + """^^ns1:LatexString, + """$A = Z + N$, where $Z$ is the atomic number and $N$ is the neutron number. Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, in a sample of radionuclide, due to spontaneous nuclear transitions from this state during an infinitesimal time interval, divided by its duration $dt$, thus $A = -\\frac{dN}{dt}$."""^^ns1:LatexString ; ns1:siExactMatch ; ns1:symbol "A"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Activity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -70847,7 +78001,23 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, "množina snovi"@sl, "madde miktarı"@tr, "物质的量"@zh ; - dcterms:description "\"Amount of Substance\" is a standards-defined quantity that measures the size of an ensemble of elementary entities, such as atoms, molecules, electrons, and other particles. It is sometimes referred to as chemical amount. The International System of Units (SI) defines the amount of substance to be proportional to the number of elementary entities present. The SI unit for amount of substance is \\(mole\\). It has the unit symbol \\(mol\\). The mole is defined as the amount of substance that contains an equal number of elementary entities as there are atoms in 0.012kg of the isotope carbon-12. This number is called Avogadro's number and has the value \\(6.02214179(30) \\times 10^{23}\\). The only other unit of amount of substance in current use is the \\(pound-mole\\) with the symbol \\(lb-mol\\), which is sometimes used in chemical engineering in the United States. One \\(pound-mole\\) is exactly \\(453.59237 mol\\)."^^ns1:LatexString ; + dcterms:description """ + $\\textit{Amount of Substance}$ is a standards-defined quantity that measures the size of an ensemble of elementary entities, + such as atoms, molecules, electrons, and other particles. + It is sometimes referred to as chemical amount. + + The International System of Units (SI) defines the amount of substance to be proportional to the number of elementary entities present. + The SI unit for amount of substance is mole. + It has the unit symbol $mol$. + + The mole is defined as the amount of substance that contains an equal number of elementary entities as there are atoms in 0.012kg of the isotope carbon-12. + This number is called Avogadro's number and has the value $6.02214179(30) \\times 10^{23}$. + + The only other unit of amount of substance in current use is the $pound-mole$ with the symbol $lb-mol$, + which is sometimes used in chemical engineering in the United States. + One $pound-mole$ is exactly $453.59237 mol$. + """^^ns1:LatexString, + "\"Amount of Substance\" is a standards-defined quantity that measures the size of an ensemble of elementary entities, such as atoms, molecules, electrons, and other particles. It is sometimes referred to as chemical amount. The International System of Units (SI) defines the amount of substance to be proportional to the number of elementary entities present. The SI unit for amount of substance is \\(mole\\). It has the unit symbol \\(mol\\). The mole is defined as the amount of substance that contains an equal number of elementary entities as there are atoms in 0.012kg of the isotope carbon-12. This number is called Avogadro's number and has the value \\(6.02214179(30) \\times 10^{23}\\). The only other unit of amount of substance in current use is the \\(pound-mole\\) with the symbol \\(lb-mol\\), which is sometimes used in chemical engineering in the United States. One \\(pound-mole\\) is exactly \\(453.59237 mol\\)."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -70867,6 +78037,7 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:siExactMatch ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:AmountOfSubstance"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "chemical amount"@en, "quantità chimica"@it, @@ -70886,6 +78057,7 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:baseSIUnitDimensions "$m^2/s$"^^ns1:LatexString ; ns1:baseUSCustomaryUnitDimensions "$L^2/T$"^^ns1:LatexString ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:AreaPerTime"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -70934,6 +78106,7 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:latexDefinition "$-\\text{grad} \\; V = E + \\frac{\\partial A}{\\partial t}$, where $E$ is electric field strength, $A$ is magentic vector potential and $t$ is time."^^ns1:LatexString ; ns1:latexSymbol "$\\phi$"^^ns1:LatexString ; ns1:symbol "V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricPotential"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "vis electromotrix"@la . @@ -70956,7 +78129,8 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, "električna napetost"@sl, "gerilim"@tr, "電壓"@zh ; - dcterms:description "\"Electric Potential Difference\" is a scalar valued quantity associated with an electric field."^^rdf:HTML ; + dcterms:description "\"Electric Potential Difference\" is a scalar valued quantity associated with an electric field."^^ns1:LatexString, + "\"Electric Potential Difference\" is a scalar valued quantity associated with an electric field."^^rdf:HTML ; ns1:applicableUnit , , , @@ -70979,6 +78153,7 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:plainTextDescription "\"Electric Potential Difference\" is a scalar valued quantity associated with an electric field."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "V_{ab}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricPotentialDifference"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "tension"@en, "tensione elettrica"@it, @@ -70987,7 +78162,8 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, a ns1:QuantityKind ; rdfs:label "Hydraulic Permeability"@en ; - dcterms:description "Permeability is a property of porous materials that is an indication of the ability for fluids (gas or liquid) to flow through them. Fluids can more easily flow through a material with high permeability than one with low permeability. The permeability of a medium is related to the porosity, but also to the shapes of the pores in the medium and their level of connectedness."^^rdf:HTML ; + dcterms:description "Permeability is a property of porous materials that is an indication of the ability for fluids (gas or liquid) to flow through them. Fluids can more easily flow through a material with high permeability than one with low permeability. The permeability of a medium is related to the porosity, but also to the shapes of the pores in the medium and their level of connectedness."^^ns1:LatexString, + "Permeability is a property of porous materials that is an indication of the ability for fluids (gas or liquid) to flow through them. Fluids can more easily flow through a material with high permeability than one with low permeability. The permeability of a medium is related to the porosity, but also to the shapes of the pores in the medium and their level of connectedness."^^rdf:HTML ; ns1:applicableUnit , , , @@ -71006,13 +78182,29 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:hasDimensionVector ; ns1:informativeReference "https://en.wikipedia.org/wiki/Permeability_(Earth_sciences)"^^xsd:anyURI ; ns1:plainTextDescription "Permeability is a property of porous materials that is an indication of the ability for fluids (gas or liquid) to flow through them. Fluids can more easily flow through a material with high permeability than one with low permeability. The permeability of a medium is related to the porosity, but also to the shapes of the pores in the medium and their level of connectedness."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:HydraulicPermeability"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Fluid Permeability"@en, "Permeability"@en . + a ns1:QuantityKind ; + rdfs:label "Inverse Volume"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:InverseVolume"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Liquid Volume"@en ; - dcterms:description "Liquid volume is the volume of a given amount of liquid, that is, the amount of space a liquid takes up. There are a number of different units used to measure liquid volume, but most of them fall under either the metric system of measurement or the Imperial system of measurement."^^rdf:HTML ; + dcterms:description "Liquid volume is the volume of a given amount of liquid, that is, the amount of space a liquid takes up. There are a number of different units used to measure liquid volume, but most of them fall under either the metric system of measurement or the Imperial system of measurement."^^ns1:LatexString, + "Liquid volume is the volume of a given amount of liquid, that is, the amount of space a liquid takes up. There are a number of different units used to measure liquid volume, but most of them fall under either the metric system of measurement or the Imperial system of measurement."^^rdf:HTML ; ns1:applicableUnit , , , @@ -71027,6 +78219,7 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:hasDimensionVector ; ns1:informativeReference "http://www.ehow.com/facts_6371078_liquid-volume_.html"^^xsd:anyURI ; ns1:plainTextDescription "Liquid volume is the volume of a given amount of liquid, that is, the amount of space a liquid takes up. There are a number of different units used to measure liquid volume, but most of them fall under either the metric system of measurement or the Imperial system of measurement."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LiquidVolume"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . @@ -71061,13 +78254,15 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:latexDefinition "$V_m = \\frac{V}{n}$, where $V$ is volume and $n$ is amount of substance."^^ns1:LatexString ; ns1:symbol "V_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarVolume"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "molares Volumen"@de, "stoffmengenbezogenes Volumen"@de . a ns1:QuantityKind ; rdfs:label "Specific Volume"@en ; - dcterms:description "\"Specific Volume\" (\\(\\nu\\)) is the volume occupied by a unit of mass of a material. It is equal to the inverse of density."^^ns1:LatexString ; + dcterms:description "\"Specific Volume\" ($\\nu$) is the volume occupied by a unit of mass of a material. It is equal to the inverse of density."^^ns1:LatexString, + "\"Specific Volume\" (\\(\\nu\\)) is the volume occupied by a unit of mass of a material. It is equal to the inverse of density."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -71085,12 +78280,14 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:latexDefinition "$sv = \\frac{1}{\\rho}$, where $\\rho$ is mass density."^^ns1:LatexString ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:SpecificVolume"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso . a ns1:QuantityKind ; rdfs:label "Speed"@en ; - dcterms:description "Speed is the magnitude of velocity."^^rdf:HTML ; + dcterms:description "Speed is the magnitude of velocity."^^ns1:LatexString, + "Speed is the magnitude of velocity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -71106,535 +78303,51 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, ns1:dbpediaMatch "http://dbpedia.org/resource/Speed"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:plainTextDescription "Speed is the magnitude of velocity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Speed"^^xsd:string ; rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "ArcSecond"@en ; - dcterms:description "\"Arc Second\" is a unit of angular measure, also called the \\(\\textit{second of arc}\\), equal to \\(1/60 \\; arcminute\\). One arcsecond is a very small angle: there are 1,296,000 in a circle. The SI recommends \\(\\textit{double prime}\\) (\\(''\\)) as the symbol for the arcsecond. The symbol has become common in astronomy, where very small angles are stated in milliarcseconds (\\(mas\\))."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.848137e-06 ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA096"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc#Symbols.2C_abbreviations_and_subdivisions"^^xsd:anyURI ; - ns1:symbol "\""^^xsd:string ; - ns1:ucumCode "''"^^ns1:UCUMcs ; - ns1:udunitsCode "″"^^xsd:string ; - ns1:uneceCommonCode "D62"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DimensionlessUnit, - ns1:LogarithmicUnit, - ns1:Unit ; - rdfs:label "Dec"@en ; - dcterms:description "One decade is a factor of 10 difference between two numbers (an order of magnitude difference) measured on a logarithmic scale. It is especially useful when referring to frequencies and when describing frequency response of electronic systems, such as audio amplifiers and filters. The factor-of-ten in a decade can be in either direction: so one decade up from 100 Hz is 1000 Hz, and one decade down is 10 Hz. The factor-of-ten is what is important, not the unit used, so \\(3.14 rad/s\\) is one decade down from \\(31.4 rad/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Decade_(log_scale)"^^xsd:anyURI ; - ns1:symbol "dec"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Degree"@en ; - dcterms:description "A degree (in full, a degree of arc, arc degree, or arcdegree), usually denoted by \\(^\\circ\\) (the degree symbol), is a measurement of plane angle, representing 1/360 of a full rotation; one degree is equivalent to \\(2\\pi /360 rad\\), \\(0.017453 rad\\). It is not an SI unit, as the SI unit for angles is radian, but is an accepted SI unit."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 0.0174532925 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA024"^^xsd:string ; - ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-331"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "°"^^xsd:string ; - ns1:ucumCode "deg"^^ns1:UCUMcs ; - ns1:udunitsCode "°"^^xsd:string ; - ns1:uneceCommonCode "DD"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "درجة مئوية"@ar, - "градус Целзий"@bg, - "stupně celsia"@cs, - "Grad Celsius"@de, - "βαθμός Κελσίου"@el, - "degree Celsius"@en, - "grado celsius"@es, - "درجه سانتی گراد/سلسیوس"@fa, - "degré celsius"@fr, - "צלזיוס"@he, - "सेल्सियस"@hi, - "Celsius-fok"@hu, - "grado celsius"@it, - "セルシウス度"@ja, - "gradus celsii"@la, - "darjah celsius"@ms, - "stopień celsjusza"@pl, - "grau celsius"@pt, - "grad celsius"@ro, - "градус Цельсия"@ru, - "stopinja Celzija"@sl, - "celsius"@tr, - "摄氏度"@zh ; - dcterms:description "\\(\\textit{Celsius}\\), also known as centigrade, is a scale and unit of measurement for temperature. It can refer to a specific temperature on the Celsius scale as well as a unit to indicate a temperature interval, a difference between two temperatures or an uncertainty. This definition fixes the magnitude of both the degree Celsius and the kelvin as precisely 1 part in 273.16 (approximately 0.00366) of the difference between absolute zero and the triple point of water. Thus, it sets the magnitude of one degree Celsius and that of one kelvin as exactly the same. Additionally, it establishes the difference between the two scales' null points as being precisely \\(273.15\\,^{\\circ}{\\rm C}\\).

"^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.0 ; - ns1:conversionOffset 273.15 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Celsius"^^xsd:anyURI ; - ns1:expression "\\(degC\\)"^^ns1:LatexString ; - ns1:guidance "

See NIST section SP811 section 4.2.1.1"^^rdf:HTML, - "

See NIST section SP811 section 6.2.8"^^rdf:HTML ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA033"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Celsius?oldid=494152178"^^xsd:anyURI ; - ns1:latexDefinition "\\(\\,^{\\circ}{\\rm C}\\)"^^ns1:LatexString ; - ns1:omUnit ; - ns1:symbol "°C"^^xsd:string ; - ns1:ucumCode "Cel"^^ns1:UCUMcs ; - ns1:udunitsCode "°C"^^xsd:string, - "℃"^^xsd:string ; - ns1:uneceCommonCode "CEL"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "degree-centigrade"^^xsd:string . - - a ns1:Unit ; - rdfs:label "Degree Fahrenheit"@en ; - dcterms:description "\\(\\textbf{Degree Fahrenheit} is an Imperial unit for 'Thermodynamic Temperature' expressed as \\(\\,^{\\circ}{\\rm F}\\)"^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.5555555555555556 ; - ns1:conversionOffset 459.67 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(degF\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA039"^^xsd:string ; - ns1:omUnit ; - ns1:symbol "°F"^^xsd:string ; - ns1:ucumCode "[degF]"^^ns1:UCUMcs ; - ns1:udunitsCode "°F"^^xsd:string, - "℉"^^xsd:string ; - ns1:uneceCommonCode "FAH"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Flight"@en ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "flight"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gigabase Pair"@en ; - dcterms:description "A gigabase (abbreviated Gb, or Gbp for gigabase pairs.) is a unit of measurement used to help designate the length of DNA. One gigabase is equal to 1 billion bases. "^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 1e+09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://www.genome.gov/genetics-glossary/Gigabase"^^xsd:anyURI ; - ns1:plainTextDescription "A gigabase (abbreviated Gb, or Gbp for gigabase pairs.) is a unit of measurement used to help designate the length of DNA. One gigabase is equal to 1 billion bases. "^^xsd:string ; - ns1:symbol "Gbp"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "Gigabase"^^xsd:string . - - a ns1:Unit ; - rdfs:label "Heart Beat"@en ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Joules per square centimetre per day"@en ; - dcterms:description "Radiant energy per 10^-4 SI unit area over a period of one day."@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.115740740740741 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "J/(cm²⋅day)"^^xsd:string ; - ns1:ucumCode "J.cm-2.d-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "جول ثانية"@ar, - "joule sekunda"@cs, - "Joulesekunde"@de, - "joule second"@en, - "julio segundo"@es, - "ژول ثانیه"@fa, - "joule-seconde"@fr, - "जूल सैकण्ड"@hi, - "joule per secondo"@it, - "ジュール秒"@ja, - "joule saat"@ms, - "dżulosekunda"@pl, - "joule-segundo"@pt, - "joule-secundă"@ro, - "джоуль-секунда"@ru, - "joule sekunda"@sl, - "joule saniye"@tr, - "焦耳秒"@zh ; - dcterms:description "\\(The joule-second is a unit equal to a joule multiplied by a second, used to measure action or angular momentum. The joule-second is the unit used for Planck's constant.\\)"^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAB151"^^xsd:string ; - ns1:symbol "J⋅s"^^xsd:string ; - ns1:ucumCode "J.s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B18"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Mil Angle (NATO)"@en ; - dcterms:description "The Mil unit of plane angle, as defined by NATO to be 1/6400 of a circle."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 0.000490873852 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mil{NATO}"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Month"@en ; - dcterms:description "A unit of time corresponding approximately to one cycle of the moon's phases, or about 30 days or 4 weeks. Also known as the 'Synodic Month' and calculated as 29.53059 days."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 2.551443e+06 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Month"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA880"^^xsd:string ; - ns1:informativeReference "http://www.thefreedictionary.com/Synodal+month"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Month"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "mo"^^xsd:string ; - ns1:ucumCode "mo"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MON"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Synodic month"@en ; - dcterms:description "A unit of time corresponding approximately to one cycle of the moon's phases, or about 30 days or 4 weeks and calculated as 29.53059 days."^^rdf:HTML ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://www.thefreedictionary.com/Synodal+month"^^xsd:anyURI ; - ns1:ucumCode "mo_s"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "microradian"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:guidance "

See NIST section SP811 section7.10"^^rdf:HTML ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA094"^^xsd:string ; - ns1:prefix ; - ns1:symbol "µrad"^^xsd:string ; - ns1:ucumCode "urad"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B97"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Millidegree Celsius"@en ; - dcterms:description "\\(Millidegree Celsius is a scaled unit of measurement for temperature.\\)"^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.001 ; - ns1:conversionOffset 273.15 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Celsius"^^xsd:anyURI ; - ns1:guidance "

See NIST section SP811 section 4.2.1.1"^^rdf:HTML, - "

See NIST section SP811 section 6.2.8"^^rdf:HTML ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Celsius?oldid=494152178"^^xsd:anyURI ; - ns1:latexDefinition "millieDegree Celsius"^^ns1:LatexString ; - ns1:symbol "m°C"^^xsd:string ; - ns1:ucumCode "mCel"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "milliradian"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:guidance ""^^rdf:HTML ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA897"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mrad"^^xsd:string ; - ns1:ucumCode "mrad"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C25"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DimensionlessUnit, - ns1:LogarithmicUnit, - ns1:Unit ; - rdfs:label "Neper"@en ; - dcterms:description "The neper is a logarithmic unit for ratios of measurements of physical field and power quantities, such as gain and loss of electronic signals. It has the unit symbol Np. The unit's name is derived from the name of John Napier, the inventor of logarithms. As is the case for the decibel and bel, the neper is not a unit in the International System of Units (SI), but it is accepted for use alongside the SI. Like the decibel, the neper is a unit in a logarithmic scale. While the bel uses the decadic (base-10) logarithm to compute ratios, the neper uses the natural logarithm, based on Euler's number"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Neper"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA253"^^xsd:string ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Neper"^^xsd:anyURI ; - ns1:symbol "Np"^^xsd:string ; - ns1:ucumCode "Np"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C50"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Kilometre"@en, - "Reciprocal Kilometer"@en-us ; - dcterms:description "Per Kilometer Unit is a denominator unit with dimensions \\(/km\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:expression "\\(per-kilometer\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/km"^^xsd:string ; - ns1:ucumCode "/km"^^ns1:UCUMcs, - "km-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Cubic Metre"@en, - "Reciprocal Cubic Meter"@en-us ; - dcterms:description "\"Per Cubic Meter\" is a denominator unit with dimensions \\(/m^3\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(/m^3\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "/m³"^^xsd:string ; - ns1:ucumCode "/m3"^^ns1:UCUMcs, - "m-3"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C86"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Micrometre"@en, - "Reciprocal Micrometer"@en-us ; - dcterms:description "Per Micrometer Unit is a denominator unit with dimensions \\(/microm\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:expression "\\(per-micrometer\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/µm"^^xsd:string ; - ns1:ucumCode "/um"^^ns1:UCUMcs, - "um-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Millimetre"@en, - "Reciprocal Millimeter"@en-us ; - dcterms:description "Per Millimeter Unit is a denominator unit with dimensions \\(/mm\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:expression "\\(per-millimeter\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/mm"^^xsd:string ; - ns1:ucumCode "/mm"^^ns1:UCUMcs, - "mm-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Nanometre"@en, - "Reciprocal Nanometer"@en-us ; - dcterms:description "Per Nanometer Unit is a denominator unit with dimensions \\(/nm\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+09 ; - ns1:expression "\\(per-nanometer\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/nm"^^xsd:string ; - ns1:ucumCode "/nm"^^ns1:UCUMcs, - "nm-1"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Reciprocal Picometre"@en, - "Reciprocal Picometer"@en-us ; - dcterms:description "Per Picoometer Unit is a denominator unit with dimensions \\(/pm\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+12 ; - ns1:expression "\\(per-picoometer\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/pm"^^xsd:string ; - ns1:ucumCode "/pm"^^ns1:UCUMcs, - "pm-1"^^ns1:UCUMcs ; + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU per Hour"@en ; + dcterms:description "The British thermal unit (BTU or Btu) is a traditional unit of energy equal to about 1 055.05585 joules. It is approximately the amount of energy needed to heat 1 pound (0.454 kg) of water from \\(39 \\,^{\\circ}{\\rm F}\\) (\\(3.9 \\,^{\\circ}{\\rm C}\\)) to \\(40 \\,^{\\circ}{\\rm F}\\) (\\(4.4 \\,^{\\circ}{\\rm C}\\)). The unit is most often used in the power, steam generation, heating and air conditioning industries. In scientific contexts the BTU has largely been replaced by the SI unit of energy, the joule, though it may be used as a measure of agricultural energy production (BTU/kg)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.29307107 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(Btu/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://www.simetric.co.uk/sibtu.htm"^^xsd:anyURI ; + ns1:symbol "Btu{IT}/hr"^^xsd:string ; + ns1:ucumCode "[Btu_IT].h-1"^^ns1:UCUMcs, + "[Btu_IT]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2I"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Time"@en ; - dcterms:description "In physics, the Planck time, denoted by \\(t_P\\), is the unit of time in the system of natural units known as Planck units. It is the time required for light to travel, in a vacuum, a distance of 1 Planck length. The unit is named after Max Planck, who was the first to propose it. \\( \\\\ t_P \\equiv \\sqrt{\\frac{\\hbar G}{c^5}} \\approx 5.39106(32) \\times 10^{-44} s\\) where, \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant (defined as \\(\\hbar = \\frac{h}{2 \\pi}\\) and \\(G\\) is the gravitational constant. The two digits between parentheses denote the standard error of the estimated value."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 5.39124e-49 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_time"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_time?oldid=495362103"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; - ns1:latexSymbol "\\(t_P\\)"^^ns1:LatexString ; - ns1:symbol "tₚ"^^xsd:string ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU per Second"@en ; + dcterms:description "\\({\\bf BTU \\, per \\, Second}\\) is an Imperial unit for 'Heat Flow Rate' expressed as \\(Btu/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1055.05585262 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(Btu/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://www.simetric.co.uk/sibtu.htm"^^xsd:anyURI ; + ns1:symbol "Btu{IT}/s"^^xsd:string ; + ns1:ucumCode "[Btu_IT].s-1"^^ns1:UCUMcs, + "[Btu_IT]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J45"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Revolution"@en ; - dcterms:description "\"Revolution\" is a unit for 'Plane Angle' expressed as \\(rev\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Flight"@en ; ns1:applicableSystem , , , @@ -71643,340 +78356,225 @@ Variation $dN$ of spontaneous number of nuclei $N$ in a particular energy state, , , ; - ns1:conversionMultiplier 6.28318531 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Revolution"^^xsd:anyURI ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB206"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Revolution?oldid=494110330"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "rev"^^xsd:string ; - ns1:ucumCode "{#}"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M44"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:symbol "flight"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Electric Susceptibility Unit"^^xsd:string ; - dcterms:description "Electric susceptibility is a dimensionless proportionality constant that indicates the degree of polarization of a dielectric material in response to an applied electric field. Here P = epsilon_0 * chi_e * E. Where epsilon_0 is the electric permittivity of free space (electric constant), P is the polarization density of the material chi_e is the electric susceptibility and E is the electric field."^^rdf:HTML ; - ns1:applicableSystem , - , + rdfs:label "جول ثانية"@ar, + "joule sekunda"@cs, + "Joulesekunde"@de, + "Joule Second"@en, + "joule second"@en, + "julio segundo"@es, + "ژول ثانیه"@fa, + "joule-seconde"@fr, + "जूल सैकण्ड"@hi, + "joule per secondo"@it, + "ジュール秒"@ja, + "joule saat"@ms, + "dżulosekunda"@pl, + "joule-segundo"@pt, + "joule-secundă"@ro, + "джоуль-секунда"@ru, + "joule sekunda"@sl, + "joule saniye"@tr, + "焦耳秒"@zh ; + dcterms:description "\\(The joule-second is a unit equal to a joule multiplied by a second, used to measure action or angular momentum. The joule-second is the unit used for Planck's constant.\\)"^^ns1:LatexString ; + ns1:applicableSystem , , - , , - , - , ; ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:latexDefinition "\\chi_{\\text{e}} = \\frac{{\\mathbf P}}{\\varepsilon_0{\\mathbf E}}"^^ns1:LatexString ; - ns1:plainTextDescription "Electric susceptibility is a dimensionless proportionality constant that indicates the degree of polarization of a dielectric material in response to an applied electric field. Here P = epsilon_0 * chi_e * E. Where epsilon_0 is the electric permittivity of free space (electric constant), P is the polarization density of the material chi_e is the electric susceptibility and E is the electric field."^^xsd:string ; - ns1:symbol "χ"^^xsd:string ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAB151"^^xsd:string ; + ns1:symbol "J⋅s"^^xsd:string ; + ns1:ucumCode "J.s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B18"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "Magnetic Susceptibility Unit"^^xsd:string ; - dcterms:description "Magnetic susceptibility is a dimensionless proportionality constant that indicates the degree of magnetization of a material in response to an applied magnetic field. Here M = chi * H. Where M is the magnetization of the material (the magnetic dipole moment per unit volume), measured in amperes per meter, and H is the magnetic field strength, also measured in amperes per meter. Chi is therefore a dimensionless quantity."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:latexDefinition "\\chi_\\text{v} = \\frac{\\mathbf{M}}{\\mathbf{H}}"^^ns1:LatexString ; - ns1:plainTextDescription "Magnetic susceptibility is a dimensionless proportionality constant that indicates the degree of magnetization of a material in response to an applied magnetic field. Here M = chi * H. Where M is the magnetization of the material (the magnetic dipole moment per unit volume), measured in amperes per meter, and H is the magnetic field strength, also measured in amperes per meter. Chi is therefore a dimensionless quantity."^^xsd:string ; - ns1:symbol "χ"^^xsd:string ; + rdfs:label "Kilo British Thermal Unit (International Definition) per Hour"@en ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 293.07107 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(kBtu/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "kBtu{IT}/hr"^^xsd:string ; + ns1:ucumCode "k[Btu_IT].h-1"^^ns1:UCUMcs, + "k[Btu_IT]/h"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "واط في المتر المربع"@ar, - "watt na metr čtvereční"@cs, - "Watt je Quadratmeter"@de, - "watt per square metre"@en, - "Watt per Square Meter"@en-us, - "vatio por metro cuadrado"@es, - "وات بر مترمربع"@fa, - "watt par mètre carré"@fr, - "वाट प्रति वर्ग मीटर"@hi, - "watt al metro quadrato"@it, - "ワット毎平方メートル"@ja, - "watt per meter persegi"@ms, - "wat na metr kwadratowy"@pl, - "watt por metro quadrado"@pt, - "watt pe metru pătrat"@ro, - "ватт на квадратный метр"@ru, - "watt na kvadratni meter"@sl, - "watt bölü metre kare"@tr, - "瓦特每平方米"@zh ; - dcterms:description "\"Watt per Square Meter} is a unit of irradiance defined as the power received per area. This is a unit in the category of Energy flux. It is also known as watts per square meter, watt per square metre, watts per square metre, watt/square meter, watt/square metre. This unit is commonly used in the SI unit system. Watt Per Square Meter (\\(W/m^2\\)) has a dimension of \\(MT^{-3\"\\) where M is mass, and T is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; + rdfs:label "Kilocalorie Per Minute"@en ; + dcterms:description "\\(\\textbf{Kilocalorie per Minute} is a unit for \\textit{Heat Flow Rate} and \\textit{Power} expressed as \\(kcal/min\\)."^^ns1:LatexString ; ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(W/m^2\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA310"^^xsd:string ; - ns1:informativeReference "http://www.efunda.com/glossary/units/units--energy_flux--watt_per_square_meter.cfm"^^xsd:anyURI ; - ns1:symbol "W/m²"^^xsd:string ; - ns1:ucumCode "W.m-2"^^ns1:UCUMcs, - "W/m2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D54"^^xsd:string ; + , + ; + ns1:conversionMultiplier 69.7333333 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(kcal/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "kcal/min"^^xsd:string ; + ns1:ucumCode "kcal.min-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K54"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Tropical Year"@en ; - dcterms:description "

A tropical year (also known as a solar year), for general purposes, is the length of time that the Sun takes to return to the same position in the cycle of seasons, as seen from Earth; for example, the time from vernal equinox to vernal equinox, or from summer solstice to summer solstice. Because of the precession of the equinoxes, the seasonal cycle does not remain exactly synchronised with the position of the Earth in its orbit around the Sun. As a consequence, the tropical year is about 20 minutes shorter than the time it takes Earth to complete one full orbit around the Sun as measured with respect to the fixed stars. Since antiquity, astronomers have progressively refined the definition of the tropical year, and currently define it as the time required for the mean Sun's tropical longitude (longitudinal position along the ecliptic relative to its position at the vernal equinox) to increase by 360 degrees (that is, to complete one full seasonal circuit)."^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilocalorie Per Second"@en ; + dcterms:description "\\(\\textbf{Kilocalorie per Second} is a unit for \\textit{Heat Flow Rate} and \\textit{Power} expressed as \\(kcal/s\\)."^^ns1:LatexString ; ns1:applicableSystem , - , - , , - , ; - ns1:conversionMultiplier 3.155693e+07 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB029"^^xsd:string ; - ns1:symbol "yr{tropical}"^^xsd:string ; - ns1:ucumCode "a_t"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D42"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "solar year"^^xsd:string . + ns1:conversionMultiplier 4184.0 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(kcal/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "kcal/s"^^xsd:string ; + ns1:ucumCode "kcal.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K55"^^xsd:string ; + rdfs:isDefinedBy . -s223:Connectable a s223:Class, - sh:NodeShape ; - rdfs:label "Connectable"^^xsd:string ; - s223:abstract true ; - rdfs:comment "Connectable is an abstract class representing a thing such as, Equipment (see `s223:Equipment`), DomainSpace (see `s223:DomainSpace`), or Junction (see `s223:Junction`) that can be connected via ConnectionPoints and Connections."^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; - sh:path s223:cnx ; - sh:severity sh:Warning ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; - sh:message "s223: {$this} is s223:connected (high-level) to {?otherC} but not connected at the cnx-level."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?otherC -WHERE { -$this s223:connected ?otherC . -FILTER NOT EXISTS {$this s223:cnx+ ?otherC} -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; - sh:name "EquipmentToConnectionPointShape"^^xsd:string ; - sh:path s223:hasConnectionPoint ], - [ rdfs:comment "If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:class s223:Connectable ; - sh:message "s223: If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:name "ConnectableToConnectableShape"^^xsd:string ; - sh:path s223:connectedTo ], - [ rdfs:comment "If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; - sh:class s223:Connection ; - sh:message "s223: If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; - sh:name "EquipmentToConnectionShape"^^xsd:string ; - sh:path s223:connectedThrough ], - [ rdfs:comment "If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:class s223:Connectable ; - sh:message "s223: If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:name "SymmetricConnectableToConnectableShape"^^xsd:string ; - sh:path s223:connected ], - [ rdfs:comment "If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:class s223:Connectable ; - sh:message "s223: If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; - sh:path s223:connectedFrom ], - [ rdfs:comment "If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:message "s223: If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; - sh:path s223:cnx ] ; - sh:rule [ a sh:TripleRule ; - rdfs:comment "Infer the cnx relation using isConnectionPointOf."^^xsd:string ; - sh:name "InferredEquipmentToConnectionPointCnxPropertyFromInverse"^^xsd:string ; - sh:object [ sh:path [ sh:inversePath s223:isConnectionPointOf ] ] ; - sh:predicate s223:cnx ; - sh:subject sh:this ], - [ a sh:SPARQLRule ; - rdfs:comment "Infer the connectedFrom relations using connectsThrough and connectsFrom."^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:connectedFrom ?equipment .} -WHERE { -$this s223:hasConnectionPoint ?cp . -?cp a s223:InletConnectionPoint . -?cp s223:connectsThrough/s223:connectsFrom ?equipment . -} -"""^^xsd:string ; - sh:name "InferredEquipmentToUpstreamEquipmentProperty"^^xsd:string ; - sh:prefixes ], - [ a sh:TripleRule ; - rdfs:comment "Infer the connected relation using connectedTo"^^xsd:string ; - sh:name "InferredEquipmentToEquipmentPropertyfromconnectedTo"^^xsd:string ; - sh:object [ sh:path s223:connectedTo ] ; - sh:predicate s223:connected ; - sh:subject sh:this ], - [ a sh:TripleRule ; - rdfs:comment "Infer the hasConnectionPoint relation using cnx"^^xsd:string ; - sh:name "InferredEquipmentToConnectionPointProperty"^^xsd:string ; - sh:object [ sh:path s223:cnx ] ; - sh:predicate s223:hasConnectionPoint ; - sh:subject sh:this ], - [ a sh:SPARQLRule ; - rdfs:comment "Infer the connectedTo relation using connectsThrough and connectsTo."^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:connectedTo ?equipment .} -WHERE { -$this s223:hasConnectionPoint ?cp . -?cp a s223:OutletConnectionPoint . -?cp s223:connectsThrough/s223:connectsTo ?equipment . -} -"""^^xsd:string ; - sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; - sh:prefixes ], - [ a sh:TripleRule ; - rdfs:comment "Infer the cnx relationship using hasConnectionPoint."^^xsd:string ; - sh:name "InferredEquipmentToConnectionPointCnxProperty"^^xsd:string ; - sh:object [ sh:path s223:hasConnectionPoint ] ; - sh:predicate s223:cnx ; - sh:subject sh:this ], - [ a sh:TripleRule ; - rdfs:comment "Infer the connected relation using connectedFrom"^^xsd:string ; - sh:name "InferredEquipmentToEquipmentPropertyfromconnectedFrom"^^xsd:string ; - sh:object [ sh:path s223:connectedFrom ] ; - sh:predicate s223:connected ; - sh:subject sh:this ], - [ a sh:SPARQLRule ; - rdfs:comment "Infer the connected relation for BiDirectional connections"^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:connected ?d2 .} -WHERE { -$this s223:connectedThrough/^s223:connectedThrough ?d2 . -FILTER ($this != ?d2) . -FILTER NOT EXISTS {$this s223:contains* ?d2} . -FILTER NOT EXISTS {?d2 s223:contains* $this} . -} + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Mega British Thermal Unit (International Definition) per Hour"@en ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 293071.07 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(MBtu/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:isUnitOfSystem , + ; + ns1:symbol "MBtu{IT}/hr"^^xsd:string ; + ns1:ucumCode "M[Btu_IT].h-1"^^ns1:UCUMcs, + "M[Btu_IT]/h"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Therm US per Hour"@en ; + dcterms:description "\\(\\textbf{Therm} (symbol \\(thm\\)) is a non-SI unit of heat energy. It was defined in the United States in 1968 as the energy equivalent of burning 100 cubic feet of natural gas at standard temperature and pressure. Industrial processes in the U.S. use therm/hr unit most often in the power, steam generation, heating, and air conditioning industries."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 29300.1111 ; + ns1:expression "\\(thm/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://www.convertunits.com/info/therm%2B%5BU.S.%5D"^^xsd:anyURI ; + ns1:symbol "thm{US}/hr"^^xsd:string ; + ns1:ucumCode "[thm{US}].h-1"^^ns1:UCUMcs, + "[thm{US}]/h"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ton of Refrigeration"@en ; + dcterms:description "12000 btu per hour

"^^rdf:HTML, + "12000 btu per hour

"^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 3516.853 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Ton_of_refrigeration"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(t/fg\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Ton_of_refrigeration?oldid=494342824"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "t/fg"^^xsd:string ; + rdfs:isDefinedBy . + +ns3:EnumeratedValue a owl:Class ; + rdfs:label "DTYPE Enumerated Value"^^xsd:string ; + dcterms:description """ +The base class for datatypes that have values that are restriced to a set of literals or tokens. +The members of the restriction may themselves be restriced by facets that apply to scalar data types. """^^xsd:string ; - sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; - sh:prefixes ], - [ a sh:TripleRule ; - rdfs:comment "Infer the connectedThrough relation using hasConnectionPoint and connectsThrough"^^xsd:string ; - sh:name "InferredEquipmentToConnectionProperty"^^xsd:string ; - sh:object [ sh:path ( s223:hasConnectionPoint s223:connectsThrough ) ] ; - sh:predicate s223:connectedThrough ; - sh:subject sh:this ] . + rdfs:isDefinedBy ; + rdfs:subClassOf [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:code ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:code ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:literal ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:literal ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns3:value ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:order ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns3:value ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns3:order ], + owl:Thing . -s223:Sensor a s223:Class, +s223:Substance-Medium a s223:Class, + s223:Substance-Medium, sh:NodeShape ; - rdfs:label "Sensor"^^xsd:string ; - rdfs:comment "A Sensor observes an ObservableProperty (see `s223:ObservableProperty`) which may be quantifiable (see `s223:QuantifiableObservableProperty`), such as a temperature, flowrate, or concentration, or Enumerable (see `s223:EnumeratedObservableProperty`), such as an alarm state or occupancy state."^^xsd:string ; - rdfs:subClassOf s223:Equipment ; - sh:property [ rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; - sh:path s223:observes ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; - sh:message "s223: Sensor {$this} has Property {?x} with isDeltaQuantity true, but the Sensor lacks a reference location."^^xsd:string ; - sh:prefixes ; - sh:select """ - SELECT $this ?x - WHERE { -$this s223:observes/qudt:isDeltaQuantity true . -$this s223:observes ?x . -?x a/rdfs:subClassOf* s223:QuantifiableProperty . -FILTER NOT EXISTS {$this s223:hasReferenceLocation ?y} -} -"""^^xsd:string ] ], - [ rdfs:comment "If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; - sh:maxCount 1 ; - sh:message "s223: If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; - sh:path s223:hasReferenceLocation ], - [ rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; - sh:path s223:observes ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; - sh:message "s223: Sensor {$this} has a reference location, but its Property lacks isDeltaQuantity true."^^xsd:string ; - sh:prefixes ; - sh:select """ - SELECT $this - WHERE { -$this s223:hasReferenceLocation ?y . -$this s223:observes ?x . -?x a/rdfs:subClassOf* s223:QuantifiableProperty . -FILTER NOT EXISTS {$this s223:observes/qudt:isDeltaQuantity true} -} -"""^^xsd:string ] ], - [ rdfs:comment "A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; - sh:maxCount 1 ; - sh:message "s223: A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:hasObservationLocation ], - [ rdfs:comment "A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; - sh:class s223:ObservableProperty ; - sh:maxCount 1 ; - sh:message "s223: A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; - sh:minCount 1 ; - sh:path s223:observes ], - [ rdfs:comment "If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; - sh:class s223:QuantifiableProperty ; - sh:message "s223: If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; - sh:path s223:hasMeasurementResolution ] ; - sh:rule [ a sh:SPARQLRule ; - rdfs:comment "Infer the hasObservationLocation relation for a Sensor from the Property that it is observing, only if that property is associated with a single entity."^^xsd:string ; - sh:construct """ -CONSTRUCT {$this s223:hasObservationLocation ?something .} -WHERE { -{ -SELECT ?prop (COUNT (DISTINCT ?measurementLocation) AS ?count) $this -WHERE { -FILTER (NOT EXISTS {$this s223:hasObservationLocation ?anything}) . -$this s223:observes ?prop . -?measurementLocation s223:hasProperty ?prop . -} -GROUP BY ?prop $this -} -FILTER (?count = 1) . -?something s223:hasProperty ?prop . -{?something a/rdfs:subClassOf* s223:Connectable} -UNION -{?something a/rdfs:subClassOf* s223:Connection} -UNION -{?something a/rdfs:subClassOf* s223:ConnectionPoint} -} -"""^^xsd:string ; - sh:name "InferredMeasurementLocation"^^xsd:string ; - sh:prefixes ] . + rdfs:label "Medium"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of a physical substance or anything that allows for the transfer of energy or information."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Substance . -s223:cnx a s223:SymmetricProperty ; - rdfs:label "cnx"^^xsd:string ; - rdfs:comment "The cnx relation is a symmetric property used to associate adjacent entities in a connection path (comprised of Equipment-ConnectionPoint-Connection-ConnectionPoint-Equipment sequences)."^^xsd:string . +s223:hasValue a rdf:Property ; + rdfs:label "hasValue"^^xsd:string ; + rdfs:comment "hasValue is used to contain a fixed value that is part of a 223 model, rather than a computed, measured, or externally derived variable."^^xsd:string . - a ns1:QuantityKindDimensionVector_ISO, +s223:ofConstituent a rdf:Property ; + rdfs:label "of constituent"^^xsd:string ; + rdfs:comment "The relation ofConstituent is used to associate a Property that characterizes a medium mix with one of the constituents of that mix. (ex. Fluid-Water composedOf property ofConstituent Constituent-H2O."^^xsd:string . + +s223:pairedConnectionPoint a s223:SymmetricProperty ; + rdfs:label "paired connection point"^^xsd:string ; + rdfs:comment "The pairedConnectionPoint relation is a symmetric property used to associate two ConnectionPoints where an InletConnectionPoint shares the same medium with an OutletConnectionPoint."^^xsd:string . + + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E-1L1I0M1H0T-2D0"^^xsd:string ; + rdfs:label "A0E-1L2I0M1H0T-2D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; ns1:dimensionExponentForElectricCurrent -1 ; - ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLength 2 ; ns1:dimensionExponentForLuminousIntensity 0 ; ns1:dimensionExponentForMass 1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M T^-2 I^-1\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M T^-2 I^-1$"^^ns1:LatexString, + "\\(L^2 M T^-2 I^-1\\)"^^ns1:LatexString ; + ns1:latexSymbol "$m^2 \\cdot kg \\cdot s^{-2} \\cdot A^{-1}$"^^ns1:LatexString, + "\\(m^2 \\cdot kg \\cdot s^{-2} \\cdot A^{-1}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -71991,7 +78589,8 @@ s223:cnx a s223:SymmetricProperty ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-2 T-1 Q\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 T-1 Q$"^^ns1:LatexString, + "\\(L^-2 T-1 Q\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -72007,28 +78606,14 @@ s223:cnx a s223:SymmetricProperty ; ns1:dimensionExponentForTime 4 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-3 M^-1 T^4 I^2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L0I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^-1 N\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-3 M^-1 T^4 I^2$"^^ns1:LatexString, + "\\(L^-3 M^-1 T^4 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Coefficient of heat transfer"@en ; - dcterms:description "\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, q/A, and the thermodynamic driving force for the flow of heat (that is, the temperature difference, (Delta T). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \"Coefficient of Heat Transfer\", is often called \"thermal transmittance}\" with the symbol \"U\". It has SI units in watts per squared meter kelvin."^^rdf:HTML ; + dcterms:description "\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, q/A, and the thermodynamic driving force for the flow of heat (that is, the temperature difference, (Delta T). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \"Coefficient of Heat Transfer\", is often called \"thermal transmittance}\" with the symbol \"U\". It has SI units in watts per squared meter kelvin."^^ns1:LatexString, + "\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, q/A, and the thermodynamic driving force for the flow of heat (that is, the temperature difference, (Delta T). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \"Coefficient of Heat Transfer\", is often called \"thermal transmittance}\" with the symbol \"U\". It has SI units in watts per squared meter kelvin."^^rdf:HTML ; ns1:applicableSIUnit ; ns1:applicableUnit , , @@ -72051,6 +78636,7 @@ s223:cnx a s223:SymmetricProperty ; $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is thermodynamic temperature difference."""^^ns1:LatexString ; ns1:latexSymbol "$\\kappa$"^^ns1:LatexString ; ns1:plainTextDescription "\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, q/A, and the thermodynamic driving force for the flow of heat (that is, the temperature difference, (Delta T). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \"Coefficient of Heat Transfer\", is often called \"thermal transmittance}\" with the symbol \"U\". It has SI units in watts per squared meter kelvin."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:CoefficientOfHeatTransfer"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -72072,7 +78658,8 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t "gostota električnega toka"@sl, "Akım yoğunluğu"@tr, "电流密度"@zh ; - dcterms:description "\"Electric Current Density\" is a measure of the density of flow of electric charge; it is the electric current per unit area of cross section. Electric current density is a vector-valued quantity. Electric current, \\(I\\), through a surface \\(S\\) is defined as \\(I = \\int_S J \\cdot e_n dA\\), where \\(e_ndA\\) is the vector surface element."^^ns1:LatexString ; + dcterms:description "\"Electric Current Density\" is a measure of the density of flow of electric charge; it is the electric current per unit area of cross section. Electric current density is a vector-valued quantity. Electric current, $I$, through a surface $S$ is defined as $I = \\int_S J \\cdot e_n dA$, where $e_ndA$ is the vector surface element."^^ns1:LatexString, + "\"Electric Current Density\" is a measure of the density of flow of electric charge; it is the electric current per unit area of cross section. Electric current density is a vector-valued quantity. Electric current, \\(I\\), through a surface \\(S\\) is defined as \\(I = \\int_S J \\cdot e_n dA\\), where \\(e_ndA\\) is the vector surface element."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -72089,6 +78676,7 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t ns1:latexDefinition "$J = \\rho v$, where $\\rho$ is electric current density and $v$ is volume."^^ns1:LatexString ; ns1:siExactMatch ; ns1:symbol "J"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrentDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "areic electric current"@en, "keluasan arus elektrik"@ms . @@ -72116,7 +78704,8 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t "magnetni pretok"@sl, "manyetik akı"@tr, "磁通量"@zh ; - dcterms:description "\"Magnetic Flux\" is the product of the average magnetic field times the perpendicular area that it penetrates."^^rdf:HTML ; + dcterms:description "\"Magnetic Flux\" is the product of the average magnetic field times the perpendicular area that it penetrates."^^ns1:LatexString, + "\"Magnetic Flux\" is the product of the average magnetic field times the perpendicular area that it penetrates."^^rdf:HTML ; ns1:applicableUnit , , , @@ -72135,6 +78724,7 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t ns1:latexSymbol "$\\Phi$"^^ns1:LatexString, "$\\phi$"^^ns1:LatexString ; ns1:plainTextDescription "\"Magnetic Flux\" is the product of the average magnetic field times the perpendicular area that it penetrates."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFlux"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -72154,99 +78744,111 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Linear_density"^^xsd:anyURI ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MassPerLength"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "ArcMinute"@en ; - dcterms:description "A minute of arc, arcminute, or minute arc (MOA), is a unit of angular measurement equal to one sixtieth (1/60) of one degree (circle/21,600), or \\(\\pi /10,800 radians\\). In turn, a second of arc or arcsecond is one sixtieth (1/60) of one minute of arc. Since one degree is defined as one three hundred and sixtieth (1/360) of a rotation, one minute of arc is 1/21,600 of a rotation. "^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.908882e-04 ; - ns1:definedUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA097"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc"^^xsd:anyURI ; - ns1:siUnitsExpression "1"^^xsd:string ; - ns1:symbol "'"^^xsd:string ; - ns1:ucumCode "'"^^ns1:UCUMcs ; - ns1:udunitsCode "′"^^xsd:string ; - ns1:uneceCommonCode "D61"^^xsd:string ; + rdfs:label "BTU per Hour Square Foot"@en ; + dcterms:description "\\(\\textit{BTU per Hour Square Foot}\\) is an Imperial unit for 'Power Per Area' expressed as \\(Btu/(hr-ft^2)\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 3.15459075 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(Btu/(hr-ft^{2})\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "Btu{IT}/(hr⋅ft²)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].h-1.[ft_i]-2"^^ns1:UCUMcs, + "[Btu_IT]/(h.[ft_i]2)"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Day"@en ; - dcterms:description "Mean solar day"^^rdf:HTML ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "BTU per Second Square Foot"@en ; + dcterms:description "\\(\\textit{BTU per Second Square Foot}\\) is an Imperial unit for 'Power Per Area' expressed as \\(Btu/(s\\cdot ft^2)\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 11356.5267 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(Btu/(s-ft^{2})\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "Btu{IT}/(s⋅ft²)"^^xsd:string ; + ns1:ucumCode "[Btu_IT].s-1.[ft_i]-2"^^ns1:UCUMcs, + "[Btu_IT]/(s.[ft_i]2)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "N53"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Erg per Square Centimetre Second"@en, + "Erg per Square Centimeter Second"@en-us ; + dcterms:description "\"Erg per Square Centimeter Second\" is a C.G.S System unit for 'Power Per Area' expressed as \\(erg/(cm^{2}-s)\\)."^^ns1:LatexString ; ns1:applicableSystem , - , - , - , - , + ; + ns1:conversionMultiplier 0.001 ; + ns1:derivedUnitOfSystem , + ; + ns1:expression "\\(erg/(cm^{2}-s)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB055"^^xsd:string ; + ns1:symbol "erg/(cm²⋅s)"^^xsd:string ; + ns1:ucumCode "erg.cm-2.s-1"^^ns1:UCUMcs, + "erg/(cm2.s)"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A65"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot Pound Force per Square Foot Second"@en ; + dcterms:description "\"Foot Pound Force per Square Foot Second\" is an Imperial unit for 'Power Per Area' expressed as \\(ft \\cdot lbf/(ft^2 \\cdot s)\\)."^^ns1:LatexString ; + ns1:applicableSystem , ; - ns1:conversionMultiplier 86400.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Day"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA407"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Day?oldid=494970012"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "day"^^xsd:string ; - ns1:ucumCode "d"^^ns1:UCUMcs ; - ns1:udunitsCode "d"^^xsd:string ; - ns1:uneceCommonCode "DAY"^^xsd:string ; + ns1:conversionMultiplier 14.5939042 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft-lbf/ft^2s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:latexSymbol "\\(ft \\cdot lbf/(ft^2 \\cdot s)\\)"^^ns1:LatexString ; + ns1:symbol "ft⋅lbf/ft²s"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av].[sft_i]-1.s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gon"@en ; - dcterms:description "\"Gon\" is a C.G.S System unit for 'Plane Angle' expressed as \\(gon\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilocalorie per Square Centimetre Minute"@en, + "Kilocalorie per Square Centimeter Minute"@en-us ; + dcterms:description "\"Kilocalorie per Square Centimeter Minute\" is a unit for 'Power Per Area' expressed as \\(kcal/(cm^{2}-min)\\)."^^ns1:LatexString ; + ns1:applicableSystem , , - , - ; - ns1:conversionMultiplier 0.015707963267949 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gon"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA522"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gon?oldid=424098171"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "gon"^^xsd:string ; - ns1:ucumCode "gon"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A91"^^xsd:string ; + ; + ns1:conversionMultiplier 6.973333e-05, + 0.0000697333333 ; + ns1:expression "\\(kcal/(cm^{2}-min)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kcal/(cm²⋅min)"^^xsd:string ; + ns1:ucumCode "kcal.cm-2.min-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Grad"@en ; - dcterms:description "\"Grad\" is a unit for 'Plane Angle' expressed as \\(grad\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilocalorie per Square Centimetre Second"@en, + "Kilocalorie per Square Centimeter Second"@en-us ; + dcterms:description "\"Kilocalorie per Square Centimeter Second\" is a unit for 'Power Per Area' expressed as \\(kcal/(cm^{2}-s)\\)."^^ns1:LatexString ; + ns1:applicableSystem , , - , - ; - ns1:conversionMultiplier 0.0157079633 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Grad"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA522"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Grad?oldid=490906645"^^xsd:anyURI ; - ns1:symbol "grad"^^xsd:string ; - ns1:uneceCommonCode "A91"^^xsd:string ; + ; + ns1:conversionMultiplier 4.184e-07, + 0.0000004184 ; + ns1:expression "\\(kcal/(cm^{2}-s)\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kcal/(cm²⋅s)"^^xsd:string ; + ns1:ucumCode "kcal.cm-2.s-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:Unit ; @@ -72264,226 +78866,313 @@ $K = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is t ns1:uneceCommonCode "D74"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Minute Angle"@en ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Microwatt Per Square Metre"@en, + "Microwatt Per Square Meter"@en-us ; + dcterms:description "0.000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + ns1:applicableSystem , , - , , - , - , ; - ns1:conversionMultiplier 0.0002908882 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA097"^^xsd:string ; - ns1:symbol "'"^^xsd:string ; - ns1:ucumCode "'"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D61"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA081"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "µW/m²"^^xsd:string ; + ns1:ucumCode "uW.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D85"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Milli ArcSecond"@en ; - dcterms:description "A minute of arc, arcminute, or minute arc (MOA), is a unit of angular measurement equal to one sixtieth (1/60) of one degree (circle/21,600), or \\(\\pi /10,800 radians\\). In turn, a second of arc or arcsecond is one sixtieth (1/60) of one minute of arc. Since one degree is defined as one three hundred and sixtieth (1/360) of a rotation, one minute of arc is 1/21,600 of a rotation. the milliarcsecond, abbreviated mas, is used in astronomy."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.848137e-09 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc"^^xsd:anyURI ; - ns1:symbol "mas"^^xsd:string ; - ns1:ucumCode "m''"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Milliwatt Per Square Metre"@en, + "Milliwatt Per Square Meter"@en-us ; + dcterms:description "0.001-fold of the SI derived unit weber divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA808"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit weber divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "mW/m²"^^xsd:string ; + ns1:ucumCode "mW.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C32"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DimensionlessUnit, - ns1:LogarithmicUnit, - ns1:Unit ; - rdfs:label "Oct"@en ; - dcterms:description "An octave is a doubling or halving of a frequency. One oct is the logarithmic frequency interval between \\(f1\\) and \\(f2\\) when \\(f2/f1 = 2\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Reciprocal Cubic Metre"@en, + "Reciprocal Cubic Meter"@en-us ; + dcterms:description "\"Per Cubic Meter\" is a denominator unit with dimensions \\(/m^3\\)."^^ns1:LatexString ; + ns1:applicableSystem , , - , , - , - , ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Octave"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Octave_(electronics)"^^xsd:anyURI ; - ns1:symbol "oct"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(/m^3\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "/m³"^^xsd:string ; + ns1:ucumCode "/m3"^^ns1:UCUMcs, + "m-3"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C86"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "راديان"@ar, - "радиан"@bg, - "radián"@cs, - "Radiant"@de, - "ακτίνιο"@el, - "radian"@en, - "radián"@es, - "رادیان"@fa, - "radian"@fr, - "רדיאן"@he, - "वर्ग मीटर"@hi, - "radián"@hu, - "radiante"@it, - "ラジアン"@ja, - "radian"@la, - "radian"@ms, - "radian"@pl, - "radiano"@pt, - "radian"@ro, - "радиан"@ru, - "radian"@sl, - "radyan"@tr, - "弧度"@zh ; - dcterms:description "The radian is the standard unit of angular measure, used in many areas of mathematics. It describes the plane angle subtended by a circular arc as the length of the arc divided by the radius of the arc. In the absence of any symbol radians are assumed, and when degrees are meant the symbol \\(^{\\ circ}\\) is used. "^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Picowatt Per Square Metre"@en, + "Picowatt Per Square Meter"@en-us ; + dcterms:description "0.000000000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Radian"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:exactMatch ; - ns1:guidance "

See NIST section SP811 section7.10"^^rdf:HTML ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA966"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Radian?oldid=492309312"^^xsd:anyURI ; - ns1:omUnit ; - ns1:plainTextDescription "The radian is the standard unit of angular measure, used in many areas of mathematics. It describes the plane angle subtended by a circular arc as the length of the arc divided by the radius of the arc. The unit was formerly a SI supplementary unit, but this category was abolished in 1995 and the radian is now considered a SI derived unit. The SI unit of solid angle measurement is the steradian. The radian is represented by the symbol \"rad\" or, more rarely, by the superscript c (for \"circular measure\"). For example, an angle of 1.2 radians would be written as \"1.2 rad\" or \"1.2c\" (the second symbol is often mistaken for a degree: \"1.2u00b0\"). As the ratio of two lengths, the radian is a \"pure number\" that needs no unit symbol, and in mathematical writing the symbol \"rad\" is almost always omitted. In the absence of any symbol radians are assumed, and when degrees are meant the symbol u00b0 is used. [Wikipedia]"^^xsd:string ; - ns1:symbol "rad"^^xsd:string ; - ns1:ucumCode "rad"^^ns1:UCUMcs ; - ns1:udunitsCode "rad"^^xsd:string ; - ns1:uneceCommonCode "C81"^^xsd:string ; - rdfs:comment "The radian and steradian are special names for the number one that may be used to convey information about the quantity concerned. In practice the symbols rad and sr are used where appropriate, but the symbol for the derived unit one is generally omitted in specifying the values of dimensionless quantities."^^xsd:string ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA936"^^xsd:string ; + ns1:plainTextDescription "0.000000000001-fold of the SI derived unit watt divided by the power of the SI base unit metre with the exponent 2"^^xsd:string ; + ns1:symbol "pW/m²"^^xsd:string ; + ns1:ucumCode "pW.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C76"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reads Per Kilobase"@en ; - dcterms:description "RPK (Reads Per Kilobases) are obtained by dividing read counts by gene lengths (expressed in kilo-nucleotides)."^^rdf:HTML ; - ns1:conversionMultiplier 1.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "https://learn.gencore.bio.nyu.edu/metgenomics/shotgun-metagenomics/functional-analysis/"^^xsd:anyURI ; - ns1:plainTextDescription "RPK (Reads Per Kilobases) are obtained by dividing read counts by gene lengths (expressed in kilo-nucleotides)."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "RPK"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "RPK"^^xsd:string . + a ns1:Unit ; + rdfs:label "Watt per Square Centimetre"@en, + "Watt per Square Centimeter"@en-us ; + dcterms:description "Watt Per Square Centimeter is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 10000.0 ; + ns1:expression "\\(W/ft^{2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB224"^^xsd:string ; + ns1:symbol "W/cm²"^^xsd:string ; + ns1:ucumCode "W.cm-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "N48"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Watt per Square Foot"@en ; + dcterms:description "Watt Per Square Foot is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 10.7639104 ; + ns1:expression "\\(W/ft^{2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "W/ft²"^^xsd:string ; + ns1:ucumCode "W.[sft_i]-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Watt per Square Inch"@en ; + dcterms:description "Watt Per Square Inch is a unit of heat flux or thermal flux, the rate of heat energy transfer through a given surface."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1550.0031 ; + ns1:expression "\\(W/in^{2}\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB225"^^xsd:string ; + ns1:symbol "W/in²"^^xsd:string ; + ns1:ucumCode "W.[sin_i]-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "N49"^^xsd:string ; + rdfs:isDefinedBy . + +s223:DCVoltage-DCZeroVoltage a s223:Class, + s223:DCVoltage-DCZeroVoltage, + sh:NodeShape ; + rdfs:label "DCVoltage-DCZero voltage"^^xsd:string ; + s223:hasVoltage s223:Voltage-0V ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "DCVoltage-DCZero voltage"^^xsd:string ; + rdfs:subClassOf s223:Numerical-DCVoltage . + +s223:Role-Heating a s223:Class, + s223:Role-Heating, + sh:NodeShape ; + rdfs:label "Role-Heating"^^xsd:string ; + rdfs:comment "Role-Heating"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Role . + +s223:Sensor a s223:Class, + sh:NodeShape ; + rdfs:label "Sensor"^^xsd:string ; + rdfs:comment "A Sensor observes an ObservableProperty (see `s223:ObservableProperty`) which may be quantifiable (see `s223:QuantifiableObservableProperty`), such as a temperature, flowrate, or concentration, or Enumerable (see `s223:EnumeratedObservableProperty`), such as an alarm state or occupancy state."^^xsd:string ; + rdfs:subClassOf s223:Equipment ; + sh:property [ rdfs:comment "A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasObservationLocation ], + [ rdfs:comment "If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:path s223:hasReferenceLocation ], + [ rdfs:comment "If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "s223: If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; + sh:path s223:hasMeasurementResolution ], + [ rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; + sh:path s223:observes ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; + sh:message "s223: Sensor {$this} has Property {?x} with isDeltaQuantity true, but the Sensor lacks a reference location."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this ?x + WHERE { +$this s223:observes/qudt:isDeltaQuantity true . +$this s223:observes ?x . +?x a/rdfs:subClassOf* s223:QuantifiableProperty . +FILTER NOT EXISTS {$this s223:hasReferenceLocation ?y} +} +"""^^xsd:string ] ], + [ rdfs:comment "A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: A Sensor must be associated with exactly one location using the relation hasObservationLocation."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:hasObservationLocation ], + [ rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; + sh:path s223:observes ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; + sh:message "s223: Sensor {$this} has a reference location, but its Property lacks isDeltaQuantity true."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this + WHERE { +$this s223:hasReferenceLocation ?y . +$this s223:observes ?x . +?x a/rdfs:subClassOf* s223:QuantifiableProperty . +FILTER NOT EXISTS {$this s223:observes/qudt:isDeltaQuantity true} +} +"""^^xsd:string ] ], + [ rdfs:comment "A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; + sh:class s223:ObservableProperty ; + sh:maxCount 1 ; + sh:message "s223: A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:observes ], + [ rdfs:comment "If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: If a Sensor measures a differential property, it must be associated with exactly 1 of Connectable, Connection, or ConnectionPoint using the relation hasReferenceLocation."^^xsd:string ; + sh:path s223:hasReferenceLocation ], + [ rdfs:comment "A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; + sh:class s223:ObservableProperty ; + sh:maxCount 1 ; + sh:message "s223: A Sensor must be associated with exactly one ObservableProperty using the relation observes."^^xsd:string ; + sh:minCount 1 ; + sh:path s223:observes ], + [ rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; + sh:path s223:observes ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "s223: If the hasReferenceLocation relation exists, the observed Property must have isDeltaQuantity true."^^xsd:string ; + sh:message "s223: Sensor {$this} has a reference location, but its Property lacks isDeltaQuantity true."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this + WHERE { +$this s223:hasReferenceLocation ?y . +$this s223:observes ?x . +?x a/rdfs:subClassOf* s223:QuantifiableProperty . +FILTER NOT EXISTS {$this s223:observes/qudt:isDeltaQuantity true} +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; + sh:class s223:QuantifiableProperty ; + sh:message "s223: If the relation hasMeasurementResolution is present it must associate a Sensor with a QuantifiableProperty."^^xsd:string ; + sh:path s223:hasMeasurementResolution ], + [ rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; + sh:path s223:observes ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "s223: If the observed Property has isDeltaQuantity true, the Sensor must have a hasReferenceLocation relation."^^xsd:string ; + sh:message "s223: Sensor {$this} has Property {?x} with isDeltaQuantity true, but the Sensor lacks a reference location."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this ?x + WHERE { +$this s223:observes/qudt:isDeltaQuantity true . +$this s223:observes ?x . +?x a/rdfs:subClassOf* s223:QuantifiableProperty . +FILTER NOT EXISTS {$this s223:hasReferenceLocation ?y} +} +"""^^xsd:string ] ] ; + sh:rule [ a sh:SPARQLRule ; + rdfs:comment "Infer the hasObservationLocation relation for a Sensor from the Property that it is observing, only if that property is associated with a single entity."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:hasObservationLocation ?something .} +WHERE { +{ +SELECT ?prop (COUNT (DISTINCT ?measurementLocation) AS ?count) $this +WHERE { +FILTER (NOT EXISTS {$this s223:hasObservationLocation ?anything}) . +$this s223:observes ?prop . +?measurementLocation s223:hasProperty ?prop . +} +GROUP BY ?prop $this +} +FILTER (?count = 1) . +?something s223:hasProperty ?prop . +{?something a/rdfs:subClassOf* s223:Connectable} +UNION +{?something a/rdfs:subClassOf* s223:Connection} +UNION +{?something a/rdfs:subClassOf* s223:ConnectionPoint} +} +"""^^xsd:string ; + sh:name "InferredMeasurementLocation"^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the hasObservationLocation relation for a Sensor from the Property that it is observing, only if that property is associated with a single entity."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:hasObservationLocation ?something .} +WHERE { +{ +SELECT ?prop (COUNT (DISTINCT ?measurementLocation) AS ?count) $this +WHERE { +FILTER (NOT EXISTS {$this s223:hasObservationLocation ?anything}) . +$this s223:observes ?prop . +?measurementLocation s223:hasProperty ?prop . +} +GROUP BY ?prop $this +} +FILTER (?count = 1) . +?something s223:hasProperty ?prop . +{?something a/rdfs:subClassOf* s223:Connectable} +UNION +{?something a/rdfs:subClassOf* s223:Connection} +UNION +{?something a/rdfs:subClassOf* s223:ConnectionPoint} +} +"""^^xsd:string ; + sh:name "InferredMeasurementLocation"^^xsd:string ; + sh:prefixes ] . -ns2:GraphMetaData a owl:Class ; - rdfs:label "Graph Metadata"^^xsd:string ; - dcterms:description "\"vaem:GraphMetaData\" defines basic metadata for the registration and publishing of a graph. For specificaiton of governance the vocabulary \"VOAG\" may be used."^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:seeAlso ; - rdfs:subClassOf [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:hasIdentifier ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Discipline ; - owl:onProperty ns2:hasDiscipline ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:hasLicenseType ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Viewpoint ; - owl:onProperty ns2:hasViewpoint ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:owner ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:hasMetadata ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:namespace ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:GraphRole ; - owl:onProperty ns2:hasGraphRole ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:namespacePrefix ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:latestPublishedVersion ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:intent ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:rdfxmlFileURL ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:revision ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Party ; - owl:onProperty ns2:hasSteward ], - [ a owl:Restriction ; - owl:allValuesFrom xsd:string ; - owl:onProperty ns2:description ], - [ a owl:Restriction ; - owl:cardinality 1 ; - owl:onProperty ns2:name ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:previousPublishedVersion ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:turtleFileURL ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Party ; - owl:onProperty ns2:hasOwner ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:hasSteward ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:specificity ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Domain ; - owl:onProperty ns2:hasDomain ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:Aspect ; - owl:onProperty ns2:hasAspect ], - [ a owl:Restriction ; - owl:allValuesFrom ns2:GraphMetaData ; - owl:onProperty ns2:hasMetadata ], - owl:Thing . +s223:connectedTo a rdf:Property ; + rdfs:label "connected to"^^xsd:string ; + s223:inverseOf s223:connectedFrom ; + rdfs:comment "The relation connectedTo indicates that connectable things are connected with a specific flow direction. A is connectedTo B, means a directionality beginning at A and ending at B. The inverse direction is indicated by connectedFrom (see `s223:connectedFrom`)."^^xsd:string ; + rdfs:domain s223:Equipment . -s223:DCVoltage-DCZeroVoltage a s223:Class, - s223:DCVoltage-DCZeroVoltage, - sh:NodeShape ; - rdfs:label "DCVoltage-DCZero voltage"^^xsd:string ; - s223:hasVoltage s223:Voltage-0V ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "DCVoltage-DCZero voltage"^^xsd:string ; - rdfs:subClassOf s223:Numerical-DCVoltage . +s223:connectsAt a rdf:Property ; + rdfs:label "connects at"^^xsd:string ; + s223:inverseOf s223:connectsThrough ; + rdfs:comment "The relation connectsAt binds a Connection to a specific ConnectionPoint."^^xsd:string . - rdfs:label "QUDT VOCAB Systems of Units Release 2.1.32"^^xsd:string ; + rdfs:label "QUDT VOCAB Systems of Units Release 2.1.27"^^xsd:string, + "QUDT VOCAB Systems of Units Release 2.1.32"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_QUDT-SOU ; owl:versionInfo "Created with TopBraid Composer"^^xsd:string . -ns1:hasUnit a rdf:Property ; - rdfs:label "has unit"^^xsd:string ; - dcterms:description "This property relates a system of units with a unit of measure that is either a) defined by the system, or b) accepted for use by the system and is convertible to a unit of equivalent dimension that is defined by the system. Systems of units may distinguish between base and derived units. Base units are the units which measure the base quantities for the corresponding system of quantities. The base units are used to define units for all other quantities as products of powers of the base units. Such units are called derived units for the system. Thirdly, c) a reference to the unit of measure of a quantity (variable or constant) of interest"^^rdf:HTML ; - rdfs:comment "A reference to the unit of measure of a QuantifiableProperty of interest."^^xsd:string ; - rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -72497,7 +79186,25 @@ ns1:hasUnit a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-2 N^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-2 N^-1$"^^ns1:LatexString, + "\\(L^2 M T^-2 N^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E-1L1I0M1H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent -1 ; + ns1:dimensionExponentForLength 1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L M T^-2 I^-1$"^^ns1:LatexString, + "\\(L M T^-2 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -72513,54 +79220,36 @@ ns1:hasUnit a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-3 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^-3 Θ^-1$"^^ns1:LatexString, + "\\(M T^-3 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "سرعة زاوية"@ar, - "Úhlová rychlost"@cs, - "Winkelgeschwindigkeit"@de, - "angular velocity"@en, - "velocidad angular"@es, - "سرعت زاویه‌ای"@fa, - "vitesse angulaire"@fr, - "कोणीय वेग"@hi, - "velocità angolare"@it, - "角速度"@ja, - "Halaju bersudut"@ms, - "Prędkość kątowa"@pl, - "velocidade angular"@pt, - "Viteză unghiulară"@ro, - "Угловая скорость"@ru, - "kotna hitrost"@sl, - "Açısal hız"@tr, - "角速度"@zh ; - dcterms:description "Angular Velocity refers to how fast an object rotates or revolves relative to another point."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_velocity"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD009"^^xsd:string ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Angular_velocity"^^xsd:anyURI ; - ns1:plainTextDescription "The change of angle per unit time; specifically, in celestial mechanics, the change in angle of the radius vector per unit time."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - skos:altLabel "angular speed"@en, - "kelajuan bersudut"@ms . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A1E0L0I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$T^-1 N$"^^ns1:LatexString, + "\\(T^-1 N\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Conductivity"@en ; - dcterms:description "\"Conductivity\" is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity."^^rdf:HTML ; + dcterms:description """ + $\\textit{Conductivity}$ is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. + For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity. + $$\\mathbf{J} = \\sigma \\mathbf{E}$$ + Where $\\mathbf{J}$ is electric current density, and $\\mathbf{E}$ is electric field strength. + """^^ns1:LatexString, + "\"Conductivity\" is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -72581,13 +79270,15 @@ ns1:hasUnit a rdf:Property ; ns1:latexSymbol "$\\gamma$"^^ns1:LatexString, "$\\sigma$"^^ns1:LatexString ; ns1:plainTextDescription "\"Conductivity\" is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Conductivity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , . a ns1:QuantityKind ; rdfs:label "Viscosity"@en ; - dcterms:description "Viscosity is a measure of the resistance of a fluid which is being deformed by either shear stress or extensional stress. In general terms it is the resistance of a liquid to flow, or its \"thickness\". Viscosity describes a fluid's internal resistance to flow and may be thought of as a measure of fluid friction. [Wikipedia]. In general conversation or in non-scientific contexts, if someone refers to the viscosity of a fluid, they're likely talking about its dynamic (or absolute) viscosity. However, in engineering or scientific contexts, it's essential to clarify which type of viscosity is being discussed, as the interpretation and use of the data may differ depending on whether one is talking about dynamic or kinematic viscosity."^^rdf:HTML ; + dcterms:description "Viscosity is a measure of the resistance of a fluid which is being deformed by either shear stress or extensional stress. In general terms it is the resistance of a liquid to flow, or its \"thickness\". Viscosity describes a fluid's internal resistance to flow and may be thought of as a measure of fluid friction. [Wikipedia]. In general conversation or in non-scientific contexts, if someone refers to the viscosity of a fluid, they're likely talking about its dynamic (or absolute) viscosity. However, in engineering or scientific contexts, it's essential to clarify which type of viscosity is being discussed, as the interpretation and use of the data may differ depending on whether one is talking about dynamic or kinematic viscosity."^^ns1:LatexString, + "Viscosity is a measure of the resistance of a fluid which is being deformed by either shear stress or extensional stress. In general terms it is the resistance of a liquid to flow, or its \"thickness\". Viscosity describes a fluid's internal resistance to flow and may be thought of as a measure of fluid friction. [Wikipedia]. In general conversation or in non-scientific contexts, if someone refers to the viscosity of a fluid, they're likely talking about its dynamic (or absolute) viscosity. However, in engineering or scientific contexts, it's essential to clarify which type of viscosity is being discussed, as the interpretation and use of the data may differ depending on whether one is talking about dynamic or kinematic viscosity."^^rdf:HTML ; ns1:applicableUnit , , , @@ -72613,457 +79304,706 @@ ns1:hasUnit a rdf:Property ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:plainTextDescription "Viscosity is a measure of the resistance of a fluid which is being deformed by either shear stress or extensional stress. In general terms it is the resistance of a liquid to flow, or its \"thickness\". Viscosity describes a fluid's internal resistance to flow and may be thought of as a measure of fluid friction. [Wikipedia]. In general conversation or in non-scientific contexts, if someone refers to the viscosity of a fluid, they're likely talking about its dynamic (or absolute) viscosity. However, in engineering or scientific contexts, it's essential to clarify which type of viscosity is being discussed, as the interpretation and use of the data may differ depending on whether one is talking about dynamic or kinematic viscosity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Viscosity"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centimetre Per Hour"@en, - "Centimeter Per Hour"@en-us ; - dcterms:description "0,01-fold of the SI base unit metre divided by the unit hour"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Centipoise Per Bar"@en ; + dcterms:description "0.01-fold of the CGS unit of the dynamic viscosity poise divided by the unit of the pressure bar"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA358"^^xsd:string ; + ns1:plainTextDescription "0.01-fold of the CGS unit of the dynamic viscosity poise divided by the unit of the pressure bar"^^xsd:string ; + ns1:symbol "cP/bar"^^xsd:string ; + ns1:ucumCode "cP.bar-1"^^ns1:UCUMcs, + "cP/bar"^^ns1:UCUMcs ; + ns1:uneceCommonCode "J74"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Sidereal Day"@en ; + dcterms:description "The length of time which passes between a given fixed star in the sky crossing a given projected meridian (line of longitude). The sidereal day is \\(23 h 56 m 4.1 s\\), slightly shorter than the solar day because the Earth 's orbital motion about the Sun means the Earth has to rotate slightly more than one turn with respect to the \"fixed\" stars in order to reach the same Earth-Sun orientation. Another way of thinking about the difference is that it amounts to \\(1/365.2425^{th}\\) of a day per day, since even if the Earth did not spin on its axis at all, the Sun would appear to make one rotation around the Earth as the Earth completed a single orbit (which takes one year)."^^ns1:LatexString ; ns1:applicableSystem , , + , + , + , + ; + ns1:conversionMultiplier 86164.099 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA412"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI, + "http://scienceworld.wolfram.com/astronomy/SiderealDay.html"^^xsd:anyURI ; + ns1:symbol "day{sidereal}"^^xsd:string ; + ns1:ucumCode "d"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Henry Per Kiloohm"@en ; + dcterms:description "SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , , ; - ns1:conversionMultiplier 2.777778e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA378"^^xsd:string ; - ns1:plainTextDescription "0,01-fold of the SI base unit metre divided by the unit hour"^^xsd:string ; - ns1:symbol "cm/hr"^^xsd:string ; - ns1:ucumCode "cm.h-1"^^ns1:UCUMcs, - "cm/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H49"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA167"^^xsd:string ; + ns1:plainTextDescription "SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^xsd:string ; + ns1:symbol "H/kΩ"^^xsd:string ; + ns1:ucumCode "H.kOhm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H03"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centimetres per thousand years"@en ; + a ns1:Unit ; + rdfs:label "Henry Per Ohm"@en ; + dcterms:description "SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA166"^^xsd:string ; + ns1:plainTextDescription "SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; + ns1:symbol "H/Ω"^^xsd:string ; + ns1:ucumCode "H.Ohm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H04"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Hour"@en ; + dcterms:description "The hour (common symbol: h or hr) is a unit of measurement of time. In modern usage, an hour comprises 60 minutes, or 3,600 seconds. It is approximately 1/24 of a mean solar day. An hour in the Universal Coordinated Time (UTC) time standard can include a negative or positive leap second, and may therefore have a duration of 3,599 or 3,601 seconds for adjustment purposes. Although it is not a standard defined by the International System of Units, the hour is a unit accepted for use with SI, represented by the symbol h."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 3600.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Hour"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA525"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Hour?oldid=495040268"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "hr"^^xsd:string ; + ns1:ucumCode "h"^^ns1:UCUMcs ; + ns1:udunitsCode "h"^^xsd:string ; + ns1:uneceCommonCode "HUR"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Sidereal Hour"@en ; + dcterms:description "Sidereal time is a time-keeping system astronomers use to keep track of the direction to point their telescopes to view a given star in the night sky. A mean sidereal day is about 23 h 56 m 4.1 s in length. However, due to variations in the rotation rate of the Earth, the rate of an ideal sidereal clock deviates from any simple multiple of a civil clock. In practice, the difference is kept track of by the difference UTC-UT1, which is measured by radio telescopes and kept on file and available to the public at the IERS and at the United States Naval Observatory. A Sidereal Hour is \\(1/24^{th}\\) of a Sidereal Day. A mean sidereal day is 23 hours, 56 minutes, 4.0916 seconds (23.9344699 hours or 0.99726958 mean solar days), the time it takes Earth to make one rotation relative to the vernal equinox. (Due to nutation, an actual sidereal day is not quite so constant.) The vernal equinox itself precesses slowly westward relative to the fixed stars, completing one revolution in about 26,000 years, so the misnamed sidereal day (\"sidereal\" is derived from the Latin sidus meaning \"star\") is 0.0084 seconds shorter than Earth's period of rotation relative to the fixed stars."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 3590.17 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI ; + ns1:symbol "hr{sidereal}"^^xsd:string ; + ns1:ucumCode "h"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Joules per square centimetre per day"@en ; + dcterms:description "Radiant energy per 10^-4 SI unit area over a period of one day."@en ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 3.168809e-13 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "cm/(1000 yr)"^^xsd:string ; - ns1:ucumCode "cm.ka-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 0.115740740740741 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "J/(cm²⋅day)"^^xsd:string ; + ns1:ucumCode "J.cm-2.d-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "centimetre per second"@en, - "centimeter per second"@en-us ; - dcterms:description "\"Centimeter per Second\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(cm/s\\)."^^ns1:LatexString ; + rdfs:label "kilosecond"@en ; + dcterms:description "\"Killosecond\" is an Imperial unit for 'Time' expressed as \\(ks\\)."^^ns1:LatexString ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 0.01 ; - ns1:derivedUnitOfSystem , - ; - ns1:expression "\\(cm/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA379"^^xsd:string ; - ns1:latexDefinition "\\(cm/s\\)"^^ns1:LatexString ; - ns1:symbol "cm/s"^^xsd:string ; - ns1:ucumCode "cm.s-1"^^ns1:UCUMcs, - "cm/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2M"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Millisecond"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA647"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Millisecond?oldid=495102042"^^xsd:anyURI ; + ns1:prefix ; + ns1:symbol "ks"^^xsd:string ; + ns1:ucumCode "ks"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B52"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Centimetres per year"@en ; + a ns1:Unit ; + rdfs:label "KiloYear"@en ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 0.000000000316880878140289 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "cm/yr"^^xsd:string ; - ns1:ucumCode "cm.a-1"^^ns1:UCUMcs ; + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "1000 yr"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Degree Rankine"@en ; - dcterms:description "Rankine is a thermodynamic (absolute) temperature scale. The symbol for degrees Rankine is \\(^\\circ R\\) or \\(^\\circ Ra\\) if necessary to distinguish it from the Rømer and Réaumur scales). Zero on both the Kelvin and Rankine scales is absolute zero, but the Rankine degree is defined as equal to one degree Fahrenheit, rather than the one degree Celsius used by the Kelvin scale. A temperature of \\(-459.67 ^\\circ F\\) is exactly equal to \\(0 ^\\circ R\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.5555555555555556 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA050"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Rankine_scale"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "°R"^^xsd:string ; - ns1:ucumCode "[degR]"^^ns1:UCUMcs ; - ns1:udunitsCode "°R"^^xsd:string ; - ns1:uneceCommonCode "A48"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Minute"@en ; + dcterms:description "A minute is a unit of measurement of time. The minute is a unit of time equal to 1/60 (the first sexagesimal fraction of an hour or 60 seconds. In the UTC time scale, a minute on rare occasions has 59 or 61 seconds; see leap second. The minute is not an SI unit; however, it is accepted for use with SI units. The SI symbol for minute or minutes is min (for time measurement) or the prime symbol after a number, e.g. 5' (for angle measurement, even if it is informally used for time)."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 60.0 ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA842"^^xsd:string ; + ns1:omUnit ; + ns1:symbol "min"^^xsd:string ; + ns1:ucumCode "min"^^ns1:UCUMcs ; + ns1:udunitsCode "min"^^xsd:string ; + ns1:uneceCommonCode "MIN"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot per Day"@en ; - dcterms:description "\"Foot per Day\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/d\\)."^^ns1:LatexString ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Sidereal Minute"@en ; + dcterms:description "Sidereal time is a time-keeping system astronomers use to keep track of the direction to point their telescopes to view a given star in the night sky. A mean sidereal day is about \\(23 h 56 m 4.1 s\\) in length. However, due to variations in the rotation rate of the Earth, the rate of an ideal sidereal clock deviates from any simple multiple of a civil clock. In practice, the difference is kept track of by the difference UTC-UT1, which is measured by radio telescopes and kept on file and available to the public at the IERS and at the United States Naval Observatory. A Sidereal Minute is \\(1/60^{th}\\) of a Sidereal Hour, which is \\(1/24^{th}\\) of a Sidereal Day."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , ; - ns1:conversionMultiplier 3.527778e-06 ; - ns1:definedUnitOfSystem , + ns1:conversionMultiplier 59.83617 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Sidereal_time"^^xsd:anyURI ; + ns1:symbol "min{sidereal}"^^xsd:string ; + ns1:ucumCode "min"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mean Gregorian Month"@en ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#iso1000"^^xsd:anyURI ; + ns1:ucumCode "mo_g"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MON"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mean Julian Month"@en ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#iso1000"^^xsd:anyURI ; + ns1:ucumCode "mo_j"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Million Years"@en ; + dcterms:description "1,000,000-fold of the derived unit year."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , ; - ns1:expression "\\(ft/d\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "ft/day"^^xsd:string ; - ns1:ucumCode "[ft_i].d-1"^^ns1:UCUMcs, - "[ft_i]/d"^^ns1:UCUMcs ; + ns1:conversionMultiplier 31557600000000.0, + 3.15576e+13 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wiktionary.org/wiki/megayear"^^xsd:anyURI ; + ns1:plainTextDescription "1,000,000-fold of the derived unit year."^^xsd:string ; + ns1:prefix ; + ns1:symbol "Myr"^^xsd:string ; + ns1:ucumCode "Ma"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + skos:altLabel "Ma"^^xsd:string, + "Mega Year"@en, + "megannum"@la . + + a ns1:Unit ; + rdfs:label "Microhenry Per Kiloohm"@en ; + dcterms:description "0.000001-fold of the SI derived unit henry divided by the 1,000-fold of the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA068"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit henry divided by the 1,000-fold of the SI derived unit ohm"^^xsd:string ; + ns1:symbol "µH/kΩ"^^xsd:string ; + ns1:ucumCode "uH.kOhm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G98"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Microhenry Per Ohm"@en ; + dcterms:description "0.000001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA067"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; + ns1:symbol "µH/Ω"^^xsd:string ; + ns1:ucumCode "uH.Ohm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "G99"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot per Hour"@en ; - dcterms:description "\"Foot per Hour\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/hr\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 8.466667e-05 ; - ns1:definedUnitOfSystem , + a ns1:Unit ; + rdfs:label "microsecond"@en ; + dcterms:description "\"Microsecond\" is a unit for 'Time' expressed as \\(microsec\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , ; - ns1:expression "\\(ft/hr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA442"^^xsd:string ; - ns1:symbol "ft/hr"^^xsd:string ; - ns1:ucumCode "[ft_i].h-1"^^ns1:UCUMcs, - "[ft_i]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "K14"^^xsd:string ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA095"^^xsd:string ; + ns1:prefix ; + ns1:symbol "µs"^^xsd:string ; + ns1:ucumCode "us"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B98"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot per Minute"@en ; - dcterms:description "\"Foot per Minute\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/min\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.00508 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA448"^^xsd:string ; - ns1:symbol "ft/min"^^xsd:string ; - ns1:ucumCode "[ft_i].min-1"^^ns1:UCUMcs, - "[ft_i]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "FR"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Millihenry Per Kiloohm"@en ; + dcterms:description "0.001-fold of the SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA791"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit henry divided by the 1 000-fold of the SI derived unit ohm"^^xsd:string ; + ns1:symbol "mH/kΩ"^^xsd:string ; + ns1:ucumCode "mH.kOhm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H05"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Foot per Second"@en ; - dcterms:description "\\(\\textit{foot per second}\\) (plural \\(\\textit{feet per second}\\)) is a unit of both speed (scalar) and velocity (vector quantity, which includes direction). It expresses the distance in feet (\\(ft\\)) traveled or displaced, divided by the time in seconds (\\(s\\), or \\(sec\\)). The corresponding unit in the International System of Units (SI) is the \\(\\textit{metre per second}\\). Abbreviations include \\(ft/s\\), \\(ft/sec\\) and \\(fps\\), and the rarely used scientific notation \\(ft\\,s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.3048 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Foot_per_second"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA449"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Foot_per_second?oldid=491316573"^^xsd:anyURI ; - ns1:symbol "ft/s"^^xsd:string ; - ns1:ucumCode "[ft_i].s-1"^^ns1:UCUMcs, - "[ft_i]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "FS"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Millihenry Per Ohm"@en ; + dcterms:description "0.001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA790"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit henry divided by the SI derived unit ohm"^^xsd:string ; + ns1:symbol "mH/Ω"^^xsd:string ; + ns1:ucumCode "mH.Ohm-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H06"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Inch per Minute"@en ; - dcterms:description "The inch per minute is a unit of speed or velocity. It expresses the distance in inches (in) traveled or displaced, divided by time in minutes (min). The equivalent SI unit is the metre per second."^^xsd:string ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Millipascal Second Per Bar"@en ; + dcterms:description "0.001-fold of the product of the SI derived unit pascal and the SI base unit second divided by the unit of the pressure bar"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA799"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the product of the SI derived unit pascal and the SI base unit second divided by the unit of the pressure bar"^^xsd:string ; + ns1:symbol "mPa⋅s/bar"^^xsd:string ; + ns1:ucumCode "mPa.s.bar-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L16"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "millisecond"@en ; + dcterms:description "\"Millisecond\" is an Imperial unit for 'Time' expressed as \\(ms\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , ; - ns1:conversionMultiplier 0.000423333333 ; + ns1:conversionMultiplier 0.001 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Millisecond"^^xsd:anyURI ; ns1:definedUnitOfSystem , ; - ns1:expression "\\(in/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "in/,"^^xsd:string ; - ns1:ucumCode "[in_i].min-1"^^ns1:UCUMcs, - "[in_i]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M63"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA899"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Millisecond?oldid=495102042"^^xsd:anyURI ; + ns1:prefix ; + ns1:symbol "ms"^^xsd:string ; + ns1:ucumCode "ms"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C26"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilometres per day"@en ; - dcterms:description "A change in location of a distance of one thousand metres in an elapsed time of one day (86400 seconds)."@en ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "nanosecond"@en ; + dcterms:description "A nanosecond is a SI unit of time equal to one billionth of a second (10-9 or 1/1,000,000,000 s). One nanosecond is to one second as one second is to 31.69 years. The word nanosecond is formed by the prefix nano and the unit second."^^rdf:HTML ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 0.0115740740740741 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "kg/day"^^xsd:string ; - ns1:ucumCode "km.d-1"^^ns1:UCUMcs ; + , + , + ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Nanosecond"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA913"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Nanosecond?oldid=919778950"^^xsd:anyURI ; + ns1:prefix ; + ns1:symbol "ns"^^xsd:string ; + ns1:ucumCode "ns"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C47"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilometre per Hour"@en, - "Kilometer per Hour"@en-us ; - dcterms:description "\"Kilometer per Hour\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(km/hr\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Pascal Second Per Bar"@en ; + dcterms:description "product out of the SI derived unit pascal and the SI base unit second divided by the unit bar"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA267"^^xsd:string ; + ns1:plainTextDescription "product out of the SI derived unit pascal and the SI base unit second divided by the unit bar"^^xsd:string ; + ns1:symbol "Pa⋅s/bar"^^xsd:string ; + ns1:ucumCode "Pa.s.bar-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H07"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Reciprocal Kilometre"@en, + "Reciprocal Kilometer"@en-us ; + dcterms:description "Per Kilometer Unit is a denominator unit with dimensions \\(/km\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.2777777777777778 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kilometres_per_hour"^^xsd:anyURI ; - ns1:expression "\\(km/hr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA638"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kilometres_per_hour?oldid=487674812"^^xsd:anyURI ; - ns1:symbol "km/hr"^^xsd:string ; - ns1:ucumCode "km.h-1"^^ns1:UCUMcs, - "km/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KMH"^^xsd:string ; + ns1:conversionMultiplier 0.001 ; + ns1:expression "\\(per-kilometer\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/km"^^xsd:string ; + ns1:ucumCode "/km"^^ns1:UCUMcs, + "km-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilometre per Second"@en, - "Kilometer per Second"@en-us ; - dcterms:description "\"Kilometer per Second\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(km/s\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "Reciprocal Micrometre"@en, + "Reciprocal Micrometer"@en-us ; + dcterms:description "Per Micrometer Unit is a denominator unit with dimensions \\(/microm\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1000.0 ; - ns1:expression "\\(km/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB392"^^xsd:string ; - ns1:symbol "km/s"^^xsd:string ; - ns1:ucumCode "km.s-1"^^ns1:UCUMcs, - "km/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M62"^^xsd:string ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:expression "\\(per-micrometer\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/µm"^^xsd:string ; + ns1:ucumCode "/um"^^ns1:UCUMcs, + "um-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Metre per Hour"@en, - "Meter per Hour"@en-us ; - dcterms:description "Metre per hour is a metric unit of both speed (scalar) and velocity (Vector (geometry)). Its symbol is m/h or mu00b7h-1 (not to be confused with the imperial unit symbol mph. By definition, an object travelling at a speed of 1 m/h for an hour would move 1 metre."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Reciprocal Millimetre"@en, + "Reciprocal Millimeter"@en-us ; + dcterms:description "Per Millimeter Unit is a denominator unit with dimensions \\(/mm\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.000277777778 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(m/h\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB328"^^xsd:string ; - ns1:symbol "m/h"^^xsd:string ; - ns1:ucumCode "m.h-1"^^ns1:UCUMcs, - "m/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M60"^^xsd:string ; + ns1:conversionMultiplier 1000.0 ; + ns1:expression "\\(per-millimeter\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/mm"^^xsd:string ; + ns1:ucumCode "/mm"^^ns1:UCUMcs, + "mm-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Metre per Minute"@en, - "Meter per Minute"@en-us ; - dcterms:description "Meter Per Minute (m/min) is a unit in the category of Velocity. It is also known as meter/minute, meters per minute, metre per minute, metres per minute. Meter Per Minute (m/min) has a dimension of LT-1 where L is length, and T is time. It can be converted to the corresponding standard SI unit m/s by multiplying its value by a factor of 0.016666666666"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Reciprocal Nanometre"@en, + "Reciprocal Nanometer"@en-us ; + dcterms:description "Per Nanometer Unit is a denominator unit with dimensions \\(/nm\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 0.0166666667 ; - ns1:definedUnitOfSystem ; - ns1:expression "\\(m/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA732"^^xsd:string ; - ns1:symbol "m/min"^^xsd:string ; - ns1:ucumCode "m.min-1"^^ns1:UCUMcs, - "m/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "2X"^^xsd:string ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:expression "\\(per-nanometer\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/nm"^^xsd:string ; + ns1:ucumCode "/nm"^^ns1:UCUMcs, + "nm-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Metres per year"@en ; - dcterms:description "A rate of change of SI standard unit length over a period of an average calendar year (365.25 days)."@en ; + a ns1:Unit ; + rdfs:label "Reciprocal Picometre"@en, + "Reciprocal Picometer"@en-us ; + dcterms:description "Per Picoometer Unit is a denominator unit with dimensions \\(/pm\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 3.168809e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "m/yr"^^xsd:string ; - ns1:ucumCode "m.a-1"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; + ns1:expression "\\(per-picoometer\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/pm"^^xsd:string ; + ns1:ucumCode "/pm"^^ns1:UCUMcs, + "pm-1"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mile per Minute"@en ; - dcterms:description "Miles per minute is an imperial unit of speed expressing the number of statute miles covered in one minute."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 26.8224 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(mi/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB229"^^xsd:string ; - ns1:symbol "mi/min"^^xsd:string ; - ns1:ucumCode "[mi_i].min-1"^^ns1:UCUMcs, - "[mi_i]/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M57"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Poise Per Bar"@en ; + dcterms:description "CGS unit poise divided by the unit bar"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA257"^^xsd:string ; + ns1:plainTextDescription "CGS unit poise divided by the unit bar"^^xsd:string ; + ns1:symbol "P/bar"^^xsd:string ; + ns1:ucumCode "P.bar-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F06"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Mile per Second"@en ; - dcterms:description "Miles per second is an imperial unit of speed expressing the number of statute miles covered in one second."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1609.344 ; - ns1:definedUnitOfSystem , + a ns1:Unit ; + rdfs:label "Picosecond"@en ; + dcterms:description "0.000000000001-fold of the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , ; - ns1:expression "\\(mi/sec\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "mi/sec"^^xsd:string ; - ns1:ucumCode "[mi_i].sec-1"^^ns1:UCUMcs, - "[mi_i]/sec"^^ns1:UCUMcs ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA950"^^xsd:string ; + ns1:plainTextDescription "0.000000000001-fold of the SI base unit second"^^xsd:string ; + ns1:prefix ; + ns1:symbol "ps"^^xsd:string ; + ns1:ucumCode "ps"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H70"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nautical Mile per Minute"@en ; - dcterms:description """The SI derived unit for speed is the meter/second. -1 meter/second is equal to 0.0323974082073 nautical mile per minute. """^^rdf:HTML ; - ns1:applicableSystem ; - ns1:expression "\\(nmi/min\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "nmi/min"^^xsd:string ; - ns1:ucumCode "[nmi_i].min-1"^^ns1:UCUMcs, - "[nmi_i]/min"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Shake"@en ; + dcterms:description "A shake is an informal unit of time equal to 10 nanoseconds. It has applications in nuclear physics, helping to conveniently express the timing of various events in a nuclear explosion. The typical time required for one step in the chain reaction (i.e. the typical time for each neutron to cause a fission event which releases more neutrons) is of order 1 shake, and the chain reaction is typically complete by 50 to 100 shakes."^^rdf:HTML ; + ns1:conversionMultiplier 0.00000001, + 1e-08 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Shake"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB226"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Shake?oldid=494796779"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "shake"^^xsd:string ; + ns1:ucumCode "10.ns"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M56"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "millimetres per day"@en, - "millimeters per day"@en-us ; - dcterms:description "A measure of change in depth over time for a specific area, typically used to express precipitation intensity or evaporation (the amount of liquid water evaporated per unit of time from the area)"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.15741e-08 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:informativeReference "https://www.wmo.int/pages/prog/www/IMOP/CIMO-Guide.html"^^xsd:anyURI ; - ns1:plainTextDescription "A measure of change in depth over time for a specific area, typically used to express precipitation intensity or evaporation (the amount of liquid water evaporated per unit of time from the area)"^^xsd:string ; - ns1:symbol "mm/day"^^xsd:string ; - ns1:ucumCode "mm.d-1"^^ns1:UCUMcs, - "mm/d"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millimetre Per Hour"@en, - "Millimeter Per Hour"@en-us ; - dcterms:description "0001-fold of the SI base unit metre divided by the unit hour"^^rdf:HTML ; + rdfs:label "واط في المتر المربع"@ar, + "watt na metr čtvereční"@cs, + "Watt je Quadratmeter"@de, + "Watt per Square Metre"@en, + "watt per square metre"@en, + "Watt per Square Meter"@en-us, + "vatio por metro cuadrado"@es, + "وات بر مترمربع"@fa, + "watt par mètre carré"@fr, + "वाट प्रति वर्ग मीटर"@hi, + "watt al metro quadrato"@it, + "ワット毎平方メートル"@ja, + "watt per meter persegi"@ms, + "wat na metr kwadratowy"@pl, + "watt por metro quadrado"@pt, + "watt pe metru pătrat"@ro, + "ватт на квадратный метр"@ru, + "watt na kvadratni meter"@sl, + "watt bölü metre kare"@tr, + "瓦特每平方米"@zh ; + dcterms:description "\"Watt per Square Meter} is a unit of irradiance defined as the power received per area. This is a unit in the category of Energy flux. It is also known as watts per square meter, watt per square metre, watts per square metre, watt/square meter, watt/square metre. This unit is commonly used in the SI unit system. Watt Per Square Meter (\\(W/m^2\\)) has a dimension of \\(MT^{-3\"\\) where M is mass, and T is time. This unit is the standard SI unit in this category."^^ns1:LatexString ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 2.777778e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA866"^^xsd:string ; - ns1:plainTextDescription "0001-fold of the SI base unit metre divided by the unit hour"^^xsd:string ; - ns1:symbol "mm/hr"^^xsd:string ; - ns1:ucumCode "mm.h-1"^^ns1:UCUMcs, - "mm/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H67"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(W/m^2\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA310"^^xsd:string ; + ns1:informativeReference "http://www.efunda.com/glossary/units/units--energy_flux--watt_per_square_meter.cfm"^^xsd:anyURI ; + ns1:symbol "W/m²"^^xsd:string ; + ns1:ucumCode "W.m-2"^^ns1:UCUMcs, + "W/m2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D54"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millimetre Per Minute"@en, - "Millimeter Per Minute"@en-us ; - dcterms:description "0.001-fold of the SI base unit metre divided by the unit minute"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Week"@en ; + dcterms:description "Mean solar week"^^rdf:HTML ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 1.666667e-05 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB378"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the unit minute"^^xsd:string ; - ns1:symbol "mm/min"^^xsd:string ; - ns1:ucumCode "mm.min-1"^^ns1:UCUMcs, - "mm/min"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H81"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 604800.0, + 6.048e+05 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Week"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB024"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Week?oldid=493867029"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "wk"^^xsd:string ; + ns1:ucumCode "wk"^^ns1:UCUMcs ; + ns1:uneceCommonCode "WEE"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millimetre Per Second"@en, - "Millimeter Per Second"@en-us ; - dcterms:description "0.001-fold of the SI base unit metre divided by the SI base unit second"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Year"@en ; + dcterms:description "A year is any of the various periods equated with one passage of Earth about the Sun, and hence of roughly 365 days. The familiar calendar has a mixture of 365- and 366-day years, reflecting the fact that the time for one complete passage takes about 365¼ days; the precise value for this figure depends on the manner of defining the year."^^rdf:HTML ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA867"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the SI base unit second"^^xsd:string ; - ns1:symbol "mm/s"^^xsd:string ; - ns1:ucumCode "mm.s-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C16"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 31557600.0, + 3.15576e+07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB026"^^xsd:string ; + ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-1533?rskey=b94Fd6"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "yr"^^xsd:string ; + ns1:ucumCode "a"^^ns1:UCUMcs ; + ns1:udunitsCode "yr"^^xsd:string ; + ns1:uneceCommonCode "ANN"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Millimetre Per Year"@en, - "Millimeter Per Year"@en-us ; - dcterms:description "0.001-fold of the SI base unit metre divided by the unit year"^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Common Year"@en ; + dcterms:description "31,536,000-fold of the SI base unit second according a common year with 365 days"^^rdf:HTML ; + ns1:conversionMultiplier 31536000.0, + 3.1536e+07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB025"^^xsd:string ; + ns1:plainTextDescription "31,536,000-fold of the SI base unit second according a common year with 365 days"^^xsd:string ; + ns1:symbol "yr"^^xsd:string ; + ns1:uneceCommonCode "L95"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Sidereal Year"@en ; + dcterms:description "A sidereal year is the time taken for Sun to return to the same position with respect to the stars of the celestial sphere."^^rdf:HTML ; ns1:applicableSystem , , , - ; - ns1:conversionMultiplier 1.71e-12 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA868"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the unit year"^^xsd:string ; - ns1:symbol "mm/yr"^^xsd:string ; - ns1:ucumCode "mm.a-1"^^ns1:UCUMcs, - "mm/a"^^ns1:UCUMcs ; - ns1:uneceCommonCode "H66"^^xsd:string ; + , + , + ; + ns1:conversionMultiplier 31558149.7632, + 3.155815e+07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB028"^^xsd:string ; + ns1:symbol "yr{sidereal}"^^xsd:string ; + ns1:uneceCommonCode "L96"^^xsd:string ; rdfs:isDefinedBy . s223:Concept a s223:Class, @@ -73072,20 +80012,499 @@ s223:Concept a s223:Class, s223:abstract true ; rdfs:comment "All classes defined in the 223 standard are subclasses of s223:Concept."^^xsd:string ; rdfs:subClassOf rdfs:Resource ; - sh:property [ rdfs:comment "Incompatible Medium. Case2: An entity with a pure medium and an associated property with constituents."^^xsd:string ; + sh:property [ rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class."^^xsd:string ; + sh:path s223:abstract ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class"^^xsd:string ; + sh:message "s223: {$this} cannot be declared an instance of only abstract class {?class}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?class +WHERE { +?class s223:abstract true . +$this a ?class . +OPTIONAL { +?otherClass rdfs:subClassOf+ ?class . +$this a ?otherClass . +FILTER (?class != ?otherClass) . +} +FILTER (!bound (?otherClass)) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case2: An entity with a pure medium and an associated property with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 2: A pure medium and an associated property with constituents."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case1: An entity with a pure medium and an associated property with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case2: An entity with a pure medium and an associated property with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 2: A pure medium and an associated property with constituents."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class."^^xsd:string ; + sh:path s223:abstract ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class"^^xsd:string ; + sh:message "s223: {$this} cannot be declared an instance of only abstract class {?class}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?class +WHERE { +?class s223:abstract true . +$this a ?class . +OPTIONAL { +?otherClass rdfs:subClassOf+ ?class . +$this a ?otherClass . +FILTER (?class != ?otherClass) . +} +FILTER (!bound (?otherClass)) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case1: An entity with a pure medium and an associated property with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case4: An entity with constituents and an associated property with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 4: A medium with constituents and an associated property with constituents."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case3: An entity with constituents and an associated property with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: A medium with constituents and an associated property with a pure medium."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m2}, but is associated with property {?prop} that has ofMedium of {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m2 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m1 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case4: An entity with constituents and an associated property with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 4: A medium with constituents and an associated property with constituents."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m1 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "A Concept must be associated with at least one label using the relation label."^^xsd:string ; + sh:message "s223: A Concept must be associated with at least one label using the relation label."^^xsd:string ; + sh:minCount 1 ; + sh:path rdfs:label ; + sh:severity sh:Warning ], + [ rdfs:comment "Incompatible Medium. Case3: An entity with constituents and an associated property with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: A medium with constituents and an associated property with a pure medium."^^xsd:string ; + sh:message "s223: {$this} hasMedium of {?m2}, but is associated with property {?prop} that has ofMedium of {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m1 ?prop ?m2 +WHERE { +$this s223:hasMedium ?m2 . +$this ?p ?prop . +?prop a/rdfs:subClassOf* s223:Property . +?prop s223:ofMedium ?m1 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; + sh:path s223:hasProperty ], + [ rdfs:comment "If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; + sh:path s223:hasProperty ], + [ rdfs:comment "A Concept must be associated with at least one label using the relation label."^^xsd:string ; + sh:message "s223: A Concept must be associated with at least one label using the relation label."^^xsd:string ; + sh:minCount 1 ; + sh:path rdfs:label ; + sh:severity sh:Warning ] ; + sh:rule [ a sh:SPARQLRule ; + rdfs:comment "Add an rdfs:label if it is missing."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this rdfs:label ?newLabel .} +WHERE { +FILTER (NOT EXISTS {$this rdfs:label ?something}) . +BIND(REPLACE(STR($this), "^.*/([^/]*)$", "$1") AS ?localNameWithoutHash) +BIND(REPLACE(?localNameWithoutHash, "^.*#(.*)$", "$1") AS ?localName) +BIND(REPLACE(?localName, "-", " ", "i") AS ?newLabel) +} +"""^^xsd:string ; + sh:name "AddLabelFromLocalName"^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Add an rdfs:label if it is missing."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this rdfs:label ?newLabel .} +WHERE { +FILTER (NOT EXISTS {$this rdfs:label ?something}) . +BIND(REPLACE(STR($this), "^.*/([^/]*)$", "$1") AS ?localNameWithoutHash) +BIND(REPLACE(?localNameWithoutHash, "^.*#(.*)$", "$1") AS ?localName) +BIND(REPLACE(?localName, "-", " ", "i") AS ?newLabel) +} +"""^^xsd:string ; + sh:name "AddLabelFromLocalName"^^xsd:string ; + sh:prefixes ] . + +s223:Connection a s223:Class, + sh:NodeShape ; + rdfs:label "Connection"^^xsd:string ; + rdfs:comment """A Connection is the modeling construct used to represent the thing (e.g., pipe, duct,conductor, or free space) that is used to convey +some Medium (e.g., water, air, electricity, light, wi-fi) between two connectable things. All Connections have two or more ConnectionPoints bound +to either Equipment (see `s223:Equipment`), DomainSpace (see `s223:DomainSpace`), or Junction (see `s223:Junction`) See Figure 6-2. If the direction +of flow is constrained, that constraint is indicated by using one or more InletConnectionPoints (see `s223:InletConnectionPoint`) to represent the +inflow points and OutletConnectionPoints (see `s223:OutletConnectionPoint`) to represent the outflow points. + +A Connection may contain branches or intersections. These may be modeled using Junctions if it is necessary to identify a specific intersection. +(see `s223:Junction`). + +![Graphical Depiction of Connection.](figures/Figure_5-3_Connection.svg) +"""^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . +$this s223:hasMedium ?m1 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 6: A medium with constituents and a pure medium."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; + sh:path s223:cnx ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; + sh:message "s223: {$this} cannot have a s223:cnx relation to {?something}, because {?something} is not a ConnectionPoint."^^xsd:string ; + sh:prefixes ; + sh:select """SELECT $this ?something +WHERE { +$this s223:cnx ?something . +FILTER NOT EXISTS {?something a/rdfs:subClassOf* s223:ConnectionPoint} . +}"""^^xsd:string ] ], + [ rdfs:comment "If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:name "ConnectionToUpstreamConnectableShape"^^xsd:string ; + sh:path s223:connectsFrom ], + [ rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 1: A Connection with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:name "Connection medium"^^xsd:string ; + sh:path s223:hasMedium ], + [ rdfs:comment "If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-Phase."^^xsd:string ; + sh:class s223:EnumerationKind-Phase ; + sh:maxCount 1 ; + sh:message "s223: If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-Phase."^^xsd:string ; + sh:path s223:hasThermodynamicPhase ], + [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m2} is incompatible with {?cp2} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m2 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m1 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; sh:name "Test for compatible declared Medium"^^xsd:string ; sh:path s223:hasMedium ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 2: A pure medium and an associated property with constituents."^^xsd:string ; - sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 7: Two ConnectionPoints with mediums with constituents."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m2} is incompatible with {?cp2} with Medium {?m1}."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?m1 ?prop ?m2 +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m2 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m1 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; + sh:path s223:cnx ], + [ rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . $this s223:hasMedium ?m1 . -$this ?p ?prop . -?prop a/rdfs:subClassOf* s223:Property . -?prop s223:ofMedium ?m2 . ?m2 s223:composedOf/s223:ofConstituent ?s2 . FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . FILTER NOT EXISTS { @@ -73094,24 +80513,91 @@ FILTER NOT EXISTS { } } """^^xsd:string ] ], - [ rdfs:comment "If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; - sh:class s223:Property ; - sh:message "s223: If the relation hasProperty is present, it must associate the concept with a Property."^^xsd:string ; - sh:path s223:hasProperty ], - [ rdfs:comment "Incompatible Medium. Case1: An entity with a pure medium and an associated property with a pure medium."^^xsd:string ; + [ rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; sh:name "Test for compatible declared Medium"^^xsd:string ; sh:path s223:hasMedium ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; - sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 4: A Connection with constituents and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?m1 ?prop ?m2 +SELECT $this ?m2 ?cp ?m1 WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . $this s223:hasMedium ?m1 . -$this ?p ?prop . -?prop a/rdfs:subClassOf* s223:Property . -?prop s223:ofMedium ?m2 . + ?m1 s223:composedOf/s223:ofConstituent ?s1 . + ?m2 s223:composedOf/s223:ofConstituent ?s2 . + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s11 . + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + FILTER (?s11 = ?s12) . + } + FILTER NOT EXISTS { + ?m1 s223:composedOf/s223:ofConstituent ?s21 . + ?m2 s223:composedOf/s223:ofConstituent ?s22 . + {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . + } +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; + sh:minCount 2 ; + sh:path s223:connectsAt ; + sh:severity sh:Warning ], + [ rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A Connection must have two or more cnx relations to ConnectionPoints"^^xsd:string ; + sh:path s223:cnx ], + [ rdfs:comment "If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-ThermodynamicPhase."^^xsd:string ; + sh:class s223:EnumerationKind-ThermodynamicPhase ; + sh:maxCount 1 ; + sh:message "s223: If the relation hasThermodynamicPhase is present it must associate the Connection with at most one EnumerationKind-ThermodynamicPhase."^^xsd:string ; + sh:path s223:hasThermodynamicPhase ], + [ rdfs:comment "A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: A Connection must have two or more connectsAt relations to ConnectionPoints"^^xsd:string ; + sh:minCount 2 ; + sh:path s223:connectsAt ; + sh:severity sh:Warning ], + [ rdfs:comment "Incompatible Medium. Case 1: A Connection with a pure medium and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 1: Two pure mediums."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?m2 ?cp ?m1 +WHERE { +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . FILTER (?m1 != ?m2 ) . FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . FILTER NOT EXISTS {?m2 s223:composedOf ?c2} @@ -73119,20 +80605,72 @@ FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . } """^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case3: An entity with constituents and an associated property with a pure medium."^^xsd:string ; + [ rdfs:comment "If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectsFrom is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:name "ConnectionToUpstreamConnectableShape"^^xsd:string ; + sh:path s223:connectsFrom ], + [ rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; sh:name "Test for compatible declared Medium"^^xsd:string ; sh:path s223:hasMedium ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 3: A medium with constituents and an associated property with a pure medium."^^xsd:string ; - sh:message "s223: {$this} hasMedium of {?m2}, but is associated with property {?prop} that has ofMedium of {?m1}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 5: Two ConnectionPoints with pure mediums."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?m1 ?prop ?m2 +SELECT $this ?cp1 ?m1 ?cp2 ?m2 WHERE { -$this s223:hasMedium ?m2 . -$this ?p ?prop . -?prop a/rdfs:subClassOf* s223:Property . -?prop s223:ofMedium ?m1 . +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp2 s223:hasMedium ?m2 . +FILTER (?m1 != ?m2 ) . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS {?m2 s223:composedOf ?c2} +FILTER (NOT EXISTS {?m2 rdfs:subClassOf* ?m1}) . +FILTER (NOT EXISTS {?m1 rdfs:subClassOf* ?m2}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:name "ConnectionToDownstreamConnectableShape"^^xsd:string ; + sh:path s223:connectsTo ], + [ rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; + sh:path s223:cnx ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Connection must only have a cnx relation with a ConnectionPoint"^^xsd:string ; + sh:message "s223: {$this} cannot have a s223:cnx relation to {?something}, because {?something} is not a ConnectionPoint."^^xsd:string ; + sh:prefixes ; + sh:select """SELECT $this ?something +WHERE { +$this s223:cnx ?something . +FILTER NOT EXISTS {?something a/rdfs:subClassOf* s223:ConnectionPoint} . +}"""^^xsd:string ] ], + [ rdfs:comment "If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectsTo is present it must associate the Connection with a Connectable."^^xsd:string ; + sh:name "ConnectionToDownstreamConnectableShape"^^xsd:string ; + sh:path s223:connectsTo ], + [ rdfs:comment "Incompatible Medium. Case 6: Two ConnectionPoints, one with a medium with constituents and one with a pure medium."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Incompatible Medium. Case 6: A medium with constituents and a pure medium."^^xsd:string ; + sh:message "s223: {?cp1} with Medium {?m1} is incompatible with {?cp2} with Medium {?m2}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?cp1 ?m1 ?cp2 ?m2 +WHERE { +$this s223:cnx ?cp1 . +?cp1 a/rdfs:subClassOf* s223:ConnectionPoint . +?cp1 s223:hasMedium ?m1 . +$this s223:cnx ?cp2 . +?cp2 a/rdfs:subClassOf* s223:ConnectionPoint . +FILTER (?cp1 != ?cp2 ) . +?cp2 s223:hasMedium ?m2 . ?m2 s223:composedOf/s223:ofConstituent ?s2 . FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . FILTER NOT EXISTS { @@ -73141,83 +80679,152 @@ FILTER NOT EXISTS { } } """^^xsd:string ] ], - [ rdfs:comment "A Concept must be associated with at least one label using the relation label."^^xsd:string ; - sh:message "s223: A Concept must be associated with at least one label using the relation label."^^xsd:string ; - sh:minCount 1 ; - sh:path rdfs:label ; - sh:severity sh:Warning ], - [ rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class."^^xsd:string ; - sh:path s223:abstract ; + [ rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Ensure that any instance that is declared to be an instance of an abstract class must also be declared an instance of at least one subClass of that abstract class"^^xsd:string ; - sh:message "s223: {$this} cannot be declared an instance of only abstract class {?class}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 3: Connection with a pure medium and an associated ConnectionPoint with constituents."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT DISTINCT $this ?class +SELECT $this ?m2 ?cp ?m1 WHERE { -?class s223:abstract true . -$this a ?class . -OPTIONAL { -?otherClass rdfs:subClassOf+ ?class . -$this a ?otherClass . -FILTER (?class != ?otherClass) . +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m2 . +$this s223:hasMedium ?m1 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . } -FILTER (!bound (?otherClass)) . } """^^xsd:string ] ], - [ rdfs:comment "Incompatible Medium. Case4: An entity with constituents and an associated property with constituents."^^xsd:string ; + [ rdfs:comment "If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the Connection with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; sh:name "Test for compatible declared Medium"^^xsd:string ; sh:path s223:hasMedium ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Incompatible Medium. Case 4: A medium with constituents and an associated property with constituents."^^xsd:string ; - sh:message "s223: {$this} hasMedium of {?m1}, but is associated with property {?prop} that has ofMedium of {?m2}."^^xsd:string ; + rdfs:comment "Incompatible Medium. Case 2: A Connection with constituents and an associated ConnectionPoint with a pure medium."^^xsd:string ; + sh:message "s223: Connection {$this} with Medium {?m2} is incompatible with {?cp} with Medium {?m1}."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?m1 ?prop ?m2 +SELECT $this ?m2 ?cp ?m1 WHERE { -$this s223:hasMedium ?m1 . -$this ?p ?prop . -?prop a/rdfs:subClassOf* s223:Property . -?prop s223:ofMedium ?m2 . - ?m1 s223:composedOf/s223:ofConstituent ?s1 . - ?m2 s223:composedOf/s223:ofConstituent ?s2 . - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s11 . - ?m2 s223:composedOf/s223:ofConstituent ?s12 . - FILTER (?s11 = ?s12) . - } - FILTER NOT EXISTS { - ?m1 s223:composedOf/s223:ofConstituent ?s21 . - ?m2 s223:composedOf/s223:ofConstituent ?s22 . - {?s22 rdfs:subClassOf* ?s21} UNION {?s21 rdfs:subClassOf* ?s22} . - } +$this s223:cnx ?cp . +?cp a/rdfs:subClassOf* s223:ConnectionPoint . +?cp s223:hasMedium ?m1 . +$this s223:hasMedium ?m2 . +?m2 s223:composedOf/s223:ofConstituent ?s2 . +FILTER NOT EXISTS {?m1 s223:composedOf ?c1} . +FILTER NOT EXISTS { + ?m2 s223:composedOf/s223:ofConstituent ?s12 . + {?s12 rdfs:subClassOf* ?m1} UNION {?m1 rdfs:subClassOf* ?s12} . } -"""^^xsd:string ] ] ; - sh:rule [ a sh:SPARQLRule ; - rdfs:comment "Add an rdfs:label if it is missing."^^xsd:string ; +} +"""^^xsd:string ] ], + [ rdfs:comment "A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Connection must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:name "Connection medium"^^xsd:string ; + sh:path s223:hasMedium ] ; + sh:rule [ a sh:TripleRule ; + rdfs:comment "Infer the connectsAt relation using cnx"^^xsd:string, + "InferredConnectionToConnectionPointProperty"^^xsd:string ; + sh:object [ sh:path s223:cnx ] ; + sh:predicate s223:connectsAt ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectsTo relation using connectsAt"^^xsd:string ; sh:construct """ -CONSTRUCT {$this rdfs:label ?newLabel .} +CONSTRUCT {$this s223:connectsTo ?equipment .} WHERE { -FILTER (NOT EXISTS {$this rdfs:label ?something}) . -BIND(REPLACE(STR($this), "^.*/([^/]*)$", "$1") AS ?localNameWithoutHash) -BIND(REPLACE(?localNameWithoutHash, "^.*#(.*)$", "$1") AS ?localName) -BIND(REPLACE(?localName, "-", " ", "i") AS ?newLabel) +$this s223:connectsAt ?cp . +?cp a s223:InletConnectionPoint . +?cp s223:isConnectionPointOf ?equipment . } """^^xsd:string ; - sh:name "AddLabelFromLocalName"^^xsd:string ; + sh:name "InferredConnectionToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectsTo relation using connectsAt"^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectsTo ?equipment .} +WHERE { +$this s223:connectsAt ?cp . +?cp a s223:InletConnectionPoint . +?cp s223:isConnectionPointOf ?equipment . +} +"""^^xsd:string ; + sh:name "InferredConnectionToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer cnx relation using connectsAt"^^xsd:string, + "InferredConnectionToConnectionPointBaseProperty"^^xsd:string ; + sh:object [ sh:path s223:connectsAt ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectsFrom relation using connectsAt"^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectsFrom ?equipment .} +WHERE { +$this s223:connectsAt ?cp . +?cp a s223:OutletConnectionPoint . +?cp s223:isConnectionPointOf ?equipment . +} +"""^^xsd:string ; + sh:name "InferredConnectionToUpstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer cnx relation using connectsThrough"^^xsd:string, + "InferredConnectionToConnectionPointBasePropertyFromInverse"^^xsd:string ; + sh:object [ sh:path [ sh:inversePath s223:connectsThrough ] ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer cnx relation using connectsThrough"^^xsd:string, + "InferredConnectionToConnectionPointBasePropertyFromInverse"^^xsd:string ; + sh:object [ sh:path [ sh:inversePath s223:connectsThrough ] ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connectsAt relation using cnx"^^xsd:string, + "InferredConnectionToConnectionPointProperty"^^xsd:string ; + sh:object [ sh:path s223:cnx ] ; + sh:predicate s223:connectsAt ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer cnx relation using connectsAt"^^xsd:string, + "InferredConnectionToConnectionPointBaseProperty"^^xsd:string ; + sh:object [ sh:path s223:connectsAt ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectsFrom relation using connectsAt"^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectsFrom ?equipment .} +WHERE { +$this s223:connectsAt ?cp . +?cp a s223:OutletConnectionPoint . +?cp s223:isConnectionPointOf ?equipment . +} +"""^^xsd:string ; + sh:name "InferredConnectionToUpstreamEquipmentProperty"^^xsd:string ; sh:prefixes ] . -s223:EnumerationKind-Domain a s223:Class, - s223:EnumerationKind-Domain, +s223:EM-Light a s223:Class, + s223:EM-Light, sh:NodeShape ; - rdfs:label "EnumerationKind Domain"^^xsd:string ; - rdfs:comment "A Domain represents a categorization of building services or specialization used to characterize equipment or spaces in a building. Example domains include HVAC, Lighting, and Plumbing."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - -s223:hasDomain a rdf:Property ; - rdfs:label "has domain"^^xsd:string ; - rdfs:comment """The relation hasDomain is used to associate a Zone or DomainSpace with an EnumerationKind-Domain (e.g., Domain-HVAC, Domain-lighting). -"""^^xsd:string . + rdfs:label "EM-Light"^^xsd:string ; + rdfs:comment "The EM-Light class has enumerated subclasses of what are considered visible or near-visible light."^^xsd:string ; + rdfs:subClassOf s223:Constituent-EM . a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -73232,7 +80839,8 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 J\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 J$"^^ns1:LatexString, + "\\(L^-2 J\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -73248,7 +80856,8 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForTime 2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L T^2 M^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L T^2 M^-1$"^^ns1:LatexString, + "\\(L T^2 M^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -73264,7 +80873,8 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T^-3$"^^ns1:LatexString, + "\\(L^2 T^-3\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -73280,7 +80890,8 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-2 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-2 Θ^-1$"^^ns1:LatexString, + "\\(L^2 M T^-2 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -73297,7 +80908,8 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M$"^^ns1:LatexString, + "\\(L^2 M\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -73312,37 +80924,13 @@ s223:hasDomain a rdf:Property ; ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 3 ; ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-2 M^-1 T^3 I^2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 M^-1 T^3 I^2$"^^ns1:LatexString, + "\\(L^-2 M^-1 T^3 I^2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Amount of Substance of Concentration"@en ; - dcterms:description "\"Amount of Substance of Concentration\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$C_B = \\frac{n_B}{V}$, where $n_B$ is the amount of substance $B$ and $V$ is the volume."^^ns1:LatexString ; - ns1:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^xsd:string ; - ns1:siExactMatch ; - ns1:symbol "C_B"^^xsd:string ; - rdfs:isDefinedBy ; - skos:broader . - a ns1:QuantityKind ; rdfs:label "Amount of Substance per Unit Mass"@en ; + dcterms:isReplacedBy ; ns1:applicableUnit , , , @@ -73356,28 +80944,11 @@ s223:hasDomain a rdf:Property ; , , ; + ns1:deprecated true ; ns1:hasDimensionVector ; ns2:todo "fix the numerator and denominator dimensions"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Electric charge per area"@en ; - dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively. The respective SI units are $C \\cdot m^{-1}$, $C \\cdot m^{-2}$ or $C \\cdot m^{-3}$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI ; - ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "Energy per electric charge"@en ; dcterms:description "Voltage is a representation of the electric potential energy per unit charge. If a unit of electrical charge were placed in a location, the voltage indicates the potential energy of it at that point. In other words, it is a measurement of the energy contained within an electric field, or an electric circuit, at a given point. Voltage is a scalar quantity. The SI unit of voltage is the volt, such that $1 volt = 1 joule/coulomb$."^^ns1:LatexString ; @@ -73400,6 +80971,7 @@ s223:hasDomain a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://physics.about.com/od/glossary/g/voltage.htm"^^xsd:anyURI ; ns1:symbol "V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerElectricCharge"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -73425,6 +80997,7 @@ s223:hasDomain a rdf:Property ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -73447,33 +81020,13 @@ s223:hasDomain a rdf:Property ; ns1:dbpediaMatch "http://dbpedia.org/resource/Acceleration"^^xsd:anyURI ; ns1:exactMatch ; ns1:hasDimensionVector ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Mass per Area Time"@en ; - dcterms:description "In Physics and Engineering, mass flux is the rate of mass flow per unit area. The common symbols are $j$, $J$, $\\phi$, or $\\Phi$ (Greek lower or capital Phi), sometimes with subscript $m$ to indicate mass is the flowing quantity. Its SI units are $ kg s^{-1} m^{-2}$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_flux"^^xsd:anyURI ; - ns1:latexSymbol "$j_m = \\lim\\limits_{A \\rightarrow 0}\\frac{I_m}{A}$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:LinearAcceleration"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Mass Ratio"@en ; - dcterms:description "In aerospace engineering, mass ratio is a measure of the efficiency of a rocket. It describes how much more massive the vehicle is with propellant than without; that is, it is the ratio of the rocket's wet mass (vehicle plus contents plus propellant) to its dry mass (vehicle plus contents)"^^rdf:HTML ; + dcterms:description "In aerospace engineering, mass ratio is a measure of the efficiency of a rocket. It describes how much more massive the vehicle is with propellant than without; that is, it is the ratio of the rocket's wet mass (vehicle plus contents plus propellant) to its dry mass (vehicle plus contents)"^^ns1:LatexString, + "In aerospace engineering, mass ratio is a measure of the efficiency of a rocket. It describes how much more massive the vehicle is with propellant than without; that is, it is the ratio of the rocket's wet mass (vehicle plus contents plus propellant) to its dry mass (vehicle plus contents)"^^rdf:HTML ; ns1:applicableUnit , , , @@ -73490,11 +81043,13 @@ s223:hasDomain a rdf:Property ; ns1:iec61360Code "0112/2///62720#UAD109"^^xsd:string ; ns1:plainTextDescription "In aerospace engineering, mass ratio is a measure of the efficiency of a rocket. It describes how much more massive the vehicle is with propellant than without; that is, it is the ratio of the rocket's wet mass (vehicle plus contents plus propellant) to its dry mass (vehicle plus contents)"^^xsd:string ; ns1:symbol "R or M_{R}"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassRatio"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Modulus of Elasticity"@en ; - dcterms:description "The Modulus of Elasticity is the mathematical description of an object or substance's tendency to be deformed elastically (that is, non-permanently) when a force is applied to it."^^rdf:HTML ; + dcterms:description "The Modulus of Elasticity is the mathematical description of an object or substance's tendency to be deformed elastically (that is, non-permanently) when a force is applied to it."^^ns1:LatexString, + "The Modulus of Elasticity is the mathematical description of an object or substance's tendency to be deformed elastically (that is, non-permanently) when a force is applied to it."^^rdf:HTML ; ns1:applicableUnit , , , @@ -73515,54 +81070,7 @@ s223:hasDomain a rdf:Property ; ns1:latexDefinition "$E = \\frac{\\sigma}{\\varepsilon}$, where $\\sigma$ is the normal stress and $\\varepsilon$ is the linear strain."^^ns1:LatexString ; ns1:plainTextDescription "The Modulus of Elasticity is the mathematical description of an object or substance's tendency to be deformed elastically (that is, non-permanently) when a force is applied to it."^^xsd:string ; ns1:symbol "E"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "الزاوية النصف قطرية"@ar, - "Равнинен ъгъл"@bg, - "Rovinný úhel"@cs, - "ebener Winkel"@de, - "Επίπεδη γωνία"@el, - "plane angle"@en, - "ángulo plano"@es, - "زاویه مستوی"@fa, - "angle plan"@fr, - "זווית"@he, - "क्षेत्र"@hi, - "szög"@hu, - "angolo piano"@it, - "弧度"@ja, - "angulus planus"@la, - "Sudut satah"@ms, - "kąt płaski"@pl, - "medida angular"@pt, - "unghi plan"@ro, - "Плоский угол"@ru, - "ravninski kot"@sl, - "düzlemsel açı"@tr, - "角度"@zh ; - dcterms:description "The inclination to each other of two intersecting lines, measured by the arc of a circle intercepted between the two lines forming the angle, the center of the circle being the point of intersection. An acute angle is less than \\(90^\\circ\\), a right angle \\(90^\\circ\\); an obtuse angle, more than \\(90^\\circ\\) but less than \\(180^\\circ\\); a straight angle, \\(180^\\circ\\); a reflex angle, more than \\(180^\\circ\\) but less than \\(360^\\circ\\); a perigon, \\(360^\\circ\\). Any angle not a multiple of \\(90^\\circ\\) is an oblique angle. If the sum of two angles is \\(90^\\circ\\), they are complementary angles; if \\(180^\\circ\\), supplementary angles; if \\(360^\\circ\\), explementary angles."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Plane_angle"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD140"^^xsd:string ; - ns1:informativeReference "http://www.thefreedictionary.com/plane+angle"^^xsd:anyURI ; - ns1:plainTextDescription "An angle formed by two straight lines (in the same plane) angle - the space between two lines or planes that intersect; the inclination of one line to another; measured in degrees or radians"^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ModulusOfElasticity"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -73587,6 +81095,7 @@ s223:hasDomain a rdf:Property ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:latexDefinition "$G = \\frac{\\tau}{\\gamma}$, where $\\tau$ is the shear stress and $\\gamma$ is the shear strain."^^ns1:LatexString ; ns1:symbol "G"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ShearModulus"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -73609,6 +81118,25 @@ s223:hasDomain a rdf:Property ; rdfs:isDefinedBy ; skos:altLabel "acre"^^xsd:string . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "ArcSecond"@en ; + dcterms:description "\"Arc Second\" is a unit of angular measure, also called the \\(\\textit{second of arc}\\), equal to \\(1/60 \\; arcminute\\). One arcsecond is a very small angle: there are 1,296,000 in a circle. The SI recommends \\(\\textit{double prime}\\) (\\(''\\)) as the symbol for the arcsecond. The symbol has become common in astronomy, where very small angles are stated in milliarcseconds (\\(mas\\))."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000484813681, + 4.848137e-06 ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA096"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc#Symbols.2C_abbreviations_and_subdivisions"^^xsd:anyURI ; + ns1:symbol "\""^^xsd:string ; + ns1:ucumCode "''"^^ns1:UCUMcs ; + ns1:udunitsCode "″"^^xsd:string ; + ns1:uneceCommonCode "D62"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "are"@en ; dcterms:description "An 'are' is a unit of area equal to 0.02471 acre and 100 centare."^^rdf:HTML ; @@ -73631,7 +81159,8 @@ s223:hasDomain a rdf:Property ; a ns1:Unit ; rdfs:label "Barn"@en ; dcterms:description "A barn (symbol b) is a unit of area. Originally used in nuclear physics for expressing the cross sectional area of nuclei and nuclear reactions, today it is used in all fields of high energy physics to express the cross sections of any scattering process, and is best understood as a measure of the probability of interaction between small particles. A barn is defined as \\(10^{-28} m^2 (100 fm^2)\\) and is approximately the cross sectional area of a uranium nucleus. The barn is also the unit of area used in nuclear quadrupole resonance and nuclear magnetic resonance to quantify the interaction of a nucleus with an electric field gradient. While the barn is not an SI unit, it is accepted for use with the SI due to its continued use in particle physics."^^ns1:LatexString ; - ns1:conversionMultiplier 1e-28 ; + ns1:conversionMultiplier 1e-28, + 0.0000000000000000000000000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Barn"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -73645,6 +81174,30 @@ s223:hasDomain a rdf:Property ; ns1:uneceCommonCode "A14"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Degree"@en ; + dcterms:description "A degree (in full, a degree of arc, arc degree, or arcdegree), usually denoted by \\(^\\circ\\) (the degree symbol), is a measurement of plane angle, representing 1/360 of a full rotation; one degree is equivalent to \\(2\\pi /360 rad\\), \\(0.017453 rad\\). It is not an SI unit, as the SI unit for angles is radian, but is an accepted SI unit."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.0174532925 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA024"^^xsd:string ; + ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-331"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "°"^^xsd:string ; + ns1:ucumCode "deg"^^ns1:UCUMcs ; + ns1:udunitsCode "°"^^xsd:string ; + ns1:uneceCommonCode "DD"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Decare"@en ; dcterms:description "unit of the area which is mainly common in the agriculture and forestry: 1 da = 10 a"^^rdf:HTML ; @@ -73680,75 +81233,14 @@ s223:hasDomain a rdf:Property ; ns1:uneceCommonCode "HAR"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Inch per Second"@en ; - dcterms:description "The inch per second is a unit of speed or velocity. It expresses the distance in inches (in) traveled or displaced, divided by time in seconds (s, or sec). The equivalent SI unit is the metre per second. Abbreviations include in/s, in/sec, ips, and less frequently in s."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.0254 ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(in-per-sec\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:iec61360Code "0112/2///62720#UAA542"^^xsd:string ; - ns1:symbol "in/s"^^xsd:string ; - ns1:ucumCode "[in_i].s-1"^^ns1:UCUMcs, - "[in_i]/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "IU"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Knot"@en ; - dcterms:description "The knot (pronounced 'not') is a unit of speed equal to one nautical mile (1.852 km) per hour, approximately 1.151 mph. The abbreviation \\(kn\\) is preferred by the International Hydrographic Organization (IHO), which includes every major sea-faring nation; however, the abbreviations kt (singular) and kts (plural) are also widely used. However, use of the abbreviation kt for knot conflicts with the SI symbol for kilotonne. The knot is a non-SI unit accepted for use with the International System of Units (SI). Worldwide, the knot is used in meteorology, and in maritime and air navigation - for example, a vessel travelling at 1 knot along a meridian travels one minute of geographic latitude in one hour. Etymologically, the term knot derives from counting the number of knots in the line that unspooled from the reel of a chip log in a specific time."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.5144444444444445 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Knot"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB110"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Knot?oldid=495066194"^^xsd:anyURI ; - ns1:symbol "kn"^^xsd:string ; - ns1:ucumCode "[kn_i]"^^ns1:UCUMcs ; - ns1:udunitsCode "kt"^^xsd:string ; - ns1:uneceCommonCode "KNT"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "kt"^^xsd:string, - "kts"^^xsd:string . - - a ns1:Unit ; - rdfs:label "Mile per Hour"@en ; - dcterms:description "Miles per hour is an imperial unit of speed expressing the number of statute miles covered in one hour. It is currently the standard unit used for speed limits, and to express speeds generally, on roads in the United Kingdom and the United States. A common abbreviation is mph or MPH."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.44704 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Miles_per_hour"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(mi/hr\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB111"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Miles_per_hour?oldid=482840548"^^xsd:anyURI ; - ns1:symbol "mi/hr"^^xsd:string ; - ns1:ucumCode "[mi_i].h-1"^^ns1:UCUMcs, - "[mi_i]/h"^^ns1:UCUMcs ; - ns1:uneceCommonCode "HM"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Square Mile"@en ; dcterms:description "The square mile (abbreviated as sq mi and sometimes as mi) is an imperial and US unit of measure for an area equal to the area of a square of one statute mile. It should not be confused with miles square, which refers to the number of miles on each side squared. For instance, 20 miles square (20 × 20 miles) is equal to 400 square miles. One square mile is equivalent to: 4,014,489,600 square inches 27,878,400 square feet, 3,097,600 square yards, 640 acres, 258.9988110336 hectares, 2560 roods, 25,899,881,103.36 square centimetres, 2,589,988.110336 square metres, 2.589988110336 square kilometres When applied to a portion of the earth's surface, which is curved rather than flat, 'square mile' is an informal synonym for section."^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 2.589988e+06 ; + ns1:conversionMultiplier 2.589988e+06, + 2589988.11 ; ns1:definedUnitOfSystem , ; ns1:expression "\\(square-mile\\)"^^ns1:LatexString ; @@ -73762,42 +81254,112 @@ s223:hasDomain a rdf:Property ; ns1:uneceCommonCode "MIK"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Nautical Mile per Hour"@en ; - dcterms:description "The knot is a unit of speed equal to one nautical mile (1.852 km) per hour, approximately 1.151 mph. The abbreviation kn is preferred by the International Hydrographic Organization (IHO), which includes every major seafaring nation; but the abbreviations kt (singular) and kts (plural) are also widely used conflicting with the SI symbol for kilotonne which is also \"kt\". The knot is a non-SI unit accepted for use with the International System of Units (SI). Worldwide, the knot is used in meteorology, and in maritime and air navigation-for example, a vessel travelling at 1 knot along a meridian travels one minute of geographic latitude in one hour. "^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 0.514444 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:symbol "nmi/hr"^^xsd:string ; - ns1:ucumCode "[nmi_i].h-1"^^ns1:UCUMcs, - "[nmi_i]/h"^^ns1:UCUMcs ; + a ns1:Unit ; + rdfs:label "Mil Angle (NATO)"@en ; + dcterms:description "The Mil unit of plane angle, as defined by NATO to be 1/6400 of a circle."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.000490873852 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mil{NATO}"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "microradian"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:guidance "

See NIST section SP811 section7.10"^^rdf:HTML ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA094"^^xsd:string ; + ns1:prefix ; + ns1:symbol "µrad"^^xsd:string ; + ns1:ucumCode "urad"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B97"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "milliradian"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:guidance ""^^rdf:HTML, + ""^^rdf:HTML ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA897"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mrad"^^xsd:string ; + ns1:ucumCode "mrad"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C25"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "Planck Area"@en ; ns1:applicableSystem ; - ns1:conversionMultiplier 2.61223e-71 ; + ns1:conversionMultiplier 2.61223e-71, + 2.61223e-70 ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "planckarea"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "PlanckTemperature"@en ; + a ns1:Unit ; + rdfs:label "Planck Time"@en ; + dcterms:description "In physics, the Planck time, denoted by \\(t_P\\), is the unit of time in the system of natural units known as Planck units. It is the time required for light to travel, in a vacuum, a distance of 1 Planck length. The unit is named after Max Planck, who was the first to propose it. \\( \\\\ t_P \\equiv \\sqrt{\\frac{\\hbar G}{c^5}} \\approx 5.39106(32) \\times 10^{-44} s\\) where, \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant (defined as \\(\\hbar = \\frac{h}{2 \\pi}\\) and \\(G\\) is the gravitational constant. The two digits between parentheses denote the standard error of the estimated value."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.416784e+32 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; - ns1:symbol "plancktemperature"^^xsd:string ; + ns1:conversionMultiplier 5.39124e-49, + 0.0000000000000000000000000000000000000000000539124 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_time"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_time?oldid=495362103"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; + ns1:latexSymbol "\\(t_P\\)"^^ns1:LatexString ; + ns1:symbol "tₚ"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Revolution"@en ; + dcterms:description "\"Revolution\" is a unit for 'Plane Angle' expressed as \\(rev\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 6.28318531 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Revolution"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB206"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Revolution?oldid=494110330"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "rev"^^xsd:string ; + ns1:ucumCode "{#}"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M44"^^xsd:string ; rdfs:isDefinedBy . a ns1:DerivedUnit, @@ -73819,158 +81381,186 @@ s223:hasDomain a rdf:Property ; ns1:uneceCommonCode "YDK"^^xsd:string ; rdfs:isDefinedBy . -s223:ConnectionPoint a s223:Class, - sh:NodeShape ; - rdfs:label "ConnectionPoint"^^xsd:string ; - s223:abstract true ; - rdfs:comment """ -A ConnectionPoint is an abstract modeling construct used to represent the fact that one connectable thing can be connected to another connectable thing using a Connection. It is the abstract representation of the flange, wire terminal, or other physical feature where a connection is made. Equipment, DomainSpaces and Junctions can have one or more ConnectionPoints (see `s223:Connectable`). - -A ConnectionPoint is constrained to relate to a specific medium such as air, water, or electricity which determines what other things can be connected to it. For example, constraining a ConnectionPoint to be for air means it cannot be used for an electrical connection. - -A ConnectionPoint belongs to exactly one connectable thing (see `s223:Connectable'). - -ConnectionPoints are represented graphically in this standard by a triangle with the point indicating a direction of flow, or a diamond in the case of a bidirectional flow as shown in Figure 6-1. + a ns1:Unit ; + rdfs:label "Tropical Year"@en ; + dcterms:description "

A tropical year (also known as a solar year), for general purposes, is the length of time that the Sun takes to return to the same position in the cycle of seasons, as seen from Earth; for example, the time from vernal equinox to vernal equinox, or from summer solstice to summer solstice. Because of the precession of the equinoxes, the seasonal cycle does not remain exactly synchronised with the position of the Earth in its orbit around the Sun. As a consequence, the tropical year is about 20 minutes shorter than the time it takes Earth to complete one full orbit around the Sun as measured with respect to the fixed stars. Since antiquity, astronomers have progressively refined the definition of the tropical year, and currently define it as the time required for the mean Sun's tropical longitude (longitudinal position along the ecliptic relative to its position at the vernal equinox) to increase by 360 degrees (that is, to complete one full seasonal circuit)."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 31556925.216, + 3.155693e+07 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB029"^^xsd:string ; + ns1:symbol "yr{tropical}"^^xsd:string ; + ns1:ucumCode "a_t"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D42"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "solar year"^^xsd:string . -![Graphical Representation of a ConnectionPoint.](figures/Figure_5-2_Graphical_Depiciton_of_Connection_Points.svg) +ns2:GraphMetaData a owl:Class ; + rdfs:label "Graph Metadata"^^xsd:string ; + dcterms:description "\"vaem:GraphMetaData\" defines basic metadata for the registration and publishing of a graph. For specificaiton of governance the vocabulary \"VOAG\" may be used."^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:seeAlso ; + rdfs:subClassOf [ a owl:Restriction ; + owl:allValuesFrom ns2:Domain ; + owl:onProperty ns2:hasDomain ], + [ a owl:Restriction ; + owl:allValuesFrom xsd:string ; + owl:onProperty ns2:description ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:revision ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Viewpoint ; + owl:onProperty ns2:hasViewpoint ], + [ a owl:Restriction ; + owl:allValuesFrom xsd:string ; + owl:onProperty ns2:description ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasLicenseType ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Discipline ; + owl:onProperty ns2:hasDiscipline ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasMetadata ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:owner ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Aspect ; + owl:onProperty ns2:hasAspect ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:turtleFileURL ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:GraphRole ; + owl:onProperty ns2:hasGraphRole ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:intent ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Aspect ; + owl:onProperty ns2:hasAspect ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Domain ; + owl:onProperty ns2:hasDomain ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Party ; + owl:onProperty ns2:hasOwner ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Party ; + owl:onProperty ns2:hasSteward ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Viewpoint ; + owl:onProperty ns2:hasViewpoint ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Discipline ; + owl:onProperty ns2:hasDiscipline ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:previousPublishedVersion ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns2:name ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Party ; + owl:onProperty ns2:hasSteward ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:turtleFileURL ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:GraphRole ; + owl:onProperty ns2:hasGraphRole ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:GraphMetaData ; + owl:onProperty ns2:hasMetadata ], + [ a owl:Restriction ; + owl:cardinality 1 ; + owl:onProperty ns2:name ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:latestPublishedVersion ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasMetadata ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasIdentifier ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasLicenseType ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:latestPublishedVersion ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:GraphMetaData ; + owl:onProperty ns2:hasMetadata ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasSteward ], + [ a owl:Restriction ; + owl:allValuesFrom ns2:Party ; + owl:onProperty ns2:hasOwner ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:namespacePrefix ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasIdentifier ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:rdfxmlFileURL ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:specificity ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:intent ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:previousPublishedVersion ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:namespacePrefix ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:owner ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:rdfxmlFileURL ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:hasSteward ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:namespace ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:revision ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:namespace ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:specificity ], + owl:Thing . - """^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; - sh:path s223:mapsTo ; - sh:severity sh:Info ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; - sh:message "s223: ConnectionPoint {$this} could be missing a mapsTo relation to a ConnectionPoint of {?containerEquipment} because it is associated with a Junction or Equipment that is contained by {?containerEquipment}."^^xsd:string ; - sh:prefixes ; - sh:select """ - SELECT $this ?containerEquipment - WHERE { - FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . - FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . - FILTER NOT EXISTS {?anything3 s223:hasBoundaryConnectionPoint $this} . - $this s223:isConnectionPointOf ?equipment . - ?containerEquipment s223:contains ?equipment . - } - """^^xsd:string ] ], - [ rdfs:comment "A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; - sh:class s223:Connectable ; - sh:maxCount 1 ; - sh:message "s223: A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; - sh:minCount 1 ; - sh:name "ConnectionPointToEquipmentShape"^^xsd:string ; - sh:path s223:isConnectionPointOf ], - [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; - sh:path s223:connectsThrough ; - sh:severity sh:Info ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; - sh:message "s223: ConnectionPoint {$this} probably needs an association with a Connection, or use of hasOptionalConnectionPoint or hasBoundaryConnectionPoint qualifiers."^^xsd:string ; - sh:prefixes ; - sh:select """ - SELECT $this - WHERE { - FILTER NOT EXISTS {?sys1 s223:hasBoundaryConnectionPoint $this} . - FILTER NOT EXISTS {?sys2 s223:hasOptionalConnectionPoint $this} . - FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . - FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . - $this s223:isConnectionPointOf ?equipment . - FILTER NOT EXISTS {?containerEquipment s223:contains ?equipment} . - } - """^^xsd:string ] ], - [ rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; - sh:name "Test for compatible declared Medium"^^xsd:string ; - sh:path s223:hasMedium ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; - sh:message "s223: {$this} declares a Medium of {?a}, but the Medium of {?b} is declared by {?target} pointed to by the mapsTo+ relation."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT DISTINCT $this ?a ?b ?target -WHERE { -$this s223:hasMedium ?a . -$this s223:mapsTo+ ?target . -?target s223:hasMedium ?b . -?a a/rdfs:subClassOf* s223:EnumerationKind-Medium . -?b a/rdfs:subClassOf* s223:EnumerationKind-Medium . -FILTER (?a != ?b ) . -FILTER (NOT EXISTS {?b a/rdfs:subClassOf* ?a}) . -FILTER (NOT EXISTS {?a a/rdfs:subClassOf* ?b}) . -} -"""^^xsd:string ] ], - [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:maxCount 1 ; - sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; - sh:path [ sh:inversePath s223:mapsTo ] ], - [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the relation connectsThrough."^^xsd:string ; - sh:class s223:Connection ; - sh:maxCount 1 ; - sh:message "s223: This ConnectionPoint must be associated with at most one Connection."^^xsd:string ; - sh:name "ConnectionPointToConnectionShape"^^xsd:string ; - sh:path s223:connectsThrough ; - sh:severity sh:Info ], - [ rdfs:comment "A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; - sh:message "s223: A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; - sh:path s223:cnx ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Connectable ] ; - sh:qualifiedValueShapesDisjoint true ], - [ rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; - sh:path s223:mapsTo ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; - sh:message "s223: {?otherEquipment} should contain {?equipment} because ConnectionPoint {$this} has a mapsTo relation."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?equipment ?otherEquipment -WHERE { -$this s223:mapsTo ?otherCP . -?equipment s223:hasConnectionPoint $this . -?otherEquipment s223:hasConnectionPoint ?otherCP . -FILTER NOT EXISTS {?otherEquipment s223:contains ?equipment} -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; - sh:message "s223: If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; - sh:or ( [ sh:class s223:Aspect-ElectricalPhaseIdentifier ] [ sh:class s223:Aspect-ElectricalVoltagePhases ] ) ; - sh:path s223:hasElectricalPhase ], - [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; - sh:class s223:ConnectionPoint ; - sh:maxCount 1 ; - sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; - sh:path s223:mapsTo ], - [ rdfs:comment "If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; - sh:class s223:EnumerationKind-Role ; - sh:message "s223: If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; - sh:path s223:hasRole ], - [ rdfs:comment "A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; - sh:class s223:Substance-Medium ; - sh:maxCount 1 ; - sh:message "s223: A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; - sh:minCount 1 ; - sh:name "ConnectionPoint medium"^^xsd:string ; - sh:path s223:hasMedium ], - [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; - sh:message "s223: A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; - sh:path s223:cnx ; - sh:qualifiedMaxCount 1 ; - sh:qualifiedValueShape [ sh:class s223:Connection ] ; - sh:qualifiedValueShapesDisjoint true ], - [ rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; - sh:path s223:mapsTo ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; - sh:message "s223: {$this} cannot have both a mapsTo {?uppercp} and a connectsThrough {?connection}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?uppercp ?connection -WHERE { -$this s223:mapsTo ?uppercp . -$this s223:connectsThrough ?connection . -?connection a/rdfs:subClassOf* s223:Connection . -} -"""^^xsd:string ] ] . +s223:EnumerationKind-Binary a s223:Class, + s223:EnumerationKind-Binary, + sh:NodeShape ; + rdfs:label "EnumerationKind Binary"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of True, False and Unknown used to describe the possible values of a binary property"^^xsd:string, + "This class has enumerated subclasses of binary values"^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -73985,7 +81575,8 @@ $this s223:connectsThrough ?connection . ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-2 I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^-2 I^-1$"^^ns1:LatexString, + "\\(M T^-2 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -74002,7 +81593,8 @@ $this s223:connectsThrough ?connection . ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 M T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 M T^-1$"^^ns1:LatexString, + "\\(L^-1 M T^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -74019,7 +81611,8 @@ $this s223:connectsThrough ?connection . ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 M\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 M$"^^ns1:LatexString, + "\\(L^-1 M\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -74035,7 +81628,8 @@ $this s223:connectsThrough ?connection . ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^-1 Θ\\)"^^ns1:LatexString ; + ns1:latexDefinition "$T^-1 Θ$"^^ns1:LatexString, + "\\(T^-1 Θ\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -74050,24 +81644,10 @@ $this s223:connectsThrough ?connection . ns1:dimensionExponentForThermodynamicTemperature 0 ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M^-1 T I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L0I0M-1H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M^-1 N\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind , + ; + ns1:latexDefinition "$I T M^{-1}$"^^ns1:LatexString, + "\\(M^-1 T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:DecimalPrefix, @@ -74103,7 +81683,19 @@ $this s223:connectsThrough ?connection . "pospešek"@sl, "ivme"@tr, "加速度"@zh ; - dcterms:description "Acceleration is the (instantaneous) rate of change of velocity. Acceleration may be either linear acceleration, or angular acceleration. It is a vector quantity with dimension \\(length/time^{2}\\) for linear acceleration, or in the case of angular acceleration, with dimension \\(angle/time^{2}\\). In SI units, linear acceleration is measured in \\(meters/second^{2}\\) (\\(m \\cdot s^{-2}\\)) and angular acceleration is measured in \\(radians/second^{2}\\). In physics, any increase or decrease in speed is referred to as acceleration and similarly, motion in a circle at constant speed is also an acceleration, since the direction component of the velocity is changing."^^ns1:LatexString ; + dcterms:description """ + $\\textit{Acceleration}$ is the (instantaneous) rate of change of velocity. + Acceleration may be either linear acceleration, or angular acceleration. + It is a vector quantity with dimension $length/time^{2}$ for linear acceleration, + or in the case of angular acceleration, with dimension $angle/time^{2}$. + $$$$ + In SI units, linear acceleration is measured in $meters/second^{2}$ ($m \\cdot s^{-2}$), + and angular acceleration is measured in $radians/second^{2}$. + $$$$ + In physics, any increase or decrease in speed is referred to as acceleration and similarly, + motion in a circle at constant speed is also an acceleration, since the direction component of the velocity is changing. + """^^ns1:LatexString, + "Acceleration is the (instantaneous) rate of change of velocity. Acceleration may be either linear acceleration, or angular acceleration. It is a vector quantity with dimension \\(length/time^{2}\\) for linear acceleration, or in the case of angular acceleration, with dimension \\(angle/time^{2}\\). In SI units, linear acceleration is measured in \\(meters/second^{2}\\) (\\(m \\cdot s^{-2}\\)) and angular acceleration is measured in \\(radians/second^{2}\\). In physics, any increase or decrease in speed is referred to as acceleration and similarly, motion in a circle at constant speed is also an acceleration, since the direction component of the velocity is changing."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -74125,8 +81717,38 @@ $this s223:connectsThrough ?connection . ns1:iec61360Code "0112/2///62720#UAD002"^^xsd:string ; ns1:informativeReference "http://en.wikipedia.org/wiki/Acceleration"^^xsd:anyURI ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Acceleration"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Amount of Substance of Concentration"@en ; + dcterms:description "\"Amount of Substance of Concentration\" is defined as the amount of a constituent divided by the volume of the mixture."^^ns1:LatexString, + "\"Amount of Substance of Concentration\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$C_B = \\frac{n_B}{V}$, where $n_B$ is the amount of substance $B$ and $V$ is the volume."^^ns1:LatexString ; + ns1:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^xsd:string ; + ns1:siExactMatch ; + ns1:symbol "C_B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:QuantityKind ; rdfs:label "Electric Charge Per Mass"@en ; dcterms:description "\"Electric Charge Per Mass\" is the charge associated with a specific mass of a substance. In the SI and ISO systems this is $1 kg$."^^ns1:LatexString ; @@ -74141,6 +81763,30 @@ $this s223:connectsThrough ?connection . , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerMass"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Mass per Area Time"@en ; + dcterms:description "In Physics and Engineering, mass flux is the rate of mass flow per unit area. The common symbols are $j$, $J$, $\\phi$, or $\\Phi$ (Greek lower or capital Phi), sometimes with subscript $m$ to indicate mass is the flowing quantity. Its SI units are $ kg s^{-1} m^{-2}$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_flux"^^xsd:anyURI ; + ns1:latexSymbol "$j_m = \\lim\\limits_{A \\rightarrow 0}\\frac{I_m}{A}$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MassPerAreaTime"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -74172,13 +81818,15 @@ $this s223:connectsThrough ?connection . ns1:informativeReference "http://en.wikipedia.org/wiki/Molar_mass"^^xsd:anyURI ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MolarMass"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "molare Masse"@de, "stoffmengenbezogene Masse"@de . a ns1:QuantityKind ; rdfs:label "Moment of Force"@en ; - dcterms:description "Moment of force (often just moment) is the tendency of a force to twist or rotate an object."^^rdf:HTML ; + dcterms:description "Moment of force (often just moment) is the tendency of a force to twist or rotate an object."^^ns1:LatexString, + "Moment of force (often just moment) is the tendency of a force to twist or rotate an object."^^rdf:HTML ; ns1:applicableUnit , , , @@ -74205,11 +81853,13 @@ $this s223:connectsThrough ?connection . ns1:plainTextDescription "Moment of force (often just moment) is the tendency of a force to twist or rotate an object."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "M"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MomentOfForce"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Permittivity"@en ; - dcterms:description "\"Permittivity\" is a physical quantity that describes how an electric field affects, and is affected by a dielectric medium, and is determined by the ability of a material to polarize in response to the field, and thereby reduce the total electric field inside the material. Permittivity is often a scalar valued quantity, however in the general case it is tensor-valued."^^rdf:HTML ; + dcterms:description "\"Permittivity\" is a physical quantity that describes how an electric field affects, and is affected by a dielectric medium, and is determined by the ability of a material to polarize in response to the field, and thereby reduce the total electric field inside the material. Permittivity is often a scalar valued quantity, however in the general case it is tensor-valued."^^ns1:LatexString, + "\"Permittivity\" is a physical quantity that describes how an electric field affects, and is affected by a dielectric medium, and is determined by the ability of a material to polarize in response to the field, and thereby reduce the total electric field inside the material. Permittivity is often a scalar valued quantity, however in the general case it is tensor-valued."^^rdf:HTML ; ns1:applicableUnit , , , @@ -74227,6 +81877,57 @@ $this s223:connectsThrough ?connection . ns1:latexSymbol "$\\epsilon$"^^ns1:LatexString ; ns1:plainTextDescription "\"Permittivity\" is a physical quantity that describes how an electric field affects, and is affected by a dielectric medium, and is determined by the ability of a material to polarize in response to the field, and thereby reduce the total electric field inside the material. Permittivity is often a scalar valued quantity, however in the general case it is tensor-valued."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Permittivity"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "الزاوية النصف قطرية"@ar, + "Равнинен ъгъл"@bg, + "Rovinný úhel"@cs, + "ebener Winkel"@de, + "Επίπεδη γωνία"@el, + "plane angle"@en, + "ángulo plano"@es, + "زاویه مستوی"@fa, + "angle plan"@fr, + "זווית"@he, + "क्षेत्र"@hi, + "szög"@hu, + "angolo piano"@it, + "弧度"@ja, + "angulus planus"@la, + "Sudut satah"@ms, + "kąt płaski"@pl, + "medida angular"@pt, + "unghi plan"@ro, + "Плоский угол"@ru, + "ravninski kot"@sl, + "düzlemsel açı"@tr, + "角度"@zh ; + dcterms:description "The inclination to each other of two intersecting lines, measured by the arc of a circle intercepted between the two lines forming the angle, the center of the circle being the point of intersection. An acute angle is less than $90^\\circ$, a right angle $90^\\circ$; an obtuse angle, more than $90^\\circ$ but less than $180^\\circ$; a straight angle, $180^\\circ$; a reflex angle, more than $180^\\circ$ but less than $360^\\circ$; a perigon, $360^\\circ$. Any angle not a multiple of $90^\\circ$ is an oblique angle. If the sum of two angles is $90^\\circ$, they are complementary angles; if $180^\\circ$, supplementary angles; if $360^\\circ$, explementary angles."^^ns1:LatexString, + "The inclination to each other of two intersecting lines, measured by the arc of a circle intercepted between the two lines forming the angle, the center of the circle being the point of intersection. An acute angle is less than \\(90^\\circ\\), a right angle \\(90^\\circ\\); an obtuse angle, more than \\(90^\\circ\\) but less than \\(180^\\circ\\); a straight angle, \\(180^\\circ\\); a reflex angle, more than \\(180^\\circ\\) but less than \\(360^\\circ\\); a perigon, \\(360^\\circ\\). Any angle not a multiple of \\(90^\\circ\\) is an oblique angle. If the sum of two angles is \\(90^\\circ\\), they are complementary angles; if \\(180^\\circ\\), supplementary angles; if \\(360^\\circ\\), explementary angles."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Plane_angle"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD140"^^xsd:string ; + ns1:informativeReference "http://www.thefreedictionary.com/plane+angle"^^xsd:anyURI ; + ns1:plainTextDescription "An angle formed by two straight lines (in the same plane) angle - the space between two lines or planes that intersect; the inclination of one line to another; measured in degrees or radians"^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:PlaneAngle"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -74245,8 +81946,83 @@ $this s223:connectsThrough ?connection . , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:TemperaturePerTime"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Centimetre Per Hour"@en, + "Centimeter Per Hour"@en-us ; + dcterms:description "0,01-fold of the SI base unit metre divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000002777778, + 2.777778e-06 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA378"^^xsd:string ; + ns1:plainTextDescription "0,01-fold of the SI base unit metre divided by the unit hour"^^xsd:string ; + ns1:symbol "cm/hr"^^xsd:string ; + ns1:ucumCode "cm.h-1"^^ns1:UCUMcs, + "cm/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H49"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Centimetres per thousand years"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000000000316880878140289, + 3.168809e-13 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "cm/(1000 yr)"^^xsd:string ; + ns1:ucumCode "cm.ka-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "centimetre per second"@en, + "centimeter per second"@en-us ; + dcterms:description "\"Centimeter per Second\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(cm/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.01 ; + ns1:derivedUnitOfSystem , + ; + ns1:expression "\\(cm/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA379"^^xsd:string ; + ns1:latexDefinition "\\(cm/s\\)"^^ns1:LatexString ; + ns1:symbol "cm/s"^^xsd:string ; + ns1:ucumCode "cm.s-1"^^ns1:UCUMcs, + "cm/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2M"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Centimetres per year"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000000000316880878140289 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "cm/yr"^^xsd:string ; + ns1:ucumCode "cm.a-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Square Centimetre"@en, @@ -74270,6 +82046,50 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "CMK"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Day"@en ; + dcterms:description "Mean solar day"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 86400.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Day"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA407"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Day?oldid=494970012"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "day"^^xsd:string ; + ns1:ucumCode "d"^^ns1:UCUMcs ; + ns1:udunitsCode "d"^^xsd:string ; + ns1:uneceCommonCode "DAY"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DimensionlessUnit, + ns1:LogarithmicUnit, + ns1:Unit ; + rdfs:label "Dec"@en ; + dcterms:description "One decade is a factor of 10 difference between two numbers (an order of magnitude difference) measured on a logarithmic scale. It is especially useful when referring to frequencies and when describing frequency response of electronic systems, such as audio amplifiers and filters. The factor-of-ten in a decade can be in either direction: so one decade up from 100 Hz is 1000 Hz, and one decade down is 10 Hz. The factor-of-ten is what is important, not the unit used, so \\(3.14 rad/s\\) is one decade down from \\(31.4 rad/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Decade_(log_scale)"^^xsd:anyURI ; + ns1:symbol "dec"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Square Decimetre"@en, "Square Decimeter"@en-us ; @@ -74290,6 +82110,84 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "DMK"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Foot per Day"@en ; + dcterms:description "\"Foot per Day\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/d\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00000352777777777778, + 3.527778e-06 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft/d\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "ft/day"^^xsd:string ; + ns1:ucumCode "[ft_i].d-1"^^ns1:UCUMcs, + "[ft_i]/d"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot per Hour"@en ; + dcterms:description "\"Foot per Hour\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/hr\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00008466666666666667, + 8.466667e-05 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA442"^^xsd:string ; + ns1:symbol "ft/hr"^^xsd:string ; + ns1:ucumCode "[ft_i].h-1"^^ns1:UCUMcs, + "[ft_i]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "K14"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot per Minute"@en ; + dcterms:description "\"Foot per Minute\" is an Imperial unit for 'Linear Velocity' expressed as \\(ft/min\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00508 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA448"^^xsd:string ; + ns1:symbol "ft/min"^^xsd:string ; + ns1:ucumCode "[ft_i].min-1"^^ns1:UCUMcs, + "[ft_i]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "FR"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Foot per Second"@en ; + dcterms:description "\\(\\textit{foot per second}\\) (plural \\(\\textit{feet per second}\\)) is a unit of both speed (scalar) and velocity (vector quantity, which includes direction). It expresses the distance in feet (\\(ft\\)) traveled or displaced, divided by the time in seconds (\\(s\\), or \\(sec\\)). The corresponding unit in the International System of Units (SI) is the \\(\\textit{metre per second}\\). Abbreviations include \\(ft/s\\), \\(ft/sec\\) and \\(fps\\), and the rarely used scientific notation \\(ft\\,s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.3048 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Foot_per_second"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA449"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Foot_per_second?oldid=491316573"^^xsd:anyURI ; + ns1:symbol "ft/s"^^xsd:string ; + ns1:ucumCode "[ft_i].s-1"^^ns1:UCUMcs, + "[ft_i]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "FS"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Square Foot"@en ; @@ -74310,6 +82208,59 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "FTK"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Gigabase Pair"@en ; + dcterms:description "A gigabase (abbreviated Gb, or Gbp for gigabase pairs.) is a unit of measurement used to help designate the length of DNA. One gigabase is equal to 1 billion bases. "^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://www.genome.gov/genetics-glossary/Gigabase"^^xsd:anyURI ; + ns1:plainTextDescription "A gigabase (abbreviated Gb, or Gbp for gigabase pairs.) is a unit of measurement used to help designate the length of DNA. One gigabase is equal to 1 billion bases. "^^xsd:string ; + ns1:symbol "Gbp"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "Gigabase"^^xsd:string . + + a ns1:Unit ; + rdfs:label "Heart Beat"@en ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Inch per Minute"@en ; + dcterms:description "The inch per minute is a unit of speed or velocity. It expresses the distance in inches (in) traveled or displaced, divided by time in minutes (min). The equivalent SI unit is the metre per second."^^xsd:string ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.000423333333 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(in/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "in/,"^^xsd:string ; + ns1:ucumCode "[in_i].min-1"^^ns1:UCUMcs, + "[in_i]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M63"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Square Inch"@en ; @@ -74335,6 +82286,7 @@ $this s223:connectsThrough ?connection . rdfs:label "جول لكل تسلا"@ar, "joule na tesla"@cs, "Joule je Tesla"@de, + "Joule per Tesla"@en, "joule per tesla"@en, "julio por tesla"@es, "ژول بر تسلا"@fa, @@ -74366,10 +82318,164 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "Q10"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Kilometres per day"@en ; + dcterms:description "A change in location of a distance of one thousand metres in an elapsed time of one day (86400 seconds)."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0115740740740741 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "kg/day"^^xsd:string ; + ns1:ucumCode "km.d-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilometre per Hour"@en, + "Kilometer per Hour"@en-us ; + dcterms:description "\"Kilometer per Hour\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(km/hr\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.2777777777777778 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kilometres_per_hour"^^xsd:anyURI ; + ns1:expression "\\(km/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA638"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kilometres_per_hour?oldid=487674812"^^xsd:anyURI ; + ns1:symbol "km/hr"^^xsd:string ; + ns1:ucumCode "km.h-1"^^ns1:UCUMcs, + "km/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KMH"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilometre per Second"@en, + "Kilometer per Second"@en-us ; + dcterms:description "\"Kilometer per Second\" is a C.G.S System unit for 'Linear Velocity' expressed as \\(km/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:expression "\\(km/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB392"^^xsd:string ; + ns1:symbol "km/s"^^xsd:string ; + ns1:ucumCode "km.s-1"^^ns1:UCUMcs, + "km/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M62"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Metre per Hour"@en, + "Meter per Hour"@en-us ; + dcterms:description "Metre per hour is a metric unit of both speed (scalar) and velocity (Vector (geometry)). Its symbol is m/h or mu00b7h-1 (not to be confused with the imperial unit symbol mph. By definition, an object travelling at a speed of 1 m/h for an hour would move 1 metre."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.000277777778 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(m/h\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB328"^^xsd:string ; + ns1:symbol "m/h"^^xsd:string ; + ns1:ucumCode "m.h-1"^^ns1:UCUMcs, + "m/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M60"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Metre per Minute"@en, + "Meter per Minute"@en-us ; + dcterms:description "Meter Per Minute (m/min) is a unit in the category of Velocity. It is also known as meter/minute, meters per minute, metre per minute, metres per minute. Meter Per Minute (m/min) has a dimension of LT-1 where L is length, and T is time. It can be converted to the corresponding standard SI unit m/s by multiplying its value by a factor of 0.016666666666"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0166666667 ; + ns1:definedUnitOfSystem ; + ns1:expression "\\(m/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA732"^^xsd:string ; + ns1:symbol "m/min"^^xsd:string ; + ns1:ucumCode "m.min-1"^^ns1:UCUMcs, + "m/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "2X"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Metres per year"@en ; + dcterms:description "A rate of change of SI standard unit length over a period of an average calendar year (365.25 days)."@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000316880878140289, + 3.168809e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "m/yr"^^xsd:string ; + ns1:ucumCode "m.a-1"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mile per Minute"@en ; + dcterms:description "Miles per minute is an imperial unit of speed expressing the number of statute miles covered in one minute."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 26.8224 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(mi/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB229"^^xsd:string ; + ns1:symbol "mi/min"^^xsd:string ; + ns1:ucumCode "[mi_i].min-1"^^ns1:UCUMcs, + "[mi_i]/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M57"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mile per Second"@en ; + dcterms:description "Miles per second is an imperial unit of speed expressing the number of statute miles covered in one second."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1609.344 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(mi/sec\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "mi/sec"^^xsd:string ; + ns1:ucumCode "[mi_i].sec-1"^^ns1:UCUMcs, + "[mi_i]/sec"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Circular Mil"@en ; dcterms:description "A circular mil is a unit of area, equal to the area of a circle with a diameter of one mil (one thousandth of an inch). It is a convenient unit for referring to the area of a wire with a circular cross section, because the area in circular mils can be calculated without reference to pi (\\(\\pi\\)). The area in circular mils, A, of a circle with a diameter of d mils, is given by the formula: Electricians in Canada and the United States are familiar with the circular mil because the National Electrical Code (NEC) uses the circular mil to define wire sizes larger than 0000 AWG. In many NEC publications and uses, large wires may be expressed in thousands of circular mils, which is abbreviated in two different ways: MCM or kcmil. For example, one common wire size used in the NEC has a cross-section of 250,000 circular mils, written as 250 kcmil or 250 MCM, which is the first size larger than 0000 AWG used within the NEC. "^^ns1:LatexString ; - ns1:conversionMultiplier 5.067075e-10 ; + ns1:conversionMultiplier 0.0000000005067075, + 5.067075e-10 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -74380,6 +82486,56 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "M47"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Nautical Mile per Minute"@en ; + dcterms:description """The SI derived unit for speed is the meter/second. +1 meter/second is equal to 0.0323974082073 nautical mile per minute. """^^rdf:HTML ; + ns1:applicableSystem ; + ns1:expression "\\(nmi/min\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "nmi/min"^^xsd:string ; + ns1:ucumCode "[nmi_i].min-1"^^ns1:UCUMcs, + "[nmi_i]/min"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Month"@en ; + dcterms:description "A unit of time corresponding approximately to one cycle of the moon's phases, or about 30 days or 4 weeks. Also known as the 'Synodic Month' and calculated as 29.53059 days."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 2551442.976, + 2.551443e+06 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Month"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA880"^^xsd:string ; + ns1:informativeReference "http://www.thefreedictionary.com/Synodal+month"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Month"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "mo"^^xsd:string ; + ns1:ucumCode "mo"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MON"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Synodic month"@en ; + dcterms:description "A unit of time corresponding approximately to one cycle of the moon's phases, or about 30 days or 4 weeks and calculated as 29.53059 days."^^rdf:HTML ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://www.thefreedictionary.com/Synodal+month"^^xsd:anyURI ; + ns1:ucumCode "mo_s"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:Unit ; rdfs:label "Square Micrometre"@en, "Square Micrometer"@en-us ; @@ -74388,7 +82544,8 @@ $this s223:connectsThrough ?connection . , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -74400,6 +82557,109 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "H30"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "millimetres per day"@en, + "millimeters per day"@en-us ; + dcterms:description "A measure of change in depth over time for a specific area, typically used to express precipitation intensity or evaporation (the amount of liquid water evaporated per unit of time from the area)"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000115741, + 1.15741e-08 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "https://www.wmo.int/pages/prog/www/IMOP/CIMO-Guide.html"^^xsd:anyURI ; + ns1:plainTextDescription "A measure of change in depth over time for a specific area, typically used to express precipitation intensity or evaporation (the amount of liquid water evaporated per unit of time from the area)"^^xsd:string ; + ns1:symbol "mm/day"^^xsd:string ; + ns1:ucumCode "mm.d-1"^^ns1:UCUMcs, + "mm/d"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millimetre Per Hour"@en, + "Millimeter Per Hour"@en-us ; + dcterms:description "0001-fold of the SI base unit metre divided by the unit hour"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000002777778, + 2.777778e-07 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA866"^^xsd:string ; + ns1:plainTextDescription "0001-fold of the SI base unit metre divided by the unit hour"^^xsd:string ; + ns1:symbol "mm/hr"^^xsd:string ; + ns1:ucumCode "mm.h-1"^^ns1:UCUMcs, + "mm/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H67"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millimetre Per Minute"@en, + "Millimeter Per Minute"@en-us ; + dcterms:description "0.001-fold of the SI base unit metre divided by the unit minute"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.666667e-05, + 0.00001666667 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB378"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the unit minute"^^xsd:string ; + ns1:symbol "mm/min"^^xsd:string ; + ns1:ucumCode "mm.min-1"^^ns1:UCUMcs, + "mm/min"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H81"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millimetre Per Second"@en, + "Millimeter Per Second"@en-us ; + dcterms:description "0.001-fold of the SI base unit metre divided by the SI base unit second"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA867"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the SI base unit second"^^xsd:string ; + ns1:symbol "mm/s"^^xsd:string ; + ns1:ucumCode "mm.s-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C16"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Millimetre Per Year"@en, + "Millimeter Per Year"@en-us ; + dcterms:description "0.001-fold of the SI base unit metre divided by the unit year"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.71e-12, + 0.00000000000171 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA868"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI base unit metre divided by the unit year"^^xsd:string ; + ns1:symbol "mm/yr"^^xsd:string ; + ns1:ucumCode "mm.a-1"^^ns1:UCUMcs, + "mm/a"^^ns1:UCUMcs ; + ns1:uneceCommonCode "H66"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Square Millimetre"@en, "Square Millimeter"@en-us ; @@ -74408,7 +82668,8 @@ $this s223:connectsThrough ?connection . , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -74420,31 +82681,69 @@ $this s223:connectsThrough ?connection . ns1:uneceCommonCode "MMK"^^xsd:string ; rdfs:isDefinedBy . -s223:BidirectionalConnectionPoint a s223:Class, - sh:NodeShape ; - rdfs:label "Bidirectional Connection Point"^^xsd:string ; - rdfs:comment "A BidirectionalConnectionPoint is a ConnectionPoint for which a Medium is expected to flow either into or out of the associated Connectable."^^xsd:string ; - rdfs:subClassOf s223:ConnectionPoint ; - sh:property [ rdfs:comment "If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; - sh:class s223:BidirectionalConnectionPoint ; - sh:message "s223: If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; - sh:path s223:mapsTo ] . + a ns1:DimensionlessUnit, + ns1:LogarithmicUnit, + ns1:Unit ; + rdfs:label "Neper"@en ; + dcterms:description "The neper is a logarithmic unit for ratios of measurements of physical field and power quantities, such as gain and loss of electronic signals. It has the unit symbol Np. The unit's name is derived from the name of John Napier, the inventor of logarithms. As is the case for the decibel and bel, the neper is not a unit in the International System of Units (SI), but it is accepted for use alongside the SI. Like the decibel, the neper is a unit in a logarithmic scale. While the bel uses the decadic (base-10) logarithm to compute ratios, the neper uses the natural logarithm, based on Euler's number"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Neper"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA253"^^xsd:string ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Neper"^^xsd:anyURI ; + ns1:symbol "Np"^^xsd:string ; + ns1:ucumCode "Np"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C50"^^xsd:string ; + rdfs:isDefinedBy . -s223:Electricity-DC a s223:Class, - s223:Electricity-DC, - sh:NodeShape ; - rdfs:label "Electricity DC"^^xsd:string ; - s223:hasVoltage s223:Numerical-Voltage ; - rdfs:comment "This class has enumerated instances of all DC forms of electricity."^^xsd:string ; - rdfs:subClassOf s223:Constituent-Electricity ; - sh:property [ rdfs:comment "An electricity DC medium must have two reference voltages."^^xsd:string ; - sh:minCount 1 ; - sh:or ( [ sh:class s223:Numerical-DCVoltage ] [ sh:class s223:Numerical-Voltage ] ) ; - sh:path s223:hasVoltage ] . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Electric Susceptibility Unit"^^xsd:string ; + dcterms:description "Electric susceptibility is a dimensionless proportionality constant that indicates the degree of polarization of a dielectric material in response to an applied electric field. Here P = epsilon_0 * chi_e * E. Where epsilon_0 is the electric permittivity of free space (electric constant), P is the polarization density of the material chi_e is the electric susceptibility and E is the electric field."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:latexDefinition "\\chi_{\\text{e}} = \\frac{{\\mathbf P}}{\\varepsilon_0{\\mathbf E}}"^^ns1:LatexString ; + ns1:plainTextDescription "Electric susceptibility is a dimensionless proportionality constant that indicates the degree of polarization of a dielectric material in response to an applied electric field. Here P = epsilon_0 * chi_e * E. Where epsilon_0 is the electric permittivity of free space (electric constant), P is the polarization density of the material chi_e is the electric susceptibility and E is the electric field."^^xsd:string ; + ns1:symbol "χ"^^xsd:string ; + rdfs:isDefinedBy . -s223:hasProperty a rdf:Property ; - rdfs:label "has Property"^^xsd:string ; - rdfs:comment "The relation hasProperty is used to associate any 223 Concept with a Property."^^xsd:string . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Magnetic Susceptibility Unit"^^xsd:string ; + dcterms:description "Magnetic susceptibility is a dimensionless proportionality constant that indicates the degree of magnetization of a material in response to an applied magnetic field. Here M = chi * H. Where M is the magnetization of the material (the magnetic dipole moment per unit volume), measured in amperes per meter, and H is the magnetic field strength, also measured in amperes per meter. Chi is therefore a dimensionless quantity."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:latexDefinition "\\chi_\\text{v} = \\frac{\\mathbf{M}}{\\mathbf{H}}"^^ns1:LatexString ; + ns1:plainTextDescription "Magnetic susceptibility is a dimensionless proportionality constant that indicates the degree of magnetization of a material in response to an applied magnetic field. Here M = chi * H. Where M is the magnetization of the material (the magnetic dipole moment per unit volume), measured in amperes per meter, and H is the magnetic field strength, also measured in amperes per meter. Chi is therefore a dimensionless quantity."^^xsd:string ; + ns1:symbol "χ"^^xsd:string ; + rdfs:isDefinedBy . + +s223:composedOf a rdf:Property ; + rdfs:label "composed of"^^xsd:string ; + rdfs:comment "The relation composedOf is used to indicate what substances constitute a material. Allowable values are instances of Property that in turn identify constituents defined in Medium-Constituent (see `s223:Medium-Constituent`) via the relation ofConstituent."^^xsd:string . + +s223:contains a rdf:Property ; + rdfs:label "contains"^^xsd:string ; + rdfs:comment "The relation contains is used to associate a PhysicalSpace with its component PhysicalSpaces or a piece of Equipment with its component pieces of Equipment."^^xsd:string . a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -74459,29 +82758,32 @@ s223:hasProperty a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M T^-3 I^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L M T^-3 I^-1$"^^ns1:LatexString, + "\\(L M T^-3 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L2I0M1H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; + rdfs:label "A1E0L0I0M-1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForMass -1 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; + ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-1\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M^-1 N$"^^ns1:LatexString, + "\\(M^-1 N\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Amount of Substance per Unit Volume"@en ; - dcterms:description "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^rdf:HTML ; + dcterms:description "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^ns1:LatexString, + "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^rdf:HTML ; + dcterms:isReplacedBy ; ns1:applicableUnit , , , @@ -74494,14 +82796,62 @@ s223:hasProperty a rdf:Property ; , , ; + ns1:deprecated true ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.ask.com/answers/72367781/what-is-defined-as-the-amount-of-substance-per-unit-of-volume"^^xsd:anyURI, "https://en.wikipedia.org/wiki/Molar_concentration"^^xsd:anyURI ; ns1:plainTextDescription "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Concentration"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . + a ns1:QuantityKind ; + rdfs:label "سرعة زاوية"@ar, + "Úhlová rychlost"@cs, + "Winkelgeschwindigkeit"@de, + "angular velocity"@en, + "velocidad angular"@es, + "سرعت زاویه‌ای"@fa, + "vitesse angulaire"@fr, + "कोणीय वेग"@hi, + "velocità angolare"@it, + "角速度"@ja, + "Halaju bersudut"@ms, + "Prędkość kątowa"@pl, + "velocidade angular"@pt, + "Viteză unghiulară"@ro, + "Угловая скорость"@ru, + "kotna hitrost"@sl, + "Açısal hız"@tr, + "角速度"@zh ; + dcterms:description "Angular Velocity refers to how fast an object rotates or revolves relative to another point."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Angular_velocity"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD009"^^xsd:string ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Angular_velocity"^^xsd:anyURI ; + ns1:plainTextDescription "The change of angle per unit time; specifically, in celestial mechanics, the change in angle of the radius vector per unit time."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:AngularVelocity"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + ; + skos:altLabel "angular speed"@en, + "kelajuan bersudut"@ms . + a ns1:QuantityKind ; rdfs:label "لزوجة"@ar, "viskozita"@cs, @@ -74521,7 +82871,8 @@ s223:hasProperty a rdf:Property ; "dinamična viskoznost"@sl, "dinamik akmazlık"@tr, "动力粘度"@zh ; - dcterms:description "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law."^^rdf:HTML ; + dcterms:description "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law."^^ns1:LatexString, + "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law."^^rdf:HTML ; ns1:applicableUnit , , , @@ -74552,9 +82903,29 @@ s223:hasProperty a rdf:Property ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; ns1:plainTextDescription "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:DynamicViscosity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "viscosità di taglio"@it . + a ns1:QuantityKind ; + rdfs:label "Electric charge per area"@en ; + dcterms:description "In electromagnetism, charge density is a measure of electric charge per unit volume of space, in one, two or three dimensions. More specifically: the linear, surface, or volume charge density is the amount of electric charge per unit length, surface area, or volume, respectively. The respective SI units are $C \\cdot m^{-1}$, $C \\cdot m^{-2}$ or $C \\cdot m^{-3}$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Charge_density"^^xsd:anyURI ; + ns1:latexSymbol "$\\sigma$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:ElectricChargePerArea"^^xsd:string ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "عزم محورى"@ar, "Torsionmoment"@de, @@ -74601,6 +82972,7 @@ t stands for time."""^^ns1:LatexString ; ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; ns1:latexDefinition "$\\tau = M \\cdot e_Q$, where $M$ is the momentof force and $e_Q$ is a unit vector directed along a $Q-axis$ with respect to which the torque is considered."^^ns1:LatexString ; ns1:latexSymbol "$\\tau$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:Torque"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "Drillmoment"@de, "momento de torsión"@es, @@ -74608,51 +82980,255 @@ t stands for time."""^^ns1:LatexString ; "momento torcente"@it, "binârio"@pt . - a ns1:DerivedUnit, + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "هرتز"@ar, - "херц"@bg, - "hertz"@cs, - "Hertz"@de, - "χερτζ"@el, - "hertz"@en, - "hercio"@es, - "هرتز"@fa, - "hertz"@fr, - "הרץ"@he, - "हर्ट्ज"@hi, - "hertz"@hu, - "hertz"@it, - "ヘルツ"@ja, - "hertzium"@la, - "hertz"@ms, - "herc"@pl, - "hertz"@pt, - "hertz"@ro, - "герц"@ru, - "hertz"@sl, - "hertz"@tr, - "赫兹"@zh ; - dcterms:description "The hertz (symbol Hz) is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon. One of its most common uses is the description of the sine wave, particularly those used in radio and audio applications, such as the frequency of musical tones. The word \"hertz\" is named for Heinrich Rudolf Hertz, who was the first to conclusively prove the existence of electromagnetic waves."^^rdf:HTML ; + rdfs:label "ArcMinute"@en ; + dcterms:description "A minute of arc, arcminute, or minute arc (MOA), is a unit of angular measurement equal to one sixtieth (1/60) of one degree (circle/21,600), or \\(\\pi /10,800 radians\\). In turn, a second of arc or arcsecond is one sixtieth (1/60) of one minute of arc. Since one degree is defined as one three hundred and sixtieth (1/360) of a rotation, one minute of arc is 1/21,600 of a rotation. "^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 2.908882e-04, + 0.000290888209 ; + ns1:definedUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA097"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc"^^xsd:anyURI ; + ns1:siUnitsExpression "1"^^xsd:string ; + ns1:symbol "'"^^xsd:string ; + ns1:ucumCode "'"^^ns1:UCUMcs ; + ns1:udunitsCode "′"^^xsd:string ; + ns1:uneceCommonCode "D61"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "درجة مئوية"@ar, + "градус Целзий"@bg, + "stupně celsia"@cs, + "Grad Celsius"@de, + "βαθμός Κελσίου"@el, + "Degree Celsius"@en, + "degree Celsius"@en, + "grado celsius"@es, + "درجه سانتی گراد/سلسیوس"@fa, + "degré celsius"@fr, + "צלזיוס"@he, + "सेल्सियस"@hi, + "Celsius-fok"@hu, + "grado celsius"@it, + "セルシウス度"@ja, + "gradus celsii"@la, + "darjah celsius"@ms, + "stopień celsjusza"@pl, + "grau celsius"@pt, + "grad celsius"@ro, + "градус Цельсия"@ru, + "stopinja Celzija"@sl, + "celsius"@tr, + "摄氏度"@zh ; + dcterms:description "\\(\\textit{Celsius}\\), also known as centigrade, is a scale and unit of measurement for temperature. It can refer to a specific temperature on the Celsius scale as well as a unit to indicate a temperature interval, a difference between two temperatures or an uncertainty. This definition fixes the magnitude of both the degree Celsius and the kelvin as precisely 1 part in 273.16 (approximately 0.00366) of the difference between absolute zero and the triple point of water. Thus, it sets the magnitude of one degree Celsius and that of one kelvin as exactly the same. Additionally, it establishes the difference between the two scales' null points as being precisely \\(273.15\\,^{\\circ}{\\rm C}\\).

"^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1.0 ; + ns1:conversionOffset 273.15 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Celsius"^^xsd:anyURI ; + ns1:expression "\\(degC\\)"^^ns1:LatexString ; + ns1:guidance "

See NIST section SP811 section 4.2.1.1"^^rdf:HTML, + "

See NIST section SP811 section 6.2.8"^^rdf:HTML ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA033"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Celsius?oldid=494152178"^^xsd:anyURI ; + ns1:latexDefinition "\\(\\,^{\\circ}{\\rm C}\\)"^^ns1:LatexString ; + ns1:omUnit ; + ns1:symbol "°C"^^xsd:string ; + ns1:ucumCode "Cel"^^ns1:UCUMcs ; + ns1:udunitsCode "°C"^^xsd:string, + "℃"^^xsd:string ; + ns1:uneceCommonCode "CEL"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "degree-centigrade"^^xsd:string . + + a ns1:Unit ; + rdfs:label "Degree Fahrenheit"@en ; + dcterms:description "\\(\\textbf{Degree Fahrenheit} is an Imperial unit for 'Thermodynamic Temperature' expressed as \\(\\,^{\\circ}{\\rm F}\\)"^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.5555555555555556 ; + ns1:conversionOffset 459.669607, + 459.67 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(degF\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA039"^^xsd:string ; + ns1:omUnit ; + ns1:symbol "°F"^^xsd:string ; + ns1:ucumCode "[degF]"^^ns1:UCUMcs ; + ns1:udunitsCode "°F"^^xsd:string, + "℉"^^xsd:string ; + ns1:uneceCommonCode "FAH"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gon"@en ; + dcterms:description "\"Gon\" is a C.G.S System unit for 'Plane Angle' expressed as \\(gon\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.015707963267949 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gon"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA522"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gon?oldid=424098171"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "gon"^^xsd:string ; + ns1:ucumCode "gon"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A91"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Grad"@en ; + dcterms:description "\"Grad\" is a unit for 'Plane Angle' expressed as \\(grad\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.0157079633 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Grad"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA522"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Grad?oldid=490906645"^^xsd:anyURI ; + ns1:symbol "grad"^^xsd:string ; + ns1:uneceCommonCode "A91"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Inch per Second"@en ; + dcterms:description "The inch per second is a unit of speed or velocity. It expresses the distance in inches (in) traveled or displaced, divided by time in seconds (s, or sec). The equivalent SI unit is the metre per second. Abbreviations include in/s, in/sec, ips, and less frequently in s."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.0254 ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(in-per-sec\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:iec61360Code "0112/2///62720#UAA542"^^xsd:string ; + ns1:symbol "in/s"^^xsd:string ; + ns1:ucumCode "[in_i].s-1"^^ns1:UCUMcs, + "[in_i]/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "IU"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mile per Hour"@en ; + dcterms:description "Miles per hour is an imperial unit of speed expressing the number of statute miles covered in one hour. It is currently the standard unit used for speed limits, and to express speeds generally, on roads in the United Kingdom and the United States. A common abbreviation is mph or MPH."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.44704 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Miles_per_hour"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(mi/hr\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB111"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Miles_per_hour?oldid=482840548"^^xsd:anyURI ; + ns1:symbol "mi/hr"^^xsd:string ; + ns1:ucumCode "[mi_i].h-1"^^ns1:UCUMcs, + "[mi_i]/h"^^ns1:UCUMcs ; + ns1:uneceCommonCode "HM"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Minute Angle"@en ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.0002908882 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA097"^^xsd:string ; + ns1:symbol "'"^^xsd:string ; + ns1:ucumCode "'"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D61"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Milli ArcSecond"@en ; + dcterms:description "A minute of arc, arcminute, or minute arc (MOA), is a unit of angular measurement equal to one sixtieth (1/60) of one degree (circle/21,600), or \\(\\pi /10,800 radians\\). In turn, a second of arc or arcsecond is one sixtieth (1/60) of one minute of arc. Since one degree is defined as one three hundred and sixtieth (1/360) of a rotation, one minute of arc is 1/21,600 of a rotation. the milliarcsecond, abbreviated mas, is used in astronomy."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.00000000484813681, + 4.848137e-09 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Minute_of_arc"^^xsd:anyURI ; + ns1:symbol "mas"^^xsd:string ; + ns1:ucumCode "m''"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Millidegree Celsius"@en ; + dcterms:description "\\(Millidegree Celsius is a scaled unit of measurement for temperature.\\)"^^ns1:LatexString ; ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Hertz"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA170"^^xsd:string ; - ns1:omUnit ; - ns1:symbol "Hz"^^xsd:string ; - ns1:ucumCode "Hz"^^ns1:UCUMcs ; - ns1:udunitsCode "Hz"^^xsd:string ; - ns1:uneceCommonCode "HTZ"^^xsd:string ; + ; + ns1:conversionMultiplier 0.001 ; + ns1:conversionOffset 273.15 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Celsius"^^xsd:anyURI ; + ns1:guidance "

See NIST section SP811 section 4.2.1.1"^^rdf:HTML, + "

See NIST section SP811 section 6.2.8"^^rdf:HTML ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Celsius?oldid=494152178"^^xsd:anyURI ; + ns1:latexDefinition "millieDegree Celsius"^^ns1:LatexString ; + ns1:symbol "m°C"^^xsd:string ; + ns1:ucumCode "mCel"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:Unit ; @@ -74663,7 +83239,8 @@ t stands for time."""^^ns1:LatexString ; , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:expression "\\(sqnm\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind , @@ -74675,26 +83252,98 @@ t stands for time."""^^ns1:LatexString ; ns1:ucumCode "nm2"^^ns1:UCUMcs ; rdfs:isDefinedBy . -s223:Mix-Fluid a s223:Class, - s223:Mix-Fluid, - sh:NodeShape ; - rdfs:label "Mix-Fluid"^^xsd:string ; - rdfs:comment "Mix-Fluid"^^xsd:string ; - rdfs:subClassOf s223:Medium-Mix . + a ns1:DimensionlessUnit, + ns1:LogarithmicUnit, + ns1:Unit ; + rdfs:label "Oct"@en ; + dcterms:description "An octave is a doubling or halving of a frequency. One oct is the logarithmic frequency interval between \\(f1\\) and \\(f2\\) when \\(f2/f1 = 2\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Octave"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Octave_(electronics)"^^xsd:anyURI ; + ns1:symbol "oct"^^xsd:string ; + rdfs:isDefinedBy . -s223:Numerical-LineLineVoltage a s223:Class, - s223:Numerical-LineLineVoltage, + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "راديان"@ar, + "радиан"@bg, + "radián"@cs, + "Radiant"@de, + "ακτίνιο"@el, + "Radian"@en, + "radian"@en, + "radián"@es, + "رادیان"@fa, + "radian"@fr, + "רדיאן"@he, + "वर्ग मीटर"@hi, + "radián"@hu, + "radiante"@it, + "ラジアン"@ja, + "radian"@la, + "radian"@ms, + "radian"@pl, + "radiano"@pt, + "radian"@ro, + "радиан"@ru, + "radian"@sl, + "radyan"@tr, + "弧度"@zh ; + dcterms:description "The radian is the standard unit of angular measure, used in many areas of mathematics. It describes the plane angle subtended by a circular arc as the length of the arc divided by the radius of the arc. In the absence of any symbol radians are assumed, and when degrees are meant the symbol \\(^{\\ circ}\\) is used. "^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Radian"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:exactMatch ; + ns1:guidance "

See NIST section SP811 section7.10"^^rdf:HTML ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA966"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Radian?oldid=492309312"^^xsd:anyURI ; + ns1:omUnit ; + ns1:plainTextDescription "The radian is the standard unit of angular measure, used in many areas of mathematics. It describes the plane angle subtended by a circular arc as the length of the arc divided by the radius of the arc. The unit was formerly a SI supplementary unit, but this category was abolished in 1995 and the radian is now considered a SI derived unit. The SI unit of solid angle measurement is the steradian. The radian is represented by the symbol \"rad\" or, more rarely, by the superscript c (for \"circular measure\"). For example, an angle of 1.2 radians would be written as \"1.2 rad\" or \"1.2c\" (the second symbol is often mistaken for a degree: \"1.2u00b0\"). As the ratio of two lengths, the radian is a \"pure number\" that needs no unit symbol, and in mathematical writing the symbol \"rad\" is almost always omitted. In the absence of any symbol radians are assumed, and when degrees are meant the symbol u00b0 is used. [Wikipedia]"^^xsd:string ; + ns1:symbol "rad"^^xsd:string ; + ns1:ucumCode "rad"^^ns1:UCUMcs ; + ns1:udunitsCode "rad"^^xsd:string ; + ns1:uneceCommonCode "C81"^^xsd:string ; + rdfs:comment "The radian and steradian are special names for the number one that may be used to convey information about the quantity concerned. In practice the symbols rad and sr are used where appropriate, but the symbol for the derived unit one is generally omitted in specifying the values of dimensionless quantities."^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Reads Per Kilobase"@en ; + dcterms:description "RPK (Reads Per Kilobases) are obtained by dividing read counts by gene lengths (expressed in kilo-nucleotides)."^^rdf:HTML ; + ns1:conversionMultiplier 1.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "https://learn.gencore.bio.nyu.edu/metgenomics/shotgun-metagenomics/functional-analysis/"^^xsd:anyURI ; + ns1:plainTextDescription "RPK (Reads Per Kilobases) are obtained by dividing read counts by gene lengths (expressed in kilo-nucleotides)."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "RPK"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "RPK"^^xsd:string . + +s223:Constituent-H2O a s223:Class, + s223:Constituent-H2O, sh:NodeShape ; - rdfs:label "Dimensioned Line-Line Voltage"^^xsd:string ; - s223:hasVoltage s223:Numerical-Voltage ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common line-line voltages."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical ; - sh:property [ rdfs:comment "An AC-Numerical-LineLineVoltage must have a voltage"^^xsd:string ; - sh:class s223:Numerical-Voltage ; - sh:minCount 1 ; - sh:path s223:hasVoltage ] . + rdfs:label "Constituent-H2O"^^xsd:string ; + rdfs:comment "Constituent-H2O"^^xsd:string ; + rdfs:subClassOf s223:Medium-Constituent . a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -74709,7 +83358,8 @@ s223:Numerical-LineLineVoltage a s223:Class, ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-1 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 M T^-3$"^^ns1:LatexString, + "\\(L^-1 M T^-3\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -74725,10 +83375,30 @@ s223:Numerical-LineLineVoltage a s223:Class, ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexSymbol "\\(L \\cdot M /( T^3 \\cdot \\Theta^1)\\)"^^ns1:LatexString, + ns1:latexSymbol "$L \\cdot M /( T^3 \\cdot \\Theta^1)$"^^ns1:LatexString, + "$L.M.T^{-3} .\\Theta^{-1}$"^^ns1:LatexString, + "\\(L \\cdot M /( T^3 \\cdot \\Theta^1)\\)"^^ns1:LatexString, "\\(L.M.T^{-3} .\\Theta^{-1}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L2I0M1H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 M T^-1$"^^ns1:LatexString, + "\\(L^2 M T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:DecimalPrefix, ns1:Prefix ; rdfs:label "Mega"@en ; @@ -74760,14 +83430,17 @@ or, $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetization."""^^ns1:LatexString ; ns1:latexSymbol "$\\mu$"^^ns1:LatexString ; ns1:symbol "J_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticDipoleMoment"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Number Density"@en ; - dcterms:description "In physics, astronomy, and chemistry, number density (symbol: n) is a kind of quantity used to describe the degree of concentration of countable objects (atoms, molecules, dust particles, galaxies, etc.) in the three-dimensional physical space."^^rdf:HTML ; + dcterms:description "In physics, astronomy, and chemistry, number density (symbol: n) is a kind of quantity used to describe the degree of concentration of countable objects (atoms, molecules, dust particles, galaxies, etc.) in the three-dimensional physical space."^^ns1:LatexString, + "In physics, astronomy, and chemistry, number density (symbol: n) is a kind of quantity used to describe the degree of concentration of countable objects (atoms, molecules, dust particles, galaxies, etc.) in the three-dimensional physical space."^^rdf:HTML ; ns1:applicableUnit , , , + , , , , @@ -74779,12 +83452,14 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio ns1:latexDefinition "$n = \\frac{N}{V}$, where $N$ is the number of particles and $V$ is volume."^^ns1:LatexString ; ns1:plainTextDescription "In physics, astronomy, and chemistry, number density (symbol: n) is a kind of quantity used to describe the degree of concentration of countable objects (atoms, molecules, dust particles, galaxies, etc.) in the three-dimensional physical space."^^xsd:string ; ns1:symbol "n"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:NumberDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . a ns1:QuantityKind ; rdfs:label "Resistance"@en ; - dcterms:description "The electrical resistance of an object is a measure of its opposition to the passage of a steady electric current."^^rdf:HTML ; + dcterms:description "The electrical resistance of an object is a measure of its opposition to the passage of a steady electric current."^^ns1:LatexString, + "The electrical resistance of an object is a measure of its opposition to the passage of a steady electric current."^^rdf:HTML ; ns1:applicableUnit , , , @@ -74802,6 +83477,7 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio ns1:latexDefinition "$R = \\frac{u}{i}$, where $u$ is instantaneous voltage and $i$ is instantaneous electric current."^^ns1:LatexString ; ns1:plainTextDescription "The electrical resistance of an object is a measure of its opposition to the passage of a steady electric current."^^xsd:string ; ns1:symbol "R"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Resistance"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -74809,7 +83485,8 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio a ns1:QuantityKind ; rdfs:label "Specific Heat Capacity"@en ; - dcterms:description "\"Specific Heat Capacity} of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is \\textit{Heat Capacity} divied by \\textit{Mass\". Note that there are corresponding molar quantities."^^rdf:HTML ; + dcterms:description "\"Specific Heat Capacity\" of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is $\\textit{Heat Capacity}$ divided by $\\textit{Mass}$. Note that there are corresponding molar quantities."^^ns1:LatexString, + "\"Specific Heat Capacity} of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is \\textit{Heat Capacity} divied by \\textit{Mass\". Note that there are corresponding molar quantities."^^rdf:HTML ; ns1:applicableUnit , , , @@ -74827,9 +83504,11 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio ns1:dbpediaMatch "http://dbpedia.org/resource/Specific_heat_capacity"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.taftan.com/thermodynamics/CP.HTM"^^xsd:anyURI ; - ns1:plainTextDescription "\"Specific Heat Capacity} of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is \\textit{Heat Capacity} divied by \\textit{Mass\". Note that there are corresponding molar quantities."^^xsd:string ; + ns1:plainTextDescription "\"Specific Heat Capacity} of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is \\textit{Heat Capacity} divied by \\textit{Mass\". Note that there are corresponding molar quantities."^^xsd:string, + "Specific Heat Capacity of a solid or liquid is defined as the heat required to raise unit mass of substance by one degree of temperature. This is Heat Capacity divided by Mass. Note that there are corresponding molar quantities."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "c"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificHeatCapacity"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -74839,7 +83518,8 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio a ns1:QuantityKind ; rdfs:label "Thermal Conductivity"@en ; - dcterms:description "In physics, thermal conductivity, \\(k\\) (also denoted as \\(\\lambda\\)), is the property of a material's ability to conduct heat. It appears primarily in Fourier's Law for heat conduction and is the areic heat flow rate divided by temperature gradient."^^ns1:LatexString ; + dcterms:description "In physics, thermal conductivity, $k$ (also denoted as $\\lambda$), is the property of a material's ability to conduct heat. It appears primarily in Fourier's Law for heat conduction and is the areic heat flow rate divided by temperature gradient."^^ns1:LatexString, + "In physics, thermal conductivity, \\(k\\) (also denoted as \\(\\lambda\\)), is the property of a material's ability to conduct heat. It appears primarily in Fourier's Law for heat conduction and is the areic heat flow rate divided by temperature gradient."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -74866,8 +83546,31 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio ns1:latexDefinition "$\\lambda = \\frac{\\varphi}{T}$, where $\\varphi$ is areic heat flow rate and $T$ is temperature gradient."^^ns1:LatexString ; ns1:latexSymbol "$\\lambda$"^^ns1:LatexString ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ThermalConductivity"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Knot"@en ; + dcterms:description "The knot (pronounced 'not') is a unit of speed equal to one nautical mile (1.852 km) per hour, approximately 1.151 mph. The abbreviation \\(kn\\) is preferred by the International Hydrographic Organization (IHO), which includes every major sea-faring nation; however, the abbreviations kt (singular) and kts (plural) are also widely used. However, use of the abbreviation kt for knot conflicts with the SI symbol for kilotonne. The knot is a non-SI unit accepted for use with the International System of Units (SI). Worldwide, the knot is used in meteorology, and in maritime and air navigation - for example, a vessel travelling at 1 knot along a meridian travels one minute of geographic latitude in one hour. Etymologically, the term knot derives from counting the number of knots in the line that unspooled from the reel of a chip log in a specific time."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.5144444444444445 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Knot"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB110"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Knot?oldid=495066194"^^xsd:anyURI ; + ns1:symbol "kn"^^xsd:string ; + ns1:ucumCode "[kn_i]"^^ns1:UCUMcs ; + ns1:udunitsCode "kt"^^xsd:string ; + ns1:uneceCommonCode "KNT"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs ; + skos:altLabel "kt"^^xsd:string, + "kts"^^xsd:string . + a ns1:DerivedUnit, ns1:Unit ; rdfs:label "متر مربع"@ar, @@ -74875,6 +83578,7 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio "čtvereční metr"@cs, "Quadratmeter"@de, "τετραγωνικό μέτρο"@el, + "Square Metre"@en, "square metre"@en, "Square Meter"@en-us, "metro cuadrado"@es, @@ -74913,63 +83617,52 @@ $J_m = \\mu_0 M$ where $\\mu_0$ is the magnetic constant and $M$ is Magnetizatio ns1:uneceCommonCode "MTK"^^xsd:string ; rdfs:isDefinedBy . -s223:EnumerationKind a s223:Class, - s223:EnumerationKind, - sh:NodeShape ; - rdfs:label "Enumeration kind"^^xsd:string ; - rdfs:comment """This is the encapsulating class for all EnumerationKinds. - EnumerationKinds define the (closed) set of permissible values for a given purpose. - For example, the DayOfWeek EnumerationKind enumerates the days of the week and allows no other values. - -EnumerationKinds are arranged in a class hierarchy tree, with the root class named EnumerationKind. Each subclass is named -starting with its immediate superclass, followed by a hyphen and a name that is unique among the sibling classes. -Each class is also an instance of itself. This unusual modeling pattern was used to achieve: - -- The ability to set an EnumerationKind value that is more general, or not yet fully specified -at the time of modeling, such as s223:Electricity-AC without having to state exactly what voltage or frequency it is. - -- The ability to use the sh:class SHACL predicate at any level in the EnumerationKind hierarchy -to constrain a value in the s223 specification, even if it is a more general one such as s223:Electricity-AC in the above example. - -Certain validation constraints exist in the standard that evaluate compatibility of EnumerationKinds. -Two values are deemed compatible if they are the same, if one is a direct ancestor (or descendant) of the other, -or if they are mixtures sharing at least one constituent."""^^xsd:string ; - rdfs:subClassOf s223:Concept . + a ns1:Unit ; + rdfs:label "Nautical Mile per Hour"@en ; + dcterms:description "The knot is a unit of speed equal to one nautical mile (1.852 km) per hour, approximately 1.151 mph. The abbreviation kn is preferred by the International Hydrographic Organization (IHO), which includes every major seafaring nation; but the abbreviations kt (singular) and kts (plural) are also widely used conflicting with the SI symbol for kilotonne which is also \"kt\". The knot is a non-SI unit accepted for use with the International System of Units (SI). Worldwide, the knot is used in meteorology, and in maritime and air navigation-for example, a vessel travelling at 1 knot along a meridian travels one minute of geographic latitude in one hour. "^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.514444 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:symbol "nmi/hr"^^xsd:string ; + ns1:ucumCode "[nmi_i].h-1"^^ns1:UCUMcs, + "[nmi_i]/h"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs . -s223:observes a rdf:Property ; - rdfs:label "observes"^^xsd:string ; - rdfs:comment "The relation observes binds a sensor to one ObservableProperty `see s223:ObservableProperty` which is used by the sensor to generate a measurement value (ex. a temperature) or a simple observation of a stimulus causing a reaction (a current binary switch that closes a dry contact when a fan is powered on)."^^xsd:string . +s223:EnumerationKind-Domain a s223:Class, + s223:EnumerationKind-Domain, + sh:NodeShape ; + rdfs:label "EnumerationKind Domain"^^xsd:string ; + rdfs:comment "A Domain represents a categorization of building services or specialization used to characterize equipment or spaces in a building. Example domains include HVAC, Lighting, and Plumbing."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L2I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . +s223:EnumerationKind-Position a s223:Class, + s223:EnumerationKind-Position, + sh:NodeShape ; + rdfs:label "Position"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of position such as closed or open."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L-1I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength -1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-1 I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . +s223:Numerical-LineLineVoltage a s223:Class, + s223:Numerical-LineLineVoltage, + sh:NodeShape ; + rdfs:label "Dimensioned Line-Line Voltage"^^xsd:string ; + s223:hasVoltage s223:Numerical-Voltage ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common line-line voltages."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical ; + sh:property [ rdfs:comment "An AC-Numerical-LineLineVoltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ], + [ rdfs:comment "An AC-Numerical-LineLineVoltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ] . a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -74984,7 +83677,8 @@ s223:observes a rdf:Property ; ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 T I\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-2 T I$"^^ns1:LatexString, + "\\(L^-2 T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -75026,7 +83720,15 @@ s223:observes a rdf:Property ; "električni tok"@sl, "elektrik akımı"@tr, "电流"@zh ; - dcterms:description "\"Electric Current\" is the flow (movement) of electric charge. The amount of electric current through some surface, for example, a section through a copper conductor, is defined as the amount of electric charge flowing through that surface over time. Current is a scalar-valued quantity. Electric current is one of the base quantities in the International System of Quantities, ISQ, on which the International System of Units, SI, is based. "^^rdf:HTML ; + dcterms:description """ + The quantity kind $\\textit{Electric Current}$ is the flow (movement) of electric charge. + The amount of electric current through some surface, for example, a section through a copper conductor, + is defined as the amount of electric charge flowing through that surface over time. + Current is a scalar-valued quantity. + Electric current is one of the base quantities in the International System of Quantities, ISQ, + on which the International System of Units, SI, is based. + """^^rdf:HTML, + "\"Electric Current\" is the flow (movement) of electric charge. The amount of electric current through some surface, for example, a section through a copper conductor, is defined as the amount of electric charge flowing through that surface over time. Current is a scalar-valued quantity. Electric current is one of the base quantities in the International System of Quantities, ISQ, on which the International System of Units, SI, is based. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -75050,6 +83752,7 @@ s223:observes a rdf:Property ; ns1:plainTextDescription "\"Electric Current\" is the flow (movement) of electric charge. The amount of electric current through some surface, for example, a section through a copper conductor, is defined as the amount of electric charge flowing through that surface over time. Current is a scalar-valued quantity. Electric current is one of the base quantities in the International System of Quantities, ISQ, on which the International System of Units, SI, is based. "^^xsd:string ; ns1:siExactMatch ; ns1:symbol "I"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCurrent"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -75063,243 +83766,85 @@ s223:observes a rdf:Property ; "شدت میدان الکتریکی"@fa, "intensité de champ électrique"@fr, "שדה חשמלי"@he, - "विद्युत्-क्षेत्र"@hi, - "Elektromos mező"@hu, - "intensità di campo elettrico"@it, - "電界強度"@ja, - "Kekuatan medan elektrik"@ms, - "natężenie pola elektrycznego"@pl, - "intensidade de campo elétrico"@pt, - "câmp electric"@ro, - "Напряженность электрического поля"@ru, - "jakost električnega polja"@sl, - "elektriksel alan kuvveti"@tr, - "電場"@zh ; - dcterms:description "\\(\\textbf{Electric Field Strength}\\) is the magnitude and direction of an electric field, expressed by the value of \\(E\\), also referred to as \\(\\color{indigo} {\\textit{electric field intensity}}\\) or simply the electric field."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD042"^^xsd:string ; - ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$\\mathbf{E} = \\mathbf{F}/q$, where $\\mathbf{F}$ is force and $q$ is electric charge, of a test particle at rest."^^ns1:LatexString ; - ns1:latexSymbol "$\\mathbf{E} $"^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "E"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "المجال المغناطيسي"@ar, - "Магнитна индукция"@bg, - "Magnetická indukce"@cs, - "magnetische Flussdichte"@de, - "magnetic flux density"@en, - "Densidad de flujo magnético"@es, - "چگالی شار مغناطیسی"@fa, - "Densité de flux magnétique"@fr, - "צפיפות שטף מגנטי"@he, - "चुम्बकीय क्षेत्र"@hi, - "mágneses indukció"@hu, - "densità di flusso magnetico"@it, - "磁束密度"@ja, - "densitas fluxus magnetici"@la, - "Ketumpatan fluks magnet"@ms, - "indukcja magnetyczna"@pl, - "densidade de fluxo magnético"@pt, - "inducție magnetică"@ro, - "Магнитная индукция"@ru, - "gostota magnetnega pretoka"@sl, - "manyetik akı yoğunluğu"@tr, - "磁通量密度"@zh ; - dcterms:description "\"Magnetic Flux Density\" is a vector quantity and is the magnetic flux per unit area of a magnetic field at right angles to the magnetic force. It can be defined in terms of the effects the field has, for example by $B = F/q v \\sin \\theta$, where $F$ is the force a moving charge $q$ would experience if it was travelling at a velocity $v$ in a direction making an angle θ with that of the field. The magnetic field strength is also a vector quantity and is related to $B$ by: $H = B/\\mu$, where $\\mu$ is the permeability of the medium."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD100"^^xsd:string ; - ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI, - "http://www.oxfordreference.com/view/10.1093/acref/9780199233991.001.0001/acref-9780199233991-e-1798"^^xsd:anyURI ; - ns1:latexDefinition "$\\mathbf{F} = qv \\times B$, where $F$ is force and $v$ is velocity of any test particle with electric charge $q$."^^ns1:LatexString ; - ns1:symbol "B"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:altLabel "magnetische Induktion"@de, - "inducción magnética"@es . - - a ns1:QuantityKind ; - rdfs:label "درجة الحرارة المطلقة"@ar, - "Термодинамична температура"@bg, - "Termodynamická teplota"@cs, - "thermodynamische Temperatur"@de, - "Απόλυτη"@el, - "thermodynamic temperature"@en, - "temperatura"@es, - "دمای ترمودینامیکی"@fa, - "température thermodynamique"@fr, - "טמפרטורה מוחלטת"@he, - "ऊष्मगतिकीय तापमान"@hi, - "abszolút hőmérséklet"@hu, - "temperatura termodinamica"@it, - "熱力学温度"@ja, - "temperatura thermodynamica absoluta"@la, - "Suhu termodinamik"@ms, - "temperatura"@pl, - "temperatura"@pt, - "temperatură termodinamică"@ro, - "Термодинамическая температура"@ru, - "temperatura"@sl, - "termodinamik sıcaklık"@tr, - "热力学温度"@zh ; - dcterms:description """Thermodynamic temperature is the absolute measure of temperature and is one of the principal parameters of thermodynamics. -Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. -In thermodynamics, in a system of which the entropy is considered as an independent externally controlled variable, absolute, or thermodynamic temperature is defined as the derivative of the internal energy with respect to the entropy. This is a base quantity in the International System of Quantities, ISQ, on which the International System of Units, SI, is based."""^^xsd:string ; - ns1:applicableUnit , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/page/Thermodynamic_temperature"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD196"^^xsd:string ; - ns1:latexSymbol "$\\Theta$"^^ns1:LatexString ; - ns1:plainTextDescription """Thermodynamic temperature is the absolute measure of temperature and is one of the principal parameters of thermodynamics. -Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. -In thermodynamics, in a system of which the entropy is considered as an independent externally controlled variable, absolute, or thermodynamic temperature is defined as the derivative of the internal energy with respect to the entropy. This is a base quantity in the International System of Quantities, ISQ, on which the International System of Units, SI, is based."""^^xsd:string ; - ns1:siExactMatch ; - ns1:symbol "T"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:altLabel "Θερμοδυναμική Θερμοκρασία"@el, - "temperatura assoluta"@it ; - skos:broader . - - a ns1:Unit ; - rdfs:label "CentiNewton"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.01 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "cN"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Dyne"@en ; - dcterms:description "In physics, the dyne is a unit of force specified in the centimetre-gram-second (CGS) system of units. One dyne is equal to In physics, the dyne is a unit of force specified in the centimetre-gram-second (CGS) system of units. One dyne is equal to \\SI{10}{\\micro\\newton}. Equivalently, the dyne is defined as 'the force required to accelerate a mass of one gram at a rate of one centimetre per square second'. The dyne per centimetre is the unit traditionally used to measure surface tension."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1e-05 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Dyne"^^xsd:anyURI ; - ns1:derivedCoherentUnitOfSystem ; - ns1:derivedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA422"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Dyne?oldid=494703827"^^xsd:anyURI ; - ns1:latexDefinition "\\(g\\cdot cm/s^{2}\\)"^^ns1:LatexString ; - ns1:omUnit ; - ns1:symbol "dyn"^^xsd:string ; - ns1:ucumCode "dyn"^^ns1:UCUMcs ; - ns1:uneceCommonCode "DU"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "DeciNewton"@en ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.1 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "dN"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gram Force"@en ; - dcterms:description "\"Gram Force\" is a unit for 'Force' expressed as \\(gf\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 0.00980665 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kilogram-force"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kilogram-force?oldid=493375479"^^xsd:anyURI ; - ns1:symbol "gf"^^xsd:string ; - ns1:ucumCode "gf"^^ns1:UCUMcs ; - ns1:udunitsCode "gf"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kip"@en ; - dcterms:description "1000 pound-force"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4448.222 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kip"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kip?oldid=492552722"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "kip"^^xsd:string ; - ns1:ucumCode "k[lbf_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M75"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Kilogram Force"@en ; - dcterms:description "\"Kilogram Force\" is a unit for 'Force' expressed as \\(kgf\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 9.80665 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kilogram-force"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kilogram-force?oldid=493375479"^^xsd:anyURI ; - ns1:symbol "kgf"^^xsd:string ; - ns1:ucumCode "kgf"^^ns1:UCUMcs ; - ns1:udunitsCode "kgf"^^xsd:string ; - ns1:uneceCommonCode "B37"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "KiloPound Force"@en ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4448.222 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "klbf"^^xsd:string ; - rdfs:isDefinedBy . + "विद्युत्-क्षेत्र"@hi, + "Elektromos mező"@hu, + "intensità di campo elettrico"@it, + "電界強度"@ja, + "Kekuatan medan elektrik"@ms, + "natężenie pola elektrycznego"@pl, + "intensidade de campo elétrico"@pt, + "câmp electric"@ro, + "Напряженность электрического поля"@ru, + "jakost električnega polja"@sl, + "elektriksel alan kuvveti"@tr, + "電場"@zh ; + dcterms:description "$\\textit{Electric Field Strength}$ is the magnitude and direction of an electric field, expressed by the value of $E$, also referred to as $\\color{indigo} {\\textit{electric field intensity}}$ or simply the electric field."^^ns1:LatexString, + "\\(\\textbf{Electric Field Strength}\\) is the magnitude and direction of an electric field, expressed by the value of \\(E\\), also referred to as \\(\\color{indigo} {\\textit{electric field intensity}}\\) or simply the electric field."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD042"^^xsd:string ; + ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$\\mathbf{E} = \\mathbf{F}/q$, where $\\mathbf{F}$ is force and $q$ is electric charge, of a test particle at rest."^^ns1:LatexString ; + ns1:latexSymbol "$\\mathbf{E} $"^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricFieldStrength"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilonewton"@en ; - dcterms:description "1 000-fold of the SI derived unit newton"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA573"^^xsd:string ; - ns1:plainTextDescription "1 000-fold of the SI derived unit newton"^^xsd:string ; - ns1:prefix ; - ns1:symbol "kN"^^xsd:string ; - ns1:ucumCode "kN"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B47"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "المجال المغناطيسي"@ar, + "Магнитна индукция"@bg, + "Magnetická indukce"@cs, + "magnetische Flussdichte"@de, + "magnetic flux density"@en, + "Densidad de flujo magnético"@es, + "چگالی شار مغناطیسی"@fa, + "Densité de flux magnétique"@fr, + "צפיפות שטף מגנטי"@he, + "चुम्बकीय क्षेत्र"@hi, + "mágneses indukció"@hu, + "densità di flusso magnetico"@it, + "磁束密度"@ja, + "densitas fluxus magnetici"@la, + "Ketumpatan fluks magnet"@ms, + "indukcja magnetyczna"@pl, + "densidade de fluxo magnético"@pt, + "inducție magnetică"@ro, + "Магнитная индукция"@ru, + "gostota magnetnega pretoka"@sl, + "manyetik akı yoğunluğu"@tr, + "磁通量密度"@zh ; + dcterms:description "\"Magnetic Flux Density\" is a vector quantity and is the magnetic flux per unit area of a magnetic field at right angles to the magnetic force. It can be defined in terms of the effects the field has, for example by $B = F/q v \\sin \\theta$, where $F$ is the force a moving charge $q$ would experience if it was travelling at a velocity $v$ in a direction making an angle θ with that of the field. The magnetic field strength is also a vector quantity and is related to $B$ by: $H = B/\\mu$, where $\\mu$ is the permeability of the medium."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD100"^^xsd:string ; + ns1:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI, + "http://www.oxfordreference.com/view/10.1093/acref/9780199233991.001.0001/acref-9780199233991-e-1798"^^xsd:anyURI ; + ns1:latexDefinition "$\\mathbf{F} = qv \\times B$, where $F$ is force and $v$ is velocity of any test particle with electric charge $q$."^^ns1:LatexString ; + ns1:symbol "B"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFluxDensity"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + skos:altLabel "magnetische Induktion"@de, + "inducción magnética"@es . a ns1:Unit ; rdfs:label "Kilopond"@en ; @@ -75314,244 +83859,22 @@ In thermodynamics, in a system of which the entropy is considered as an independ ns1:uneceCommonCode "B51"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Kilopond"@en ; - dcterms:description "illegal unit of the weight, defined as mass of 1 kg which receives a weight of 1 kp through gravitation at sea level, which equates to a force of 9,806 65 newton"^^rdf:HTML ; - ns1:conversionMultiplier 9.80665 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB059"^^xsd:string ; - ns1:plainTextDescription "illegal unit of the weight, defined as mass of 1 kg which receives a weight of 1 kp through gravitation at sea level, which equates to a force of 9,806 65 newton"^^xsd:string ; - ns1:symbol "kp"^^xsd:string ; - ns1:uneceCommonCode "B51"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pound Force"@en ; - dcterms:description "\"Pound Force\" is an Imperial unit for 'Force' expressed as \\(lbf\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4.448222 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pound-force"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Pound-force?oldid=453191483"^^xsd:anyURI ; - ns1:symbol "lbf"^^xsd:string ; - ns1:ucumCode "[lbf_av]"^^ns1:UCUMcs ; - ns1:udunitsCode "lbf"^^xsd:string ; - ns1:uneceCommonCode "C78"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Mega Pound Force"@en ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 4448.222 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pound-force"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Pound-force?oldid=453191483"^^xsd:anyURI ; - ns1:symbol "Mlbf"^^xsd:string ; - ns1:ucumCode "M[lbf_av]"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Meganewton"@en ; - dcterms:description "1,000,000-fold of the SI derived unit newton"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA213"^^xsd:string ; - ns1:plainTextDescription "1,000,000-fold of the SI derived unit newton"^^xsd:string ; - ns1:prefix ; - ns1:symbol "MN"^^xsd:string ; - ns1:ucumCode "MN"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B73"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Micronewton"@en ; - dcterms:description "0.000001-fold of the SI derived unit newton"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA070"^^xsd:string ; - ns1:plainTextDescription "0.000001-fold of the SI derived unit newton"^^xsd:string ; - ns1:prefix ; - ns1:symbol "μN"^^xsd:string ; - ns1:ucumCode "uN"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B92"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millinewton"@en ; - dcterms:description "0.001-fold of the SI derived unit newton"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA793"^^xsd:string ; - ns1:plainTextDescription "0.001-fold of the SI derived unit newton"^^xsd:string ; - ns1:prefix ; - ns1:symbol "mN"^^xsd:string ; - ns1:ucumCode "mN"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C20"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Imperial Ounce Force"@en ; - dcterms:description "\"Ounce Force\" is an Imperial unit for 'Force' expressed as \\(ozf\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.278013875 ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "ozf"^^xsd:string ; - ns1:ucumCode "[ozf_av]"^^ns1:UCUMcs ; - ns1:udunitsCode "ozf"^^xsd:string ; - ns1:uneceCommonCode "L40"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Poundal"@en ; - dcterms:description "The poundal is a unit of force that is part of the foot-pound-second system of units, in Imperial units introduced in 1877, and is from the specialized subsystem of English absolute (a coherent system). The poundal is defined as the force necessary to accelerate 1 pound-mass to 1 foot per second per second. \\(1 pdl = 0.138254954376 N\\) exactly."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.138254954376 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Poundal"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB233"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Poundal?oldid=494626458"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "pdl"^^xsd:string ; - ns1:ucumCode "[lb_av].[ft_i].s-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M76"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Planck Force"@en ; - dcterms:description "Planck force is the derived unit of force resulting from the definition of the base Planck units for time, length, and mass. It is equal to the natural unit of momentum divided by the natural unit of time."^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.21027e+44 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_force"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_force?oldid=493643031"^^xsd:anyURI ; - ns1:symbol "planckforce"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "ثانية"@ar, - "секунда"@bg, - "sekunda"@cs, - "Sekunde"@de, - "δευτερόλεπτο"@el, - "second"@en, - "segundo"@es, - "ثانیه"@fa, - "seconde"@fr, - "שנייה"@he, - "सैकण्ड"@hi, - "másodperc"@hu, - "secondo"@it, - "秒"@ja, - "secundum"@la, - "saat"@ms, - "sekunda"@pl, - "segundo"@pt, - "secundă"@ro, - "секунда"@ru, - "sekunda"@sl, - "saniye"@tr, - "秒"@zh ; - dcterms:description """The \\(Second\\) (symbol: \\(s\\)) is the base unit of time in the International System of Units (SI) and is also a unit of time in other systems of measurement. Between the years1000 (when al-Biruni used seconds) and 1960 the second was defined as \\(1/86400\\) of a mean solar day (that definition still applies in some astronomical and legal contexts). Between 1960 and 1967, it was defined in terms of the period of the Earth's orbit around the Sun in 1900, but it is now defined more precisely in atomic terms. -Under the International System of Units (via the International Committee for Weights and Measures, or CIPM), since 1967 the second has been defined as the duration of \\({9192631770}\\) periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium 133 atom.In 1997 CIPM added that the periods would be defined for a caesium atom at rest, and approaching the theoretical temperature of absolute zero, and in 1999, it included corrections from ambient radiation."""^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Second"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA972"^^xsd:string, - "0112/2///62720#UAD722"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Second?oldid=495241006"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "s"^^xsd:string ; - ns1:ucumCode "s"^^ns1:UCUMcs ; - ns1:udunitsCode "s"^^xsd:string ; - ns1:uneceCommonCode "SEC"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ton Force (US Short)"@en ; - dcterms:description "unit of the force according to the American system of units"^^rdf:HTML ; - ns1:applicableSystem ; - ns1:conversionMultiplier 8896.443230521 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB021"^^xsd:string ; - ns1:plainTextDescription "unit of the force according to the American system of units"^^xsd:string ; - ns1:symbol "tonf{us}"^^xsd:string ; - ns1:ucumCode "[stonf_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "L94"^^xsd:string ; - rdfs:isDefinedBy . - -ns2:GraphRole a owl:Class ; - rdfs:label "Graph role"^^xsd:string ; - dcterms:description "GraphRole is used to characterize how a graph of resources participates in an ontology set. For example, a graph can be a schema, vocabulary, dataset, script, or ruleset"^^xsd:string ; - rdfs:isDefinedBy , - ; - rdfs:subClassOf [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:description ], - [ a owl:Restriction ; - owl:maxCardinality 1 ; - owl:onProperty ns2:filePrefix ], - owl:Thing . - -s223:Numerical-LineNeutralVoltage a s223:Class, - s223:Numerical-LineNeutralVoltage, +s223:Electricity-DC a s223:Class, + s223:Electricity-DC, sh:NodeShape ; - rdfs:label "Dimensioned Line-Neutral Voltage"^^xsd:string ; + rdfs:label "Electricity DC"^^xsd:string ; s223:hasVoltage s223:Numerical-Voltage ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common line-neutral voltages."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical ; - sh:property [ rdfs:comment "An AC-Numerical-LineNeutralVoltage must have a voltage"^^xsd:string ; - sh:class s223:Numerical-Voltage ; + rdfs:comment "This class has enumerated instances of all DC forms of electricity."^^xsd:string ; + rdfs:subClassOf s223:Constituent-Electricity ; + sh:property [ rdfs:comment "An electricity DC medium must have two reference voltages."^^xsd:string ; sh:minCount 1 ; + sh:or ( [ sh:class s223:Numerical-DCVoltage ] [ sh:class s223:Numerical-Voltage ] ) ; + sh:path s223:hasVoltage ], + [ rdfs:comment "An electricity DC medium must have two reference voltages."^^xsd:string ; + sh:minCount 1 ; + sh:or ( [ sh:class s223:Numerical-DCVoltage ] [ sh:class s223:Numerical-Voltage ] ) ; sh:path s223:hasVoltage ] . -s223:hasRole a rdf:Property ; - rdfs:label "hasRole"^^xsd:string ; - rdfs:comment "The relation hasRole is used to indicate the role of an Equipment, Connection, ConnectionPoint, or System within a building (e.g., a heating coil will be associated with Role-Heating). Possible values are defined in EnumerationKind-Role (see `s223:EnumerationKind-Role`)."^^xsd:string . - a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -75565,7 +83888,8 @@ s223:hasRole a rdf:Property ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-3 I^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-3 I^-2$"^^ns1:LatexString, + "\\(L^2 M T^-3 I^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -75583,12 +83907,47 @@ s223:hasRole a rdf:Property ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind , ; - ns1:latexDefinition "\\(L T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L T^-2$"^^ns1:LatexString, + "\\(L T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L2I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2 T^-1$"^^ns1:LatexString, + "\\(L^2 T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L-1I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-1 I$"^^ns1:LatexString, + "\\(L^-1 I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Energy per Area"@en ; - dcterms:description "Energy per unit area is a measure of the energy either impinging upon or generated from a given unit of area. This can be a measure of the \"toughness\" of a material, being the amount of energy that needs to be applied per unit area of a crack to cause it to fracture. This is a constant for a given material.."^^rdf:HTML ; + dcterms:description "Energy per unit area is a measure of the energy either impinging upon or generated from a given unit of area. This can be a measure of the \"toughness\" of a material, being the amount of energy that needs to be applied per unit area of a crack to cause it to fracture. This is a constant for a given material.."^^ns1:LatexString, + "Energy per unit area is a measure of the energy either impinging upon or generated from a given unit of area. This can be a measure of the \"toughness\" of a material, being the amount of energy that needs to be applied per unit area of a crack to cause it to fracture. This is a constant for a given material.."^^rdf:HTML ; ns1:applicableUnit , , , @@ -75619,6 +83978,7 @@ s223:hasRole a rdf:Property ; ns1:hasDimensionVector ; ns1:informativeReference "http://www.calculator.org/property.aspx?name=energy%20per%20unit%20area"^^xsd:anyURI ; ns1:plainTextDescription "Energy per unit area is a measure of the energy either impinging upon or generated from a given unit of area. This can be a measure of the \"toughness\" of a material, being the amount of energy that needs to be applied per unit area of a crack to cause it to fracture. This is a constant for a given material.."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:EnergyPerArea"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -75639,7 +83999,8 @@ s223:hasRole a rdf:Property ; "jakost magnetnega polja"@sl, "Manyetik alan"@tr, "磁場"@zh ; - dcterms:description "\\(\\textbf{Magnetic Field Strength}\\) is a vector quantity obtained at a given point by subtracting the magnetization \\(M\\) from the magnetic flux density \\(B\\) divided by the magnetic constant \\(\\mu_0\\). The magnetic field strength is related to the total current density \\(J_{tot}\\) via: \\(\\text{rot} H = J_{tot}\\)."^^ns1:LatexString ; + dcterms:description "$\\textit{Magnetic Field Strength}$ is a vector quantity obtained at a given point by subtracting the magnetization $M$ from the magnetic flux density $B$ divided by the magnetic constant $\\mu_0$. The magnetic field strength is related to the total current density $J_{tot}$ via: $\\text{rot} H = J_{tot}$."^^ns1:LatexString, + "\\(\\textbf{Magnetic Field Strength}\\) is a vector quantity obtained at a given point by subtracting the magnetization \\(M\\) from the magnetic flux density \\(B\\) divided by the magnetic constant \\(\\mu_0\\). The magnetic field strength is related to the total current density \\(J_{tot}\\) via: \\(\\text{rot} H = J_{tot}\\)."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -75656,8 +84017,10 @@ s223:hasRole a rdf:Property ; ns1:latexDefinition "$\\mathbf{H} = \\frac{\\mathbf{B} }{\\mu_0} - M$, where $\\mathbf{B} $ is magnetic flux density, $\\mu_0$ is the magnetic constant and $M$ is magnetization."^^ns1:LatexString ; ns1:latexSymbol "$\\mathbf{H} $"^^ns1:LatexString ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:MagneticFieldStrength_H"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . + skos:broader , + . a ns1:QuantityKind ; rdfs:label "الضغط أو الإجهاد"@ar, @@ -75683,7 +84046,8 @@ s223:hasRole a rdf:Property ; "tlak"@sl, "basınç"@tr, "压强、压力"@zh ; - dcterms:description "Pressure is an effect which occurs when a force is applied on a surface. Pressure is the amount of force acting on a unit area. Pressure is distinct from stress, as the former is the ratio of the component of force normal to a surface to the surface area. Stress is a tensor that relates the vector force to the vector area."^^rdf:HTML ; + dcterms:description "Pressure is an effect which occurs when a force is applied on a surface. Pressure is the amount of force acting on a unit area. Pressure is distinct from stress, as the former is the ratio of the component of force normal to a surface to the surface area. Stress is a tensor that relates the vector force to the vector area."^^ns1:LatexString, + "Pressure is an effect which occurs when a force is applied on a surface. Pressure is the amount of force acting on a unit area. Pressure is distinct from stress, as the former is the ratio of the component of force normal to a surface to the surface area. Stress is a tensor that relates the vector force to the vector area."^^rdf:HTML ; ns1:applicableUnit , , , @@ -75755,6 +84119,7 @@ s223:hasRole a rdf:Property ; ns1:latexDefinition "$p = \\frac{dF}{dA}$, where $dF$ is the force component perpendicular to the surface element of area $dA$."^^ns1:LatexString ; ns1:plainTextDescription "Pressure is an effect which occurs when a force is applied on a surface. Pressure is the amount of force acting on a unit area. Pressure is distinct from stress, as the former is the ratio of the component of force normal to a surface to the surface area. Stress is a tensor that relates the vector force to the vector area."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "механично напрежение"@bg, "दाब"@hi, @@ -75766,208 +84131,338 @@ s223:hasRole a rdf:Property ; "pritisk"@sl ; skos:broader . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "نيوتن"@ar, - "нютон"@bg, - "newton"@cs, - "Newton"@de, - "νιούτον"@el, - "newton"@en, - "newton"@es, - "نیوتن"@fa, - "newton"@fr, - "ניוטון"@he, - "न्यूटन"@hi, - "newton"@hu, - "newton"@it, - "ニュートン"@ja, - "newtonium"@la, - "newton"@ms, - "niuton"@pl, - "newton"@pt, - "newton"@ro, - "ньютон"@ru, - "newton"@sl, - "newton"@tr, - "牛顿"@zh ; - dcterms:description "The \"Newton\" is the SI unit of force. A force of one newton will accelerate a mass of one kilogram at the rate of one meter per second per second. The newton is named for Isaac Newton (1642-1727), the British mathematician, physicist, and natural philosopher. He was the first person to understand clearly the relationship between force (F), mass (m), and acceleration (a) expressed by the formula \\(F = m \\cdot a\\)."^^ns1:LatexString ; + a ns1:Unit ; + rdfs:label "CentiNewton"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.01 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "cN"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Dyne"@en ; + dcterms:description "In physics, the dyne is a unit of force specified in the centimetre-gram-second (CGS) system of units. One dyne is equal to In physics, the dyne is a unit of force specified in the centimetre-gram-second (CGS) system of units. One dyne is equal to \\SI{10}{\\micro\\newton}. Equivalently, the dyne is defined as 'the force required to accelerate a mass of one gram at a rate of one centimetre per square second'. The dyne per centimetre is the unit traditionally used to measure surface tension."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Dyne"^^xsd:anyURI ; + ns1:derivedCoherentUnitOfSystem ; + ns1:derivedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA422"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Dyne?oldid=494703827"^^xsd:anyURI ; + ns1:latexDefinition "\\(g\\cdot cm/s^{2}\\)"^^ns1:LatexString ; + ns1:omUnit ; + ns1:symbol "dyn"^^xsd:string ; + ns1:ucumCode "dyn"^^ns1:UCUMcs ; + ns1:uneceCommonCode "DU"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "DeciNewton"@en ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.1 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "dN"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Gram Force"@en ; + dcterms:description "\"Gram Force\" is a unit for 'Force' expressed as \\(gf\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 0.00980665 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kilogram-force"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kilogram-force?oldid=493375479"^^xsd:anyURI ; + ns1:symbol "gf"^^xsd:string ; + ns1:ucumCode "gf"^^ns1:UCUMcs ; + ns1:udunitsCode "gf"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kip"@en ; + dcterms:description "1000 pound-force"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 4448.222 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kip"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kip?oldid=492552722"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "kip"^^xsd:string ; + ns1:ucumCode "k[lbf_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M75"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilogram Force"@en ; + dcterms:description "\"Kilogram Force\" is a unit for 'Force' expressed as \\(kgf\\)."^^ns1:LatexString ; + ns1:conversionMultiplier 9.80665 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kilogram-force"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kilogram-force?oldid=493375479"^^xsd:anyURI ; + ns1:symbol "kgf"^^xsd:string ; + ns1:ucumCode "kgf"^^ns1:UCUMcs ; + ns1:udunitsCode "kgf"^^xsd:string ; + ns1:uneceCommonCode "B37"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "KiloPound Force"@en ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 4448.222 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "klbf"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilonewton"@en ; + dcterms:description "1 000-fold of the SI derived unit newton"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA573"^^xsd:string ; + ns1:plainTextDescription "1 000-fold of the SI derived unit newton"^^xsd:string ; + ns1:prefix ; + ns1:symbol "kN"^^xsd:string ; + ns1:ucumCode "kN"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B47"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Kilopond"@en ; + dcterms:description "illegal unit of the weight, defined as mass of 1 kg which receives a weight of 1 kp through gravitation at sea level, which equates to a force of 9,806 65 newton"^^rdf:HTML ; + ns1:conversionMultiplier 9.80665 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB059"^^xsd:string ; + ns1:plainTextDescription "illegal unit of the weight, defined as mass of 1 kg which receives a weight of 1 kp through gravitation at sea level, which equates to a force of 9,806 65 newton"^^xsd:string ; + ns1:symbol "kp"^^xsd:string ; + ns1:uneceCommonCode "B51"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Pound Force"@en ; + dcterms:description "\"Pound Force\" is an Imperial unit for 'Force' expressed as \\(lbf\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 4.448222 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pound-force"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Pound-force?oldid=453191483"^^xsd:anyURI ; + ns1:symbol "lbf"^^xsd:string ; + ns1:ucumCode "[lbf_av]"^^ns1:UCUMcs ; + ns1:udunitsCode "lbf"^^xsd:string ; + ns1:uneceCommonCode "C78"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Mega Pound Force"@en ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 4448.222 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pound-force"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Pound-force?oldid=453191483"^^xsd:anyURI ; + ns1:symbol "Mlbf"^^xsd:string ; + ns1:ucumCode "M[lbf_av]"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Meganewton"@en ; + dcterms:description "1,000,000-fold of the SI derived unit newton"^^rdf:HTML ; ns1:applicableSystem , , , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Newton"^^xsd:anyURI ; - ns1:derivedCoherentUnitOfSystem ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA235"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Newton?oldid=488427661"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "N"^^xsd:string ; - ns1:ucumCode "N"^^ns1:UCUMcs ; - ns1:udunitsCode "N"^^xsd:string ; - ns1:uneceCommonCode "NEW"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA213"^^xsd:string ; + ns1:plainTextDescription "1,000,000-fold of the SI derived unit newton"^^xsd:string ; + ns1:prefix ; + ns1:symbol "MN"^^xsd:string ; + ns1:ucumCode "MN"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B73"^^xsd:string ; rdfs:isDefinedBy . -s223:Property a s223:Class, - sh:NodeShape ; - rdfs:label "Property"^^xsd:string ; - rdfs:comment """An attribute, quality, or characteristic of a feature of interest. + a ns1:Unit ; + rdfs:label "Micronewton"@en ; + dcterms:description "0.000001-fold of the SI derived unit newton"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA070"^^xsd:string ; + ns1:plainTextDescription "0.000001-fold of the SI derived unit newton"^^xsd:string ; + ns1:prefix ; + ns1:symbol "μN"^^xsd:string ; + ns1:ucumCode "uN"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B92"^^xsd:string ; + rdfs:isDefinedBy . -The Property class is the parent of all variations of a property, which are: -ActuatableProperty - parent of subclass of properties that can be modified by user or machine outside of the model (typically command); -ObservableProperty - parent of subclass of properties that are observed (typically measures); -EnumerableProperty - parent of subclass of properties defined by EnumerationKind; -QuantifiableProperty - parent of subclass of properties defined by numerical values. + a ns1:Unit ; + rdfs:label "Millinewton"@en ; + dcterms:description "0.001-fold of the SI derived unit newton"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA793"^^xsd:string ; + ns1:plainTextDescription "0.001-fold of the SI derived unit newton"^^xsd:string ; + ns1:prefix ; + ns1:symbol "mN"^^xsd:string ; + ns1:ucumCode "mN"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C20"^^xsd:string ; + rdfs:isDefinedBy . -And their different associations : -QuantifiableActuatableProperty, -QuantifiableObservableProperty, -EnumeratedObservableProperty, -EnumeratedActuatableProperty. + a ns1:Unit ; + rdfs:label "Imperial Ounce Force"@en ; + dcterms:description "\"Ounce Force\" is an Imperial unit for 'Force' expressed as \\(ozf\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.278013875 ; + ns1:definedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "ozf"^^xsd:string ; + ns1:ucumCode "[ozf_av]"^^ns1:UCUMcs ; + ns1:udunitsCode "ozf"^^xsd:string ; + ns1:uneceCommonCode "L40"^^xsd:string ; + rdfs:isDefinedBy . -A QuantifiableProperty (or subClass thereof) must always be associated with a Unit and a QuantityKind, either explicitly from the Property, -or through the associated Value. If the Unit is defined, the SHACL reasoner (if invoked) will figure out and assert the QuantityKind (the most general version). + a ns1:Unit ; + rdfs:label "Poundal"@en ; + dcterms:description "The poundal is a unit of force that is part of the foot-pound-second system of units, in Imperial units introduced in 1877, and is from the specialized subsystem of English absolute (a coherent system). The poundal is defined as the force necessary to accelerate 1 pound-mass to 1 foot per second per second. \\(1 pdl = 0.138254954376 N\\) exactly."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.138254954376 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Poundal"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB233"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Poundal?oldid=494626458"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "pdl"^^xsd:string ; + ns1:ucumCode "[lb_av].[ft_i].s-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M76"^^xsd:string ; + rdfs:isDefinedBy . -Enumerable properties must be associated with an EnumerationKind. Different flavors of properties are shown in Figure 12-1. + a ns1:Unit ; + rdfs:label "Planck Force"@en ; + dcterms:description "Planck force is the derived unit of force resulting from the definition of the base Planck units for time, length, and mass. It is equal to the natural unit of momentum divided by the natural unit of time."^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.21027e+44, + 121027000000000000000000000000000000000000000.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_force"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_force?oldid=493643031"^^xsd:anyURI ; + ns1:symbol "planckforce"^^xsd:string ; + rdfs:isDefinedBy . -![Different flavors of Properties](figures/Figure_12-1_Flavors_of_Properties.svg) + a ns1:Unit ; + rdfs:label "Ton Force (US Short)"@en ; + dcterms:description "unit of the force according to the American system of units"^^rdf:HTML ; + ns1:applicableSystem ; + ns1:conversionMultiplier 8896.443230521 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB021"^^xsd:string ; + ns1:plainTextDescription "unit of the force according to the American system of units"^^xsd:string ; + ns1:symbol "tonf{us}"^^xsd:string ; + ns1:ucumCode "[stonf_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "L94"^^xsd:string ; + rdfs:isDefinedBy . -A property that is not an instance of one of its subclasses is unconstrained -with respect to its value. -"""^^xsd:string ; - rdfs:subClassOf s223:Concept ; - sh:property [ rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; - sh:path s223:hasInternalReference ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; - sh:message "s223: {$this} cannot have both a hasInternalReference and a hasValue relation."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this -WHERE { -$this s223:hasInternalReference ?int . -$this s223:hasValue ?val . -} -"""^^xsd:string ] ], - [ rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; - sh:path s223:hasInternalReference ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; - sh:message "s223: {$this} cannot have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this -WHERE { -$this s223:hasInternalReference ?int . -$this s223:hasExternalReference ?ext . -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; - sh:class s223:EnumerationKind ; - sh:message "s223: If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; - sh:path s223:hasAspect ], - [ rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; - sh:path s223:hasValue ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; - sh:message "s223: {$this} cannot have both a hasExternalReference and a hasValue relation."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this -WHERE { -$this s223:hasExternalReference ?ext . -$this s223:hasValue ?val . -} -"""^^xsd:string ] ], - [ rdfs:comment "An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; - sh:maxCount 1 ; - sh:message "s223: An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; - sh:path [ sh:inversePath s223:observes ] ], - [ rdfs:comment "A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; - sh:maxCount 1 ; - sh:message "s223: A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; - sh:path s223:hasValue ], - [ rdfs:comment "A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; - sh:class s223:Function ; - sh:maxCount 1 ; - sh:message "s223: A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; - sh:path [ sh:inversePath s223:hasOutput ] ], - [ rdfs:comment ""^^xsd:string ; - sh:path s223:ofConstituent ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "If an incoming relation composedOf exists, then the Property must have a declared substance using the relation ofConstituent."^^xsd:string ; - sh:message "s223: Property {$this} is referred to by {?something} with s223:composedOf, but the Property has no value for s223:ofConstituent."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?something -WHERE { -?something s223:composedOf $this . -FILTER NOT EXISTS {$this s223:ofConstituent ?someSubstance} . -} -"""^^xsd:string ] ], - [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; - sh:class s223:Substance-Medium ; - sh:maxCount 1 ; - sh:message "s223: A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; - sh:path s223:ofMedium ], - [ rdfs:comment "If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; - sh:class s223:ExternalReference ; - sh:message "s223: If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; - sh:path s223:hasExternalReference ], - [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; - sh:class s223:EnumerationKind-Substance ; - sh:maxCount 1 ; - sh:message "s223: A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; - sh:path s223:ofSubstance ], - [ rdfs:comment "If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; - sh:class s223:Property ; - sh:message "s223: If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; - sh:path s223:hasInternalReference ] ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "A Property instance cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; - sh:message "s223: {$this} cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this -WHERE { -$this a/rdfs:subClassOf* s223:ActuatableProperty . -$this a/rdfs:subClassOf* s223:ObservableProperty . -} -"""^^xsd:string ] . +ns2:GraphRole a owl:Class ; + rdfs:label "Graph role"^^xsd:string ; + dcterms:description "GraphRole is used to characterize how a graph of resources participates in an ontology set. For example, a graph can be a schema, vocabulary, dataset, script, or ruleset"^^xsd:string ; + rdfs:isDefinedBy , + ; + rdfs:subClassOf [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:description ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:description ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:filePrefix ], + [ a owl:Restriction ; + owl:maxCardinality 1 ; + owl:onProperty ns2:filePrefix ], + owl:Thing . - a ns1:QuantityKind ; - rdfs:label "Heat Flow Rate"@en ; - dcterms:description "The rate of heat flow between two systems is measured in watts (joules per second). The formula for rate of heat flow is $\\bigtriangleup Q / \\bigtriangleup t = -K \\times A \\times \\bigtriangleup T/x$, where $\\bigtriangleup Q / \\bigtriangleup t$ is the rate of heat flow; $-K$ is the thermal conductivity factor; A is the surface area; $\\bigtriangleup T$ is the change in temperature and $x$ is the thickness of the material. $\\bigtriangleup T/ x$ is called the temperature gradient and is always negative because of the heat of flow always goes from more thermal energy to less)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:expression "$heat-flow-rate$"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Rate_of_heat_flow"^^xsd:anyURI ; - ns1:latexSymbol "$\\Phi$"^^ns1:LatexString ; - rdfs:isDefinedBy ; - skos:broader . +s223:Numerical-LineNeutralVoltage a s223:Class, + s223:Numerical-LineNeutralVoltage, + sh:NodeShape ; + rdfs:label "Dimensioned Line-Neutral Voltage"^^xsd:string ; + s223:hasVoltage s223:Numerical-Voltage ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common line-neutral voltages."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical ; + sh:property [ rdfs:comment "An AC-Numerical-LineNeutralVoltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ], + [ rdfs:comment "An AC-Numerical-LineNeutralVoltage must have a voltage"^^xsd:string ; + sh:class s223:Numerical-Voltage ; + sh:minCount 1 ; + sh:path s223:hasVoltage ] . + +s223:hasAspect a rdf:Property ; + rdfs:label "has aspect"^^xsd:string ; + rdfs:comment "hasAspect is used to establish the context of a Property. The value must be an instance of EnumerationKind. For example, if a Property has a Temperature value of 45.3, the hasAspect relation is used to state what that represents, such as a Temperature limit during working hours, etc. A Property can have any number of hasAspect relations, as needed to establish the context."^^xsd:string . + +s223:hasEnumerationKind a rdf:Property ; + rdfs:label "has enumeration kind"^^xsd:string ; + rdfs:comment "The relation hasEnumerationKind is used to associate an EnumerableProperty with a class of enumeration values. This is used to, for example, identify what kind of substance is transported along a Connection or which day of the week a setpoint is active."^^xsd:string . + +s223:mapsTo a rdf:Property ; + rdfs:label "mapsTo"^^xsd:string ; + rdfs:comment "The relation mapsTo is used to associate a ConnectionPoint of a Connectable to a corresponding ConnectionPoint of the one containing it (see `pub:equipment-containment`). The associated ConnectionPoints must have the same direction (see `s223:EnumerationKind-Direction`) and compatiable medium Substance-Medium."^^xsd:string . a ns1:QuantityKind ; rdfs:label "Information Entropy"@en ; - dcterms:description "Information Entropy is a concept from information theory. It tells how much information there is in an event. In general, the more uncertain or random the event is, the more information it will contain. The concept of information entropy was created by a mathematician. He was named Claude Elwood Shannon. It has applications in many areas, including lossless data compression, statistical inference, cryptography and recently in other disciplines as biology, physics or machine learning."^^rdf:HTML ; + dcterms:description "Information Entropy is a concept from information theory. It tells how much information there is in an event. In general, the more uncertain or random the event is, the more information it will contain. The concept of information entropy was created by a mathematician. He was named Claude Elwood Shannon. It has applications in many areas, including lossless data compression, statistical inference, cryptography and recently in other disciplines as biology, physics or machine learning."^^ns1:LatexString, + "Information Entropy is a concept from information theory. It tells how much information there is in an event. In general, the more uncertain or random the event is, the more information it will contain. The concept of information entropy was created by a mathematician. He was named Claude Elwood Shannon. It has applications in many areas, including lossless data compression, statistical inference, cryptography and recently in other disciplines as biology, physics or machine learning."^^rdf:HTML ; ns1:applicableUnit , , , @@ -75990,279 +84485,311 @@ $this a/rdfs:subClassOf* s223:ObservableProperty . ns1:hasDimensionVector ; ns1:informativeReference "http://simple.wikipedia.org/wiki/Information_entropy"^^xsd:anyURI ; ns1:plainTextDescription "Information Entropy is a concept from information theory. It tells how much information there is in an event. In general, the more uncertain or random the event is, the more information it will contain. The concept of information entropy was created by a mathematician. He was named Claude Elwood Shannon. It has applications in many areas, including lossless data compression, statistical inference, cryptography and recently in other disciplines as biology, physics or machine learning."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:InformationEntropy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKind ; - rdfs:label "Mass per Area"@en ; - dcterms:description "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area. The SI derived unit is: kilogram per square metre ($kg \\cdot m^{-2}$)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Area_density"^^xsd:anyURI ; - ns1:latexDefinition "$\\rho_A = \\frac {m} {A}$"^^ns1:LatexString ; - ns1:latexSymbol "$\\rho_A $"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Gigahertz Metre"@en, - "Gigahertz Meter"@en-us ; - dcterms:description "product of the 1,000,000,000-fold of the SI derived unit hertz and the SI base unit metre"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA151"^^xsd:string ; - ns1:plainTextDescription "product of the 1 000 000 000-fold of the SI derived unit hertz and the SI base unit metre"^^xsd:string ; - ns1:symbol "GHz⋅M"^^xsd:string ; - ns1:ucumCode "GHz.m"^^ns1:UCUMcs ; - ns1:uneceCommonCode "M18"^^xsd:string ; + a ns1:Unit ; + rdfs:label "Degree Rankine"@en ; + dcterms:description "Rankine is a thermodynamic (absolute) temperature scale. The symbol for degrees Rankine is \\(^\\circ R\\) or \\(^\\circ Ra\\) if necessary to distinguish it from the Rømer and Réaumur scales). Zero on both the Kelvin and Rankine scales is absolute zero, but the Rankine degree is defined as equal to one degree Fahrenheit, rather than the one degree Celsius used by the Kelvin scale. A temperature of \\(-459.67 ^\\circ F\\) is exactly equal to \\(0 ^\\circ R\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.5555555555555556 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA050"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Rankine_scale"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "°R"^^xsd:string ; + ns1:ucumCode "[degR]"^^ns1:UCUMcs ; + ns1:udunitsCode "°R"^^xsd:string ; + ns1:uneceCommonCode "A48"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Reciprocal Metre"@en, - "Reciprocal Meter"@en-us ; - dcterms:description "Per Meter Unit is a denominator unit with dimensions \\(/m\\)."^^ns1:LatexString ; + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "نيوتن"@ar, + "нютон"@bg, + "newton"@cs, + "Newton"@de, + "νιούτον"@el, + "Newton"@en, + "newton"@en, + "newton"@es, + "نیوتن"@fa, + "newton"@fr, + "ניוטון"@he, + "न्यूटन"@hi, + "newton"@hu, + "newton"@it, + "ニュートン"@ja, + "newtonium"@la, + "newton"@ms, + "niuton"@pl, + "newton"@pt, + "newton"@ro, + "ньютон"@ru, + "newton"@sl, + "newton"@tr, + "牛顿"@zh ; + dcterms:description "The \"Newton\" is the SI unit of force. A force of one newton will accelerate a mass of one kilogram at the rate of one meter per second per second. The newton is named for Isaac Newton (1642-1727), the British mathematician, physicist, and natural philosopher. He was the first person to understand clearly the relationship between force (F), mass (m), and acceleration (a) expressed by the formula \\(F = m \\cdot a\\)."^^ns1:LatexString ; ns1:applicableSystem , , , ; ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Newton"^^xsd:anyURI ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(per-meter\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - ; - ns1:symbol "/m"^^xsd:string ; - ns1:ucumCode "/m"^^ns1:UCUMcs, - "m-1"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C92"^^xsd:string ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA235"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Newton?oldid=488427661"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "N"^^xsd:string ; + ns1:ucumCode "N"^^ns1:UCUMcs ; + ns1:udunitsCode "N"^^xsd:string ; + ns1:uneceCommonCode "NEW"^^xsd:string ; rdfs:isDefinedBy . - -s223:QuantifiableProperty a s223:Class, - sh:NodeShape ; - rdfs:label "Quantifiable Property"^^xsd:string ; - rdfs:comment "This class is for quantifiable values that describe an object (System, Equipment, etc.) that are typically static (hasValue). That is, they are neither measured nor specified in the course of operations."^^xsd:string ; - rdfs:subClassOf s223:Property ; - sh:property [ rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; - sh:path ns1:hasQuantityKind ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; - sh:message "s223: {$this} uses QuantityKind {?pqk} with DimensionVector {?pdv}, while Setpoint {?setpoint} uses QuantityKind {?sqk} with DimensionVector {?sdv}. These are non-commensurate"^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?setpoint ?pqk ?sqk ?pdv ?sdv -WHERE { -$this qudt:hasQuantityKind ?pqk . -$this s223:hasSetpoint ?setpoint . -?setpoint qudt:hasQuantityKind ?sqk . -?pqk qudt:hasDimensionVector ?pdv . -?sqk qudt:hasDimensionVector ?sdv . -FILTER (?pqk != ?sqk) . -FILTER (?pdv != ?sdv) . -} -"""^^xsd:string ] ], - [ rdfs:comment """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single -unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation -qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; - sh:class ns1:QuantityValue ; - sh:message """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single -unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation -qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; - sh:path ns1:quantityValue ], - [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; - sh:maxCount 0 ; - sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; - sh:path ns1:value ], - [ rdfs:comment """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. -If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a -temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which -affects unit conversion calculations."""^^xsd:string ; - sh:datatype xsd:boolean ; - sh:maxCount 1 ; - sh:message """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. -If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a -temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which -affects unit conversion calculations."""^^xsd:string ; - sh:path ns1:isDeltaQuantity ], - [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; - sh:maxCount 0 ; - sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; - sh:path ns1:value ], - [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; - sh:path s223:hasValue ; + +s223:Connectable a s223:Class, + sh:NodeShape ; + rdfs:label "Connectable"^^xsd:string ; + s223:abstract true ; + rdfs:comment "Connectable is an abstract class representing a thing such as, Equipment (see `s223:Equipment`), DomainSpace (see `s223:DomainSpace`), or Junction (see `s223:Junction`) that can be connected via ConnectionPoints and Connections."^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:name "SymmetricConnectableToConnectableShape"^^xsd:string ; + sh:path s223:connected ], + [ rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; + sh:path s223:cnx ; + sh:severity sh:Warning ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; - sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; + rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; + sh:message "s223: {$this} is s223:connected (high-level) to {?otherC} but not connected at the cnx-level."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?v ?subject +SELECT $this ?otherC WHERE { -$this s223:hasValue ?v . -FILTER NOT EXISTS {$this qudt:hasUnit ?u} . -?subject ?p $this . +$this s223:connected ?otherC . +FILTER NOT EXISTS {$this s223:cnx+ ?otherC} } """^^xsd:string ] ], - [ rdfs:comment "A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; - sh:class ns1:QuantityKind ; - sh:maxCount 1 ; - sh:message "s223: A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; - sh:minCount 1 ; - sh:path ns1:hasQuantityKind ], - [ rdfs:comment "This QuantifiableProperty and the associated Setpoint use non-commensurate Units."^^xsd:string ; - sh:path ns1:hasUnit ; + [ rdfs:comment "If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:path s223:connectedFrom ], + [ rdfs:comment "If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:path s223:cnx ], + [ rdfs:comment "If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:name "ConnectableToConnectableShape"^^xsd:string ; + sh:path s223:connectedTo ], + [ rdfs:comment "If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:name "EquipmentToConnectionPointShape"^^xsd:string ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; + sh:class s223:Connection ; + sh:message "s223: If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; + sh:name "EquipmentToConnectionShape"^^xsd:string ; + sh:path s223:connectedThrough ], + [ rdfs:comment "If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: If the relation hasConnectionPoint is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:name "EquipmentToConnectionPointShape"^^xsd:string ; + sh:path s223:hasConnectionPoint ], + [ rdfs:comment "If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectedFrom is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:path s223:connectedFrom ], + [ rdfs:comment "If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connected is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:name "SymmetricConnectableToConnectableShape"^^xsd:string ; + sh:path s223:connected ], + [ rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; + sh:path s223:cnx ; + sh:severity sh:Warning ; sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty and the associated Setpoint use non-commensurate Units."^^xsd:string ; - sh:message "s223: {$this} uses Unit {?punit}, while Setpoint {?setpoint} uses Unit {?sunit}. These are non-commensurate."^^xsd:string ; + rdfs:comment "If a Connectable has s223:connected or s223:connectedTo (i.e. high-level connection specification), it must also have the supporting cnx relations (low-level connection specification)."^^xsd:string ; + sh:message "s223: {$this} is s223:connected (high-level) to {?otherC} but not connected at the cnx-level."^^xsd:string ; sh:prefixes ; sh:select """ -SELECT $this ?setpoint ?punit ?sunit +SELECT $this ?otherC WHERE { -$this qudt:hasUnit ?punit . -$this s223:hasSetpoint ?setpoint . -?setpoint qudt:hasUnit ?sunit . -?punit qudt:hasDimensionVector ?pdv . -?sunit qudt:hasDimensionVector ?sdv . -FILTER (?punit != ?sunit) . -FILTER (?pdv != ?sdv) . +$this s223:connected ?otherC . +FILTER NOT EXISTS {$this s223:cnx+ ?otherC} } """^^xsd:string ] ], - [ rdfs:comment "This QuantifiableProperty uses a different Unit than the Setpoint associated with it."^^xsd:string ; - sh:path ns1:hasUnit ; - sh:severity sh:Info ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty uses a different Unit than the Setpoint associated with it."^^xsd:string ; - sh:message "s223: {$this} uses Unit {?punit}, while Setpoint {?setpoint} uses Unit {?sunit}. Be careful."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?setpoint ?punit ?sunit + [ rdfs:comment "If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; + sh:class s223:Connection ; + sh:message "s223: If the relation connectedThrough is present it must associate the Connectable with a Connection."^^xsd:string ; + sh:name "EquipmentToConnectionShape"^^xsd:string ; + sh:path s223:connectedThrough ], + [ rdfs:comment "If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:message "s223: If the relation cnx is present it must associate the Connectable with a ConnectionPoint."^^xsd:string ; + sh:path s223:cnx ], + [ rdfs:comment "If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:class s223:Connectable ; + sh:message "s223: If the relation connectedTo is present it must associate the Connectable with a Connectable."^^xsd:string ; + sh:name "ConnectableToConnectableShape"^^xsd:string ; + sh:path s223:connectedTo ] ; + sh:rule [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectedFrom relations using connectsThrough and connectsFrom."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectedFrom ?equipment .} WHERE { -$this qudt:hasUnit ?punit . -$this s223:hasSetpoint ?setpoint . -?setpoint qudt:hasUnit ?sunit . -?punit qudt:hasDimensionVector ?pdv . -?sunit qudt:hasDimensionVector ?sdv . -FILTER (?punit != ?sunit) . -FILTER (?pdv = ?sdv) . +$this s223:hasConnectionPoint ?cp . +?cp a s223:InletConnectionPoint . +?cp s223:connectsThrough/s223:connectsFrom ?equipment . } -"""^^xsd:string ] ], - [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; - sh:path s223:hasValue ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; - sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?v ?subject +"""^^xsd:string ; + sh:name "InferredEquipmentToUpstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connected relation using connectedFrom"^^xsd:string ; + sh:name "InferredEquipmentToEquipmentPropertyfromconnectedFrom"^^xsd:string ; + sh:object [ sh:path s223:connectedFrom ] ; + sh:predicate s223:connected ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectedTo relation using connectsThrough and connectsTo."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectedTo ?equipment .} WHERE { -$this s223:hasValue ?v . -FILTER NOT EXISTS {$this qudt:hasUnit ?u} . -?subject ?p $this . +$this s223:hasConnectionPoint ?cp . +?cp a s223:OutletConnectionPoint . +?cp s223:connectsThrough/s223:connectsTo ?equipment . } -"""^^xsd:string ] ], - [ rdfs:comment "A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; - sh:class ns1:Unit ; - sh:maxCount 1 ; - sh:message "s223: A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; - sh:path ns1:hasUnit ], - [ rdfs:comment "This QuantifiableProperty uses hasSetpoint to reference a Property that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; - sh:path ns1:hasAspect ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty uses hasSetpoint to reference a Property that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; - sh:message "s223: {$this} uses hasSetpoint to reference {?setpoint} that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?setpoint +"""^^xsd:string ; + sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connected relation using connectedTo"^^xsd:string ; + sh:name "InferredEquipmentToEquipmentPropertyfromconnectedTo"^^xsd:string ; + sh:object [ sh:path s223:connectedTo ] ; + sh:predicate s223:connected ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connected relation for BiDirectional connections"^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connected ?d2 .} WHERE { -$this s223:hasSetpoint ?setpoint . -FILTER NOT EXISTS {?setpoint s223:hasAspect s223:Aspect-Setpoint} . +$this s223:connectedThrough/^s223:connectedThrough ?d2 . +FILTER ($this != ?d2) . +FILTER NOT EXISTS {$this s223:contains* ?d2} . +FILTER NOT EXISTS {?d2 s223:contains* $this} . } -"""^^xsd:string ] ], - [ rdfs:comment "This QuantifiableProperty with Aspect-Setpoint is not referenced by any Property using hasSetpoint."^^xsd:string ; - sh:path ns1:hasSetpoint ; - sh:severity sh:Info ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "This QuantifiableProperty with Aspect-Setpoint is not referenced by any Property using hasSetpoint."^^xsd:string ; - sh:message "s223: {$this} has Aspect-Setpoint but is not referenced by any Property using hasSetpoint."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this +"""^^xsd:string ; + sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connected relation using connectedTo"^^xsd:string ; + sh:name "InferredEquipmentToEquipmentPropertyfromconnectedTo"^^xsd:string ; + sh:object [ sh:path s223:connectedTo ] ; + sh:predicate s223:connected ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connected relation using connectedFrom"^^xsd:string ; + sh:name "InferredEquipmentToEquipmentPropertyfromconnectedFrom"^^xsd:string ; + sh:object [ sh:path s223:connectedFrom ] ; + sh:predicate s223:connected ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the cnx relation using isConnectionPointOf."^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointCnxPropertyFromInverse"^^xsd:string ; + sh:object [ sh:path [ sh:inversePath s223:isConnectionPointOf ] ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the cnx relation using isConnectionPointOf."^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointCnxPropertyFromInverse"^^xsd:string ; + sh:object [ sh:path [ sh:inversePath s223:isConnectionPointOf ] ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectedFrom relations using connectsThrough and connectsFrom."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectedFrom ?equipment .} WHERE { -$this s223:hasAspect s223:Aspect-Setpoint . -FILTER NOT EXISTS {?anything s223:hasSetpoint $this} . +$this s223:hasConnectionPoint ?cp . +?cp a s223:InletConnectionPoint . +?cp s223:connectsThrough/s223:connectsFrom ?equipment . } -"""^^xsd:string ] ] ; - sh:rule [ a sh:SPARQLRule ; - rdfs:comment "Infer the hasQuantityKind relation if it is unambiguous."^^xsd:string ; +"""^^xsd:string ; + sh:name "InferredEquipmentToUpstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connectedThrough relation using hasConnectionPoint and connectsThrough"^^xsd:string ; + sh:name "InferredEquipmentToConnectionProperty"^^xsd:string ; + sh:object [ sh:path ( s223:hasConnectionPoint s223:connectsThrough ) ] ; + sh:predicate s223:connectedThrough ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the cnx relationship using hasConnectionPoint."^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointCnxProperty"^^xsd:string ; + sh:object [ sh:path s223:hasConnectionPoint ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connected relation for BiDirectional connections"^^xsd:string ; sh:construct """ -CONSTRUCT { -$this qudt:hasQuantityKind ?uniqueqk -} -WHERE { -{ -SELECT $this (COUNT (DISTINCT (?qk)) AS ?count) +CONSTRUCT {$this s223:connected ?d2 .} WHERE { -FILTER (NOT EXISTS {$this qudt:hasQuantityKind ?something}) . -$this qudt:hasUnit/qudt:hasQuantityKind ?qk . -} -GROUP BY $this -} -FILTER (?count = 1) -$this qudt:hasUnit/qudt:hasQuantityKind ?uniqueqk . +$this s223:connectedThrough/^s223:connectedThrough ?d2 . +FILTER ($this != ?d2) . +FILTER NOT EXISTS {$this s223:contains* ?d2} . +FILTER NOT EXISTS {?d2 s223:contains* $this} . } """^^xsd:string ; - sh:prefixes ] ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Checks for consistent dimension vectors for a QuantityKind and the Unit"^^xsd:string ; - sh:message "s223: Inconsistent dimensionalities among the Property's Unit and Property's Quantity Kind"^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this - WHERE -{ - $this qudt:hasQuantityKind/qudt:hasDimensionVector ?qkdv1 . - $this qudt:hasUnit/qudt:hasDimensionVector ?qkdv2 . -FILTER (?qkdv1 != ?qkdv2) . + sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the connectedThrough relation using hasConnectionPoint and connectsThrough"^^xsd:string ; + sh:name "InferredEquipmentToConnectionProperty"^^xsd:string ; + sh:object [ sh:path ( s223:hasConnectionPoint s223:connectsThrough ) ] ; + sh:predicate s223:connectedThrough ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the cnx relationship using hasConnectionPoint."^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointCnxProperty"^^xsd:string ; + sh:object [ sh:path s223:hasConnectionPoint ] ; + sh:predicate s223:cnx ; + sh:subject sh:this ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the connectedTo relation using connectsThrough and connectsTo."^^xsd:string ; + sh:construct """ +CONSTRUCT {$this s223:connectedTo ?equipment .} +WHERE { +$this s223:hasConnectionPoint ?cp . +?cp a s223:OutletConnectionPoint . +?cp s223:connectsThrough/s223:connectsTo ?equipment . } -"""^^xsd:string ] . +"""^^xsd:string ; + sh:name "InferredEquipmentToDownstreamEquipmentProperty"^^xsd:string ; + sh:prefixes ], + [ a sh:TripleRule ; + rdfs:comment "Infer the hasConnectionPoint relation using cnx"^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointProperty"^^xsd:string ; + sh:object [ sh:path s223:cnx ] ; + sh:predicate s223:hasConnectionPoint ; + sh:subject sh:this ], + [ a sh:TripleRule ; + rdfs:comment "Infer the hasConnectionPoint relation using cnx"^^xsd:string ; + sh:name "InferredEquipmentToConnectionPointProperty"^^xsd:string ; + sh:object [ sh:path s223:cnx ] ; + sh:predicate s223:hasConnectionPoint ; + sh:subject sh:this ] . ns1:PropertiesGroup a sh:PropertyGroup ; rdfs:label "Properties"^^xsd:string ; @@ -76282,26 +84809,14 @@ ns1:PropertiesGroup a sh:PropertyGroup ; ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-3 I^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E2L-3I0M-1H0T3D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 2 ; - ns1:dimensionExponentForLength -3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass -1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 3 ; - ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^2 M T^-3 I^-1$"^^ns1:LatexString, + "\\(L^2 M T^-3 I^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Thermal Energy"@en ; - dcterms:description "\"Thermal Energy} is the portion of the thermodynamic or internal energy of a system that is responsible for the temperature of the system. From a macroscopic thermodynamic description, the thermal energy of a system is given by its constant volume specific heat capacity C(T), a temperature coefficient also called thermal capacity, at any given absolute temperature (T): $U_{thermal} = C(T) \\cdot T$."^^ns1:LatexString ; + dcterms:description "\"Thermal Energy\" is the portion of the thermodynamic or internal energy of a system that is responsible for the temperature of the system. From a macroscopic thermodynamic description, the thermal energy of a system is given by its constant volume specific heat capacity C(T), a temperature coefficient also called thermal capacity, at any given absolute temperature (T): $U_{thermal} = C(T) \\cdot T$."^^ns1:LatexString, + "\"Thermal Energy} is the portion of the thermodynamic or internal energy of a system that is responsible for the temperature of the system. From a macroscopic thermodynamic description, the thermal energy of a system is given by its constant volume specific heat capacity C(T), a temperature coefficient also called thermal capacity, at any given absolute temperature (T): $U_{thermal} = C(T) \\cdot T$."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -76334,73 +84849,169 @@ ns1:PropertiesGroup a sh:PropertyGroup ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD191"^^xsd:string ; ns1:informativeReference "http://en.wikipedia.org/wiki/Thermal_energy"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:ThermalEnergy"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:DerivedUnit, + a ns1:QuantityKind ; + rdfs:label "درجة الحرارة المطلقة"@ar, + "Термодинамична температура"@bg, + "Termodynamická teplota"@cs, + "thermodynamische Temperatur"@de, + "Απόλυτη"@el, + "thermodynamic temperature"@en, + "temperatura"@es, + "دمای ترمودینامیکی"@fa, + "température thermodynamique"@fr, + "טמפרטורה מוחלטת"@he, + "ऊष्मगतिकीय तापमान"@hi, + "abszolút hőmérséklet"@hu, + "temperatura termodinamica"@it, + "熱力学温度"@ja, + "temperatura thermodynamica absoluta"@la, + "Suhu termodinamik"@ms, + "temperatura"@pl, + "temperatura"@pt, + "temperatură termodinamică"@ro, + "Термодинамическая температура"@ru, + "temperatura"@sl, + "termodinamik sıcaklık"@tr, + "热力学温度"@zh ; + dcterms:description """Thermodynamic temperature is the absolute measure of temperature and is one of the principal parameters of thermodynamics. +Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. +In thermodynamics, in a system of which the entropy is considered as an independent externally controlled variable, absolute, or thermodynamic temperature is defined as the derivative of the internal energy with respect to the entropy. This is a base quantity in the International System of Quantities, ISQ, on which the International System of Units, SI, is based."""^^xsd:string ; + ns1:applicableUnit , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/page/Thermodynamic_temperature"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD196"^^xsd:string ; + ns1:latexSymbol "$\\Theta$"^^ns1:LatexString ; + ns1:plainTextDescription """Thermodynamic temperature is the absolute measure of temperature and is one of the principal parameters of thermodynamics. +Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. +In thermodynamics, in a system of which the entropy is considered as an independent externally controlled variable, absolute, or thermodynamic temperature is defined as the derivative of the internal energy with respect to the entropy. This is a base quantity in the International System of Quantities, ISQ, on which the International System of Units, SI, is based."""^^xsd:string ; + ns1:siExactMatch ; + ns1:symbol "T"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ThermodynamicTemperature"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + skos:altLabel "Θερμοδυναμική Θερμοκρασία"@el, + "temperatura assoluta"@it ; + skos:broader . + + a ns1:DerivedUnit, ns1:Unit ; - rdfs:label "متر في الثانية"@ar, - "метър в секунда"@bg, - "metr za sekundu"@cs, - "Meter je Sekunde"@de, - "μέτρο ανά δευτερόλεπτο"@el, - "metre per second"@en, - "Meter per Second"@en-us, - "metro por segundo"@es, - "متر بر ثانیه"@fa, - "mètre par seconde"@fr, - "מטרים לשנייה"@he, - "मीटर प्रति सैकिण्ड"@hi, - "metro al secondo"@it, - "メートル毎秒"@ja, - "metra per secundum"@la, - "meter per saat"@ms, - "metr na sekundę"@pl, - "metro por segundo"@pt, - "metru pe secundă"@ro, - "метр в секунду"@ru, - "meter na sekundo"@sl, - "metre bölü saniye"@tr, - "米每秒"@zh ; - dcterms:description """Metre per second is an SI derived unit of both speed (scalar) and velocity (vector quantity which specifies both magnitude and a specific direction), defined by distance in metres divided by time in seconds. -The official SI symbolic abbreviation is mu00b7s-1, or equivalently either m/s."""^^rdf:HTML ; + rdfs:label "هرتز"@ar, + "херц"@bg, + "hertz"@cs, + "Hertz"@de, + "χερτζ"@el, + "Hertz"@en, + "hertz"@en, + "hercio"@es, + "هرتز"@fa, + "hertz"@fr, + "הרץ"@he, + "हर्ट्ज"@hi, + "hertz"@hu, + "hertz"@it, + "ヘルツ"@ja, + "hertzium"@la, + "hertz"@ms, + "herc"@pl, + "hertz"@pt, + "hertz"@ro, + "герц"@ru, + "hertz"@sl, + "hertz"@tr, + "赫兹"@zh ; + dcterms:description "The hertz (symbol Hz) is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon. One of its most common uses is the description of the sine wave, particularly those used in radio and audio applications, such as the frequency of musical tones. The word \"hertz\" is named for Heinrich Rudolf Hertz, who was the first to conclusively prove the existence of electromagnetic waves."^^rdf:HTML ; ns1:applicableSystem , , , - ; + , + , + ; ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Hertz"^^xsd:anyURI ; ns1:definedUnitOfSystem ; ns1:derivedCoherentUnitOfSystem ; - ns1:expression "\\(m/s\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA733"^^xsd:string ; - ns1:symbol "m/s"^^xsd:string ; - ns1:ucumCode "m.s-1"^^ns1:UCUMcs, - "m/s"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MTS"^^xsd:string ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA170"^^xsd:string ; + ns1:omUnit ; + ns1:symbol "Hz"^^xsd:string ; + ns1:ucumCode "Hz"^^ns1:UCUMcs ; + ns1:udunitsCode "Hz"^^xsd:string ; + ns1:uneceCommonCode "HTZ"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "PlanckTemperature"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 141678400000000000000000000000000.0, + 1.416784e+32 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; + ns1:symbol "plancktemperature"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "ثانية"@ar, + "секунда"@bg, + "sekunda"@cs, + "Sekunde"@de, + "δευτερόλεπτο"@el, + "Second"@en, + "second"@en, + "segundo"@es, + "ثانیه"@fa, + "seconde"@fr, + "שנייה"@he, + "सैकण्ड"@hi, + "másodperc"@hu, + "secondo"@it, + "秒"@ja, + "secundum"@la, + "saat"@ms, + "sekunda"@pl, + "segundo"@pt, + "secundă"@ro, + "секунда"@ru, + "sekunda"@sl, + "saniye"@tr, + "秒"@zh ; + dcterms:description """The \\(Second\\) (symbol: \\(s\\)) is the base unit of time in the International System of Units (SI) and is also a unit of time in other systems of measurement. Between the years1000 (when al-Biruni used seconds) and 1960 the second was defined as \\(1/86400\\) of a mean solar day (that definition still applies in some astronomical and legal contexts). Between 1960 and 1967, it was defined in terms of the period of the Earth's orbit around the Sun in 1900, but it is now defined more precisely in atomic terms. +Under the International System of Units (via the International Committee for Weights and Measures, or CIPM), since 1967 the second has been defined as the duration of \\({9192631770}\\) periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium 133 atom.In 1997 CIPM added that the periods would be defined for a caesium atom at rest, and approaching the theoretical temperature of absolute zero, and in 1999, it included corrections from ambient radiation."""^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Second"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA972"^^xsd:string, + "0112/2///62720#UAD722"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Second?oldid=495241006"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "s"^^xsd:string ; + ns1:ucumCode "s"^^ns1:UCUMcs ; + ns1:udunitsCode "s"^^xsd:string ; + ns1:uneceCommonCode "SEC"^^xsd:string ; rdfs:isDefinedBy . -sh:Info a sh:Severity ; - rdfs:label "Info"@en ; - rdfs:comment "The severity for an informational validation result."@en ; - rdfs:isDefinedBy sh: . - -s223:Fluid-Water a s223:Class, - s223:Fluid-Water, - sh:NodeShape ; - rdfs:label "Fluid-Water"^^xsd:string ; - s223:composedOf [ a s223:QuantifiableProperty ; - rdfs:label "Water conc"^^xsd:string ; - s223:ofConstituent s223:Constituent-H2O ; - ns1:hasQuantityKind ; - ns1:hasUnit ] ; - rdfs:comment "This class has enumerated subclasses of water and aqueous solutions in various states."^^xsd:string ; - rdfs:subClassOf s223:Mix-Fluid . - a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; @@ -76414,7 +85025,8 @@ s223:Fluid-Water a s223:Class, ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^{-2} M T^{-1}\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^{-2} M T^{-1}$"^^ns1:LatexString, + "\\(L^{-2} M T^{-1}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_ISO, @@ -76430,217 +85042,185 @@ s223:Fluid-Water a s223:Class, ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T^-2 Θ^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T^-2 Θ^-1$"^^ns1:LatexString, + "\\(L^2 T^-2 Θ^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Angle"@en ; - dcterms:description "The abstract notion of angle. Narrow concepts include plane angle and solid angle. While both plane angle and solid angle are dimensionless, they are actually length/length and area/area respectively."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Angle"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - rdfs:isDefinedBy ; - skos:broader . - -sh:Warning a sh:Severity ; - rdfs:label "Warning"@en ; - rdfs:comment "The severity for a warning validation result."@en ; - rdfs:isDefinedBy sh: . - - a ns1:QuantityKind ; - rdfs:label "Temperature"@en ; - dcterms:description "Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. Objects of low temperature are cold, while various degrees of higher temperatures are referred to as warm or hot. Heat spontaneously flows from bodies of a higher temperature to bodies of lower temperature, at a rate that increases with the temperature difference and the thermal conductivity."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Temperature"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD374"^^xsd:string ; - ns1:plainTextDescription "Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. Objects of low temperature are cold, while various degrees of higher temperatures are referred to as warm or hot. Heat spontaneously flows from bodies of a higher temperature to bodies of lower temperature, at a rate that increases with the temperature difference and the thermal conductivity."^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E2L-3I0M-1H0T3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 2 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass -1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 3 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Volume Fraction"@en ; - dcterms:description "\"Volume Fraction\" is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing. Volume fraction is also called volume concentration in ideal solutions where the volumes of the constituents are additive (the volume of the solution is equal to the sum of the volumes of its ingredients)."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD240"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Volume_fraction"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; - ns1:latexDefinition "$\\varphi_B = \\frac{x_B V_{m,B}^*}{\\sum x_i V_{m,i}^*}$, where $V_{m,i}^*$ is the molar volume of the pure substances $i$ at the same temperature and pressure, $x_i$ denotes the amount-of-substance fraction of substance $i$, and $\\sum$ denotes summation over all substances $i$."^^ns1:LatexString ; - ns1:latexSymbol "$\\varphi_B$"^^ns1:LatexString ; - ns1:plainTextDescription "\"Volume Fraction\" is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing. Volume fraction is also called volume concentration in ideal solutions where the volumes of the constituents are additive (the volume of the solution is equal to the sum of the volumes of its ingredients)."^^xsd:string ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; + a ns1:QuantityKind ; + rdfs:label "Heat Flow Rate"@en ; + dcterms:description "The rate of heat flow between two systems is measured in watts (joules per second). The formula for rate of heat flow is $\\bigtriangleup Q / \\bigtriangleup t = -K \\times A \\times \\bigtriangleup T/x$, where $\\bigtriangleup Q / \\bigtriangleup t$ is the rate of heat flow; $-K$ is the thermal conductivity factor; A is the surface area; $\\bigtriangleup T$ is the change in temperature and $x$ is the thickness of the material. $\\bigtriangleup T/ x$ is called the temperature gradient and is always negative because of the heat of flow always goes from more thermal energy to less)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:expression "$heat-flow-rate$"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Rate_of_heat_flow"^^xsd:anyURI ; + ns1:latexSymbol "$\\Phi$"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:HeatFlowRate"^^xsd:string ; rdfs:isDefinedBy ; - skos:broader . - - a ns1:DimensionlessUnit, - ns1:Unit ; - rdfs:label "Grade"@en ; - dcterms:description "the tangent of an angle of inclination multiplied by 100"^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Grade"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Grade?oldid=485504533"^^xsd:anyURI ; - ns1:symbol "gr"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "كلفن"@ar, - "келвин"@bg, - "kelvin"@cs, - "Kelvin"@de, - "κέλβιν"@el, - "kelvin"@en, - "kelvin"@es, - "کلوین"@fa, - "kelvin"@fr, - "קלווין"@he, - "कैल्विन"@hi, - "kelvin"@hu, - "kelvin"@it, - "ケルビン"@ja, - "kelvin"@la, - "kelvin"@ms, - "kelwin"@pl, - "kelvin"@pt, - "kelvin"@ro, - "кельвин"@ru, - "kelvin"@sl, - "kelvin"@tr, - "开尔文"@zh ; - dcterms:description "\\(The SI base unit of temperature, previously called the degree Kelvin. One kelvin represents the same temperature difference as one degree Celsius. In 1967 the General Conference on Weights and Measures defined the temperature of the triple point of water (the temperature at which water exists simultaneously in the gaseous, liquid, and solid states) to be exactly 273.16 kelvins. Since this temperature is also equal to 0.01 u00b0C, the temperature in kelvins is always equal to 273.15 plus the temperature in degrees Celsius. The kelvin equals exactly 1.8 degrees Fahrenheit. The unit is named for the British mathematician and physicist William Thomson (1824-1907), later known as Lord Kelvin after he was named Baron Kelvin of Largs.\\)"^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Kelvin"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA185"^^xsd:string, - "0112/2///62720#UAD721"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Kelvin?oldid=495075694"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "K"^^xsd:string ; - ns1:ucumCode "K"^^ns1:UCUMcs ; - ns1:udunitsCode "K"^^xsd:string ; - ns1:uneceCommonCode "KEL"^^xsd:string ; - rdfs:isDefinedBy . + skos:broader . - a ns1:Unit ; - rdfs:label "Relative Permittivity"@en ; - dcterms:description """The \\(\\textit{relative permittivity}\\) of a material under given conditions reflects the extent to which it concentrates electrostatic lines of flux. In technical terms, it is the ratio of the amount of electrical energy stored in a material by an applied voltage, relative to that stored in a vacuum. Likewise, it is also the ratio of the capacitance of a capacitor using that material as a dielectric, compared to a similar capacitor that has a vacuum as its dielectric. Relative permittivity is a dimensionless number that is in general complex. The imaginary portion of the permittivity corresponds to a phase shift of the polarization P relative to E and leads to the attenuation of electromagnetic waves passing through the medium.

-

\\(\\epsilon_r(w) = \\frac{\\epsilon(w)}{\\epsilon_O}\\)\\ where \\(\\epsilon_r(w)\\) is the complex frequency-dependent absolute permittivity of the material, and \\(\\epsilon_O\\) is the vacuum permittivity."""^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 8.854188e-12 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Relative_static_permittivity"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Relative_permittivity?oldid=489664437"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Relative_static_permittivity?oldid=334224492"^^xsd:anyURI, - "http://www.ncert.nic.in/html/learning_basket/electricity/electricity/charges%20&%20fields/absolute_permittivity.htm"^^xsd:anyURI ; - ns1:qkdvDenominator ; - ns1:qkdvNumerator ; - ns1:symbol "εᵣ"^^xsd:string ; - ns1:ucumCode "[eps_0]"^^ns1:UCUMcs ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "Mass per Area"@en ; + dcterms:description "The area density (also known as areal density, surface density, or superficial density) of a two-dimensional object is calculated as the mass per unit area. The SI derived unit is: kilogram per square metre ($kg \\cdot m^{-2}$)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Area_density"^^xsd:anyURI ; + ns1:latexDefinition "$\\rho_A = \\frac {m} {A}$"^^ns1:LatexString ; + ns1:latexSymbol "$\\rho_A $"^^ns1:LatexString ; + rdfs:comment "Applicable units are those of quantitykind:MassPerArea"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts per billion"@en ; - dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Gigahertz Metre"@en, + "Gigahertz Meter"@en-us ; + dcterms:description "product of the 1,000,000,000-fold of the SI derived unit hertz and the SI base unit metre"^^rdf:HTML ; + ns1:applicableSystem , , - , , - , - , ; - ns1:conversionMultiplier 1e-09 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAD926"^^xsd:string ; - ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; - ns1:symbol "PPB"^^xsd:string ; - ns1:ucumCode "[ppb]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "61"^^xsd:string ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA151"^^xsd:string ; + ns1:plainTextDescription "product of the 1 000 000 000-fold of the SI derived unit hertz and the SI base unit metre"^^xsd:string ; + ns1:symbol "GHz⋅M"^^xsd:string ; + ns1:ucumCode "GHz.m"^^ns1:UCUMcs ; + ns1:uneceCommonCode "M18"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts per million"@en ; - dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , + a ns1:Unit ; + rdfs:label "Reciprocal Metre"@en, + "Reciprocal Meter"@en-us ; + dcterms:description "Per Meter Unit is a denominator unit with dimensions \\(/m\\)."^^ns1:LatexString ; + ns1:applicableSystem , , - , , - , - , ; - ns1:conversionMultiplier 1e-06 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAD925"^^xsd:string ; - ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "PPM"^^xsd:string ; - ns1:ucumCode "[ppm]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "59"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(per-meter\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + ; + ns1:symbol "/m"^^xsd:string ; + ns1:ucumCode "/m"^^ns1:UCUMcs, + "m-1"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C92"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts per Ten Million"@en ; - dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "متر في الثانية"@ar, + "метър в секунда"@bg, + "metr za sekundu"@cs, + "Meter je Sekunde"@de, + "μέτρο ανά δευτερόλεπτο"@el, + "Metre per Second"@en, + "metre per second"@en, + "Meter per Second"@en-us, + "metro por segundo"@es, + "متر بر ثانیه"@fa, + "mètre par seconde"@fr, + "מטרים לשנייה"@he, + "मीटर प्रति सैकिण्ड"@hi, + "metro al secondo"@it, + "メートル毎秒"@ja, + "metra per secundum"@la, + "meter per saat"@ms, + "metr na sekundę"@pl, + "metro por segundo"@pt, + "metru pe secundă"@ro, + "метр в секунду"@ru, + "meter na sekundo"@sl, + "metre bölü saniye"@tr, + "米每秒"@zh ; + dcterms:description """Metre per second is an SI derived unit of both speed (scalar) and velocity (vector quantity which specifies both magnitude and a specific direction), defined by distance in metres divided by time in seconds. +The official SI symbolic abbreviation is mu00b7s-1, or equivalently either m/s."""^^rdf:HTML ; + ns1:applicableSystem , , - , , - , - , ; - ns1:conversionMultiplier 1e-07 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "PPTM"^^xsd:string ; + ns1:conversionMultiplier 1.0 ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:expression "\\(m/s\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA733"^^xsd:string ; + ns1:symbol "m/s"^^xsd:string ; + ns1:ucumCode "m.s-1"^^ns1:UCUMcs, + "m/s"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MTS"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -76654,7 +85234,8 @@ sh:Warning a sh:Severity ; , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; @@ -76662,40 +85243,38 @@ sh:Warning a sh:Severity ; ns1:ucumCode "[pptr]"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Practical salinity unit"^^xsd:string ; - dcterms:description "Practical salinity scale 1978 (PSS-78) is used for ionic content of seawater determined by electrical conductivity. Salinities measured using PSS-78 do not have units, but are approximately scaled to parts-per-thousand for the valid range. The suffix psu or PSU (denoting practical salinity unit) is sometimes added to PSS-78 measurement values. The addition of PSU as a unit after the value is \"formally incorrect and strongly discouraged\"."^^rdf:HTML ; - dcterms:source ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "https://en.wikipedia.org/wiki/Salinity#PSU"^^xsd:anyURI ; - ns1:symbol "PSU"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . +s223:EnumerationKind a s223:Class, + s223:EnumerationKind, + sh:NodeShape ; + rdfs:label "Enumeration kind"^^xsd:string ; + rdfs:comment """This is the encapsulating class for all EnumerationKinds. + EnumerationKinds define the (closed) set of permissible values for a given purpose. + For example, the DayOfWeek EnumerationKind enumerates the days of the week and allows no other values. - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L0I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . +EnumerationKinds are arranged in a class hierarchy tree, with the root class named EnumerationKind. Each subclass is named +starting with its immediate superclass, followed by a hyphen and a name that is unique among the sibling classes. +Each class is also an instance of itself. This unusual modeling pattern was used to achieve: + +- The ability to set an EnumerationKind value that is more general, or not yet fully specified +at the time of modeling, such as s223:Electricity-AC without having to state exactly what voltage or frequency it is. + +- The ability to use the sh:class SHACL predicate at any level in the EnumerationKind hierarchy +to constrain a value in the s223 specification, even if it is a more general one such as s223:Electricity-AC in the above example. + +Certain validation constraints exist in the standard that evaluate compatibility of EnumerationKinds. +Two values are deemed compatible if they are the same, if one is a direct ancestor (or descendant) of the other, +or if they are mixtures sharing at least one constituent."""^^xsd:string ; + rdfs:subClassOf s223:Concept . + +s223:cnx a s223:SymmetricProperty ; + rdfs:label "cnx"^^xsd:string ; + rdfs:comment "The cnx relation is a symmetric property used to associate adjacent entities in a connection path (comprised of Equipment-ConnectionPoint-Connection-ConnectionPoint-Equipment sequences)."^^xsd:string . + +ns1:hasUnit a rdf:Property ; + rdfs:label "has unit"^^xsd:string ; + dcterms:description "This property relates a system of units with a unit of measure that is either a) defined by the system, or b) accepted for use by the system and is convertible to a unit of equivalent dimension that is defined by the system. Systems of units may distinguish between base and derived units. Base units are the units which measure the base quantities for the corresponding system of quantities. The base units are used to define units for all other quantities as products of powers of the base units. Such units are called derived units for the system. Thirdly, c) a reference to the unit of measure of a quantity (variable or constant) of interest"^^rdf:HTML ; + rdfs:comment "A reference to the unit of measure of a QuantifiableProperty of interest."^^xsd:string ; + rdfs:isDefinedBy . a ns1:DecimalPrefix, ns1:Prefix ; @@ -76709,108 +85288,102 @@ sh:Warning a sh:Severity ; ns1:ucumCode "m"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Parts per thousand"@en ; - dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; - ns1:abbreviation "‰"^^xsd:string ; - ns1:applicableSystem , - , + a ns1:QuantityKind ; + rdfs:label "Angle"@en ; + dcterms:description "The abstract notion of angle. Narrow concepts include plane angle and solid angle. While both plane angle and solid angle are dimensionless, they are actually length/length and area/area respectively."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Angle"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Angle"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "كولوم"@ar, + "кулон"@bg, + "coulomb"@cs, + "Coulomb"@de, + "κουλόμπ"@el, + "Coulomb"@en, + "coulomb"@en, + "culombio"@es, + "کولمب/کولن"@fa, + "coulomb"@fr, + "קולון"@he, + "कूलम्ब"@hi, + "coulomb"@hu, + "coulomb"@it, + "クーロン"@ja, + "coulombium"@la, + "coulomb"@ms, + "kulomb"@pl, + "coulomb"@pt, + "coulomb"@ro, + "кулон"@ru, + "coulomb"@sl, + "coulomb"@tr, + "库伦"@zh ; + dcterms:description "The SI unit of electric charge. One coulomb is the amount of charge accumulated in one second by a current of one ampere. Electricity is actually a flow of charged particles, such as electrons, protons, or ions. The charge on one of these particles is a whole-number multiple of the charge e on a single electron, and one coulomb represents a charge of approximately 6.241 506 x 1018 e. The coulomb is named for a French physicist, Charles-Augustin de Coulomb (1736-1806), who was the first to measure accurately the forces exerted between electric charges."^^rdf:HTML ; + ns1:applicableSystem , , - , , - , , ; - ns1:conversionMultiplier 0.001 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; - ns1:symbol "‰"^^xsd:string ; - ns1:ucumCode "[ppth]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "NX"^^xsd:string ; - rdfs:isDefinedBy ; - skos:altLabel "per mil"^^xsd:string . - -s223:EnumerationKind-Role a s223:Class, - s223:EnumerationKind-Role, - sh:NodeShape ; - rdfs:label "Role"^^xsd:string ; - rdfs:comment """This class has enumerated subclasses of roles played by entities, such as cooling, generator, - relief, return. The use of these enumeration kinds are to indicate the **capability** of an entity to play a given - role, rather than as an indication of the role or mode being active at any given point in time. In other words, - some reversible piece of equipment might play a role of Role-Cooling at one time, and Role-Heating at another. - Such an entity would be described by two triples to indicate these two allowable roles. To determine what role - is active at a particular time is not determinable within the scope of 223, but rather through a Property with - an ExternalReference to telemetry or control data."""^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L-3I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-3 N\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Coulomb"^^xsd:anyURI ; + ns1:definedUnitOfSystem ; + ns1:derivedCoherentUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA130"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Coulomb?oldid=491815163"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "C"^^xsd:string ; + ns1:ucumCode "C"^^ns1:UCUMcs ; + ns1:udunitsCode "C"^^xsd:string ; + ns1:uneceCommonCode "COU"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A1E0L0I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 1 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(N\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + rdfs:label "Datatype Ontology"^^xsd:string ; + dcterms:author "Ralph Hodgson"^^xsd:string ; + dcterms:subject "Datatype Schema"^^xsd:string ; + dcterms:title "Datatype Ontology"^^xsd:string ; + ns2:hasGraphMetadata ns3:GMD_DTYPE ; + ns2:namespace "http://www.linkedmodel.org/schema/dtype#"^^xsd:anyURI ; + ns2:namespacePrefix "dtype"^^xsd:string ; + owl:versionIRI . - a ns1:QuantityKind ; - rdfs:label "Power Per Area"@en ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://www.physicsforums.com/library.php?do=view_item&itemid=406"^^xsd:anyURI ; - rdfs:isDefinedBy . + a ns1:DecimalPrefix, + ns1:Prefix ; + rdfs:label "Micro"@en ; + dcterms:description "\"micro\" is a decimal prefix for expressing a value with a scaling of \\(10^{-6}\\)."^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Micro"^^xsd:anyURI ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Micro?oldid=491618374"^^xsd:anyURI ; + ns1:prefixMultiplier 1e-06 ; + ns1:siExactMatch ; + ns1:symbol "μ"^^xsd:string ; + ns1:ucumCode "u"^^xsd:string ; + rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "Standard Atmosphere"@en ; dcterms:description "The standard atmosphere (symbol: atm) is an international reference pressure defined as \\(101.325 \\,kPa\\) and formerly used as unit of pressure. For practical purposes it has been replaced by the bar which is \\(100 kPa\\). The difference of about 1% is not significant for many applications, and is within the error range of common pressure gauges."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.01325e+05 ; + ns1:conversionMultiplier 101325.0, + 1.01325e+05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -76826,7 +85399,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Technical Atmosphere"@en ; dcterms:description "A technical atmosphere (symbol: at) is a non-SI unit of pressure equal to one kilogram-force per square centimeter. The symbol 'at' clashes with that of the katal (symbol: 'kat'), the SI unit of catalytic activity; a kilotechnical atmosphere would have the symbol 'kat', indistinguishable from the symbol for the katal. It also clashes with that of the non-SI unit, the attotonne, but that unit would be more likely be rendered as the equivalent SI unit. Assay ton (abbreviation 'AT') is not a unit of measurement, but a standard quantity used in assaying ores of precious metals; it is \\(29 1D6 \\,grams\\) (short assay ton) or \\(32 2D3 \\,grams\\) (long assay ton), the amount which bears the same ratio to a milligram as a short or long ton bears to a troy ounce. In other words, the number of milligrams of a particular metal found in a sample of this size gives the number of troy ounces contained in a short or long ton of ore."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 9.80665e+04 ; + ns1:conversionMultiplier 98066.5, + 9.80665e+04 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -76843,7 +85417,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Bar"@en ; dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to \\(100,000\\,Pa\\). It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000\\,Pa = 1 \\,bar \\approx 750.0616827\\, Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+05 ; + ns1:conversionMultiplier 100000.0, + 1e+05 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Bar"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind , @@ -76857,52 +85432,6 @@ s223:EnumerationKind-Role a s223:Class, ns1:uneceCommonCode "BAR"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "كولوم"@ar, - "кулон"@bg, - "coulomb"@cs, - "Coulomb"@de, - "κουλόμπ"@el, - "coulomb"@en, - "culombio"@es, - "کولمب/کولن"@fa, - "coulomb"@fr, - "קולון"@he, - "कूलम्ब"@hi, - "coulomb"@hu, - "coulomb"@it, - "クーロン"@ja, - "coulombium"@la, - "coulomb"@ms, - "kulomb"@pl, - "coulomb"@pt, - "coulomb"@ro, - "кулон"@ru, - "coulomb"@sl, - "coulomb"@tr, - "库伦"@zh ; - dcterms:description "The SI unit of electric charge. One coulomb is the amount of charge accumulated in one second by a current of one ampere. Electricity is actually a flow of charged particles, such as electrons, protons, or ions. The charge on one of these particles is a whole-number multiple of the charge e on a single electron, and one coulomb represents a charge of approximately 6.241 506 x 1018 e. The coulomb is named for a French physicist, Charles-Augustin de Coulomb (1736-1806), who was the first to measure accurately the forces exerted between electric charges."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Coulomb"^^xsd:anyURI ; - ns1:definedUnitOfSystem ; - ns1:derivedCoherentUnitOfSystem ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA130"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Coulomb?oldid=491815163"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "C"^^xsd:string ; - ns1:ucumCode "C"^^ns1:UCUMcs ; - ns1:udunitsCode "C"^^xsd:string ; - ns1:uneceCommonCode "COU"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Centibar"@en ; dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to 100,000 Pa. It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000\\,Pa = 1 bar \\approx 750.0616827 Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; @@ -76968,28 +85497,6 @@ s223:EnumerationKind-Role a s223:Class, ns1:ucumCode "dbar"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:CountingUnit, - ns1:Unit ; - rdfs:label "Fraction"@en ; - dcterms:description "Fraction is a unit for 'Dimensionless Ratio' expressed as the value of the ratio itself."^^rdf:HTML ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:conversionOffset 0.0 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:plainTextDescription "Fraction is a unit for 'Dimensionless Ratio' expressed as the value of the ratio itself."^^xsd:string ; - ns1:symbol "÷"^^xsd:string ; - ns1:ucumCode "{fraction}"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Foot of Water"@en ; dcterms:description "\"Foot of Water\" is a unit for 'Force Per Area' expressed as \\(ftH2O\\)."^^ns1:LatexString ; @@ -77038,7 +85545,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Hectobar"@en ; dcterms:description "100-fold of the unit bar"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+07 ; + ns1:conversionMultiplier 10000000.0, + 1e+07 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -77087,7 +85595,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Kilobar"@en ; dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to 100,000 Pa. It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000 Pa = 1 bar \\approx 750.0616827 Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+08 ; + ns1:conversionMultiplier 100000000.0, + 1e+08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -77132,7 +85641,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Kilogram Force Per Square Millimetre"@en, "Kilogram Force Per Square Millimeter"@en-us ; dcterms:description "not SI conform unit of the pressure"^^rdf:HTML ; - ns1:conversionMultiplier 9.80665e-07 ; + ns1:conversionMultiplier 9.80665e-07, + 9806650.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -77176,7 +85686,8 @@ s223:EnumerationKind-Role a s223:Class, rdfs:label "Megabar"@en ; dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to 100,000 Pa. It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000 Pa = 1 bar \\approx 750.0616827 Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e+11 ; + ns1:conversionMultiplier 100000000000.0, + 1e+11 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -77306,7 +85817,8 @@ s223:EnumerationKind-Role a s223:Class, , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -77336,61 +85848,468 @@ s223:EnumerationKind-Role a s223:Class, ns1:uneceCommonCode "N21"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Pressure"@en ; - ns1:applicableSystem ; - ns1:conversionMultiplier 4.63309e+113 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_pressure"^^xsd:anyURI ; - ns1:derivedUnitOfSystem ; + a ns1:Unit ; + rdfs:label "Planck Pressure"@en ; + ns1:applicableSystem ; + ns1:conversionMultiplier 4.63309e+113 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_pressure"^^xsd:anyURI ; + ns1:derivedUnitOfSystem ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_pressure?oldid=493640883"^^xsd:anyURI ; + ns1:symbol "planckpressure"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Torr"@en ; + dcterms:description "

The \\textit{torr} is a non-SI unit of pressure with the ratio of 760 to 1 standard atmosphere, chosen to be roughly equal to the fluid pressure exerted by a millimeter of mercury, i.e. , a pressure of 1 torr is approximately equal to one millimeter of mercury. Note that the symbol (Torr) is spelled exactly the same as the unit (torr), but the letter case differs. The unit is written lower-case, while the symbol of the unit (Torr) is capitalized (as upper-case), as is customary in metric units derived from names. Thus, it is correctly written either way, and is only incorrect when specification is first made that the word is being used as a unit, or else a symbol of the unit, and then the incorrect letter case for the specified use is employed."^^rdf:HTML ; + ns1:conversionMultiplier 133.322 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Torr"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAB022"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Torr?oldid=495199381"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "Torr"^^xsd:string ; + ns1:uneceCommonCode "UA"^^xsd:string ; + rdfs:isDefinedBy . + +s223:ConnectionPoint a s223:Class, + sh:NodeShape ; + rdfs:label "ConnectionPoint"^^xsd:string ; + s223:abstract true ; + rdfs:comment """ +A ConnectionPoint is an abstract modeling construct used to represent the fact that one connectable thing can be connected to another connectable thing using a Connection. It is the abstract representation of the flange, wire terminal, or other physical feature where a connection is made. Equipment, DomainSpaces and Junctions can have one or more ConnectionPoints (see `s223:Connectable`). + +A ConnectionPoint is constrained to relate to a specific medium such as air, water, or electricity which determines what other things can be connected to it. For example, constraining a ConnectionPoint to be for air means it cannot be used for an electrical connection. + +A ConnectionPoint belongs to exactly one connectable thing (see `s223:Connectable'). + +ConnectionPoints are represented graphically in this standard by a triangle with the point indicating a direction of flow, or a diamond in the case of a bidirectional flow as shown in Figure 6-1. + +![Graphical Representation of a ConnectionPoint.](figures/Figure_5-2_Graphical_Depiciton_of_Connection_Points.svg) + + """^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a mapsTo {?uppercp} and a connectsThrough {?connection}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?uppercp ?connection +WHERE { +$this s223:mapsTo ?uppercp . +$this s223:connectsThrough ?connection . +?connection a/rdfs:subClassOf* s223:Connection . +} +"""^^xsd:string ] ], + [ rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A ConnectionPoint must not have both a mapsTo and a connectsThrough relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a mapsTo {?uppercp} and a connectsThrough {?connection}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?uppercp ?connection +WHERE { +$this s223:mapsTo ?uppercp . +$this s223:connectsThrough ?connection . +?connection a/rdfs:subClassOf* s223:Connection . +} +"""^^xsd:string ] ], + [ rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; + sh:message "s223: {$this} declares a Medium of {?a}, but the Medium of {?b} is declared by {?target} pointed to by the mapsTo+ relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?a ?b ?target +WHERE { +$this s223:hasMedium ?a . +$this s223:mapsTo+ ?target . +?target s223:hasMedium ?b . +?a a/rdfs:subClassOf* s223:EnumerationKind-Medium . +?b a/rdfs:subClassOf* s223:EnumerationKind-Medium . +FILTER (?a != ?b ) . +FILTER (NOT EXISTS {?b a/rdfs:subClassOf* ?a}) . +FILTER (NOT EXISTS {?a a/rdfs:subClassOf* ?b}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; + sh:class s223:Connectable ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; + sh:minCount 1 ; + sh:name "ConnectionPointToEquipmentShape"^^xsd:string ; + sh:path s223:isConnectionPointOf ], + [ rdfs:comment "A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:name "ConnectionPoint medium"^^xsd:string ; + sh:path s223:hasMedium ], + [ rdfs:comment "If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:message "s223: If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:or ( [ sh:class s223:Aspect-ElectricalPhaseIdentifier ] [ sh:class s223:Aspect-ElectricalVoltagePhases ] ) ; + sh:path s223:hasElectricalPhase ], + [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; + sh:path [ sh:inversePath s223:mapsTo ] ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; + sh:message "s223: A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; + sh:path s223:cnx ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Connectable ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; + sh:path s223:mapsTo ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; + sh:message "s223: ConnectionPoint {$this} could be missing a mapsTo relation to a ConnectionPoint of {?containerEquipment} because it is associated with a Junction or Equipment that is contained by {?containerEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this ?containerEquipment + WHERE { + FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . + FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . + FILTER NOT EXISTS {?anything3 s223:hasBoundaryConnectionPoint $this} . + $this s223:isConnectionPointOf ?equipment . + ?containerEquipment s223:contains ?equipment . + } + """^^xsd:string ] ], + [ rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; + sh:name "Test for compatible declared Medium"^^xsd:string ; + sh:path s223:hasMedium ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure that the Medium identified by a ConnectionPoint via the s223:hasMedium relation is compatible with the Medium identified by the entity identified by the mapsTo+ relation."^^xsd:string ; + sh:message "s223: {$this} declares a Medium of {?a}, but the Medium of {?b} is declared by {?target} pointed to by the mapsTo+ relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT DISTINCT $this ?a ?b ?target +WHERE { +$this s223:hasMedium ?a . +$this s223:mapsTo+ ?target . +?target s223:hasMedium ?b . +?a a/rdfs:subClassOf* s223:EnumerationKind-Medium . +?b a/rdfs:subClassOf* s223:EnumerationKind-Medium . +FILTER (?a != ?b ) . +FILTER (NOT EXISTS {?b a/rdfs:subClassOf* ?a}) . +FILTER (NOT EXISTS {?a a/rdfs:subClassOf* ?b}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment "If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the ConnectionPoint with an EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; + sh:message "s223: A ConnectionPoint must be associated with at most one Connectable using the cnx relation."^^xsd:string ; + sh:path s223:cnx ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Connectable ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint must be associated with exactly one Substance-Medium using the relation hasMedium."^^xsd:string ; + sh:minCount 1 ; + sh:name "ConnectionPoint medium"^^xsd:string ; + sh:path s223:hasMedium ], + [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the inverse of relation mapsTo"^^xsd:string ; + sh:path [ sh:inversePath s223:mapsTo ] ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the relation connectsThrough."^^xsd:string ; + sh:class s223:Connection ; + sh:maxCount 1 ; + sh:message "s223: This ConnectionPoint must be associated with at most one Connection."^^xsd:string ; + sh:name "ConnectionPointToConnectionShape"^^xsd:string ; + sh:path s223:connectsThrough ; + sh:severity sh:Info ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; + sh:message "s223: A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; + sh:path s223:cnx ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Connection ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; + sh:path s223:mapsTo ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, but is associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint might need a mapsTo relation to a ConnectionPoint of the containing Equipment."^^xsd:string ; + sh:message "s223: ConnectionPoint {$this} could be missing a mapsTo relation to a ConnectionPoint of {?containerEquipment} because it is associated with a Junction or Equipment that is contained by {?containerEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this ?containerEquipment + WHERE { + FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . + FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . + FILTER NOT EXISTS {?anything3 s223:hasBoundaryConnectionPoint $this} . + $this s223:isConnectionPointOf ?equipment . + ?containerEquipment s223:contains ?equipment . + } + """^^xsd:string ] ], + [ rdfs:comment "A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; + sh:class s223:ConnectionPoint ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint can be associated with at most one other ConnectionPoint using the relation mapsTo"^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; + sh:message "s223: {?otherEquipment} should contain {?equipment} because ConnectionPoint {$this} has a mapsTo relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?equipment ?otherEquipment +WHERE { +$this s223:mapsTo ?otherCP . +?equipment s223:hasConnectionPoint $this . +?otherEquipment s223:hasConnectionPoint ?otherCP . +FILTER NOT EXISTS {?otherEquipment s223:contains ?equipment} +} +"""^^xsd:string ] ], + [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; + sh:path s223:connectsThrough ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; + sh:message "s223: ConnectionPoint {$this} probably needs an association with a Connection, or use of hasOptionalConnectionPoint or hasBoundaryConnectionPoint qualifiers."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this + WHERE { + FILTER NOT EXISTS {?sys1 s223:hasBoundaryConnectionPoint $this} . + FILTER NOT EXISTS {?sys2 s223:hasOptionalConnectionPoint $this} . + FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . + FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . + $this s223:isConnectionPointOf ?equipment . + FILTER NOT EXISTS {?containerEquipment s223:contains ?equipment} . + } + """^^xsd:string ] ], + [ rdfs:comment "A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; + sh:class s223:Connectable ; + sh:maxCount 1 ; + sh:message "s223: A ConnectionPoint must be associated with exactly one Connectable using the relation isConnectionPointOf."^^xsd:string ; + sh:minCount 1 ; + sh:name "ConnectionPointToEquipmentShape"^^xsd:string ; + sh:path s223:isConnectionPointOf ], + [ rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint mapsTo another ConnectionPoint, the respective Equipment should have a contains relation."^^xsd:string ; + sh:message "s223: {?otherEquipment} should contain {?equipment} because ConnectionPoint {$this} has a mapsTo relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?equipment ?otherEquipment +WHERE { +$this s223:mapsTo ?otherCP . +?equipment s223:hasConnectionPoint $this . +?otherEquipment s223:hasConnectionPoint ?otherCP . +FILTER NOT EXISTS {?otherEquipment s223:contains ?equipment} +} +"""^^xsd:string ] ], + [ rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; + sh:path s223:connectsThrough ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If a ConnectionPoint lacks a connectsThrough and mapsTo relation, and is not associated with a Junction or Equipment that is contained by an Equipment, then suggest that the ConnectionPoint probably needs an association with a Connection."^^xsd:string ; + sh:message "s223: ConnectionPoint {$this} probably needs an association with a Connection, or use of hasOptionalConnectionPoint or hasBoundaryConnectionPoint qualifiers."^^xsd:string ; + sh:prefixes ; + sh:select """ + SELECT $this + WHERE { + FILTER NOT EXISTS {?sys1 s223:hasBoundaryConnectionPoint $this} . + FILTER NOT EXISTS {?sys2 s223:hasOptionalConnectionPoint $this} . + FILTER NOT EXISTS {$this s223:connectsThrough ?anything1} . + FILTER NOT EXISTS {$this s223:mapsTo ?anything2} . + $this s223:isConnectionPointOf ?equipment . + FILTER NOT EXISTS {?containerEquipment s223:contains ?equipment} . + } + """^^xsd:string ] ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the relation connectsThrough."^^xsd:string ; + sh:class s223:Connection ; + sh:maxCount 1 ; + sh:message "s223: This ConnectionPoint must be associated with at most one Connection."^^xsd:string ; + sh:name "ConnectionPointToConnectionShape"^^xsd:string ; + sh:path s223:connectsThrough ; + sh:severity sh:Info ], + [ rdfs:comment "A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; + sh:message "s223: A ConnectionPoint must be associated with at most one Connection using the cnx relation"^^xsd:string ; + sh:path s223:cnx ; + sh:qualifiedMaxCount 1 ; + sh:qualifiedValueShape [ sh:class s223:Connection ] ; + sh:qualifiedValueShapesDisjoint true ], + [ rdfs:comment "If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:message "s223: If the relation hasElectricalPhase is present it must associate the ConnectionPoint with an ElectricalPhaseIdentifier or ElectricalVoltagePhases."^^xsd:string ; + sh:or ( [ sh:class s223:EnumerationKind-ElectricalPhaseIdentifier ] [ sh:class s223:EnumerationKind-ElectricalVoltagePhases ] ) ; + sh:path s223:hasElectricalPhase ] . + +s223:Frequency-50Hz a s223:Class, + s223:Frequency-50Hz, + sh:NodeShape ; + rdfs:label "50 Hertz"^^xsd:string ; + s223:hasValue 50.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "50 Hertz"^^xsd:string ; + rdfs:subClassOf s223:Numerical-Frequency . + +ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; + rdfs:label "Identifiers and Descriptions"^^xsd:string ; + rdfs:isDefinedBy ; + sh:order 10.0 . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-2I0M1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-2 M$"^^ns1:LatexString, + "\\(L^-2 M\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A1E0L-3I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^-3 N$"^^ns1:LatexString, + "\\(L^-3 N\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Power Per Area"@en ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://www.physicsforums.com/library.php?do=view_item&itemid=406"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:PowerPerArea"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Conventional Centimetre Of Water"@en, + "Conventional Centimeter Of Water"@en-us ; + dcterms:description "\\(\\textbf{Centimeter of Water}\\) is a C.G.S System unit for 'Force Per Area' expressed as \\(cm_{H2O}\\)."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 98.0665 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Centimetre_of_water"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_pressure?oldid=493640883"^^xsd:anyURI ; - ns1:symbol "planckpressure"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAA402"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Centimetre_of_water?oldid=487656894"^^xsd:anyURI ; + ns1:plainTextDescription "non SI conforming unit of pressure that corresponds to the static pressure generated by a water column with a height of 1 centimetre"^^xsd:string ; + ns1:symbol "cmH₂0"^^xsd:string ; + ns1:ucumCode "cm[H2O]"^^ns1:UCUMcs ; + ns1:udunitsCode "cmH2O"^^xsd:string, + "cm_H2O"^^xsd:string ; + ns1:uneceCommonCode "H78"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Torr"@en ; - dcterms:description "

The \\textit{torr} is a non-SI unit of pressure with the ratio of 760 to 1 standard atmosphere, chosen to be roughly equal to the fluid pressure exerted by a millimeter of mercury, i.e. , a pressure of 1 torr is approximately equal to one millimeter of mercury. Note that the symbol (Torr) is spelled exactly the same as the unit (torr), but the letter case differs. The unit is written lower-case, while the symbol of the unit (Torr) is capitalized (as upper-case), as is customary in metric units derived from names. Thus, it is correctly written either way, and is only incorrect when specification is first made that the word is being used as a unit, or else a symbol of the unit, and then the incorrect letter case for the specified use is employed."^^rdf:HTML ; - ns1:conversionMultiplier 133.322 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Torr"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAB022"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Torr?oldid=495199381"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "Torr"^^xsd:string ; - ns1:uneceCommonCode "UA"^^xsd:string ; - rdfs:isDefinedBy . +s223:Mix-Fluid a s223:Class, + s223:Mix-Fluid, + sh:NodeShape ; + rdfs:label "Mix-Fluid"^^xsd:string ; + rdfs:comment "Mix-Fluid"^^xsd:string ; + rdfs:subClassOf s223:Medium-Mix . - rdfs:label "Datatype Ontology"^^xsd:string ; - dcterms:author "Ralph Hodgson"^^xsd:string ; - dcterms:subject "Datatype Schema"^^xsd:string ; - dcterms:title "Datatype Ontology"^^xsd:string ; - ns2:hasGraphMetadata ns4:GMD_DTYPE ; - ns2:namespace "http://www.linkedmodel.org/schema/dtype#"^^xsd:anyURI ; - ns2:namespacePrefix "dtype"^^xsd:string ; - owl:versionIRI . +s223:hasDomain a rdf:Property ; + rdfs:label "has domain"^^xsd:string ; + rdfs:comment """The relation hasDomain is used to associate a Zone or DomainSpace with an EnumerationKind-Domain (e.g., Domain-HVAC, Domain-lighting). +"""^^xsd:string . -s223:Constituent-Electricity a s223:Class, - s223:Constituent-Electricity, - sh:NodeShape ; - rdfs:label "Electricity"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of all forms of electricity, including AC and DC."^^xsd:string ; - rdfs:subClassOf s223:Medium-Constituent . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E1L0I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$I$"^^ns1:LatexString, + "\\(I\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . - a ns1:DecimalPrefix, - ns1:Prefix ; - rdfs:label "Micro"@en ; - dcterms:description "\"micro\" is a decimal prefix for expressing a value with a scaling of \\(10^{-6}\\)."^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Micro"^^xsd:anyURI ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Micro?oldid=491618374"^^xsd:anyURI ; - ns1:prefixMultiplier 1e-06 ; - ns1:siExactMatch ; - ns1:symbol "μ"^^xsd:string ; - ns1:ucumCode "u"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A1E0L0I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 1 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$N$"^^ns1:LatexString, + "\\(N\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Inverse Length"@en ; @@ -77409,6 +86328,7 @@ s223:Constituent-Electricity a s223:Class, ; ns1:hasDimensionVector ; ns1:informativeReference "http://en.wikipedia.org/wiki/Reciprocal_length"^^xsd:anyURI ; + rdfs:comment "Applicable units are those of quantitykind:InverseLength"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -77421,7 +86341,8 @@ s223:Constituent-Electricity a s223:Class, ns1:hasQuantityKind , ; ns1:symbol "Ba"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Barye"@en ; @@ -77439,81 +86360,13 @@ s223:Constituent-Electricity a s223:Class, ns1:omUnit ; ns1:symbol "Ba"^^xsd:string ; rdfs:isDefinedBy ; + owl:sameAs ; skos:altLabel "barad"^^xsd:string, "barie"^^xsd:string, "bary"^^xsd:string, "baryd"^^xsd:string, "baryed"^^xsd:string . - a ns1:Unit ; - rdfs:label "Conventional Centimetre Of Water"@en, - "Conventional Centimeter Of Water"@en-us ; - dcterms:description "\\(\\textbf{Centimeter of Water}\\) is a C.G.S System unit for 'Force Per Area' expressed as \\(cm_{H2O}\\)."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 98.0665 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Centimetre_of_water"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA402"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Centimetre_of_water?oldid=487656894"^^xsd:anyURI ; - ns1:plainTextDescription "non SI conforming unit of pressure that corresponds to the static pressure generated by a water column with a height of 1 centimetre"^^xsd:string ; - ns1:symbol "cmH₂0"^^xsd:string ; - ns1:ucumCode "cm[H2O]"^^ns1:UCUMcs ; - ns1:udunitsCode "cmH2O"^^xsd:string, - "cm_H2O"^^xsd:string ; - ns1:uneceCommonCode "H78"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Millibar"@en ; - dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to 100,000 Pa. It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000 Pa = 1 bar \\approx 750.0616827 Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 100.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:iec61360Code "0112/2///62720#UAA810"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Bar_(unit)"^^xsd:anyURI ; - ns1:prefix ; - ns1:symbol "mbar"^^xsd:string ; - ns1:ucumCode "mbar"^^ns1:UCUMcs ; - ns1:uneceCommonCode "MBR"^^xsd:string ; - rdfs:isDefinedBy . - -s223:Frequency-50Hz a s223:Class, - s223:Frequency-50Hz, - sh:NodeShape ; - rdfs:label "50 Hertz"^^xsd:string ; - s223:hasValue 50.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "50 Hertz"^^xsd:string ; - rdfs:subClassOf s223:Numerical-Frequency . - -ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; - rdfs:label "Identifiers and Descriptions"^^xsd:string ; - rdfs:isDefinedBy ; - sh:order 10.0 . - - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-2I0M1H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-2 M\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Decapascal"@en ; dcterms:description "10-fold of the derived SI unit pascal"^^rdf:HTML ; @@ -77542,7 +86395,8 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -77559,7 +86413,8 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; a ns1:Unit ; rdfs:label "Kip per Square Inch"@en ; dcterms:description "\"Kip per Square Inch\" is a unit for 'Force Per Area' expressed as \\(kip/in^{2}\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 6.894758e+06 ; + ns1:conversionMultiplier 6894757.89, + 6.894758e+06 ; ns1:expression "\\(kip/in^{2}\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind , @@ -77573,32 +86428,13 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; ns1:uneceCommonCode "N20"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Kilograms per metre per square second"@en ; - dcterms:description "The SI unit of pressure. The pascal is the standard pressure unit in the MKS metric system, equal to one newton per square meter or one \"kilogram per meter per second per second.\" The unit is named for Blaise Pascal (1623-1662), French philosopher and mathematician, who was the first person to use a barometer to measure differences in altitude."^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - ; - ns1:siUnitsExpression "kg/m/s^2"^^xsd:string ; - ns1:symbol "kg/(m⋅s²)"^^xsd:string ; - ns1:ucumCode "kg.m-1.s-2"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Kilopound Force Per Square Inch"@en ; dcterms:description "1 000-fold of the unit for pressure psi as a compounded unit pound-force according to the Anglo-American system of units divided by the power of the unit Inch according to the Anglo-American and Imperial system of units by exponent 2"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 6.894758e+06 ; + ns1:conversionMultiplier 6894757.89, + 6.894758e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -77639,7 +86475,8 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -77678,7 +86515,8 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , , @@ -77692,6 +86530,24 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; ns1:uneceCommonCode "B96"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Millibar"@en ; + dcterms:description "The bar is a non-SI unit of pressure, defined by the IUPAC as exactly equal to 100,000 Pa. It is about equal to the atmospheric pressure on Earth at sea level, and since 1982 the IUPAC has recommended that the standard for atmospheric pressure should be harmonized to \\(100,000 Pa = 1 bar \\approx 750.0616827 Torr\\). Units derived from the bar are the megabar (symbol: Mbar), kilobar (symbol: kbar), decibar (symbol: dbar), centibar (symbol: cbar), and millibar (symbol: mbar or mb). They are not SI or cgs units, but they are accepted for use with the SI."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 100.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:iec61360Code "0112/2///62720#UAA810"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Bar_(unit)"^^xsd:anyURI ; + ns1:prefix ; + ns1:symbol "mbar"^^xsd:string ; + ns1:ucumCode "mbar"^^ns1:UCUMcs ; + ns1:uneceCommonCode "MBR"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + a ns1:Unit ; rdfs:label "Millipascal"@en ; dcterms:description "0.001-fold of the SI derived unit pascal"^^rdf:HTML ; @@ -77713,12 +86569,112 @@ ns1:IdentifiersAndDescriptionsPropertyGroup a sh:PropertyGroup ; ns1:uneceCommonCode "74"^^xsd:string ; rdfs:isDefinedBy . -s223:Fluid-Air a s223:Class, - s223:Fluid-Air, - sh:NodeShape ; - rdfs:label "Fluid-Air"^^xsd:string ; - rdfs:comment "This class has enumerated subclasses of Air in various states."^^xsd:string ; - rdfs:subClassOf s223:Mix-Fluid . + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-3I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:latexDefinition "$L^-3$"^^ns1:LatexString, + "\\(L^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M0H1T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 1 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$H$"^^ns1:LatexString, + "\\(H\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "مساحة"@ar, + "Площ"@bg, + "plocha"@cs, + "Fläche"@de, + "Ταχύτητα"@el, + "area"@en, + "área"@es, + "مساحت"@fa, + "aire"@fr, + "שטח"@he, + "क्षेत्रफल"@hi, + "area"@it, + "面積"@ja, + "Keluasan"@ms, + "pole powierzchni"@pl, + "área"@pt, + "arie"@ro, + "Площадь"@ru, + "površina"@sl, + "alan"@tr, + "面积"@zh ; + dcterms:description "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^ns1:LatexString, + "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:baseCGSUnitDimensions "cm^2"^^xsd:string ; + ns1:baseSIUnitDimensions "$m^2$"^^ns1:LatexString ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Area"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD182"^^xsd:string ; + ns1:plainTextDescription "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^xsd:string ; + ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Area"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "superficie"@fr . + + a ns1:DimensionlessUnit, + ns1:Unit ; + rdfs:label "Grade"@en ; + dcterms:description "the tangent of an angle of inclination multiplied by 100"^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Grade"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Grade?oldid=485504533"^^xsd:anyURI ; + ns1:symbol "gr"^^xsd:string ; + rdfs:isDefinedBy . a ns1:DerivedUnit, ns1:Unit ; @@ -77740,8 +86696,77 @@ s223:Fluid-Air a s223:Class, ns1:ucumCode "hPa"^^ns1:UCUMcs ; ns1:uneceCommonCode "A97"^^xsd:string ; rdfs:comment "Hectopascal is commonly used in meteorology to report values for atmospheric pressure. It is equivalent to millibar."^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "كلفن"@ar, + "келвин"@bg, + "kelvin"@cs, + "Kelvin"@de, + "κέλβιν"@el, + "Kelvin"@en, + "kelvin"@en, + "kelvin"@es, + "کلوین"@fa, + "kelvin"@fr, + "קלווין"@he, + "कैल्विन"@hi, + "kelvin"@hu, + "kelvin"@it, + "ケルビン"@ja, + "kelvin"@la, + "kelvin"@ms, + "kelwin"@pl, + "kelvin"@pt, + "kelvin"@ro, + "кельвин"@ru, + "kelvin"@sl, + "kelvin"@tr, + "开尔文"@zh ; + dcterms:description "\\(The SI base unit of temperature, previously called the degree Kelvin. One kelvin represents the same temperature difference as one degree Celsius. In 1967 the General Conference on Weights and Measures defined the temperature of the triple point of water (the temperature at which water exists simultaneously in the gaseous, liquid, and solid states) to be exactly 273.16 kelvins. Since this temperature is also equal to 0.01 u00b0C, the temperature in kelvins is always equal to 273.15 plus the temperature in degrees Celsius. The kelvin equals exactly 1.8 degrees Fahrenheit. The unit is named for the British mathematician and physicist William Thomson (1824-1907), later known as Lord Kelvin after he was named Baron Kelvin of Largs.\\)"^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Kelvin"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA185"^^xsd:string, + "0112/2///62720#UAD721"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Kelvin?oldid=495075694"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "K"^^xsd:string ; + ns1:ucumCode "K"^^ns1:UCUMcs ; + ns1:udunitsCode "K"^^xsd:string ; + ns1:uneceCommonCode "KEL"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Kilograms per metre per square second"@en ; + dcterms:description "The SI unit of pressure. The pascal is the standard pressure unit in the MKS metric system, equal to one newton per square meter or one \"kilogram per meter per second per second.\" The unit is named for Blaise Pascal (1623-1662), French philosopher and mathematician, who was the first person to use a barometer to measure differences in altitude."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:siUnitsExpression "kg/m/s^2"^^xsd:string ; + ns1:symbol "kg/(m⋅s²)"^^xsd:string ; + ns1:ucumCode "kg.m-1.s-2"^^ns1:UCUMcs ; + rdfs:isDefinedBy ; + owl:sameAs , + . + a ns1:Unit ; rdfs:label "Pound Force per Square Inch"@en ; dcterms:description "\"Pound Force per Square Inch\" is an Imperial unit for 'Force Per Area' expressed as \\(psia\\)."^^ns1:LatexString ; @@ -77761,31 +86786,89 @@ s223:Fluid-Air a s223:Class, ns1:symbol "psia"^^xsd:string ; ns1:ucumCode "[lbf_av].[sin_i]-1"^^ns1:UCUMcs ; ns1:uneceCommonCode "PS"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:Unit ; + rdfs:label "Relative Permittivity"@en ; + dcterms:description """The \\(\\textit{relative permittivity}\\) of a material under given conditions reflects the extent to which it concentrates electrostatic lines of flux. In technical terms, it is the ratio of the amount of electrical energy stored in a material by an applied voltage, relative to that stored in a vacuum. Likewise, it is also the ratio of the capacitance of a capacitor using that material as a dielectric, compared to a similar capacitor that has a vacuum as its dielectric. Relative permittivity is a dimensionless number that is in general complex. The imaginary portion of the permittivity corresponds to a phase shift of the polarization P relative to E and leads to the attenuation of electromagnetic waves passing through the medium.

+

\\(\\epsilon_r(w) = \\frac{\\epsilon(w)}{\\epsilon_O}\\)\\ where \\(\\epsilon_r(w)\\) is the complex frequency-dependent absolute permittivity of the material, and \\(\\epsilon_O\\) is the vacuum permittivity."""^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.000000000008854187817, + 8.854188e-12 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Relative_static_permittivity"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Relative_permittivity?oldid=489664437"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Relative_static_permittivity?oldid=334224492"^^xsd:anyURI, + "http://www.ncert.nic.in/html/learning_basket/electricity/electricity/charges%20&%20fields/absolute_permittivity.htm"^^xsd:anyURI ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + ns1:symbol "εᵣ"^^xsd:string ; + ns1:ucumCode "[eps_0]"^^ns1:UCUMcs ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Newtons Per Square Metre"@en, - "Newtons Per Square Meter"@en-us ; - dcterms:description "The SI unit of pressure. The pascal is the standard pressure unit in the MKS metric system, equal to one newton per square meter or one \"kilogram per meter per second per second.\" The unit is named for Blaise Pascal (1623-1662), French philosopher and mathematician, who was the first person to use a barometer to measure differences in altitude."^^rdf:HTML ; - ns1:applicableSystem , + a ns1:Unit ; + rdfs:label "Parts per billion"@en ; + dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , , + , , + , + , ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Pascal?oldid=492989202"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:siUnitsExpression "N/m^2"^^xsd:string ; - ns1:symbol "N/m²"^^xsd:string ; - ns1:ucumCode "N.m-2"^^ns1:UCUMcs ; - ns1:uneceCommonCode "C55"^^xsd:string ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAD926"^^xsd:string ; + ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; + ns1:symbol "PPB"^^xsd:string ; + ns1:ucumCode "[ppb]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "61"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Parts per million"@en ; + dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAD925"^^xsd:string ; + ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "PPM"^^xsd:string ; + ns1:ucumCode "[ppm]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "59"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Parts per Ten Million"@en ; + dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "PPTM"^^xsd:string ; rdfs:isDefinedBy . a ns1:Unit ; @@ -77807,23 +86890,29 @@ s223:Fluid-Air a s223:Class, ns1:ucumCode "[psi]"^^ns1:UCUMcs ; ns1:udunitsCode "psi"^^xsd:string ; ns1:uneceCommonCode "PS"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H1T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 1 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(H\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Practical salinity unit"^^xsd:string ; + dcterms:description "Practical salinity scale 1978 (PSS-78) is used for ionic content of seawater determined by electrical conductivity. Salinities measured using PSS-78 do not have units, but are approximately scaled to parts-per-thousand for the valid range. The suffix psu or PSU (denoting practical salinity unit) is sometimes added to PSS-78 measurement values. The addition of PSU as a unit after the value is \"formally incorrect and strongly discouraged\"."^^rdf:HTML, + "Practical salinity scale 1978 (PSS-78) is used for ionic content of seawater determined by electrical conductivity. Salinities measured using PSS-78 do not have units, but are approximately scaled to parts-per-thousand for the valid range. The suffix psu or PSU (denoting practical salinity unit) is sometimes added to PSS-78 measurement values. The addition of PSU as a unit after the value is \"formally incorrect and strongly discouraged\"."^^xsd:string ; + dcterms:source ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "https://en.wikipedia.org/wiki/Salinity#PSU"^^xsd:anyURI ; + ns1:symbol "PSU"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + . a ns1:Unit ; rdfs:label "PicoPascal"@en ; @@ -77842,78 +86931,18 @@ s223:Fluid-Air a s223:Class, ns1:symbol "pPa"^^xsd:string ; rdfs:isDefinedBy . -ns1:hasQuantityKind a rdf:Property ; - rdfs:label "has quantity kind"^^xsd:string ; - rdfs:comment "A reference to the QuantityKind of a QuantifiableProperty of interest, e.g. quantitykind:Temperature."^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-3I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:latexDefinition "\\(L^-3\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "مساحة"@ar, - "Площ"@bg, - "plocha"@cs, - "Fläche"@de, - "Ταχύτητα"@el, - "area"@en, - "área"@es, - "مساحت"@fa, - "aire"@fr, - "שטח"@he, - "क्षेत्रफल"@hi, - "area"@it, - "面積"@ja, - "Keluasan"@ms, - "pole powierzchni"@pl, - "área"@pt, - "arie"@ro, - "Площадь"@ru, - "površina"@sl, - "alan"@tr, - "面积"@zh ; - dcterms:description "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^rdf:HTML ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:baseCGSUnitDimensions "cm^2"^^xsd:string ; - ns1:baseSIUnitDimensions "$m^2$"^^ns1:LatexString ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Area"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD182"^^xsd:string ; - ns1:plainTextDescription "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^xsd:string ; - ns1:siExactMatch ; - rdfs:isDefinedBy ; - skos:altLabel "superficie"@fr . +s223:EnumerationKind-Role a s223:Class, + s223:EnumerationKind-Role, + sh:NodeShape ; + rdfs:label "Role"^^xsd:string ; + rdfs:comment """This class has enumerated subclasses of roles played by entities, such as cooling, generator, + relief, return. The use of these enumeration kinds are to indicate the **capability** of an entity to play a given + role, rather than as an indication of the role or mode being active at any given point in time. In other words, + some reversible piece of equipment might play a role of Role-Cooling at one time, and Role-Heating at another. + Such an entity would be described by two triples to indicate these two allowable roles. To determine what role + is active at a particular time is not determinable within the scope of 223, but rather through a Property with + an ExternalReference to telemetry or control data."""^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . a ns1:QuantityKind ; rdfs:label "وحدة القوة في نظام متر كيلوغرام ثانية"@ar, @@ -77939,7 +86968,8 @@ ns1:hasQuantityKind a rdf:Property ; "sila"@sl, "kuvvet"@tr, "力"@zh ; - dcterms:description "\"Force\" is an influence that causes mass to accelerate. It may be experienced as a lift, a push, or a pull. Force is defined by Newton's Second Law as \\(F = m \\times a \\), where \\(F\\) is force, \\(m\\) is mass and \\(a\\) is acceleration. Net force is mathematically equal to the time rate of change of the momentum of the body on which it acts. Since momentum is a vector quantity (has both a magnitude and direction), force also is a vector quantity."^^ns1:LatexString ; + dcterms:description "\"Force\" is an influence that causes mass to accelerate. It may be experienced as a lift, a push, or a pull. Force is defined by Newton's Second Law as $F = m \\times a $, where $F$ is force, $m$ is mass and $a$ is acceleration. Net force is mathematically equal to the time rate of change of the momentum of the body on which it acts. Since momentum is a vector quantity (has both a magnitude and direction), force also is a vector quantity."^^ns1:LatexString, + "\"Force\" is an influence that causes mass to accelerate. It may be experienced as a lift, a push, or a pull. Force is defined by Newton's Second Law as \\(F = m \\times a \\), where \\(F\\) is force, \\(m\\) is mass and \\(a\\) is acceleration. Net force is mathematically equal to the time rate of change of the momentum of the body on which it acts. Since momentum is a vector quantity (has both a magnitude and direction), force also is a vector quantity."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -77971,9 +87001,59 @@ ns1:hasQuantityKind a rdf:Property ; ns1:latexDefinition "$F = \\frac{dp}{dt}$, where $F$ is the resultant force acting on a body, $p$ is momentum of a body, and $t$ is time."^^ns1:LatexString ; ns1:siExactMatch ; ns1:symbol "F"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Force"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "भार"@hi . + a ns1:QuantityKind ; + rdfs:label "Specific Energy"@en ; + dcterms:description """ + $\\textit{Specific Energy}$ is defined as the energy per unit mass. + Common metric units are $J/kg$. + It is an intensive property. + Contrast this with energy, which is an extensive property. + There are two main types of specific energy: potential energy and specific kinetic energy. + Others are the $\\textit{gray}$ and $\\textit{sievert}$, which are measures for the absorption of radiation. + $$$$ + The concept of specific energy applies to a particular or theoretical way of extracting useful energy from the material considered that is usually implied by context. + These intensive properties are each symbolized by using the lower case letter of the symbol for the corresponding extensive property, + which is symbolized by a capital letter. + For example, the extensive thermodynamic property enthalpy is symbolized by $H$; specific enthalpy is symbolized by $h$. + """^^ns1:LatexString, + "\\(\\textbf{Specific Energy}\\) is defined as the energy per unit mass. Common metric units are \\(J/kg\\). It is an intensive property. Contrast this with energy, which is an extensive property. There are two main types of specific energy: potential energy and specific kinetic energy. Others are the \\(\\textbf{gray}\\) and \\(\\textbf{sievert}\\), which are measures for the absorption of radiation. The concept of specific energy applies to a particular or theoretical way of extracting useful energy from the material considered that is usually implied by context. These intensive properties are each symbolized by using the lower case letter of the symbol for the corresponding extensive property, which is symbolized by a capital letter. For example, the extensive thermodynamic property enthalpy is symbolized by \\(H\\); specific enthalpy is symbolized by \\(h\\)."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Specific_energy"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Specific_energy"^^xsd:anyURI ; + ns1:latexDefinition "$e = E/m$, where $E$ is energy and $m$ is mass."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "e"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:SpecificEnergy"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso , + , + , + , + , + , + , + , + . + a ns1:Unit ; rdfs:label "Carat"@en ; dcterms:description "The carat is a unit of mass equal to 200 mg and is used for measuring gemstones and pearls. The current definition, sometimes known as the metric carat, was adopted in 1907 at the Fourth General Conference on Weights and Measures, and soon afterward in many countries around the world. The carat is divisible into one hundred points of two milligrams each. Other subdivisions, and slightly different mass values, have been used in the past in different locations. In terms of diamonds, a paragon is a flawless stone of at least 100 carats (20 g). The ANSI X.12 EDI standard abbreviation for the carat is \\(CD\\)."^^ns1:LatexString ; @@ -77998,7 +87078,8 @@ ns1:hasQuantityKind a rdf:Property ; , , ; - ns1:conversionMultiplier 1e-05 ; + ns1:conversionMultiplier 0.00001, + 1e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB077"^^xsd:string ; @@ -78094,7 +87175,8 @@ ns1:hasQuantityKind a rdf:Property ; a ns1:Unit ; rdfs:label "Earth mass"@en ; dcterms:description "Earth mass (\\(M_{\\oplus}\\)) is the unit of mass equal to that of the Earth. In SI Units, \\(1 M_{\\oplus} = 5.9722 \\times 10^{24} kg\\). Earth mass is often used to describe masses of rocky terrestrial planets. The four terrestrial planets of the Solar System, Mercury, Venus, Earth, and Mars, have masses of 0.055, 0.815, 1.000, and 0.107 Earth masses respectively."^^ns1:LatexString ; - ns1:conversionMultiplier 5.97219e+24 ; + ns1:conversionMultiplier 5972190000000000000000000.0, + 5.97219e+24 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Earth_mass"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -78126,7 +87208,8 @@ ns1:hasQuantityKind a rdf:Property ; dcterms:description "A grain is a unit of measurement of mass that is nominally based upon the mass of a single seed of a cereal. The grain is the only unit of mass measure common to the three traditional English mass and weight systems; the obsolete Tower grain was, by definition, exactly /64 of a troy grain. Since 1958, the grain or troy grain measure has been defined in terms of units of mass in the International System of Units as precisely 64.79891 milligrams. Thus, \\(1 gram \\approx 15.4323584 grains\\). There are precisely 7,000 grains per avoirdupois pound in the imperial and U.S. customary units, and 5,760 grains in the Troy pound."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 6.479891e-05 ; + ns1:conversionMultiplier 6.479891e-05, + 0.00006479891 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Cereal"^^xsd:anyURI ; ns1:definedUnitOfSystem , ; @@ -78175,7 +87258,8 @@ ns1:hasQuantityKind a rdf:Property ; a ns1:Unit ; rdfs:label "Lunar mass"@en ; - ns1:conversionMultiplier 7.346e+22 ; + ns1:conversionMultiplier 73460000000000000000000.0, + 7.346e+22 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Moon"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -78208,7 +87292,8 @@ ns1:hasQuantityKind a rdf:Property ; , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA082"^^xsd:string ; @@ -78226,7 +87311,8 @@ ns1:hasQuantityKind a rdf:Property ; , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA815"^^xsd:string ; @@ -78237,6 +87323,33 @@ ns1:hasQuantityKind a rdf:Property ; ns1:uneceCommonCode "MGM"^^xsd:string ; rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Newtons Per Square Metre"@en, + "Newtons Per Square Meter"@en-us ; + dcterms:description "The SI unit of pressure. The pascal is the standard pressure unit in the MKS metric system, equal to one newton per square meter or one \"kilogram per meter per second per second.\" The unit is named for Blaise Pascal (1623-1662), French philosopher and mathematician, who was the first person to use a barometer to measure differences in altitude."^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Pascal"^^xsd:anyURI ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Pascal?oldid=492989202"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:siUnitsExpression "N/m^2"^^xsd:string ; + ns1:symbol "N/m²"^^xsd:string ; + ns1:ucumCode "N.m-2"^^ns1:UCUMcs ; + ns1:uneceCommonCode "C55"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + . + a ns1:Unit ; rdfs:label "Nanograms"@en ; dcterms:description "10**-9 grams or one 10**-12 of the SI standard unit of mass (kilogram)."@en ; @@ -78244,7 +87357,8 @@ ns1:hasQuantityKind a rdf:Property ; , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:prefix ; @@ -78266,6 +87380,29 @@ ns1:hasQuantityKind a rdf:Property ; ns1:uneceCommonCode "APZ"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Parts per thousand"@en ; + dcterms:description "Dimensionless unit for concentration. Recommended practice is to use specific units such as \\(ug/l\\)."^^ns1:LatexString ; + ns1:abbreviation "‰"^^xsd:string ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://aurora.regenstrief.org/~ucum/ucum.html#section-Derived-Unit-Atoms"^^xsd:anyURI ; + ns1:literal "‰"^^xsd:string ; + ns1:symbol "‰"^^xsd:string ; + ns1:ucumCode "[ppth]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "NX"^^xsd:string ; + rdfs:isDefinedBy ; + skos:altLabel "per mil"^^xsd:string . + a ns1:Unit ; rdfs:label "Pennyweight"@en ; dcterms:description "non SI-conforming unit of mass which comes from the Anglo-American Troy or Apothecaries' Weight System of units according to NIST of 1 pwt = 1.555174 10^3 kg"^^rdf:HTML ; @@ -78286,7 +87423,8 @@ ns1:hasQuantityKind a rdf:Property ; , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:prefix ; @@ -78327,7 +87465,8 @@ ns1:hasQuantityKind a rdf:Property ; a ns1:Unit ; rdfs:label "Solar mass"@en ; dcterms:description "The astronomical unit of mass is the solar mass.The symbol \\(S\\) is often used in astronomy to refer to this unit, although \\(M_{\\odot}\\) is also common. The solar mass, \\(1.98844 \\times 10^{30} kg\\), is a standard way to express mass in astronomy, used to describe the masses of other stars and galaxies. It is equal to the mass of the Sun, about 333,000 times the mass of the Earth or 1,048 times the mass of Jupiter. In practice, the masses of celestial bodies appear in the dynamics of the solar system only through the products GM, where G is the constant of gravitation."^^ns1:LatexString ; - ns1:conversionMultiplier 1.988435e+30 ; + ns1:conversionMultiplier 1.988435e+30, + 1988435000000000000000000000000.0 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Solar_mass"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -78361,65 +87500,188 @@ ns1:hasQuantityKind a rdf:Property ; ns1:symbol "AT"^^xsd:string ; rdfs:isDefinedBy . -sh:this a rdfs:Resource ; - rdfs:label "this"@en ; - rdfs:comment "A node expression that represents the current focus node."@en ; - rdfs:isDefinedBy sh: . +s223:hasProperty a rdf:Property ; + rdfs:label "has Property"^^xsd:string ; + rdfs:comment "The relation hasProperty is used to associate any 223 Concept with a Property."^^xsd:string . - a ns1:QuantityKind ; - rdfs:label "Dimensionless"@en ; - dcterms:description "In dimensional analysis, a dimensionless quantity or quantity of dimension one is a quantity without an associated physical dimension. It is thus a \"pure\" number, and as such always has a dimension of 1. Dimensionless quantities are widely used in mathematics, physics, engineering, economics, and in everyday life (such as in counting). Numerous well-known quantities, such as $\\pi$, $\\epsilon$, and $\\psi$, are dimensionless. By contrast, non-dimensionless quantities are measured in units of length, area, time, etc. Dimensionless quantities are often defined as products or ratios of quantities that are not dimensionless, but whose dimensions cancel out when their powers are multiplied."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Dimensionless_quantity"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Dimensionless_quantity"^^xsd:anyURI ; - ns1:symbol "U"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Pound Mass"@en ; + dcterms:description "A pound of mass, based on the international standard definition of the pound as exactly 0.45359237 kg."^^rdf:HTML, + "A pound of mass, based on the international standard definition of the pound of mass as exactly 0.45359237 kg."^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.45359237 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "lbm"^^xsd:string ; + ns1:ucumCode "[lb_av]"^^ns1:UCUMcs ; + ns1:udunitsCode "lb"^^xsd:string ; + ns1:uneceCommonCode "LBR"^^xsd:string ; + rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Specific Energy"@en ; - dcterms:description "\\(\\textbf{Specific Energy}\\) is defined as the energy per unit mass. Common metric units are \\(J/kg\\). It is an intensive property. Contrast this with energy, which is an extensive property. There are two main types of specific energy: potential energy and specific kinetic energy. Others are the \\(\\textbf{gray}\\) and \\(\\textbf{sievert}\\), which are measures for the absorption of radiation. The concept of specific energy applies to a particular or theoretical way of extracting useful energy from the material considered that is usually implied by context. These intensive properties are each symbolized by using the lower case letter of the symbol for the corresponding extensive property, which is symbolized by a capital letter. For example, the extensive thermodynamic property enthalpy is symbolized by \\(H\\); specific enthalpy is symbolized by \\(h\\)."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Specific_energy"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://en.citizendium.org/wiki/Enthalpy"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Specific_energy"^^xsd:anyURI ; - ns1:latexDefinition "$e = E/m$, where $E$ is energy and $m$ is mass."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "e"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso , - , - , - , - , - , - , - , - . + a ns1:Unit ; + rdfs:label "Pound Mass"@en ; + dcterms:description "A pound of mass, based on the international standard definition of the pound of mass as exactly 0.45359237 kg."^^rdf:HTML ; + ns1:applicableSystem , + , + ; + ns1:conversionMultiplier 0.45359237 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "lbm"^^xsd:string ; + ns1:ucumCode "[lb_av]"^^ns1:UCUMcs ; + ns1:udunitsCode "lb"^^xsd:string ; + ns1:uneceCommonCode "LBR"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ounce Mass"@en ; + dcterms:description "An ounce of mass is 1/16th of a pound of mass, based on the international standard definition of the pound as exactly 0.45359237 kg."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.028349523125 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "oz"^^xsd:string ; + ns1:ucumCode "[oz_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "ONZ"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Ounce Mass"@en ; + dcterms:description "An ounce of mass is 1/16th of a pound of mass, based on the international standard definition of the pound as exactly 0.45359237 kg."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.028349523125 ; + ns1:definedUnitOfSystem , + ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "oz"^^xsd:string ; + ns1:ucumCode "[oz_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "ONZ"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Planck Mass"@en ; + dcterms:description "In physics, the Planck mass, denoted by \\(m_P\\), is the unit of mass in the system of natural units known as Planck units. It is defined so that \\(\\approx 1.2209 \\times 10 GeV/c_0 = 2.17651(13) \\times 10 kg\\), (or \\(21.7651 \\mu g\\)), where \\(c_0\\) is the speed of light in a vacuum, \\(G\\) is the gravitational constant, and \\(\\hbar\\) is the reduced Planck constant. Particle physicists and cosmologists often use the reduced Planck mass, which is \\(\\approx 4.341 \\times 10 kg = 2.435 \\times 10 GeV/c\\). The added factor of \\(1/{\\sqrt{8\\pi}}\\) simplifies a number of equations in general relativity. Quantum effects are typified by the magnitude of Planck's constant."^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 0.0000000217644, + 2.17644e-08 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_mass"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_mass?oldid=493648632"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; + ns1:latexDefinition "\\(m_P = \\sqrt{\\frac{ \\hbar c^3}{G}} \\approx 1.2209 \\times 10^{19} GeV/c^2 = 2.17651(13) \\times 10^{-8}\\), where \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant, and \\(G\\) is the gravitational constant. The two digits enclosed by parentheses are the estimated standard error associated with the reported numerical value."^^ns1:LatexString ; + ns1:latexSymbol "\\(m_P\\)"^^ns1:LatexString ; + ns1:symbol "planckmass"^^xsd:string ; + rdfs:isDefinedBy . + + dcterms:contributor "Dave Beckett"^^xsd:string, + "Nikki Rogers"^^xsd:string, + "Participants in W3C's Semantic Web Deployment Working Group."^^xsd:string ; + dcterms:creator "Alistair Miles"^^xsd:string, + "Sean Bechhofer"^^xsd:string ; + dcterms:description "An RDF vocabulary for describing the basic structure and content of concept schemes such as thesauri, classification schemes, subject heading lists, taxonomies, 'folksonomies', other types of controlled vocabulary, and also concept schemes embedded in glossaries and terminologies."@en ; + dcterms:title "SKOS Vocabulary"@en ; + rdfs:seeAlso . + +s223:BidirectionalConnectionPoint a s223:Class, + sh:NodeShape ; + rdfs:label "Bidirectional Connection Point"^^xsd:string ; + rdfs:comment "A BidirectionalConnectionPoint is a ConnectionPoint for which a Medium is expected to flow either into or out of the associated Connectable."^^xsd:string ; + rdfs:subClassOf s223:ConnectionPoint ; + sh:property [ rdfs:comment "If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; + sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; + sh:class s223:BidirectionalConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the BidirectionalConnectionPoint with a BidirectionalConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ] . + +s223:NumberOfElectricalPhases-ThreePhase a s223:Class, + s223:NumberOfElectricalPhases-ThreePhase, + sh:NodeShape ; + rdfs:label "Three Phase AC Electricity"^^xsd:string ; + s223:hasValue 3.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "Three Phase AC Electricity"^^xsd:string ; + rdfs:subClassOf s223:Numerical-NumberOfElectricalPhases . + + a ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "Not Applicable"^^xsd:string ; + dcterms:description "This is a placeholder dimension vector used in cases where there is no appropriate dimension vector"^^rdf:HTML ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Linear Velocity"@en ; + dcterms:description "Linear Velocity, as the name implies deals with speed in a straight line, the units are often $km/hr$ or $m/s$ or $mph$ (miles per hour). Linear Velocity (v) = change in distance/change in time, where $v = \\bigtriangleup d/\\bigtriangleup t$"^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Velocity"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://au.answers.yahoo.com/question/index?qid=20080319082534AAtrClv"^^xsd:anyURI ; + ns1:symbol "v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:LinearVelocity"^^xsd:string ; + rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "Long Hundred Weight"@en ; @@ -78433,6 +87695,7 @@ sh:this a rdfs:Resource ; ns1:ucumCode "[lcwt_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "CWI"^^xsd:string ; rdfs:isDefinedBy ; + owl:sameAs ; skos:altLabel "British hundredweight"^^xsd:string . a ns1:Unit ; @@ -78448,6 +87711,7 @@ sh:this a rdfs:Resource ; ns1:symbol "cwt{short}"^^xsd:string ; ns1:ucumCode "[scwt_av]"^^ns1:UCUMcs ; rdfs:isDefinedBy ; + owl:sameAs ; skos:altLabel "U.S. hundredweight"^^xsd:string . a ns1:Unit ; @@ -78462,7 +87726,8 @@ sh:this a rdfs:Resource ; ns1:hasQuantityKind ; ns1:symbol "dt"^^xsd:string ; ns1:uneceCommonCode "DTN"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Metric DeciTON"@en ; @@ -78480,6 +87745,31 @@ sh:this a rdfs:Resource ; ns1:symbol "dt"^^xsd:string ; ns1:ucumCode "dt"^^ns1:UCUMcs ; ns1:uneceCommonCode "DTN"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:CountingUnit, + ns1:Unit ; + rdfs:label "Fraction"@en ; + dcterms:description "Fraction is a unit for 'Dimensionless Ratio' expressed as the value of the ratio itself."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:conversionMultiplier 1.0, + 1e+00 ; + ns1:conversionOffset 0.0, + 0e+00 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + ; + ns1:plainTextDescription "Fraction is a unit for 'Dimensionless Ratio' expressed as the value of the ratio itself."^^xsd:string ; + ns1:symbol "÷"^^xsd:string ; + ns1:ucumCode "{fraction}"^^ns1:UCUMcs ; rdfs:isDefinedBy . a ns1:Unit ; @@ -78495,7 +87785,8 @@ sh:this a rdfs:Resource ; ns1:symbol "cwt{long}"^^xsd:string ; ns1:ucumCode "[lcwt_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "CWI"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Hundredweight (US)"@en ; @@ -78510,7 +87801,8 @@ sh:this a rdfs:Resource ; ns1:symbol "cwt{short}"^^xsd:string ; ns1:ucumCode "[scwt_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "CWA"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "KiloTonne"@en ; @@ -78518,118 +87810,41 @@ sh:this a rdfs:Resource ; , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "kt"^^xsd:string ; - ns1:uneceCommonCode "KTN"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Metric KiloTON"@en ; - dcterms:description "1 000 000-fold of the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1e+06 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB080"^^xsd:string ; - ns1:plainTextDescription "1 000 000-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "kton{short}"^^xsd:string ; - ns1:ucumCode "kt"^^ns1:UCUMcs ; - ns1:uneceCommonCode "KTN"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pound Mass"@en ; - dcterms:description "A pound of mass, based on the international standard definition of the pound of mass as exactly 0.45359237 kg."^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 0.45359237 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "lbm"^^xsd:string ; - ns1:ucumCode "[lb_av]"^^ns1:UCUMcs ; - ns1:udunitsCode "lb"^^xsd:string ; - ns1:uneceCommonCode "LBR"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Pound Mass"@en ; - dcterms:description "A pound of mass, based on the international standard definition of the pound of mass as exactly 0.45359237 kg."^^rdf:HTML ; - ns1:applicableSystem , - , - ; - ns1:conversionMultiplier 0.45359237 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "lbm"^^xsd:string ; - ns1:ucumCode "[lb_av]"^^ns1:UCUMcs ; - ns1:udunitsCode "lb"^^xsd:string ; - ns1:uneceCommonCode "LBR"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce Mass"@en ; - dcterms:description "An ounce of mass is 1/16th of a pound of mass, based on the international standard definition of the pound as exactly 0.45359237 kg."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.028349523125 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "oz"^^xsd:string ; - ns1:ucumCode "[oz_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "ONZ"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Ounce Mass"@en ; - dcterms:description "An ounce of mass is 1/16th of a pound of mass, based on the international standard definition of the pound as exactly 0.45359237 kg."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.028349523125 ; - ns1:definedUnitOfSystem , - ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "oz"^^xsd:string ; - ns1:ucumCode "[oz_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "ONZ"^^xsd:string ; - rdfs:isDefinedBy . + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "kt"^^xsd:string ; + ns1:uneceCommonCode "KTN"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . - a ns1:Unit ; - rdfs:label "Planck Mass"@en ; - dcterms:description "In physics, the Planck mass, denoted by \\(m_P\\), is the unit of mass in the system of natural units known as Planck units. It is defined so that \\(\\approx 1.2209 \\times 10 GeV/c_0 = 2.17651(13) \\times 10 kg\\), (or \\(21.7651 \\mu g\\)), where \\(c_0\\) is the speed of light in a vacuum, \\(G\\) is the gravitational constant, and \\(\\hbar\\) is the reduced Planck constant. Particle physicists and cosmologists often use the reduced Planck mass, which is \\(\\approx 4.341 \\times 10 kg = 2.435 \\times 10 GeV/c\\). The added factor of \\(1/{\\sqrt{8\\pi}}\\) simplifies a number of equations in general relativity. Quantum effects are typified by the magnitude of Planck's constant."^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 2.17644e-08 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_mass"^^xsd:anyURI ; + a ns1:Unit ; + rdfs:label "Metric KiloTON"@en ; + dcterms:description "1 000 000-fold of the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; + ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_mass?oldid=493648632"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; - ns1:latexDefinition "\\(m_P = \\sqrt{\\frac{ \\hbar c^3}{G}} \\approx 1.2209 \\times 10^{19} GeV/c^2 = 2.17651(13) \\times 10^{-8}\\), where \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant, and \\(G\\) is the gravitational constant. The two digits enclosed by parentheses are the estimated standard error associated with the reported numerical value."^^ns1:LatexString ; - ns1:latexSymbol "\\(m_P\\)"^^ns1:LatexString ; - ns1:symbol "planckmass"^^xsd:string ; - rdfs:isDefinedBy . + ns1:iec61360Code "0112/2///62720#UAB080"^^xsd:string ; + ns1:plainTextDescription "1 000 000-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "kton{short}"^^xsd:string ; + ns1:ucumCode "kt"^^ns1:UCUMcs ; + ns1:uneceCommonCode "KTN"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Long Ton"@en ; dcterms:description """Long ton (weight ton or imperial ton) is the name for the unit called the "ton" in the avoirdupois or Imperial system of measurements, as used in the United Kingdom and several other Commonwealth countries. One long ton is equal to 2,240 pounds (1,016 kg), 1.12 times as much as a short ton, or 35 cubic feet (0.9911 m3) of salt water with a density of 64 lb/ft3 (1.025 g/ml).

+

It has some limited use in the United States, most commonly in measuring the displacement of ships, and was the unit prescribed for warships by the Washington Naval Treaty 1922-for example battleships were limited to a mass of 35,000 long tons (36,000 t; 39,000 short tons).

"""^^rdf:HTML, + """Long ton (weight ton or imperial ton) is the name for the unit called the "ton" in the avoirdupois or Imperial system of measurements, as used in the United Kingdom and several other Commonwealth countries. One long ton is equal to 2,240 pounds (1,016 kg), 1.12 times as much as a short ton, or 35 cubic feet (0.9911 m3) of salt water with a density of 64 lb/ft3 (1.025 g/ml).

It has some limited use in the United States, most commonly in measuring the displacement of ships, and was the unit prescribed for warships by the Washington Naval Treaty 1922-for example battleships were limited to a mass of 35,000 long tons (36,000 t; 39,000 short tons).

"""^^rdf:HTML ; ns1:applicableSystem ; ns1:conversionMultiplier 1016.0469088 ; @@ -78641,7 +87856,8 @@ sh:this a rdfs:Resource ; ns1:symbol "t{long}"^^xsd:string ; ns1:ucumCode "[lton_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "LTN"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Metric Ton"@en ; @@ -78661,6 +87877,7 @@ sh:this a rdfs:Resource ; ns1:ucumCode "t"^^ns1:UCUMcs ; ns1:uneceCommonCode "TNE"^^xsd:string ; rdfs:isDefinedBy ; + owl:sameAs ; skos:altLabel "metric-tonne"^^xsd:string . a ns1:Unit ; @@ -78677,7 +87894,8 @@ sh:this a rdfs:Resource ; ns1:symbol "ton{short}"^^xsd:string ; ns1:ucumCode "[ston_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "STN"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Ton (UK)"@en ; @@ -78687,12 +87905,16 @@ sh:this a rdfs:Resource ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB009"^^xsd:string ; - ns1:plainTextDescription "unit of the mass according to the Imperial system of units"^^xsd:string ; + ns1:iec61360Code "0112/2///62720#UAB008"^^xsd:string, + "0112/2///62720#UAB009"^^xsd:string ; + ns1:plainTextDescription "traditional Imperial unit for volume of cargo, especially in the shipping sector"^^xsd:string, + "unit of the mass according to the Imperial system of units"^^xsd:string ; ns1:symbol "ton{UK}"^^xsd:string ; ns1:ucumCode "[lton_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "LTN"^^xsd:string ; - rdfs:isDefinedBy . + ns1:uneceCommonCode "L84"^^xsd:string, + "LTN"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Ton (US)"@en ; @@ -78703,16 +87925,148 @@ sh:this a rdfs:Resource ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB012"^^xsd:string ; - ns1:plainTextDescription "A ton is a unit of mass in the US customary system, where 1 ton is equal to 2000 pounds of mass."^^xsd:string ; + ns1:plainTextDescription "A ton is a unit of mass in the US customary system, where 1 ton is equal to 2000 pounds of mass."^^xsd:string, + "unit of the mass according to the Anglo-American system of units"^^xsd:string ; ns1:symbol "ton{US}"^^xsd:string ; ns1:ucumCode "[ston_av]"^^ns1:UCUMcs ; ns1:uneceCommonCode "STN"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + +s223:hasRole a rdf:Property ; + rdfs:label "hasRole"^^xsd:string ; + rdfs:comment "The relation hasRole is used to indicate the role of an Equipment, Connection, ConnectionPoint, or System within a building (e.g., a heating coil will be associated with Role-Heating). Possible values are defined in EnumerationKind-Role (see `s223:EnumerationKind-Role`)."^^xsd:string . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M1H0T-3D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -3 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M T^-3$"^^ns1:LatexString, + "\\(M T^-3\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Temperature"@en ; + dcterms:description "Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. Objects of low temperature are cold, while various degrees of higher temperatures are referred to as warm or hot. Heat spontaneously flows from bodies of a higher temperature to bodies of lower temperature, at a rate that increases with the temperature difference and the thermal conductivity."^^ns1:LatexString, + "Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. Objects of low temperature are cold, while various degrees of higher temperatures are referred to as warm or hot. Heat spontaneously flows from bodies of a higher temperature to bodies of lower temperature, at a rate that increases with the temperature difference and the thermal conductivity."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Temperature"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD374"^^xsd:string ; + ns1:plainTextDescription "Temperature is a physical property of matter that quantitatively expresses the common notions of hot and cold. Objects of low temperature are cold, while various degrees of higher temperatures are referred to as warm or hot. Heat spontaneously flows from bodies of a higher temperature to bodies of lower temperature, at a rate that increases with the temperature difference and the thermal conductivity."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Temperature"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . + + a ns1:Unit ; + rdfs:label "Gram"@en ; + dcterms:description "A unit of mass in the metric system. The name comes from the Greek gramma, a small weight identified in later Roman and Byzantine times with the Latin scripulum or scruple (the English scruple is equal to about 1.3 grams). The gram was originally defined to be the mass of one cubic centimeter of pure water, but to provide precise standards it was necessary to construct physical objects of specified mass. One gram is now defined to be 1/1000 of the mass of the standard kilogram, a platinum-iridium bar carefully guarded by the International Bureau of Weights and Measures in Paris for more than a century. (The kilogram, rather than the gram, is considered the base unit of mass in the SI.) The gram is a small mass, equal to about 15.432 grains or 0.035 273 966 ounce. "^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.001 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Gram"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA465"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Gram?oldid=493995797"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "g"^^xsd:string ; + ns1:ucumCode "g"^^ns1:UCUMcs ; + ns1:udunitsCode "g"^^xsd:string ; + ns1:uneceCommonCode "GRM"^^xsd:string ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Tonne"@en ; + dcterms:description "1,000-fold of the SI base unit kilogram"^^rdf:HTML ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1000.0 ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:plainTextDescription "1,000-fold of the SI base unit kilogram"^^xsd:string ; + ns1:symbol "t"^^xsd:string ; + ns1:ucumCode "t"^^ns1:UCUMcs ; + ns1:udunitsCode "t"^^xsd:string ; + ns1:uneceCommonCode "TNE"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . + + a ns1:QuantityKind ; + rdfs:label "Dimensionless"@en ; + dcterms:description "In dimensional analysis, a dimensionless quantity or quantity of dimension one is a quantity without an associated physical dimension. It is thus a \"pure\" number, and as such always has a dimension of 1. Dimensionless quantities are widely used in mathematics, physics, engineering, economics, and in everyday life (such as in counting). Numerous well-known quantities, such as $\\pi$, $\\epsilon$, and $\\psi$, are dimensionless. By contrast, non-dimensionless quantities are measured in units of length, area, time, etc. Dimensionless quantities are often defined as products or ratios of quantities that are not dimensionless, but whose dimensions cancel out when their powers are multiplied."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Dimensionless_quantity"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Dimensionless_quantity"^^xsd:anyURI ; + ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Dimensionless"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Volume Fraction"@en ; + dcterms:description "\"Volume Fraction\" is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing. Volume fraction is also called volume concentration in ideal solutions where the volumes of the constituents are additive (the volume of the solution is equal to the sum of the volumes of its ingredients)."^^ns1:LatexString, + "\"Volume Fraction\" is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing. Volume fraction is also called volume concentration in ideal solutions where the volumes of the constituents are additive (the volume of the solution is equal to the sum of the volumes of its ingredients)."^^rdf:HTML ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD240"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Volume_fraction"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ; + ns1:latexDefinition "$\\varphi_B = \\frac{x_B V_{m,B}^*}{\\sum x_i V_{m,i}^*}$, where $V_{m,i}^*$ is the molar volume of the pure substances $i$ at the same temperature and pressure, $x_i$ denotes the amount-of-substance fraction of substance $i$, and $\\sum$ denotes summation over all substances $i$."^^ns1:LatexString ; + ns1:latexSymbol "$\\varphi_B$"^^ns1:LatexString ; + ns1:plainTextDescription "\"Volume Fraction\" is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing. Volume fraction is also called volume concentration in ideal solutions where the volumes of the constituents are additive (the volume of the solution is equal to the sum of the volumes of its ingredients)."^^xsd:string ; + ns1:qkdvDenominator ; + ns1:qkdvNumerator ; + rdfs:comment "Applicable units are those of quantitykind:VolumeFraction"^^xsd:string ; + rdfs:isDefinedBy ; + skos:broader . + a ns1:Unit ; rdfs:label "Atomic mass unit"@en ; dcterms:description "The \\(\\textit{Unified Atomic Mass Unit}\\) (symbol: \\(\\mu\\)) or \\(\\textit{dalton}\\) (symbol: Da) is a unit that is used for indicating mass on an atomic or molecular scale. It is defined as one twelfth of the rest mass of an unbound atom of carbon-12 in its nuclear and electronic ground state, and has a value of \\(1.660538782(83) \\times 10^{-27} kg\\). One \\(Da\\) is approximately equal to the mass of one proton or one neutron. The CIPM have categorised it as a \\(\\textit{\"non-SI unit whose values in SI units must be obtained experimentally\"}\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 1.660539e-27 ; + ns1:conversionMultiplier 0.00000000000000000000000000166053878283, + 1.660539e-27 ; ns1:exactMatch , ; ns1:hasDimensionVector ; @@ -78722,7 +88076,9 @@ sh:this a rdfs:Resource ; ns1:ucumCode "u"^^ns1:UCUMcs ; ns1:udunitsCode "u"^^xsd:string ; ns1:uneceCommonCode "D43"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs , + . a ns1:DerivedUnit, ns1:Unit ; @@ -78731,6 +88087,7 @@ sh:this a rdfs:Resource ; "pascal"@cs, "Pascal"@de, "πασκάλ"@el, + "Pascal"@en, "pascal"@en, "pascal"@es, "پاسگال"@fa, @@ -78773,106 +88130,339 @@ sh:this a rdfs:Resource ; ns1:ucumCode "Pa"^^ns1:UCUMcs ; ns1:udunitsCode "Pa"^^xsd:string ; ns1:uneceCommonCode "PAL"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Tonne"@en ; - dcterms:description "1,000-fold of the SI base unit kilogram"^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1000.0 ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:plainTextDescription "1,000-fold of the SI base unit kilogram"^^xsd:string ; - ns1:symbol "t"^^xsd:string ; - ns1:ucumCode "t"^^ns1:UCUMcs ; - ns1:udunitsCode "t"^^xsd:string ; - ns1:uneceCommonCode "TNE"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs , + . - dcterms:contributor "Dave Beckett"^^xsd:string, - "Nikki Rogers"^^xsd:string, - "Participants in W3C's Semantic Web Deployment Working Group."^^xsd:string ; - dcterms:creator "Alistair Miles"^^xsd:string, - "Sean Bechhofer"^^xsd:string ; - dcterms:description "An RDF vocabulary for describing the basic structure and content of concept schemes such as thesauri, classification schemes, subject heading lists, taxonomies, 'folksonomies', other types of controlled vocabulary, and also concept schemes embedded in glossaries and terminologies."@en ; - dcterms:title "SKOS Vocabulary"@en ; - rdfs:seeAlso . +sh:Info a sh:Severity ; + rdfs:label "Info"@en ; + rdfs:comment "The severity for an informational validation result."@en ; + rdfs:isDefinedBy sh: . -s223:NumberOfElectricalPhases-ThreePhase a s223:Class, - s223:NumberOfElectricalPhases-ThreePhase, +s223:Property a s223:Class, sh:NodeShape ; - rdfs:label "Three Phase AC Electricity"^^xsd:string ; - s223:hasValue 3.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "Three Phase AC Electricity"^^xsd:string ; - rdfs:subClassOf s223:Numerical-NumberOfElectricalPhases . + rdfs:label "Property"^^xsd:string ; + rdfs:comment """An attribute, quality, or characteristic of a feature of interest. - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, +The Property class is the parent of all variations of a property, which are: +ActuatableProperty - parent of subclass of properties that can be modified by user or machine outside of the model (typically command); +ObservableProperty - parent of subclass of properties that are observed (typically measures); +EnumerableProperty - parent of subclass of properties defined by EnumerationKind; +QuantifiableProperty - parent of subclass of properties defined by numerical values. + +And their different associations : +QuantifiableActuatableProperty, +QuantifiableObservableProperty, +EnumeratedObservableProperty, +EnumeratedActuatableProperty. + +A QuantifiableProperty (or subClass thereof) must always be associated with a Unit and a QuantityKind, either explicitly from the Property, +or through the associated Value. If the Unit is defined, the SHACL reasoner (if invoked) will figure out and assert the QuantityKind (the most general version). + +Enumerable properties must be associated with an EnumerationKind. Different flavors of properties are shown in Figure 12-1. + +![Different flavors of Properties](figures/Figure_12-1_Flavors_of_Properties.svg) + +A property that is not an instance of one of its subclasses is unconstrained +with respect to its value. +"""^^xsd:string ; + rdfs:subClassOf s223:Concept ; + sh:property [ rdfs:comment "If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; + sh:class s223:EnumerationKind ; + sh:message "s223: If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; + sh:path s223:hasAspect ], + [ rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasExternalReference ?ext . +$this s223:hasValue ?val . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:path s223:hasInternalReference ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasInternalReference ?int . +$this s223:hasValue ?val . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; + sh:class s223:EnumerationKind-Substance ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; + sh:path s223:ofSubstance ], + [ rdfs:comment "A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; + sh:path s223:hasValue ], + [ rdfs:comment "A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: A Property can use at most one relation hasValue if it is required to provide a static value in the model. It is not meant for real-time value (see `s223:hasExternalReference`)."^^xsd:string ; + sh:path s223:hasValue ], + [ rdfs:comment "If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; + sh:path s223:hasInternalReference ], + [ rdfs:comment "If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; + sh:class s223:EnumerationKind ; + sh:message "s223: If the relation hasAspect is present, it must associate the Property with an EnumerationKind."^^xsd:string ; + sh:path s223:hasAspect ], + [ rdfs:comment "If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; + sh:class s223:ExternalReference ; + sh:message "s223: If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; + sh:path s223:hasExternalReference ], + [ rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:path s223:hasInternalReference ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasInternalReference ?int . +$this s223:hasExternalReference ?ext . +} +"""^^xsd:string ] ], + [ rdfs:comment ""^^xsd:string ; + sh:path s223:ofConstituent ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If an incoming relation composedOf exists, then the Property must have a declared substance using the relation ofConstituent."^^xsd:string ; + sh:message "s223: Property {$this} is referred to by {?something} with s223:composedOf, but the Property has no value for s223:ofConstituent."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?something +WHERE { +?something s223:composedOf $this . +FILTER NOT EXISTS {$this s223:ofConstituent ?someSubstance} . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; + sh:class s223:Property ; + sh:message "s223: If the relation hasInternalReference is present it must associate the Property with another Property."^^xsd:string ; + sh:path s223:hasInternalReference ], + [ rdfs:comment "A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; + sh:class s223:Function ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; + sh:path [ sh:inversePath s223:hasOutput ] ], + [ rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:path s223:hasInternalReference ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasInternalReference and a hasExternalReference relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasInternalReference ?int . +$this s223:hasExternalReference ?ext . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; + sh:class s223:ExternalReference ; + sh:message "s223: If the relation hasExternalReference is present it must associate the Property with an ExternalReference."^^xsd:string ; + sh:path s223:hasExternalReference ], + [ rdfs:comment "An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; + sh:path [ sh:inversePath s223:observes ] ], + [ rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasExternalReference and a hasValue relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasExternalReference ?ext . +$this s223:hasValue ?val . +} +"""^^xsd:string ] ], + [ rdfs:comment ""^^xsd:string ; + sh:path s223:ofConstituent ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "If an incoming relation composedOf exists, then the Property must have a declared substance using the relation ofConstituent."^^xsd:string ; + sh:message "s223: Property {$this} is referred to by {?something} with s223:composedOf, but the Property has no value for s223:ofConstituent."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?something +WHERE { +?something s223:composedOf $this . +FILTER NOT EXISTS {$this s223:ofConstituent ?someSubstance} . +} +"""^^xsd:string ] ], + [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; + sh:path s223:ofMedium ], + [ rdfs:comment "A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; + sh:class s223:Function ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one Function using the inverse relation hasOutput."^^xsd:string ; + sh:path [ sh:inversePath s223:hasOutput ] ], + [ rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:path s223:hasInternalReference ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property must not have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:message "s223: {$this} cannot have both a hasInternalReference and a hasValue relation."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasInternalReference ?int . +$this s223:hasValue ?val . +} +"""^^xsd:string ] ], + [ rdfs:comment "An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; + sh:maxCount 1 ; + sh:message "s223: An instance of s223:Property must not be observed (set) by more than one entity."^^xsd:string ; + sh:path [ sh:inversePath s223:observes ] ], + [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; + sh:class s223:Substance-Medium ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one EnumerationKind-Medium using the relation ofMedium."^^xsd:string ; + sh:path s223:ofMedium ], + [ rdfs:comment "A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; + sh:class s223:EnumerationKind-Substance ; + sh:maxCount 1 ; + sh:message "s223: A Property can be associated with at most one EnumerationKind-Substance using the relation ofSubstance."^^xsd:string ; + sh:path s223:ofSubstance ] ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "A Property instance cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; + sh:message "s223: {$this} cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this a/rdfs:subClassOf* s223:ActuatableProperty . +$this a/rdfs:subClassOf* s223:ObservableProperty . +} +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "A Property instance cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; + sh:message "s223: {$this} cannot be declared an instance of both an ActuatableProperty and an ObservableProperty."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this a/rdfs:subClassOf* s223:ActuatableProperty . +$this a/rdfs:subClassOf* s223:ObservableProperty . +} +"""^^xsd:string ] . + +s223:observes a rdf:Property ; + rdfs:label "observes"^^xsd:string ; + rdfs:comment "The relation observes binds a sensor to one ObservableProperty `see s223:ObservableProperty` which is used by the sensor to generate a measurement value (ex. a temperature) or a simple observation of a stimulus causing a reaction (a current binary switch that closes a dry contact when a fan is powered on)."^^xsd:string . + + rdfs:label "QUDT VOCAB Decimal Prefixes Release 2.1.37"^^xsd:string, + "QUDT VOCAB Decimal Prefixes Release 2.1.41"^^xsd:string ; + ns2:hasGraphMetadata ns2:GMD_QUDT-PREFIXES ; + owl:versionIRI ; + owl:versionInfo "Created with TopBraid Composer"^^xsd:string . + + a ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M1H0T-3D0"^^xsd:string ; + rdfs:label "A0E1L0I0M0H0T1D0"^^xsd:string ; ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForElectricCurrent 1 ; ns1:dimensionExponentForLength 0 ; ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForMass 0 ; ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -3 ; + ns1:dimensionExponentForTime 1 ; ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-3\\)"^^ns1:LatexString ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$T I$"^^ns1:LatexString, + "\\(T I\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - a ns1:QuantityKind ; - rdfs:label "Linear Velocity"@en ; - dcterms:description "Linear Velocity, as the name implies deals with speed in a straight line, the units are often $km/hr$ or $m/s$ or $mph$ (miles per hour). Linear Velocity (v) = change in distance/change in time, where $v = \\bigtriangleup d/\\bigtriangleup t$"^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Velocity"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:informativeReference "http://au.answers.yahoo.com/question/index?qid=20080319082534AAtrClv"^^xsd:anyURI ; - ns1:symbol "v"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:QuantityKind ; + rdfs:label "الشحنة الكهربائية"@ar, + "Електрически заряд"@bg, + "Elektrický náboj"@cs, + "elektrische Ladung"@de, + "Ηλεκτρικό φορτίο"@el, + "electric charge"@en, + "carga eléctrica"@es, + "بار الکتریکی"@fa, + "Charge électrique"@fr, + "מטען חשמלי"@he, + "विद्युत आवेग या विद्युत बहाव"@hi, + "elektromos töltés"@hu, + "carica elettrica"@it, + "電荷"@ja, + "onus electricum"@la, + "Cas elektrik"@ms, + "ładunek elektryczny"@pl, + "carga elétrica"@pt, + "sarcină electrică"@ro, + "Электрический заряд"@ru, + "električni naboj"@sl, + "elektrik yükü"@tr, + "电荷"@zh ; + dcterms:description "\"Electric Charge\" is a fundamental conserved property of some subatomic particles, which determines their electromagnetic interaction. Electrically charged matter is influenced by, and produces, electromagnetic fields. The electric charge on a body may be positive or negative. Two positively charged bodies experience a mutual repulsive force, as do two negatively charged bodies. A positively charged body and a negatively charged body experience an attractive force. Electric charge is carried by discrete particles and can be positive or negative. The sign convention is such that the elementary electric charge $e$, that is, the charge of the proton, is positive. The SI derived unit of electric charge is the coulomb."^^ns1:LatexString, + "\"Electric Charge\" is a fundamental conserved property of some subatomic particles, which determines their electromagnetic interaction. Electrically charged matter is influenced by, and produces, electromagnetic fields. The electric charge on a body may be positive or negative. Two positively charged bodies experience a mutual repulsive force, as do two negatively charged bodies. A positively charged body and a negatively charged body experience an attractive force. Electric charge is carried by discrete particles and can be positive or negative. The sign convention is such that the elementary electric charge \\(e\\), that is, the charge of the proton, is positive. The SI derived unit of electric charge is the coulomb."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD037"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_charge"^^xsd:anyURI, + "http://en.wikipedia.org/wiki/Electric_charge?oldid=492961669"^^xsd:anyURI, + "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; + ns1:latexDefinition "$dQ = Idt$, where $I$ is electric current."^^ns1:LatexString ; + ns1:siExactMatch ; + ns1:symbol "Q"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ElectricCharge"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso ; + skos:altLabel "cantitate de electricitate"@ro . a ns1:Unit ; rdfs:label "Attojoule"@en ; @@ -78881,11 +88471,13 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e-18 ; + ns1:conversionMultiplier 0.000000000000000001, + 1e-18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB125"^^xsd:string ; - ns1:plainTextDescription "0.000000000000000001-fold of the derived SI unit joule"^^xsd:string ; + ns1:plainTextDescription "0,000 000 000 000 000 001-fold of the derived SI unit joule"^^xsd:string, + "0.000000000000000001-fold of the derived SI unit joule"^^xsd:string ; ns1:prefix ; ns1:symbol "aJ"^^xsd:string ; ns1:ucumCode "aJ"^^ns1:UCUMcs ; @@ -78897,7 +88489,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, dcterms:description "An erg is the unit of energy and mechanical work in the centimetre-gram-second (CGS) system of units, symbol 'erg'. Its name is derived from the Greek ergon, meaning 'work'. An erg is the amount of work done by a force of one dyne exerted for a distance of one centimeter. In the CGS base units, it is equal to one gram centimeter-squared per second-squared (\\(g \\cdot cm^2/s^2\\)). It is thus equal to \\(10^{-7}\\) joules or 100 nanojoules in SI units. \\(1 erg = 10^{-7} J = 100 nJ\\), \\(1 erg = 624.15 GeV = 6.2415 \\times 10^{11} eV\\), \\(1 erg = 1 dyne\\cdot cm = 1 g \\cdot cm^2/s^2\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1e-07 ; + ns1:conversionMultiplier 1e-07, + 0.0000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Erg"^^xsd:anyURI ; ns1:derivedCoherentUnitOfSystem ; ns1:derivedUnitOfSystem , @@ -78920,11 +88513,13 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e+18 ; + ns1:conversionMultiplier 1000000000000000000.0, + 1e+18 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB122"^^xsd:string ; - ns1:plainTextDescription "1,000,000,000,000,000,000-fold of the derived SI unit joule"^^xsd:string ; + ns1:plainTextDescription "1 000 000 000 000 000 000-fold of the derived SI unit joule"^^xsd:string, + "1,000,000,000,000,000,000-fold of the derived SI unit joule"^^xsd:string ; ns1:prefix ; ns1:symbol "EJ"^^xsd:string ; ns1:ucumCode "EJ"^^ns1:UCUMcs ; @@ -78954,37 +88549,19 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB124"^^xsd:string ; - ns1:plainTextDescription "0.000000000000001-fold of the derived SI unit joule"^^xsd:string ; + ns1:plainTextDescription "0,000 000 000 000 001-fold of the derived SI unit joule"^^xsd:string, + "0.000000000000001-fold of the derived SI unit joule"^^xsd:string ; ns1:prefix ; ns1:symbol "fJ"^^xsd:string ; ns1:ucumCode "fJ"^^ns1:UCUMcs ; ns1:uneceCommonCode "A70"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Gram"@en ; - dcterms:description "A unit of mass in the metric system. The name comes from the Greek gramma, a small weight identified in later Roman and Byzantine times with the Latin scripulum or scruple (the English scruple is equal to about 1.3 grams). The gram was originally defined to be the mass of one cubic centimeter of pure water, but to provide precise standards it was necessary to construct physical objects of specified mass. One gram is now defined to be 1/1000 of the mass of the standard kilogram, a platinum-iridium bar carefully guarded by the International Bureau of Weights and Measures in Paris for more than a century. (The kilogram, rather than the gram, is considered the base unit of mass in the SI.) The gram is a small mass, equal to about 15.432 grains or 0.035 273 966 ounce. "^^rdf:HTML ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 0.001 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Gram"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA465"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Gram?oldid=493995797"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "g"^^xsd:string ; - ns1:ucumCode "g"^^ns1:UCUMcs ; - ns1:udunitsCode "g"^^xsd:string ; - ns1:uneceCommonCode "GRM"^^xsd:string ; - rdfs:isDefinedBy . - a ns1:Unit ; rdfs:label "Gigawatt Hour"@en ; dcterms:description "1,000,000,000-fold of the product of the SI derived unit watt and the unit hour"^^rdf:HTML ; @@ -78992,7 +88569,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 3.6e+12 ; + ns1:conversionMultiplier 3600000000000.0, + 3.6e+12 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA155"^^xsd:string ; @@ -79010,7 +88588,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1.602177e-16 ; + ns1:conversionMultiplier 0.0000000000000001602176634, + 1.602177e-16 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "keV"^^xsd:string ; @@ -79024,7 +88603,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, ns1:applicableSystem , , ; - ns1:conversionMultiplier 3.6e+06 ; + ns1:conversionMultiplier 3600000.0, + 3.6e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB160"^^xsd:string ; @@ -79037,7 +88617,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, a ns1:Unit ; rdfs:label "Kilovolt Ampere Reactive Hour"@en ; dcterms:description "product of the 1,000-fold of the unit volt ampere reactive and the unit hour"^^rdf:HTML ; - ns1:conversionMultiplier 3.6e+06 ; + ns1:conversionMultiplier 3600000.0, + 3.6e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB195"^^xsd:string ; @@ -79054,7 +88635,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 3.6e+06 ; + ns1:conversionMultiplier 3600000.0, + 3.6e+06 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Kilowatt_hour"^^xsd:anyURI ; ns1:expression "\\(kW-h\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; @@ -79068,9 +88650,12 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, a ns1:Unit ; rdfs:label "Megaton of Oil Equivalent"@en ; dcterms:description """The tonne of oil equivalent (toe) is a unit of energy: the amount of energy released by burning one tonne of crude oil, approximately 42 GJ (as different crude oils have different calorific values, the exact value of the toe is defined by convention; unfortunately there are several slightly different definitions as discussed below). The toe is sometimes used for large amounts of energy, as it can be more intuitive to visualise, say, the energy released by burning 1000 tonnes of oil than 42,000 billion joules (the SI unit of energy).

+

Multiples of the toe are used, in particular the megatoe (Mtoe, one million toe) and the gigatoe (Gtoe, one billion toe).

"""^^rdf:HTML, + """The tonne of oil equivalent (toe) is a unit of energy: the amount of energy released by burning one tonne of crude oil, approximately 42 GJ (as different crude oils have different calorific values, the exact value of the toe is defined by convention; unfortunately there are several slightly different definitions as discussed below). The toe is sometimes used for large amounts of energy, as it can be more intuitive to visualise, say, the energy released by burning 1000 tonnes of oil than 42,000 billion joules (the SI unit of energy).

Multiples of the toe are used, in particular the megatoe (Mtoe, one million toe) and the gigatoe (Gtoe, one billion toe).

"""^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 4.1868e+16 ; + ns1:conversionMultiplier 41868000000000000.0, + 4.1868e+16 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Tonne_of_oil_equivalent"^^xsd:anyURI ; @@ -79083,7 +88668,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, ns1:applicableSystem , , ; - ns1:conversionMultiplier 3.6e+09 ; + ns1:conversionMultiplier 3600000000.0, + 3.6e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:plainTextDescription "product of the 1,000,000-fold of the unit for apparent by ampere and the unit hour"^^xsd:string ; @@ -79094,7 +88680,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, a ns1:Unit ; rdfs:label "Megavolt Ampere Reactive Hour"@en ; dcterms:description "product of the 1,000,000-fold of the unit volt ampere reactive and the unit hour"^^rdf:HTML ; - ns1:conversionMultiplier 3.6e+09 ; + ns1:conversionMultiplier 3600000000.0, + 3.6e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB198"^^xsd:string ; @@ -79111,7 +88698,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 3.6e+09 ; + ns1:conversionMultiplier 3600000000.0, + 3.6e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA225"^^xsd:string ; @@ -79130,7 +88718,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:conversionOffset 0.0 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -79164,7 +88753,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e+15 ; + ns1:conversionMultiplier 1000000000000000.0, + 1e+15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB123"^^xsd:string ; @@ -79179,7 +88769,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Planck Energy"@en ; dcterms:description "In physics, the unit of energy in the system of natural units known as Planck units is called the Planck energy, denoted by \\(E_P\\). \\(E_P\\) is a derived, as opposed to basic, Planck unit. An equivalent definition is:\\(E_P = \\hbar / T_P\\) where \\(T_P\\) is the Planck time. Also: \\(E_P = m_P c^2\\) where \\(m_P\\) is the Planck mass."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.9561e+09 ; + ns1:conversionMultiplier 1956100000.0, + 1.9561e+09 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_energy"^^xsd:anyURI ; ns1:derivedUnitOfSystem ; ns1:hasDimensionVector ; @@ -79193,7 +88784,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Quad"@en ; dcterms:description "A quad is a unit of energy equal to \\(10 BTU\\), or \\(1.055 \\times \\SI{10}{\\joule}\\), which is \\(1.055 exajoule\\) or \\(EJ\\) in SI units. The unit is used by the U.S. Department of Energy in discussing world and national energy budgets. Some common types of an energy carrier approximately equal 1 quad are: 8,007,000,000 Gallons (US) of gasoline 293,083,000,000 Kilowatt-hours (kWh) 36,000,000 Tonnes of coal 970,434,000,000 Cubic feet of natural gas 5,996,000,000 UK gallons of diesel oil 25,200,000 Tonnes of oil 252,000,000 tonnes of TNT or five times the energy of the Tsar Bomba nuclear test."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.055e+18 ; + ns1:conversionMultiplier 1055000000000000000.0, + 1.055e+18 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Quad"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -79207,7 +88799,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Ton of Oil Equivalent"@en ; dcterms:description "

The tonne of oil equivalent (toe) is a unit of energy: the amount of energy released by burning one tonne of crude oil, approximately 42 GJ (as different crude oils have different calorific values, the exact value of the toe is defined by convention; unfortunately there are several slightly different definitions as discussed below). The toe is sometimes used for large amounts of energy, as it can be more intuitive to visualise, say, the energy released by burning 1000 tonnes of oil than 42,000 billion joules (the SI unit of energy). Multiples of the toe are used, in particular the megatoe (Mtoe, one million toe) and the gigatoe (Gtoe, one billion toe)."^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 4.1868e+10 ; + ns1:conversionMultiplier 41868000000.0, + 4.1868e+10 ; ns1:definedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -79222,11 +88815,13 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e+12 ; + ns1:conversionMultiplier 1000000000000.0, + 1e+12 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA288"^^xsd:string ; - ns1:plainTextDescription "1,000,000,000,000-fold of the SI derived unit joule"^^xsd:string ; + ns1:plainTextDescription "1 000 000 000 000-fold of the SI derived unit joule"^^xsd:string, + "1,000,000,000,000-fold of the SI derived unit joule"^^xsd:string ; ns1:prefix ; ns1:symbol "TJ"^^xsd:string ; ns1:ucumCode "TJ"^^ns1:UCUMcs ; @@ -79240,7 +88835,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 3.6e+15 ; + ns1:conversionMultiplier 3600000000000000.0, + 3.6e+15 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA290"^^xsd:string ; @@ -79254,7 +88850,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Ton Energy"@en ; dcterms:description "Energy equivalent of one ton of TNT"^^rdf:HTML ; ns1:applicableSystem ; - ns1:conversionMultiplier 4.184e+09 ; + ns1:conversionMultiplier 4184000000.0, + 4.184e+09 ; ns1:expression "\\(t/lbf\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -79319,21 +88916,574 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, ns1:uneceCommonCode "J55"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Giga Electron Volt"@en ; - dcterms:description "\"Giga Electron Volt\" is a unit for 'Energy And Work' expressed as \\(GeV\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.602177e-10 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "GeV"^^xsd:string ; - ns1:ucumCode "GeV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "A85"^^xsd:string ; - rdfs:isDefinedBy . +sh:Warning a sh:Severity ; + rdfs:label "Warning"@en ; + rdfs:comment "The severity for a warning validation result."@en ; + rdfs:isDefinedBy sh: . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M1H0T-2D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -2 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind , + ; + ns1:latexDefinition "$M T^-2$"^^ns1:LatexString, + "\\(M T^-2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKind ; + rdfs:label "Mass Flow Rate"@en ; + dcterms:description "\"Mass Flow Rate\" is a measure of Mass flux. The common symbol is $\\dot{m}$ (pronounced \"m-dot\"), although sometimes $\\mu$ is used. The SI units are $kg s-1$."^^ns1:LatexString, + "\"Mass Flow Rate\" is a measure of Mass flux. The common symbol is $\\dot{m}$ (pronounced $m-dot$), although sometimes $\\mu$ is used. The SI units are $kg s-1$."^^ns1:LatexString ; + ns1:applicableUnit , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Mass_flow_rate"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:iec61360Code "0112/2///62720#UAD107"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_flow_rate"^^xsd:anyURI ; + ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; + ns1:latexDefinition "$q_m = \\frac{dm}{dt}$, where $m$ is mass and $t$ is time."^^ns1:LatexString ; + ns1:latexSymbol "$\\dot{m}$"^^ns1:LatexString ; + ns1:symbol "q_m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassFlowRate"^^xsd:string ; + rdfs:isDefinedBy ; + rdfs:seeAlso . + + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Giga Electron Volt"@en ; + dcterms:description "\"Giga Electron Volt\" is a unit for 'Energy And Work' expressed as \\(GeV\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000001602176634, + 1.602177e-10 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "GeV"^^xsd:string ; + ns1:ucumCode "GeV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "A85"^^xsd:string ; + rdfs:isDefinedBy . + +s223:QuantifiableProperty a s223:Class, + sh:NodeShape ; + rdfs:label "Quantifiable Property"^^xsd:string ; + rdfs:comment "This class is for quantifiable values that describe an object (System, Equipment, etc.) that are typically static (hasValue). That is, they are neither measured nor specified in the course of operations."^^xsd:string ; + rdfs:subClassOf s223:Property ; + sh:property [ rdfs:comment "This QuantifiableProperty and the threshold associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:path ns1:hasQuantityKind ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the threshold associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:message "s223: {$this} uses QuantityKind {?pqk} with DimensionVector {?pdv}, while threshold {?threshold} uses QuantityKind {?tqk} with DimensionVector {?tdv}. These are non-commensurate"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?threshold ?pqk ?sqk ?pdv ?sdv +WHERE { +$this qudt:hasQuantityKind ?pqk . +$this s223:hasThreshold ?threshold . +?threshold qudt:hasQuantityKind ?tqk . +?pqk qudt:hasDimensionVector ?pdv . +?tqk qudt:hasDimensionVector ?tdv . +FILTER (?pqk != ?tqk) . +FILTER (?pdv != ?tdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty uses a different Unit than the Deadband associated with it."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty uses a different Unit than the Deadband associated with it."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while Deadband {?deadband} uses Unit {?dunit}. Be careful."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?deadband ?punit ?dunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasDeadband ?deadband . +?deadband qudt:hasUnit ?dunit . +?punit qudt:hasDimensionVector ?pdv . +?dunit qudt:hasDimensionVector ?ddv . +FILTER (?punit != ?dunit) . +FILTER (?pdv = ?ddv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:maxCount 0 ; + sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:path ns1:value ], + [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?v ?subject +WHERE { +$this s223:hasValue ?v . +FILTER NOT EXISTS {$this qudt:hasUnit ?u} . +?subject ?p $this . +} +"""^^xsd:string ] ], + [ rdfs:comment "A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:class ns1:QuantityKind ; + sh:maxCount 1 ; + sh:message "s223: A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:maxCount 0 ; + sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:path ns1:value ], + [ rdfs:comment """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single +unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation +qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; + sh:class ns1:QuantityValue ; + sh:message """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single +unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation +qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; + sh:path ns1:quantityValue ], + [ rdfs:comment "This QuantifiableProperty uses hasSetpoint to reference a Property that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; + sh:path ns1:hasAspect ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty uses hasSetpoint to reference a Property that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; + sh:message "s223: {$this} uses hasSetpoint to reference {?setpoint} that lacks an Aspect of Aspect-Setpoint."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint +WHERE { +$this s223:hasSetpoint ?setpoint . +FILTER NOT EXISTS {?setpoint s223:hasAspect s223:Aspect-Setpoint} . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty uses a different Unit than the setpoint associated with it."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty uses a different Unit than the setpoint associated with it."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while setpoint {?setpoint} uses Unit {?sunit}. Be careful."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?punit ?sunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasUnit ?sunit . +?punit qudt:hasDimensionVector ?pdv . +?sunit qudt:hasDimensionVector ?sdv . +FILTER (?punit != ?sunit) . +FILTER (?pdv = ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:maxCount 0 ; + sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:path ns1:value ], + [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?v ?subject +WHERE { +$this s223:hasValue ?v . +FILTER NOT EXISTS {$this qudt:hasUnit ?u} . +?subject ?p $this . +} +"""^^xsd:string ] ], + [ rdfs:comment """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single +unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation +qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; + sh:class ns1:QuantityValue ; + sh:message """Normally, a QuantifiableProperty is associated with a static decimal value using s223:hasValue, along with a single +unit and quantity kind. However, in some cases, a QuantifiableProperty may instead be associated with a qudt:QuantityValue using the relation +qudt:quantityValue. This allows the qudt:QuantityValue to express multiple equivalent combinations of unit and value."""^^xsd:string ; + sh:path ns1:quantityValue ], + [ rdfs:comment "This QuantifiableProperty and the associated Setpoint use non-commensurate Units."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the associated Setpoint use non-commensurate Units."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while Setpoint {?setpoint} uses Unit {?sunit}. These are non-commensurate."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?punit ?sunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasUnit ?sunit . +?punit qudt:hasDimensionVector ?pdv . +?sunit qudt:hasDimensionVector ?sdv . +FILTER (?punit != ?sunit) . +FILTER (?pdv != ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; + sh:class ns1:Unit ; + sh:maxCount 1 ; + sh:message "s223: A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; + sh:path ns1:hasUnit ], + [ rdfs:comment "This QuantifiableProperty uses a different Unit than the Setpoint associated with it."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty uses a different Unit than the Setpoint associated with it."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while Setpoint {?setpoint} uses Unit {?sunit}. Be careful."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?punit ?sunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasUnit ?sunit . +?punit qudt:hasDimensionVector ?pdv . +?sunit qudt:hasDimensionVector ?sdv . +FILTER (?punit != ?sunit) . +FILTER (?pdv = ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. +If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a +temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which +affects unit conversion calculations."""^^xsd:string ; + sh:datatype xsd:boolean ; + sh:maxCount 1 ; + sh:message """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. +If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a +temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which +affects unit conversion calculations."""^^xsd:string ; + sh:path ns1:isDeltaQuantity ], + [ rdfs:comment "This QuantifiableProperty uses a different Unit than the threshold associated with it."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty uses a different Unit than the threshold associated with it."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while threshold {?threshold} uses Unit {?tunit}. Be careful."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?threshold ?punit ?tunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasThreshold ?threshold . +?threshold qudt:hasUnit ?tunit . +?punit qudt:hasDimensionVector ?pdv . +?tunit qudt:hasDimensionVector ?tdv . +FILTER (?punit != ?tunit) . +FILTER (?pdv = ?tdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:path ns1:hasQuantityKind ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:message "s223: {$this} uses QuantityKind {?pqk} with DimensionVector {?pdv}, while Setpoint {?setpoint} uses QuantityKind {?sqk} with DimensionVector {?sdv}. These are non-commensurate"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?pqk ?sqk ?pdv ?sdv +WHERE { +$this qudt:hasQuantityKind ?pqk . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasQuantityKind ?sqk . +?pqk qudt:hasDimensionVector ?pdv . +?sqk qudt:hasDimensionVector ?sdv . +FILTER (?pqk != ?sqk) . +FILTER (?pdv != ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty and the associated threshold use non-commensurate Units."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the associated threshold use non-commensurate Units."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while threshold {?threshold} uses Unit {?tunit}. These are non-commensurate."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?threshold ?punit ?tunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasThreshold ?threshold . +?threshold qudt:hasUnit ?tunit . +?punit qudt:hasDimensionVector ?pdv . +?tunit qudt:hasDimensionVector ?tdv . +FILTER (?punit != ?tunit) . +FILTER (?pdv != ?tdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:class ns1:QuantityKind ; + sh:maxCount 1 ; + sh:message "s223: A QuantifiableProperty must be associated with a QuantityKind using the relation hasQuantityKind."^^xsd:string ; + sh:minCount 1 ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:maxCount 0 ; + sh:message "s223: A QuantifiableProperty should use s223:hasValue instead of qudt:value."^^xsd:string ; + sh:path ns1:value ], + [ rdfs:comment "A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; + sh:class ns1:Unit ; + sh:maxCount 1 ; + sh:message "s223: A QuantifiableProperty can be associated with at most one Unit using the relation hasUnit."^^xsd:string ; + sh:path ns1:hasUnit ], + [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?v ?subject +WHERE { +$this s223:hasValue ?v . +FILTER NOT EXISTS {$this qudt:hasUnit ?u} . +?subject ?p $this . +} +"""^^xsd:string ] ], + [ rdfs:comment """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. +If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a +temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which +affects unit conversion calculations."""^^xsd:string ; + sh:datatype xsd:boolean ; + sh:maxCount 1 ; + sh:message """A QuantifiableProperty can be associated with an optional Boolean flag using the relation isDeltaQuantity. +If the relation isDeltaQuantity has a value of true, the associated value should be interpreted as a difference reading, such as a +temperature difference. This is needed to distinguish between a temperature reading and a temperature difference reading, which +affects unit conversion calculations."""^^xsd:string ; + sh:path ns1:isDeltaQuantity ], + [ rdfs:comment "This QuantifiableProperty and the Deadband associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:path ns1:hasQuantityKind ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the Deadband associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:message "s223: {$this} uses QuantityKind {?pqk} with DimensionVector {?pdv}, while Deadband {?deadband} uses QuantityKind {?dqk} with DimensionVector {?ddv}. These are non-commensurate"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?deadband ?pqk ?dqk ?pdv ?ddv +WHERE { +$this qudt:hasQuantityKind ?pqk . +$this s223:hasDeadband ?deadband . +?deadband qudt:hasQuantityKind ?dqk . +?pqk qudt:hasDimensionVector ?pdv . +?dqk qudt:hasDimensionVector ?ddv . +FILTER (?pqk != ?dqk) . +FILTER (?pdv != ?ddv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty and the associated Deadband use non-commensurate Units."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the associated Deadband use non-commensurate Units."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while Deadband {?deadband} uses Unit {?dunit}. These are non-commensurate."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?deadband ?punit ?dunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasDeadband ?deadband . +?deadband qudt:hasUnit ?dunit . +?punit qudt:hasDimensionVector ?pdv . +?dunit qudt:hasDimensionVector ?ddv . +FILTER (?punit != ?dunit) . +FILTER (?pdv != ?ddv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:path ns1:hasQuantityKind ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the Setpoint associated with it have non-commensurate QuantityKinds."^^xsd:string ; + sh:message "s223: {$this} uses QuantityKind {?pqk} with DimensionVector {?pdv}, while Setpoint {?setpoint} uses QuantityKind {?sqk} with DimensionVector {?sdv}. These are non-commensurate"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?pqk ?sqk ?pdv ?sdv +WHERE { +$this qudt:hasQuantityKind ?pqk . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasQuantityKind ?sqk . +?pqk qudt:hasDimensionVector ?pdv . +?sqk qudt:hasDimensionVector ?sdv . +FILTER (?pqk != ?sqk) . +FILTER (?pdv != ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty and the associated setpoint use non-commensurate Units."^^xsd:string ; + sh:path ns1:hasUnit ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty and the associated setpoint use non-commensurate Units."^^xsd:string ; + sh:message "s223: {$this} uses Unit {?punit}, while setpoint {?setpoint} uses Unit {?sunit}. These are non-commensurate."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?setpoint ?punit ?sunit +WHERE { +$this qudt:hasUnit ?punit . +$this s223:hasSetpoint ?setpoint . +?setpoint qudt:hasUnit ?sunit . +?punit qudt:hasDimensionVector ?pdv . +?sunit qudt:hasDimensionVector ?sdv . +FILTER (?punit != ?sunit) . +FILTER (?pdv != ?sdv) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:path s223:hasValue ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty cannot have a value without a Unit."^^xsd:string ; + sh:message "s223: {$this} referenced by {?subject} has a value of {?v} but does not specify a Unit."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?v ?subject +WHERE { +$this s223:hasValue ?v . +FILTER NOT EXISTS {$this qudt:hasUnit ?u} . +?subject ?p $this . +} +"""^^xsd:string ] ], + [ rdfs:comment "This QuantifiableProperty with Aspect-Setpoint is not referenced by any Property using hasSetpoint."^^xsd:string ; + sh:path ns1:hasSetpoint ; + sh:severity sh:Info ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "This QuantifiableProperty with Aspect-Setpoint is not referenced by any Property using hasSetpoint."^^xsd:string ; + sh:message "s223: {$this} has Aspect-Setpoint but is not referenced by any Property using hasSetpoint."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +$this s223:hasAspect s223:Aspect-Setpoint . +FILTER NOT EXISTS {?anything s223:hasSetpoint $this} . +} +"""^^xsd:string ] ] ; + sh:rule [ a sh:SPARQLRule ; + rdfs:comment "Infer the hasQuantityKind relation if it is unambiguous."^^xsd:string ; + sh:construct """ +CONSTRUCT { +$this qudt:hasQuantityKind ?uniqueqk +} +WHERE { +{ +SELECT $this (COUNT (DISTINCT (?qk)) AS ?count) +WHERE { +FILTER (NOT EXISTS {$this qudt:hasQuantityKind ?something}) . +$this qudt:hasUnit/qudt:hasQuantityKind ?qk . +} +GROUP BY $this +} +FILTER (?count = 1) +$this qudt:hasUnit/qudt:hasQuantityKind ?uniqueqk . +} +"""^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "Infer the hasQuantityKind relation if it is unambiguous."^^xsd:string ; + sh:construct """ +CONSTRUCT { +$this qudt:hasQuantityKind ?uniqueqk +} +WHERE { +{ +SELECT $this (COUNT (DISTINCT (?qk)) AS ?count) +WHERE { +FILTER (NOT EXISTS {$this qudt:hasQuantityKind ?something}) . +$this qudt:hasUnit/qudt:hasQuantityKind ?qk . +} +GROUP BY $this +} +FILTER (?count = 1) +$this qudt:hasUnit/qudt:hasQuantityKind ?uniqueqk . +} +"""^^xsd:string ; + sh:prefixes ] ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Checks for consistent dimension vectors for a QuantityKind and the Unit"^^xsd:string ; + sh:message "s223: Inconsistent dimensionalities among the Property's Unit and Property's Quantity Kind"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this + WHERE +{ + $this qudt:hasQuantityKind/qudt:hasDimensionVector ?qkdv1 . + $this qudt:hasUnit/qudt:hasDimensionVector ?qkdv2 . +FILTER (?qkdv1 != ?qkdv2) . +} +"""^^xsd:string ], + [ a sh:SPARQLConstraint ; + rdfs:comment "Checks for consistent dimension vectors for a QuantityKind and the Unit"^^xsd:string ; + sh:message "s223: Inconsistent dimensionalities among the Property's Unit and Property's Quantity Kind"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this + WHERE +{ + $this qudt:hasQuantityKind/qudt:hasDimensionVector ?qkdv1 . + $this qudt:hasUnit/qudt:hasDimensionVector ?qkdv2 . +FILTER (?qkdv1 != ?qkdv2) . +} +"""^^xsd:string ] . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L-1I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength -1 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind , + ; + ns1:latexDefinition "$L^-1$"^^ns1:LatexString, + "\\(L^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "British Thermal Unit (International Definition)"@en ; @@ -79418,7 +89568,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e+09 ; + ns1:conversionMultiplier 1000000000.0, + 1e+09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -79434,7 +89585,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Kilo British Thermal Unit (International Definition)"@en ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.055056e+05 ; + ns1:conversionMultiplier 105505.585262, + 1.055056e+05 ; ns1:definedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind , @@ -79447,7 +89599,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Kilo British Thermal Unit (Thermochemical Definition)"@en ; ns1:applicableSystem , ; - ns1:conversionMultiplier 1.05435e+06 ; + ns1:conversionMultiplier 1.05435e+06, + 1054350.2645 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -79498,7 +89651,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, , , ; - ns1:conversionMultiplier 1e+06 ; + ns1:conversionMultiplier 1000000.0, + 1e+06 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -79524,7 +89678,8 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, rdfs:label "Therm US"@en ; dcterms:description "\\(\\textbf{Therm} (symbol \\(thm\\)) is a non-SI unit of heat energy. It was defined in the United States in 1968 as the energy equivalent of burning 100 cubic feet of natural gas at standard temperature and pressure. In the US gas industry its SI equivalent is defined as exactly \\(100,000 BTU59^\\circ F\\) or \\(105.4804 megajoules\\). Public utilities in the U.S. use the therm unit for measuring customer usage of gas and calculating the monthly bills."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1.054804e+08 ; + ns1:conversionMultiplier 105480400.0, + 1.054804e+08 ; ns1:hasDimensionVector ; ns1:hasQuantityKind , ; @@ -79534,124 +89689,22 @@ s223:NumberOfElectricalPhases-ThreePhase a s223:Class, ns1:uneceCommonCode "N72"^^xsd:string ; rdfs:isDefinedBy . - rdfs:label "QUDT VOCAB Decimal Prefixes Release 2.1.41"^^xsd:string ; - ns2:hasGraphMetadata ns2:GMD_QUDT-PREFIXES ; - owl:versionIRI ; - owl:versionInfo "Created with TopBraid Composer"^^xsd:string . - - a ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E1L0I0M0H0T1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 1 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T I\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Foot Pound Force"@en ; - dcterms:description "\"Foot Pound Force\" is an Imperial unit for 'Energy And Work' expressed as \\(ft-lbf\\)."^^ns1:LatexString ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 1.35581807 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Foot-pound_force"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(ft-lbf\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Foot-pound_force?oldid=453269257"^^xsd:anyURI ; - ns1:symbol "ft⋅lbf"^^xsd:string ; - ns1:ucumCode "[ft_i].[lbf_av]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "85"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "الشحنة الكهربائية"@ar, - "Електрически заряд"@bg, - "Elektrický náboj"@cs, - "elektrische Ladung"@de, - "Ηλεκτρικό φορτίο"@el, - "electric charge"@en, - "carga eléctrica"@es, - "بار الکتریکی"@fa, - "Charge électrique"@fr, - "מטען חשמלי"@he, - "विद्युत आवेग या विद्युत बहाव"@hi, - "elektromos töltés"@hu, - "carica elettrica"@it, - "電荷"@ja, - "onus electricum"@la, - "Cas elektrik"@ms, - "ładunek elektryczny"@pl, - "carga elétrica"@pt, - "sarcină electrică"@ro, - "Электрический заряд"@ru, - "električni naboj"@sl, - "elektrik yükü"@tr, - "电荷"@zh ; - dcterms:description "\"Electric Charge\" is a fundamental conserved property of some subatomic particles, which determines their electromagnetic interaction. Electrically charged matter is influenced by, and produces, electromagnetic fields. The electric charge on a body may be positive or negative. Two positively charged bodies experience a mutual repulsive force, as do two negatively charged bodies. A positively charged body and a negatively charged body experience an attractive force. Electric charge is carried by discrete particles and can be positive or negative. The sign convention is such that the elementary electric charge \\(e\\), that is, the charge of the proton, is positive. The SI derived unit of electric charge is the coulomb."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD037"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Electric_charge"^^xsd:anyURI, - "http://en.wikipedia.org/wiki/Electric_charge?oldid=492961669"^^xsd:anyURI, - "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ; - ns1:latexDefinition "$dQ = Idt$, where $I$ is electric current."^^ns1:LatexString ; - ns1:siExactMatch ; - ns1:symbol "Q"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso ; - skos:altLabel "cantitate de electricitate"@ro . - -s223:EnumerationKind-Aspect a s223:Class, - s223:EnumerationKind-Aspect, +s223:Fluid-Water a s223:Class, + s223:Fluid-Water, sh:NodeShape ; - rdfs:label "EnumerationKind Aspect"^^xsd:string ; - rdfs:comment """This class has enumerated subclasses usually used to specify the context of a s223:Property. The following table lists all of the defined enumerations for Aspect. - Some Aspect enumerations have subclasses for more specific use. Those subclasses are not shown in the table but each of them are defined in `s223:Aspect-DayOfWeek` - `s223:Aspect-ElectricalVoltagePhases`. - The following table lists all of the defined enumerations for Aspect."""^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind . + rdfs:label "Fluid-Water"^^xsd:string ; + s223:composedOf [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ], + [ a s223:QuantifiableProperty ; + rdfs:label "Water conc"^^xsd:string ; + s223:ofConstituent s223:Constituent-H2O ; + ns1:hasQuantityKind ; + ns1:hasUnit ] ; + rdfs:comment "This class has enumerated subclasses of water and aqueous solutions in various states."^^xsd:string ; + rdfs:subClassOf s223:Mix-Fluid . a ns1:QuantityKind ; rdfs:label "التردد لدى نظام الوحدات الدولي"@ar, @@ -79677,7 +89730,8 @@ s223:EnumerationKind-Aspect a s223:Class, "frekvenca"@sl, "frekans"@tr, "频率"@zh ; - dcterms:description "\"Frequency\" is the number of occurrences of a repeating event per unit time. The repetition of the events may be periodic (that is. the length of time between event repetitions is fixed) or aperiodic (i.e. the length of time between event repetitions varies). Therefore, we distinguish between periodic and aperiodic frequencies. In the SI system, periodic frequency is measured in hertz (Hz) or multiples of hertz, while aperiodic frequency is measured in becquerel (Bq). In spectroscopy, \\(\\nu\\) is mostly used. Light passing through different media keeps its frequency, but not its wavelength or wavenumber."^^ns1:LatexString ; + dcterms:description "\"Frequency\" is the number of occurrences of a repeating event per unit time. The repetition of the events may be periodic (that is. the length of time between event repetitions is fixed) or aperiodic (i.e. the length of time between event repetitions varies). Therefore, we distinguish between periodic and aperiodic frequencies. In the SI system, periodic frequency is measured in hertz (Hz) or multiples of hertz, while aperiodic frequency is measured in becquerel (Bq). In spectroscopy, $\\nu$ is mostly used. Light passing through different media keeps its frequency, but not its wavelength or wavenumber."^^ns1:LatexString, + "\"Frequency\" is the number of occurrences of a repeating event per unit time. The repetition of the events may be periodic (that is. the length of time between event repetitions is fixed) or aperiodic (i.e. the length of time between event repetitions varies). Therefore, we distinguish between periodic and aperiodic frequencies. In the SI system, periodic frequency is measured in hertz (Hz) or multiples of hertz, while aperiodic frequency is measured in becquerel (Bq). In spectroscopy, \\(\\nu\\) is mostly used. Light passing through different media keeps its frequency, but not its wavelength or wavenumber."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -79715,83 +89769,10 @@ Alternatively, $\\nu = 1/T$"""^^ns1:LatexString ; ns1:latexSymbol "$\\nu, f$"^^ns1:LatexString ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Frequency"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M1H0T-2D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -2 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind , - ; - ns1:latexDefinition "\\(M T^-2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKind ; - rdfs:label "Mass Flow Rate"@en ; - dcterms:description "\"Mass Flow Rate\" is a measure of Mass flux. The common symbol is $\\dot{m}$ (pronounced \"m-dot\"), although sometimes $\\mu$ is used. The SI units are $kg s-1$."^^ns1:LatexString ; - ns1:applicableUnit , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Mass_flow_rate"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:iec61360Code "0112/2///62720#UAD107"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Mass_flow_rate"^^xsd:anyURI ; - ns1:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; - ns1:latexDefinition "$q_m = \\frac{dm}{dt}$, where $m$ is mass and $t$ is time."^^ns1:LatexString ; - ns1:latexSymbol "$\\dot{m}$"^^ns1:LatexString ; - ns1:symbol "q_m"^^xsd:string ; - rdfs:isDefinedBy ; - rdfs:seeAlso . - a ns1:QuantityKind ; rdfs:label "السرعة"@ar, "Rychlost"@cs, @@ -79814,7 +89795,8 @@ $\\nu = 1/T$"""^^ns1:LatexString ; "hitrost"@sl, "hız"@tr, "速度"@zh ; - dcterms:description "In kinematics, velocity is the speed of an object and a specification of its direction of motion. Speed describes only how fast an object is moving, whereas velocity gives both how fast and in what direction the object is moving. "^^rdf:HTML ; + dcterms:description "In kinematics, velocity is the speed of an object and a specification of its direction of motion. Speed describes only how fast an object is moving, whereas velocity gives both how fast and in what direction the object is moving. "^^ns1:LatexString, + "In kinematics, velocity is the speed of an object and a specification of its direction of motion. Speed describes only how fast an object is moving, whereas velocity gives both how fast and in what direction the object is moving. "^^rdf:HTML ; ns1:applicableUnit , , , @@ -79858,46 +89840,41 @@ $\\nu = 1/T$"""^^ns1:LatexString ; ns1:plainTextDescription "In kinematics, velocity is the speed of an object and a specification of its direction of motion. Speed describes only how fast an object is moving, whereas velocity gives both how fast and in what direction the object is moving. "^^xsd:string ; ns1:siExactMatch ; ns1:symbol "v"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Velocity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "rapidez"@es, "वेग"@hi . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L-1I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength -1 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind , - ; - ns1:latexDefinition "\\(L^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Hartree"@en ; - dcterms:description """

The \\(\\textit{Hartree}\\) (symbol: \\(E_h\\) or \\(Ha\\)), also known as the \\(\\text{Hartree\\,Energy}\\), is the atomic unit of energy. The hartree energy is equal to the absolute value of the electric potential energy of the hydrogen atom in its ground state. The energy of the electron in an H-atom in its ground state is \\(-E_H\\), where \\(E_H= 2 R_\\infty \\cdot hc_0\\). The 2006 CODATA recommended value was \\(E_H = 4.35974394(22) \\times 10^{-18} J = 27.21138386(68) eV\\).

-
Definition:
-
\\(E_H= \\frac{e^2}{4\\pi \\epsilon_0 a_0 }\\)
-where, \\(e\\) is the elementary charge, \\(\\epsilon_0\\) is the electric constant, and \\(a_0\\) is the Bohr radius.'
"""^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 4.359744e-18 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Hartree"^^xsd:anyURI ; + a ns1:Unit ; + rdfs:label "Foot Pound Force"@en ; + dcterms:description "\"Foot Pound Force\" is an Imperial unit for 'Energy And Work' expressed as \\(ft-lbf\\)."^^ns1:LatexString ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 1.35581807 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Foot-pound_force"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(ft-lbf\\)"^^ns1:LatexString ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Hartree?oldid=489318053"^^xsd:anyURI ; - ns1:symbol "Ha"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Foot-pound_force?oldid=453269257"^^xsd:anyURI ; + ns1:symbol "ft⋅lbf"^^xsd:string ; + ns1:ucumCode "[ft_i].[lbf_av]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "85"^^xsd:string ; rdfs:isDefinedBy . +s223:EnumerationKind-Aspect a s223:Class, + s223:EnumerationKind-Aspect, + sh:NodeShape ; + rdfs:label "EnumerationKind Aspect"^^xsd:string ; + rdfs:comment """This class has enumerated subclasses usually used to specify the context of a s223:Property. The following table lists all of the defined enumerations for Aspect. + Some Aspect enumerations have subclasses for more specific use. Those subclasses are not shown in the table but each of them are defined in `s223:Aspect-DayOfWeek` - `s223:Aspect-ElectricalVoltagePhases`. + The following table lists all of the defined enumerations for Aspect."""^^xsd:string, + """This class has enumerated subclasses usually used to specify the context of a s223:Property. The following table lists all of the defined enumerations for Aspect. + Some Aspect enumerations have subclasses for more specific use. Those subclasses are not shown in the table but each of them are defined in `s223:EnumerationKind-DayOfWeek` - `s223:EnumerationKind-ElectricalVoltagePhases`. + The following table lists all of the defined enumerations for Aspect."""^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -79912,7 +89889,8 @@ where, \\(e\\) is the elementary charge, \\(\\epsilon_0\\) is the electric const ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$M T^-1$"^^ns1:LatexString, + "\\(M T^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -79929,9 +89907,36 @@ where, \\(e\\) is the elementary charge, \\(\\epsilon_0\\) is the electric const ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 T^-2$"^^ns1:LatexString, + "\\(L^2 T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Hartree"@en ; + dcterms:description """

The \\(\\textit{Hartree}\\) (symbol: \\(E_h\\) or \\(Ha\\)), also known as the \\(\\text{Hartree\\,Energy}\\), is the atomic unit of energy. The hartree energy is equal to the absolute value of the electric potential energy of the hydrogen atom in its ground state. The energy of the electron in an H-atom in its ground state is \\(-E_H\\), where \\(E_H= 2 R_\\infty \\cdot hc_0\\). The 2006 CODATA recommended value was \\(E_H = 4.35974394(22) \\times 10^{-18} J = 27.21138386(68) eV\\).

+
Definition:
+
\\(E_H= \\frac{e^2}{4\\pi \\epsilon_0 a_0 }\\)
+where, \\(e\\) is the elementary charge, \\(\\epsilon_0\\) is the electric constant, and \\(a_0\\) is the Bohr radius.'
"""^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.00000000000000000435974394, + 4.359744e-18 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Hartree"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Hartree?oldid=489318053"^^xsd:anyURI ; + ns1:symbol "Ha"^^xsd:string ; + rdfs:isDefinedBy . + +s223:Constituent-Electricity a s223:Class, + s223:Constituent-Electricity, + sh:NodeShape ; + rdfs:label "Electricity"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of all forms of electricity, including AC and DC."^^xsd:string ; + rdfs:subClassOf s223:Medium-Constituent . + a ns1:Unit ; rdfs:label "Electron Volt"@en ; dcterms:description "An electron volt (eV) is the energy that an electron gains when it travels through a potential of one volt. You can imagine that the electron starts at the negative plate of a parallel plate capacitor and accelerates to the positive plate, which is at one volt higher potential. Numerically \\(1 eV\\) approximates \\(1.6x10^{-19} joules\\), where \\(1 joule\\) is \\(6.2x10^{18} eV\\). For example, it would take \\(6.2x10^{20} eV/sec\\) to light a 100 watt light bulb."^^ns1:LatexString ; @@ -79939,165 +89944,24 @@ where, \\(e\\) is the elementary charge, \\(\\epsilon_0\\) is the electric const , , ; - ns1:conversionMultiplier 1.602177e-19 ; + ns1:conversionMultiplier 0.0000000000000000001602176634, + 1.602177e-19 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Electron_volt"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:informativeReference "http://en.wikipedia.org/wiki/Electron_volt?oldid=344021738"^^xsd:anyURI, "http://physics.nist.gov/cuu/Constants/bibliography.html"^^xsd:anyURI ; + ns1:quantityValue ns1:ValueForElectronVolt ; ns1:symbol "eV"^^xsd:string ; ns1:ucumCode "eV"^^ns1:UCUMcs ; ns1:udunitsCode "eV"^^xsd:string ; ns1:uneceCommonCode "A53"^^xsd:string ; rdfs:isDefinedBy . - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "Mega Electron Volt"@en ; - dcterms:description "\\(\\textbf{Mega Electron Volt} is a unit for 'Energy And Work' expressed as \\(MeV\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.602177e-13 ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:symbol "MeV"^^xsd:string ; - ns1:ucumCode "MeV"^^ns1:UCUMcs ; - ns1:uneceCommonCode "B71"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:Unit ; - rdfs:label "Percent"@en ; - dcterms:description "\"Percent\" is a unit for 'Dimensionless Ratio' expressed as \\(\\%\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - , - , - , - , - ; - ns1:conversionMultiplier 0.01 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Percentage"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA000"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Percentage?oldid=495284540"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "%"^^xsd:string ; - ns1:ucumCode "%"^^ns1:UCUMcs ; - ns1:udunitsCode "%"^^xsd:string ; - ns1:uneceCommonCode "P1"^^xsd:string ; - rdfs:isDefinedBy . - -s223:OutletConnectionPoint a s223:Class, - sh:NodeShape ; - rdfs:label "Outlet Connection Point"^^xsd:string ; - rdfs:comment "An OutletConnectionPoint is a ConnectionPoint for which a Medium is expected to flow out of the associated Connectable."^^xsd:string ; - rdfs:subClassOf s223:ConnectionPoint ; - sh:property [ rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; - sh:path s223:mapsTo ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; - sh:message "s223: {$this} must have a mapsTo an OutletConnectionPoint of {?parentEquipment} and not an external Connection to {?destinationEquipment}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?parentEquipment ?destinationEquipment -WHERE { -?equipment s223:hasConnectionPoint $this . -?parentEquipment s223:contains ?equipment . -$this s223:connectsThrough/s223:connectsTo ?destinationEquipment . -FILTER NOT EXISTS {?parentEquipment s223:contains ?destinationEquipment} . -FILTER NOT EXISTS {$this s223:mapsTo ?anything} . -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; - sh:class s223:OutletConnectionPoint ; - sh:message "s223: If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; - sh:path s223:mapsTo ], - [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; - sh:class s223:InletConnectionPoint ; - sh:message "s223: If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; - sh:path s223:pairedConnectionPoint ] . - -s223:InletConnectionPoint a s223:Class, - sh:NodeShape ; - rdfs:label "Inlet Connection Point"^^xsd:string ; - rdfs:comment "An InletConnectionPoint is a ConnectionPoint for which a Medium is expected to flow into the associated Connectable."^^xsd:string ; - rdfs:subClassOf s223:ConnectionPoint ; - sh:property [ rdfs:comment "If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; - sh:class s223:InletConnectionPoint ; - sh:message "s223: If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; - sh:path s223:mapsTo ], - [ rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; - sh:path s223:mapsTo ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; - sh:message "s223: {$this} must have a mapsTo an InletConnectionPoint of {?parentEquipment} and not an external Connection from {?sourceEquipment}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?parentEquipment ?sourceEquipment -WHERE { -?equipment s223:hasConnectionPoint $this . -?parentEquipment s223:contains ?equipment . -$this s223:connectsThrough/s223:connectsFrom ?sourceEquipment . -FILTER NOT EXISTS {?parentEquipment s223:contains ?sourceEquipment} . -FILTER NOT EXISTS {$this s223:mapsTo ?anything} . -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; - sh:class s223:OutletConnectionPoint ; - sh:message "s223: If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; - sh:path s223:pairedConnectionPoint ] . - - a ns1:Unit ; - rdfs:label "Unified Atomic Mass Unit"@en ; - dcterms:description "The unified atomic mass unit (symbol: \\(u\\)) or dalton (symbol: \\(Da\\)) is the standard unit that is used for indicating mass on an atomic or molecular scale (atomic mass). It is defined as one twelfth of the mass of an unbound neutral atom of carbon-12 in its nuclear and electronic ground state,[ and has a value of \\(1.660538921(73) \\times 10^{-27} kg\\). One dalton is approximately equal to the mass of one nucleon; an equivalence of saying \\(1 g mol^{-1}\\). The CIPM have categorised it as a 'non-SI unit' because units values in SI units must be obtained experimentally."^^ns1:LatexString ; - ns1:conversionMultiplier 1.660539e-27 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Atomic_mass_unit"^^xsd:anyURI ; - ns1:exactMatch , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB083"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_mass_unit"^^xsd:anyURI ; - ns1:omUnit ; - ns1:symbol "u"^^xsd:string ; - ns1:ucumCode "u"^^ns1:UCUMcs ; - ns1:uneceCommonCode "D43"^^xsd:string ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L2I0M0H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 2 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "Volume"@en ; - dcterms:description "The volume of a solid object is the three-dimensional concept of how much space it occupies, often quantified numerically. One-dimensional figures (such as lines) and two-dimensional shapes (such as squares) are assigned zero volume in the three-dimensional space."^^rdf:HTML ; + dcterms:description "The volume of a solid object is the three-dimensional concept of how much space it occupies, often quantified numerically. One-dimensional figures (such as lines) and two-dimensional shapes (such as squares) are assigned zero volume in the three-dimensional space."^^ns1:LatexString, + "The volume of a solid object is the three-dimensional concept of how much space it occupies, often quantified numerically. One-dimensional figures (such as lines) and two-dimensional shapes (such as squares) are assigned zero volume in the three-dimensional space."^^rdf:HTML ; ns1:applicableUnit , , , @@ -80152,22 +90016,43 @@ FILTER NOT EXISTS {$this s223:mapsTo ?anything} . ns1:iec61360Code "0112/2///62720#UAD238"^^xsd:string ; ns1:plainTextDescription "The volume of a solid object is the three-dimensional concept of how much space it occupies, often quantified numerically. One-dimensional figures (such as lines) and two-dimensional shapes (such as squares) are assigned zero volume in the three-dimensional space."^^xsd:string ; ns1:siExactMatch ; + rdfs:comment "Applicable units are those of quantitykind:Volume"^^xsd:string ; rdfs:isDefinedBy . -s223:Numerical-Voltage a s223:Class, - s223:Numerical-Voltage, - sh:NodeShape ; - rdfs:label "Dimensioned Voltage"^^xsd:string ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "This class has enumerated instances of common voltages."^^xsd:string ; - rdfs:subClassOf s223:EnumerationKind-Numerical ; - sh:property [ rdfs:comment "A Numerical-Voltage must have a unit of Volts"^^xsd:string ; - sh:hasValue ; - sh:path ns1:hasUnit ], - [ rdfs:comment "A Numerical-Voltage must have a Quantity Kind of Voltage"^^xsd:string ; - sh:hasValue ; - sh:path ns1:hasQuantityKind ] . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "Mega Electron Volt"@en ; + dcterms:description "\\(\\textbf{Mega Electron Volt} is a unit for 'Energy And Work' expressed as \\(MeV\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 0.0000000000001602176634, + 1.602177e-13 ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:symbol "MeV"^^xsd:string ; + ns1:ucumCode "MeV"^^ns1:UCUMcs ; + ns1:uneceCommonCode "B71"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L2I0M0H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 2 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^2$"^^ns1:LatexString, + "\\(L^2\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "القدرة"@ar, @@ -80193,7 +90078,9 @@ s223:Numerical-Voltage a s223:Class, "moč"@sl, "güç"@tr, "功率、热流"@zh ; - dcterms:description "Power is the rate at which work is performed or energy is transmitted, or the amount of energy required or expended for a given unit of time. As a rate of change of work done or the energy of a subsystem, power is: \\(P = W/t\\), where \\(P\\) is power, \\(W\\) is work and {t} is time."^^ns1:LatexString ; + dcterms:description "Power is the rate at which work is performed or energy is transmitted, or the amount of energy required or expended for a given unit of time. As a rate of change of work done or the energy of a subsystem, power is: $P = W/t$, where $P$ is power, $W$ is work and {t} is time."^^ns1:LatexString, + "Power is the rate at which work is performed or energy is transmitted, or the amount of energy required or expended for a given unit of time. As a rate of change of work done or the energy of a subsystem, power is: \\(P = W/t\\), where \\(P\\) is power, \\(W\\) is work and {t} is time."^^ns1:LatexString ; + ns1:altSymbol "p"^^xsd:string ; ns1:applicableUnit , , , @@ -80268,12 +90155,43 @@ s223:Numerical-Voltage a s223:Class, ns1:siExactMatch ; ns1:symbol "P"^^xsd:string, "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Power"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "विकिरणी बहाव"@hi, "strumień promieniowania"@pl, "flux energetic"@ro, "ısı akış oranı"@tr . + a ns1:Unit ; + rdfs:label "Unified Atomic Mass Unit"@en ; + dcterms:description "The unified atomic mass unit (symbol: \\(u\\)) or dalton (symbol: \\(Da\\)) is the standard unit that is used for indicating mass on an atomic or molecular scale (atomic mass). It is defined as one twelfth of the mass of an unbound neutral atom of carbon-12 in its nuclear and electronic ground state,[ and has a value of \\(1.660538921(73) \\times 10^{-27} kg\\). One dalton is approximately equal to the mass of one nucleon; an equivalence of saying \\(1 g mol^{-1}\\). The CIPM have categorised it as a 'non-SI unit' because units values in SI units must be obtained experimentally."^^ns1:LatexString ; + ns1:conversionMultiplier 0.00000000000000000000000000166053878283, + 1.660539e-27 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Atomic_mass_unit"^^xsd:anyURI ; + ns1:exactMatch , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB083"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Atomic_mass_unit"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "u"^^xsd:string ; + ns1:ucumCode "u"^^ns1:UCUMcs ; + ns1:uneceCommonCode "D43"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs , + . + +s223:NumberOfElectricalPhases-SinglePhase a s223:Class, + s223:NumberOfElectricalPhases-SinglePhase, + sh:NodeShape ; + rdfs:label "Single Phase AC Electricity"^^xsd:string ; + s223:hasValue 1.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "Single Phase AC Electricity"^^xsd:string ; + rdfs:subClassOf s223:Numerical-NumberOfElectricalPhases . + a ns1:QuantityKind ; rdfs:label "زمن"@ar, "Време"@bg, @@ -80298,7 +90216,8 @@ s223:Numerical-Voltage a s223:Class, "čas"@sl, "zaman"@tr, "时间"@zh ; - dcterms:description "Time is a basic component of the measuring system used to sequence events, to compare the durations of events and the intervals between them, and to quantify the motions of objects."^^rdf:HTML ; + dcterms:description "Time is a basic component of the measuring system used to sequence events, to compare the durations of events and the intervals between them, and to quantify the motions of objects."^^ns1:LatexString, + "Time is a basic component of the measuring system used to sequence events, to compare the durations of events and the intervals between them, and to quantify the motions of objects."^^rdf:HTML ; ns1:applicableUnit , , , @@ -80346,150 +90265,13 @@ s223:Numerical-Voltage a s223:Class, ns1:plainTextDescription "Time is a basic component of the measuring system used to sequence events, to compare the durations of events and the intervals between them, and to quantify the motions of objects."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "t"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Time"^^xsd:string ; rdfs:isDefinedBy . -s223:NumberOfElectricalPhases-SinglePhase a s223:Class, - s223:NumberOfElectricalPhases-SinglePhase, - sh:NodeShape ; - rdfs:label "Single Phase AC Electricity"^^xsd:string ; - s223:hasValue 1.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "Single Phase AC Electricity"^^xsd:string ; - rdfs:subClassOf s223:Numerical-NumberOfElectricalPhases . - -s223:Equipment a s223:Class, - sh:NodeShape ; - rdfs:label "Equipment"^^xsd:string ; - rdfs:comment """ -Equipment is the modeling construct used to represent a device designed to accomplish a specific task, -or a complex device that contains component pieces of Equipment. This is distinct from a System, which is a logical grouping or collection of Equipment. -Equipment can have ConnectionPoints and participate -in the flow of one or more kinds of Medium. Examples of possible equipment include a Pump, Fan, HeatExchanger, Luminaire, -TemperatureSensor, or FlowSensor. - -In common usage terms like equipment and system have a variety of ambituous and possibly conflicting interpretations. A semantic model -is an attempt to eliminate such ambiguities and conflicts. If the thing being modeled has a need for ConnectionPoints it must be modeled as Equipment and not a System. -Thus, a complex example like a chlled water plant is modeled as Equipment because it has connection points for distributing chilled water. The same chilled water plant -may be part of a logical grouping of pumps, valves, filters, and other things modeled as a chilled water System. - -The graphical depiction of Equipment used in this standard is a rounded cornered rectangle as show in Figure 5-1. - -![Graphical Depiction of Equipment.](figures/Figure_5-1Graphical_Depiciton_of_Equipment.svg) - """^^xsd:string ; - rdfs:subClassOf s223:Connectable ; - sh:property [ rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; - sh:path s223:connectedTo ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; - sh:message "s223: {$this} should not have a connection to external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?container ?otherDev -WHERE { -$this s223:connectedTo ?otherDev . -$this ^s223:contains ?container . -?container a/rdfs:subClassOf* s223:Equipment . -FILTER NOT EXISTS {?container s223:contains ?otherDev .} -} -"""^^xsd:string ] ], - [ rdfs:comment """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. -Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; - sh:class s223:ActuatableProperty ; - sh:message """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. -Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; - sh:path s223:actuatedByProperty ], - [ a sh:PropertyShape ; - rdfs:comment "If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; - sh:message "s223: If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; - sh:name "device contains shape"^^xsd:string ; - sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:Junction ] ) ; - sh:path s223:contains ], - [ rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; - sh:path s223:connectedFrom ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; - sh:message "s223: {$this} should not have a connection from external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?container ?otherDev -WHERE { -$this s223:connectedFrom ?otherDev . -$this ^s223:contains ?container . -?container a/rdfs:subClassOf* s223:Equipment . -FILTER NOT EXISTS {?container s223:contains ?otherDev .} -} -"""^^xsd:string ] ], - [ rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; - sh:path s223:contains ; - sh:severity sh:Warning ; - sh:sparql [ a sh:SPARQLConstraint ; - rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; - sh:message "s223: {$this}, of type {?type1}, contains {?subEquip} of type {?type2}, that could result in double-counting items in the class hierarchy of {?type1}."^^xsd:string ; - sh:prefixes ; - sh:select """ -SELECT $this ?subEquip ?type1 ?type2 -WHERE { - FILTER NOT EXISTS {$this a s223:Equipment} . -$this s223:contains+ ?subEquip . - FILTER NOT EXISTS {?subEquip a s223:Equipment} . -$this a ?type1 . -?subEquip a ?type2 . -{ -?type2 rdfs:subClassOf* ?type1 . -} -UNION -{ -?type1 rdfs:subClassOf* ?type2 . -} -} -"""^^xsd:string ] ], - [ rdfs:comment "If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; - sh:class s223:Function ; - sh:message "s223: If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; - sh:path s223:executes ], - [ rdfs:comment "If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; - sh:class s223:PhysicalSpace ; - sh:message "s223: If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; - sh:path s223:hasPhysicalLocation ], - [ rdfs:comment "If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; - sh:class s223:EnumerationKind-Role ; - sh:message "s223: If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; - sh:path s223:hasRole ] ; - sh:rule [ a sh:SPARQLRule ; - rdfs:comment "For equipment contained within another piece of equipment use the mapsTo relation to infer a Medium from the containing equipment."^^xsd:string ; - sh:construct """ -CONSTRUCT { - ?childCp s223:hasMedium ?medium . -} -WHERE { - $this s223:hasConnectionPoint ?cp . - ?childCp s223:mapsTo ?cp . - ?cp s223:connectsThrough ?connection . - ?cp s223:hasMedium ?medium . - FILTER NOT EXISTS {?childCp s223:hasMedium ?something} . -} -"""^^xsd:string ; - sh:prefixes ], - [ a sh:SPARQLRule ; - rdfs:comment "For equipment containing another piece of equipment, use the mapsTo relation to infer a Medium from the contained equipment."^^xsd:string ; - sh:construct """ -CONSTRUCT { - ?parentCp s223:hasMedium ?medium . -} -WHERE { - $this s223:hasConnectionPoint ?cp . - ?cp s223:mapsTo ?parentCp . - ?cp s223:connectsThrough ?connection . - ?cp s223:hasMedium ?medium . - FILTER NOT EXISTS {?parentCp s223:hasMedium ?something} . -} -"""^^xsd:string ; - sh:prefixes ] . - a ns1:QuantityKind ; rdfs:label "Vapor Pressure"@en ; - dcterms:description "A pressure that is the one exerted by a substance vapor in thermodynamic equilibrium with either its solid or liquid phase at a given temperature in a closed system."^^rdf:HTML ; + dcterms:description "A pressure that is the one exerted by a substance vapor in thermodynamic equilibrium with either its solid or liquid phase at a given temperature in a closed system."^^ns1:LatexString, + "A pressure that is the one exerted by a substance vapor in thermodynamic equilibrium with either its solid or liquid phase at a given temperature in a closed system."^^rdf:HTML ; ns1:applicableUnit , , , @@ -80554,15 +90336,38 @@ WHERE { ; ns1:hasDimensionVector ; ns1:plainTextDescription "A pressure that is the one exerted by a substance vapor in thermodynamic equilibrium with either its solid or liquid phase at a given temperature in a closed system."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VaporPressure"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . +s223:Numerical-Voltage a s223:Class, + s223:Numerical-Voltage, + sh:NodeShape ; + rdfs:label "Dimensioned Voltage"^^xsd:string ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "This class has enumerated instances of common voltages."^^xsd:string ; + rdfs:subClassOf s223:EnumerationKind-Numerical ; + sh:property [ rdfs:comment "A Numerical-Voltage must have a Quantity Kind of Voltage"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A Numerical-Voltage must have a unit of Volts"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasUnit ], + [ rdfs:comment "A Numerical-Voltage must have a Quantity Kind of Voltage"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasQuantityKind ], + [ rdfs:comment "A Numerical-Voltage must have a unit of Volts"^^xsd:string ; + sh:hasValue ; + sh:path ns1:hasUnit ] . + a ns1:Unit ; rdfs:label "كيلوغرام"@ar, "килограм"@bg, "kilogram"@cs, "Kilogramm"@de, "χιλιόγραμμο"@el, + "Kilogram"@en, "kilogram"@en, "kilogramo"@es, "کیلوگرم"@fa, @@ -80601,10 +90406,16 @@ WHERE { ns1:uneceCommonCode "KGM"^^xsd:string ; rdfs:isDefinedBy . +ns1:hasQuantityKind a rdf:Property ; + rdfs:label "has quantity kind"^^xsd:string ; + rdfs:comment "A reference to the QuantityKind of a QuantifiableProperty of interest, e.g. quantitykind:Temperature."^^xsd:string ; + rdfs:isDefinedBy . + a ns1:Unit ; rdfs:label "Angstrom"@en ; dcterms:description "The \\(Angstr\\ddot{o}m\\) is an internationally recognized unit of length equal to \\(0.1 \\,nanometre\\) or \\(1 \\times 10^{-10}\\,metres\\). Although accepted for use, it is not formally defined within the International System of Units(SI). The angstrom is often used in the natural sciences to express the sizes of atoms, lengths of chemical bonds and the wavelengths of electromagnetic radiation, and in technology for the dimensions of parts of integrated circuits. It is also commonly used in structural biology."^^ns1:LatexString ; - ns1:conversionMultiplier 1e-10 ; + ns1:conversionMultiplier 0.0000000001, + 1e-10 ; ns1:dbpediaMatch "http://dbpedia.org/resource/%C3%85ngstr%C3%B6m"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -80625,7 +90436,8 @@ WHERE { , , ; - ns1:conversionMultiplier 1.495979e+11 ; + ns1:conversionMultiplier 149597870691.6, + 1.495979e+11 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Astronomical_unit"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -80862,7 +90674,8 @@ WHERE { a ns1:Unit ; rdfs:label "Light Year"@en ; dcterms:description "A unit of length defining the distance, in meters, that light travels in a vacuum in one year."^^rdf:HTML ; - ns1:conversionMultiplier 9.46073e+15 ; + ns1:conversionMultiplier 9.46073e+15, + 9460730472580800.0 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Light-year"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -80911,7 +90724,8 @@ WHERE { , , ; - ns1:conversionMultiplier 1e-06 ; + ns1:conversionMultiplier 1e-06, + 0.000001 ; ns1:dbpediaMatch "http://dbpedia.org/resource/Micrometer"^^xsd:anyURI ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -80927,7 +90741,8 @@ WHERE { ns1:Unit ; rdfs:label "Mil Length"@en ; dcterms:description "\"Mil Length\" is a C.G.S System unit for 'Length' expressed as \\(mil\\)."^^ns1:LatexString ; - ns1:conversionMultiplier 2.54e-05 ; + ns1:conversionMultiplier 0.0000254, + 2.54e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:symbol "mil"^^xsd:string ; @@ -80939,7 +90754,8 @@ WHERE { dcterms:description "0.001-fold of the unit inch according to the Anglo-American and Imperial system of units"^^rdf:HTML ; ns1:applicableSystem , ; - ns1:conversionMultiplier 2.54e-05 ; + ns1:conversionMultiplier 0.0000254, + 2.54e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA841"^^xsd:string ; @@ -80982,7 +90798,8 @@ WHERE { , , ; - ns1:conversionMultiplier 1e-09 ; + ns1:conversionMultiplier 0.000000001, + 1e-09 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA912"^^xsd:string ; @@ -80996,7 +90813,8 @@ WHERE { a ns1:Unit ; rdfs:label "Parsec"@en ; dcterms:description "The parsec (parallax of one arcsecond; symbol: pc) is a unit of length, equal to just under 31 trillion (\\(31 \\times 10^{12}\\)) kilometres (about 19 trillion miles), 206265 AU, or about 3.26 light-years. The parsec measurement unit is used in astronomy. It is defined as the length of the adjacent side of an imaginary right triangle in space. The two dimensions that specify this triangle are the parallax angle (defined as 1 arcsecond) and the opposite side (defined as 1 astronomical unit (AU), the distance from the Earth to the Sun). Given these two measurements, along with the rules of trigonometry, the length of the adjacent side (the parsec) can be found."^^ns1:LatexString ; - ns1:conversionMultiplier 3.085678e+16 ; + ns1:conversionMultiplier 30856780000000000.0, + 3.085678e+16 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB067"^^xsd:string ; @@ -81023,7 +90841,8 @@ WHERE { a ns1:Unit ; rdfs:label "Point"@en ; dcterms:description "In typography, a point is the smallest unit of measure, being a subdivision of the larger pica. It is commonly abbreviated as pt. The point has long been the usual unit for measuring font size and leading and other minute items on a printed page."^^rdf:HTML ; - ns1:conversionMultiplier 2.54e-05 ; + ns1:conversionMultiplier 0.0000254, + 2.54e-05 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAB605"^^xsd:string ; @@ -81040,7 +90859,8 @@ WHERE { , , ; - ns1:conversionMultiplier 1e-12 ; + ns1:conversionMultiplier 1e-12, + 0.000000000001 ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; ns1:iec61360Code "0112/2///62720#UAA949"^^xsd:string ; @@ -81051,49 +90871,327 @@ WHERE { ns1:uneceCommonCode "C52"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Rod"@en ; - dcterms:description "A unit of distance equal to 5.5 yards (16 feet 6 inches)."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 5.02921 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Rod"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:expression "\\(rd\\)"^^ns1:LatexString ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAA970"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Rod?oldid=492590086"^^xsd:anyURI ; - ns1:symbol "rod"^^xsd:string ; - ns1:ucumCode "[rd_br]"^^ns1:UCUMcs ; - ns1:uneceCommonCode "F49"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:Unit ; + rdfs:label "Rod"@en ; + dcterms:description "A unit of distance equal to 5.5 yards (16 feet 6 inches)."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 5.02921 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Rod"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:expression "\\(rd\\)"^^ns1:LatexString ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAA970"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Rod?oldid=492590086"^^xsd:anyURI ; + ns1:symbol "rod"^^xsd:string ; + ns1:ucumCode "[rd_br]"^^ns1:UCUMcs ; + ns1:uneceCommonCode "F49"^^xsd:string ; + rdfs:isDefinedBy . + + a ns1:Unit ; + rdfs:label "Yard"@en ; + dcterms:description "A yard is a unit of length in several different systems including United States customary units, Imperial units and the former English units. It is equal to 3 feet or 36 inches. Under an agreement in 1959 between Australia, Canada, New Zealand, South Africa, the United Kingdom and the United States, the yard (known as the \"international yard\" in the United States) was legally defined to be exactly 0.9144 metres."^^rdf:HTML ; + ns1:applicableSystem , + ; + ns1:conversionMultiplier 0.9144 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Yard"^^xsd:anyURI ; + ns1:definedUnitOfSystem , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:iec61360Code "0112/2///62720#UAB030"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Yard?oldid=492334628"^^xsd:anyURI ; + ns1:symbol "yd"^^xsd:string ; + ns1:ucumCode "[yd_i]"^^ns1:UCUMcs ; + ns1:udunitsCode "yd"^^xsd:string ; + ns1:uneceCommonCode "YRD"^^xsd:string ; + rdfs:isDefinedBy . + +s223:Fluid-Air a s223:Class, + s223:Fluid-Air, + sh:NodeShape ; + rdfs:label "Fluid-Air"^^xsd:string ; + rdfs:comment "This class has enumerated subclasses of Air in various states."^^xsd:string ; + rdfs:subClassOf s223:Mix-Fluid . + + a ns1:Unit ; + rdfs:label "Planck Length"@en ; + dcterms:description "In physics, the Planck length, denoted \\(\\ell_P\\), is a unit of length, equal to \\(1.616199(97)×10^{-35}\\) metres. It is a base unit in the system of Planck units. The Planck length can be defined from three fundamental physical constants: the speed of light in a vacuum, Planck's constant, and the gravitational constant. "^^ns1:LatexString ; + ns1:applicableSystem ; + ns1:conversionMultiplier 1.616252e-35, + 0.00000000000000000000000000000000001616252 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_length"^^xsd:anyURI ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_length?oldid=495093067"^^xsd:anyURI, + "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; + ns1:latexDefinition "\\(\\ell_P = \\sqrt{\\frac{ \\hbar G}{c^3}} \\approx 1.616199(97)) \\times 10^{-35} m\\), where \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant, and \\(G\\) is the gravitational constant. The two digits enclosed by parentheses are the estimated standard error associated with the reported numerical value."^^ns1:LatexString ; + ns1:latexSymbol "\\(\\ell_P\\)"^^ns1:LatexString ; + ns1:symbol "plancklength"^^xsd:string ; + rdfs:isDefinedBy . + +s223:Equipment a s223:Class, + sh:NodeShape ; + rdfs:label "Equipment"^^xsd:string ; + rdfs:comment """ +Equipment is the modeling construct used to represent a device designed to accomplish a specific task, +or a complex device that contains component pieces of Equipment. This is distinct from a System, which is a logical grouping or collection of Equipment. +Equipment can have ConnectionPoints and participate +in the flow of one or more kinds of Medium. Examples of possible equipment include a Pump, Fan, HeatExchanger, Luminaire, +TemperatureSensor, or FlowSensor. + +In common usage terms like equipment and system have a variety of ambituous and possibly conflicting interpretations. A semantic model +is an attempt to eliminate such ambiguities and conflicts. If the thing being modeled has a need for ConnectionPoints it must be modeled as Equipment and not a System. +Thus, a complex example like a chlled water plant is modeled as Equipment because it has connection points for distributing chilled water. The same chilled water plant +may be part of a logical grouping of pumps, valves, filters, and other things modeled as a chilled water System. + +The graphical depiction of Equipment used in this standard is a rounded cornered rectangle as show in Figure 5-1. + +![Graphical Depiction of Equipment.](figures/Figure_5-1Graphical_Depiciton_of_Equipment.svg) + """^^xsd:string ; + rdfs:subClassOf s223:Connectable ; + sh:property [ rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; + sh:path s223:connectedFrom ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; + sh:message "s223: {$this} should not have a connection from external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?container ?otherDev +WHERE { +$this s223:connectedFrom ?otherDev . +$this ^s223:contains ?container . +?container a/rdfs:subClassOf* s223:Equipment . +FILTER NOT EXISTS {?container s223:contains ?otherDev .} +} +"""^^xsd:string ] ], + [ rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; + sh:path s223:contains ; + sh:severity sh:Warning ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; + sh:message "s223: {$this}, of type {?type1}, contains {?subEquip} of type {?type2}, that could result in double-counting items in the class hierarchy of {?type1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?subEquip ?type1 ?type2 +WHERE { + FILTER NOT EXISTS {$this a s223:Equipment} . +$this s223:contains+ ?subEquip . + FILTER NOT EXISTS {?subEquip a s223:Equipment} . +$this a ?type1 . +?subEquip a ?type2 . +{ +?type2 rdfs:subClassOf* ?type1 . +} +UNION +{ +?type1 rdfs:subClassOf* ?type2 . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; + sh:class s223:PhysicalSpace ; + sh:message "s223: If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; + sh:path s223:hasPhysicalLocation ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; + sh:message "s223: If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; + sh:name "device contains shape"^^xsd:string ; + sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:Junction ] ) ; + sh:path s223:contains ], + [ rdfs:comment "If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; + sh:path s223:connectedTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; + sh:message "s223: {$this} should not have a connection to external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?container ?otherDev +WHERE { +$this s223:connectedTo ?otherDev . +$this ^s223:contains ?container . +?container a/rdfs:subClassOf* s223:Equipment . +FILTER NOT EXISTS {?container s223:contains ?otherDev .} +} +"""^^xsd:string ] ], + [ rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; + sh:path s223:contains ; + sh:severity sh:Warning ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Warning about a subClass of Equipment of type A containing something that is in the same subClass branch."^^xsd:string ; + sh:message "s223: {$this}, of type {?type1}, contains {?subEquip} of type {?type2}, that could result in double-counting items in the class hierarchy of {?type1}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?subEquip ?type1 ?type2 +WHERE { + FILTER NOT EXISTS {$this a s223:Equipment} . +$this s223:contains+ ?subEquip . + FILTER NOT EXISTS {?subEquip a s223:Equipment} . +$this a ?type1 . +?subEquip a ?type2 . +{ +?type2 rdfs:subClassOf* ?type1 . +} +UNION +{ +?type1 rdfs:subClassOf* ?type2 . +} +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; + sh:class s223:EnumerationKind-Role ; + sh:message "s223: If the relation hasRole is present it must associate the Equipment with a EnumerationKind-Role."^^xsd:string ; + sh:path s223:hasRole ], + [ rdfs:comment """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. +Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; + sh:class s223:ActuatableProperty ; + sh:message """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. +Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; + sh:path s223:actuatedByProperty ], + [ rdfs:comment "If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; + sh:class s223:Function ; + sh:message "s223: If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; + sh:path s223:executes ], + [ rdfs:comment """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. +Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; + sh:class s223:ActuatableProperty ; + sh:message """If the relation actuatedByProperty is present it must associate the Equipment with a ActuatableProperty. +Note that any Equipment may use this relation, not just Actuator."""^^xsd:string ; + sh:path s223:actuatedByProperty ], + [ rdfs:comment "If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; + sh:class s223:PhysicalSpace ; + sh:message "s223: If the relation hasPhysicalLocation is present it must associate the Equipment with a PhysicalSpace."^^xsd:string ; + sh:path s223:hasPhysicalLocation ], + [ rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; + sh:path s223:connectedTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Disallow contained equipment from having external outgoing connections."^^xsd:string ; + sh:message "s223: {$this} should not have a connection to external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?container ?otherDev +WHERE { +$this s223:connectedTo ?otherDev . +$this ^s223:contains ?container . +?container a/rdfs:subClassOf* s223:Equipment . +FILTER NOT EXISTS {?container s223:contains ?otherDev .} +} +"""^^xsd:string ] ], + [ a sh:PropertyShape ; + rdfs:comment "If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; + sh:message "s223: If the relation contains is present it must associate the Equipment with either Equipment or Junction."^^xsd:string ; + sh:name "device contains shape"^^xsd:string ; + sh:or ( [ sh:class s223:Equipment ] [ sh:class s223:Junction ] ) ; + sh:path s223:contains ], + [ rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; + sh:path s223:connectedFrom ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Disallow contained equipment from having external incoming connections."^^xsd:string ; + sh:message "s223: {$this} should not have a connection from external equipment {?otherDev} because {?container} contains {$this}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?container ?otherDev +WHERE { +$this s223:connectedFrom ?otherDev . +$this ^s223:contains ?container . +?container a/rdfs:subClassOf* s223:Equipment . +FILTER NOT EXISTS {?container s223:contains ?otherDev .} +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; + sh:class s223:Function ; + sh:message "s223: If the relation executes is present it must associate the Equipment with a Function."^^xsd:string ; + sh:path s223:executes ] ; + sh:rule [ a sh:SPARQLRule ; + rdfs:comment "For equipment containing another piece of equipment, use the mapsTo relation to infer a Medium from the contained equipment."^^xsd:string ; + sh:construct """ +CONSTRUCT { + ?parentCp s223:hasMedium ?medium . +} +WHERE { + $this s223:hasConnectionPoint ?cp . + ?cp s223:mapsTo ?parentCp . + ?cp s223:connectsThrough ?connection . + ?cp s223:hasMedium ?medium . + FILTER NOT EXISTS {?parentCp s223:hasMedium ?something} . +} +"""^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "For equipment contained within another piece of equipment use the mapsTo relation to infer a Medium from the containing equipment."^^xsd:string ; + sh:construct """ +CONSTRUCT { + ?childCp s223:hasMedium ?medium . +} +WHERE { + $this s223:hasConnectionPoint ?cp . + ?childCp s223:mapsTo ?cp . + ?cp s223:connectsThrough ?connection . + ?cp s223:hasMedium ?medium . + FILTER NOT EXISTS {?childCp s223:hasMedium ?something} . +} +"""^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "For equipment contained within another piece of equipment use the mapsTo relation to infer a Medium from the containing equipment."^^xsd:string ; + sh:construct """ +CONSTRUCT { + ?childCp s223:hasMedium ?medium . +} +WHERE { + $this s223:hasConnectionPoint ?cp . + ?childCp s223:mapsTo ?cp . + ?cp s223:connectsThrough ?connection . + ?cp s223:hasMedium ?medium . + FILTER NOT EXISTS {?childCp s223:hasMedium ?something} . +} +"""^^xsd:string ; + sh:prefixes ], + [ a sh:SPARQLRule ; + rdfs:comment "For equipment containing another piece of equipment, use the mapsTo relation to infer a Medium from the contained equipment."^^xsd:string ; + sh:construct """ +CONSTRUCT { + ?parentCp s223:hasMedium ?medium . +} +WHERE { + $this s223:hasConnectionPoint ?cp . + ?cp s223:mapsTo ?parentCp . + ?cp s223:connectsThrough ?connection . + ?cp s223:hasMedium ?medium . + FILTER NOT EXISTS {?parentCp s223:hasMedium ?something} . +} +"""^^xsd:string ; + sh:prefixes ] . + +s223:Frequency-60Hz a s223:Class, + s223:Frequency-60Hz, + sh:NodeShape ; + rdfs:label "60 Hertz"^^xsd:string ; + s223:hasValue 60.0 ; + ns1:hasQuantityKind ; + ns1:hasUnit ; + rdfs:comment "60 Hertz"^^xsd:string ; + rdfs:subClassOf s223:Numerical-Frequency . - a ns1:Unit ; - rdfs:label "Yard"@en ; - dcterms:description "A yard is a unit of length in several different systems including United States customary units, Imperial units and the former English units. It is equal to 3 feet or 36 inches. Under an agreement in 1959 between Australia, Canada, New Zealand, South Africa, the United Kingdom and the United States, the yard (known as the \"international yard\" in the United States) was legally defined to be exactly 0.9144 metres."^^rdf:HTML ; - ns1:applicableSystem , - ; - ns1:conversionMultiplier 0.9144 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Yard"^^xsd:anyURI ; - ns1:definedUnitOfSystem , - ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:iec61360Code "0112/2///62720#UAB030"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Yard?oldid=492334628"^^xsd:anyURI ; - ns1:symbol "yd"^^xsd:string ; - ns1:ucumCode "[yd_i]"^^ns1:UCUMcs ; - ns1:udunitsCode "yd"^^xsd:string ; - ns1:uneceCommonCode "YRD"^^xsd:string ; - rdfs:isDefinedBy . + a ns1:SystemOfUnits ; + rdfs:label "Astronomic System Of Units"@en ; + dcterms:description "The astronomical system of units, formally called the IAU (1976) System of Astronomical Constants, is a system of measurement developed for use in astronomy. It was adopted by the International Astronomical Union (IAU) in 1976, and has been slightly updated since then. The system was developed because of the difficulties in measuring and expressing astronomical data in International System of Units (SI units). In particular, there is a huge quantity of very precise data relating to the positions of objects within the solar system which cannot conveniently be expressed or processed in SI units. Through a number of modifications, the astronomical system of units now explicitly recognizes the consequences of general relativity, which is a necessary addition to the International System of Units in order to accurately treat astronomical data. The astronomical system of units is a tridimensional system, in that it defines units of length, mass and time. The associated astronomical constants also fix the different frames of reference that are needed to report observations. The system is a conventional system, in that neither the unit of length nor the unit of mass are true physical constants, and there are at least three different measures of time."^^rdf:HTML ; + ns1:informativeReference "http://www.iau.org/public/themes/measuring/"^^xsd:anyURI ; + rdfs:isDefinedBy . a ns1:Unit ; rdfs:label "fermi"@en ; dcterms:description "The \\(\\textit{fermi}\\), or \\(\\textit{femtometer}\\) (other spelling \\(femtometre\\), symbol \\(fm\\)) is an SI unit of length equal to \\(10^{-15} metre\\). This distance is often encountered in nuclear physics as a characteristic of this scale. The symbol for the fermi is also \\(fm\\)."^^ns1:LatexString ; ns1:applicableSystem ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionCoefficient 0.0 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -81101,7 +91199,8 @@ WHERE { ns1:omUnit ; ns1:symbol "fm"^^xsd:string ; ns1:uneceCommonCode "A71"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "Femtometre"@en, @@ -81111,7 +91210,8 @@ WHERE { , , ; - ns1:conversionMultiplier 1e-15 ; + ns1:conversionMultiplier 0.000000000000001, + 1e-15 ; ns1:exactMatch ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -81120,7 +91220,8 @@ WHERE { ns1:symbol "fm"^^xsd:string ; ns1:ucumCode "fm"^^ns1:UCUMcs ; ns1:uneceCommonCode "A71"^^xsd:string ; - rdfs:isDefinedBy . + rdfs:isDefinedBy ; + owl:sameAs . a ns1:Unit ; rdfs:label "International Mile"@en ; @@ -81145,7 +91246,8 @@ WHERE { dcterms:description "\"Microinch\" is an Imperial unit for 'Length' expressed as \\(in^{-6}\\)."^^ns1:LatexString ; ns1:applicableSystem , ; - ns1:conversionMultiplier 2.54e-08 ; + ns1:conversionMultiplier 2.54e-08, + 0.0000000254 ; ns1:definedUnitOfSystem ; ns1:hasDimensionVector ; ns1:hasQuantityKind ; @@ -81156,34 +91258,10 @@ WHERE { ns1:uneceCommonCode "M7"^^xsd:string ; rdfs:isDefinedBy . - a ns1:Unit ; - rdfs:label "Planck Length"@en ; - dcterms:description "In physics, the Planck length, denoted \\(\\ell_P\\), is a unit of length, equal to \\(1.616199(97)×10^{-35}\\) metres. It is a base unit in the system of Planck units. The Planck length can be defined from three fundamental physical constants: the speed of light in a vacuum, Planck's constant, and the gravitational constant. "^^ns1:LatexString ; - ns1:applicableSystem ; - ns1:conversionMultiplier 1.616252e-35 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_length"^^xsd:anyURI ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_length?oldid=495093067"^^xsd:anyURI, - "https://en.wikipedia.org/wiki/Planck_units"^^xsd:anyURI ; - ns1:latexDefinition "\\(\\ell_P = \\sqrt{\\frac{ \\hbar G}{c^3}} \\approx 1.616199(97)) \\times 10^{-35} m\\), where \\(c\\) is the speed of light in a vacuum, \\(\\hbar\\) is the reduced Planck's constant, and \\(G\\) is the gravitational constant. The two digits enclosed by parentheses are the estimated standard error associated with the reported numerical value."^^ns1:LatexString ; - ns1:latexSymbol "\\(\\ell_P\\)"^^ns1:LatexString ; - ns1:symbol "plancklength"^^xsd:string ; - rdfs:isDefinedBy . - -s223:Frequency-60Hz a s223:Class, - s223:Frequency-60Hz, - sh:NodeShape ; - rdfs:label "60 Hertz"^^xsd:string ; - s223:hasValue 60.0 ; - ns1:hasQuantityKind ; - ns1:hasUnit ; - rdfs:comment "60 Hertz"^^xsd:string ; - rdfs:subClassOf s223:Numerical-Frequency . - a ns1:QuantityKind ; rdfs:label "Force Per Area"@en ; - dcterms:description "The force applied to a unit area of surface; measured in pascals (SI unit) or in dynes (cgs unit)"^^rdf:HTML ; + dcterms:description "The force applied to a unit area of surface; measured in pascals (SI unit) or in dynes (cgs unit)"^^ns1:LatexString, + "The force applied to a unit area of surface; measured in pascals (SI unit) or in dynes (cgs unit)"^^rdf:HTML ; ns1:applicableUnit , , , @@ -81252,19 +91330,15 @@ s223:Frequency-60Hz a s223:Class, "http://www.thefreedictionary.com/force+per+unit+area"^^xsd:anyURI ; ns1:plainTextDescription "The force applied to a unit area of surface; measured in pascals (SI unit) or in dynes (cgs unit)"^^xsd:string ; ns1:symbol "p"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:ForcePerArea"^^xsd:string ; rdfs:isDefinedBy . - a ns1:SystemOfUnits ; - rdfs:label "Astronomic System Of Units"@en ; - dcterms:description "The astronomical system of units, formally called the IAU (1976) System of Astronomical Constants, is a system of measurement developed for use in astronomy. It was adopted by the International Astronomical Union (IAU) in 1976, and has been slightly updated since then. The system was developed because of the difficulties in measuring and expressing astronomical data in International System of Units (SI units). In particular, there is a huge quantity of very precise data relating to the positions of objects within the solar system which cannot conveniently be expressed or processed in SI units. Through a number of modifications, the astronomical system of units now explicitly recognizes the consequences of general relativity, which is a necessary addition to the International System of Units in order to accurately treat astronomical data. The astronomical system of units is a tridimensional system, in that it defines units of length, mass and time. The associated astronomical constants also fix the different frames of reference that are needed to report observations. The system is a conventional system, in that neither the unit of length nor the unit of mass are true physical constants, and there are at least three different measures of time."^^rdf:HTML ; - ns1:informativeReference "http://www.iau.org/public/themes/measuring/"^^xsd:anyURI ; - rdfs:isDefinedBy . - a ns1:DerivedUnit, ns1:Unit ; rdfs:label "Centimetre"@en, "Centimeter"@en-us ; - dcterms:description "A centimetre is a unit of length in the metric system, equal to one hundredth of a metre, which is the SI base unit of length. Centi is the SI prefix for a factor of \\(10^{-2}\\). The centimetre is the base unit of length in the now deprecated centimetre-gram-second (CGS) system of units."^^ns1:LatexString ; + dcterms:description "A centimetre is a unit of length in the metric system, equal to one hundredth of a metre, which is the SI base unit of length. Centi is the SI prefix for a factor of \\(10^{-2}\\). The centimetre is the base unit of length in the now deprecated centimetre-gram-second (CGS) system of units."^^ns1:LatexString, + "A centimetre is a unit of length in the metric system, equal to one hundredth of a metre, which is the SI base unit of length. Centi is the SI prefix for a factor of 10. The centimetre is the base unit of length in the now deprecated centimetre-gram-second (CGS) system of units."^^rdf:HTML ; ns1:applicableSystem , , , @@ -81281,6 +91355,11 @@ s223:Frequency-60Hz a s223:Class, ns1:uneceCommonCode "CMT"^^xsd:string ; rdfs:isDefinedBy . +sh:this a rdfs:Resource ; + rdfs:label "this"@en ; + rdfs:comment "A node expression that represents the current focus node."@en ; + rdfs:isDefinedBy sh: . + a ns1:QuantityKind ; rdfs:label "الكثافة"@ar, "hustota"@cs, @@ -81300,7 +91379,8 @@ s223:Frequency-60Hz a s223:Class, "Gostôta"@sl, "yoğunluk"@tr, "密度"@zh ; - dcterms:description "The mass density or density of a material is its mass per unit volume."^^rdf:HTML ; + dcterms:description "The mass density or density of a material is its mass per unit volume."^^ns1:LatexString, + "The mass density or density of a material is its mass per unit volume."^^rdf:HTML ; ns1:applicableUnit , , , @@ -81368,6 +91448,7 @@ s223:Frequency-60Hz a s223:Class, ns1:latexDefinition "$\\rho = \\frac{dm}{dV}$, where $m$ is mass and $V$ is volume."^^ns1:LatexString ; ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:plainTextDescription "The mass density or density of a material is its mass per unit volume."^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:MassDensity"^^xsd:string ; rdfs:isDefinedBy ; skos:altLabel "volumenbezogene Masse"@de, "volumic mass"@en, @@ -81375,10 +91456,9 @@ s223:Frequency-60Hz a s223:Class, "massa volumica"@it, " jisim isipadu"@ms . - a ns1:CountingUnit, - ns1:Unit ; - rdfs:label "Number"@en ; - dcterms:description "\"Number\" is a unit for 'Dimensionless' expressed as (\\#\\)."^^rdf:HTML ; + a ns1:Unit ; + rdfs:label "Percent"@en ; + dcterms:description "\"Percent\" is a unit for 'Dimensionless Ratio' expressed as \\(\\%\\)."^^ns1:LatexString ; ns1:applicableSystem , , , @@ -81387,79 +91467,27 @@ s223:Frequency-60Hz a s223:Class, , , ; + ns1:conversionMultiplier 0.01 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Percentage"^^xsd:anyURI ; ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - , - ; - ns1:symbol "#"^^xsd:string ; - ns1:ucumCode "1"^^ns1:UCUMcs, - "{#}"^^ns1:UCUMcs ; - rdfs:isDefinedBy . - - a ns1:DerivedUnit, - ns1:Unit ; - rdfs:label "джаул"@bg, - "joule"@cs, - "Joule"@de, - "τζάουλ"@el, - "joule"@en, - "julio"@es, - "ژول"@fa, - "joule"@fr, - "जूल"@hi, - "joule"@hu, - "joule"@it, - "ジュール"@ja, - "joulium"@la, - "joule"@ms, - "dżul"@pl, - "joule"@pt, - "joule"@ro, - "джоуль"@ru, - "joule"@sl, - "joule"@tr, - "焦耳"@zh ; - dcterms:description "The SI unit of work or energy, defined to be the work done by a force of one newton acting to move an object through a distance of one meter in the direction in which the force is applied. Equivalently, since kinetic energy is one half the mass times the square of the velocity, one joule is the kinetic energy of a mass of two kilograms moving at a velocity of \\(1 m/s\\)."^^ns1:LatexString ; - ns1:applicableSystem , - , - , - ; - ns1:conversionMultiplier 1.0 ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Joule"^^xsd:anyURI ; - ns1:exactMatch ; - ns1:hasDimensionVector ; - ns1:hasQuantityKind , - , - , - , - , - ; - ns1:iec61360Code "0112/2///62720#UAA172"^^xsd:string ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Joule?oldid=494340406"^^xsd:anyURI ; - ns1:latexDefinition "\\(\\text{J}\\ \\equiv\\ \\text{joule}\\ \\equiv\\ \\text{CV}\\ \\equiv\\ \\text{coulomb.volt}\\ \\equiv\\ \\frac{\\text{eV}}{1.602\\ 10^{-19}}\\ \\equiv\\ \\frac{\\text{electron.volt}}{1.602\\ 10^{-19}}\\)"^^ns1:LatexString ; - ns1:omUnit ; - ns1:plainTextDescription "The SI unit of work or energy, defined to be the work done by a force of one newton acting to move an object through a distance of one meter in the direction in which the force is applied. Equivalently, since kinetic energy is one half the mass times the square of the velocity, one joule is the kinetic energy of a mass of two kilograms moving at a velocity of 1 m/s. This is the same as 107 ergs in the CGS system, or approximately 0.737 562 foot-pound in the traditional English system. In other energy units, one joule equals about 9.478 170 x 10-4 Btu, 0.238 846 (small) calories, or 2.777 778 x 10-4 watt hour. The joule is named for the British physicist James Prescott Joule (1818-1889), who demonstrated the equivalence of mechanical and thermal energy in a famous experiment in 1843. "^^xsd:string ; - ns1:symbol "J"^^xsd:string ; - ns1:ucumCode "J"^^ns1:UCUMcs ; - ns1:udunitsCode "J"^^xsd:string ; - ns1:uneceCommonCode "JOU"^^xsd:string ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA000"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Percentage?oldid=495284540"^^xsd:anyURI ; + ns1:omUnit ; + ns1:symbol "%"^^xsd:string ; + ns1:ucumCode "%"^^ns1:UCUMcs ; + ns1:udunitsCode "%"^^xsd:string ; + ns1:uneceCommonCode "P1"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -81476,12 +91504,20 @@ s223:Frequency-60Hz a s223:Class, ns1:dimensionExponentForTime -2 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L M T^-2\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L M T^-2$"^^ns1:LatexString, + "\\(L M T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; rdfs:label "Density"@en ; - dcterms:description "The mass density or density of a material is defined as its mass per unit volume. The symbol most often used for density is \\(\\rho\\). Mathematically, density is defined as mass divided by volume: \\(\\rho = m/V\\), where \\(\\rho\\) is the density, \\(m\\) is the mass, and \\(V\\) is the volume. In some cases, density is also defined as its weight per unit volume, although this quantity is more properly called specific weight."^^ns1:LatexString ; + dcterms:description """ + The mass density or density of a material is defined as its mass per unit volume. + The symbol most often used for density is $\\rho$. + Mathematically, density is defined as mass divided by volume: $\\rho = m/V$, + where $\\rho$ is the density, $m$ is the mass, and $V$ is the volume. + In some cases, density is also defined as its weight per unit volume, although this quantity is more properly called specific weight. + """^^ns1:LatexString, + "The mass density or density of a material is defined as its mass per unit volume. The symbol most often used for density is \\(\\rho\\). Mathematically, density is defined as mass divided by volume: \\(\\rho = m/V\\), where \\(\\rho\\) is the density, \\(m\\) is the mass, and \\(V\\) is the volume. In some cases, density is also defined as its weight per unit volume, although this quantity is more properly called specific weight."^^ns1:LatexString ; ns1:applicableUnit , , , @@ -81549,24 +91585,59 @@ s223:Frequency-60Hz a s223:Class, ns1:latexSymbol "$\\rho$"^^ns1:LatexString ; ns1:siExactMatch ; ns2:todo "belongs to SOQ-ISO"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Density"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H0T1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . + a ns1:DerivedUnit, + ns1:Unit ; + rdfs:label "джаул"@bg, + "joule"@cs, + "Joule"@de, + "τζάουλ"@el, + "Joule"@en, + "joule"@en, + "julio"@es, + "ژول"@fa, + "joule"@fr, + "जूल"@hi, + "joule"@hu, + "joule"@it, + "ジュール"@ja, + "joulium"@la, + "joule"@ms, + "dżul"@pl, + "joule"@pt, + "joule"@ro, + "джоуль"@ru, + "joule"@sl, + "joule"@tr, + "焦耳"@zh ; + dcterms:description "The SI unit of work or energy, defined to be the work done by a force of one newton acting to move an object through a distance of one meter in the direction in which the force is applied. Equivalently, since kinetic energy is one half the mass times the square of the velocity, one joule is the kinetic energy of a mass of two kilograms moving at a velocity of \\(1 m/s\\)."^^ns1:LatexString ; + ns1:applicableSystem , + , + , + ; + ns1:conversionMultiplier 1.0 ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Joule"^^xsd:anyURI ; + ns1:exactMatch ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + ; + ns1:iec61360Code "0112/2///62720#UAA172"^^xsd:string ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Joule?oldid=494340406"^^xsd:anyURI ; + ns1:latexDefinition "\\(\\text{J}\\ \\equiv\\ \\text{joule}\\ \\equiv\\ \\text{CV}\\ \\equiv\\ \\text{coulomb.volt}\\ \\equiv\\ \\frac{\\text{eV}}{1.602\\ 10^{-19}}\\ \\equiv\\ \\frac{\\text{electron.volt}}{1.602\\ 10^{-19}}\\)"^^ns1:LatexString ; + ns1:omUnit ; + ns1:plainTextDescription "The SI unit of work or energy, defined to be the work done by a force of one newton acting to move an object through a distance of one meter in the direction in which the force is applied. Equivalently, since kinetic energy is one half the mass times the square of the velocity, one joule is the kinetic energy of a mass of two kilograms moving at a velocity of 1 m/s. This is the same as 107 ergs in the CGS system, or approximately 0.737 562 foot-pound in the traditional English system. In other energy units, one joule equals about 9.478 170 x 10-4 Btu, 0.238 846 (small) calories, or 2.777 778 x 10-4 watt hour. The joule is named for the British physicist James Prescott Joule (1818-1889), who demonstrated the equivalence of mechanical and thermal energy in a famous experiment in 1843. "^^xsd:string ; + ns1:symbol "J"^^xsd:string ; + ns1:ucumCode "J"^^ns1:UCUMcs ; + ns1:udunitsCode "J"^^xsd:string ; + ns1:uneceCommonCode "JOU"^^xsd:string ; + rdfs:isDefinedBy ; + owl:sameAs . ns2:hasGraphMetadata ns2:GMD_VAEM ; owl:versionIRI . @@ -81585,7 +91656,26 @@ s223:Frequency-60Hz a s223:Class, ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^-3 M\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-3 M$"^^ns1:LatexString, + "\\(L^-3 M\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M0H0T1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$T$"^^ns1:LatexString, + "\\(T\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -81602,9 +91692,48 @@ s223:Frequency-60Hz a s223:Class, ns1:dimensionExponentForTime -1 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L T^-1$"^^ns1:LatexString, + "\\(L T^-1\\)"^^ns1:LatexString ; rdfs:isDefinedBy . + a ns1:CountingUnit, + ns1:Unit ; + rdfs:label "Number"@en ; + dcterms:description "\"Number\" is a unit for 'Dimensionless' expressed as (\\#\\)."^^rdf:HTML ; + ns1:applicableSystem , + , + , + , + , + , + , + ; + ns1:hasDimensionVector ; + ns1:hasQuantityKind , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + , + ; + ns1:symbol "#"^^xsd:string ; + ns1:ucumCode "1"^^ns1:UCUMcs, + "{#}"^^ns1:UCUMcs ; + rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, ns1:QuantityKindDimensionVector_ISO, ns1:QuantityKindDimensionVector_Imperial, @@ -81619,7 +91748,8 @@ s223:Frequency-60Hz a s223:Class, ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^3$"^^ns1:LatexString, + "\\(L^3\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:SystemOfUnits ; @@ -81637,6 +91767,7 @@ s223:Frequency-60Hz a s223:Class, "metr"@cs, "Meter"@de, "μέτρο"@el, + "Metre"@en, "metre"@en, "Meter"@en-us, "metro"@es, @@ -81676,85 +91807,6 @@ s223:Frequency-60Hz a s223:Class, ns1:uneceCommonCode "MTR"^^xsd:string ; rdfs:isDefinedBy . - a owl:Ontology ; - owl:imports , - , - , - , - , - , - , - sh: ; - owl:versionInfo "Created with TopBraid Composer", - "Created with TopBraid Composer"^^xsd:string ; - sh:declare [ a sh:PrefixDeclaration ; - sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; - sh:prefix "rdf"^^xsd:string ], - [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; - sh:prefix "rdfs"^^xsd:string ], - [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; - sh:prefix "rdfs"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://purl.org/dc/terms/"^^xsd:anyURI ; - sh:prefix "dcterms"^^xsd:string ], - [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; - sh:prefix "sh"^^xsd:string ], - [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; - sh:prefix "qudt"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223/1.0/vocab/role#"^^xsd:anyURI ; - sh:prefix "role"^^xsd:string ], - [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; - sh:prefix "qudt"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; - sh:prefix "unit"^^xsd:string ], - [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; - sh:prefix "sh"^^xsd:string ], - [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; - sh:prefix "quantitykind"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; - sh:prefix "rdfs"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; - sh:prefix "quantitykind"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:string ; - sh:prefix "sh"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://www.w3.org/2004/02/skos/core#"^^xsd:anyURI ; - sh:prefix "skos"^^xsd:string ], - [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; - sh:prefix "rdfs"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; - sh:prefix "rdf"^^xsd:string ], - [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; - sh:prefix "s223"^^xsd:string ], - [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; - sh:prefix "qudt"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://www.w3.org/2002/07/owl#"^^xsd:anyURI ; - sh:prefix "owl"^^xsd:string ], - [ sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; - sh:prefix "unit"^^xsd:string ], - [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; - sh:prefix "rdf"^^xsd:string ], - [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; - sh:prefix "qudtqk"^^xsd:string ], - [ a sh:PrefixDeclaration ; - sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; - sh:prefix "qudt"^^xsd:string ], - [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; - sh:prefix "qudt"^^xsd:string ] . - s223:Electricity-AC a s223:Class, s223:Electricity-AC, sh:NodeShape ; @@ -81772,6 +91824,18 @@ s223:Electricity-AC a s223:Class, sh:minCount 1 ; sh:or ( [ sh:class s223:Numerical-LineLineVoltage ] [ sh:class s223:Numerical-LineNeutralVoltage ] [ sh:class s223:Numerical-Voltage ] ) ; sh:path s223:hasVoltage ], + [ rdfs:comment "An electricity AC medium must have a frequency"^^xsd:string ; + sh:class s223:Numerical-Frequency ; + sh:minCount 1 ; + sh:path s223:hasFrequency ], + [ rdfs:comment "An electricity AC medium must have a number of electrical phases."^^xsd:string ; + sh:class s223:Numerical-NumberOfElectricalPhases ; + sh:minCount 1 ; + sh:path s223:hasNumberOfElectricalPhases ], + [ rdfs:comment "An electricity AC medium must have a voltage."^^xsd:string ; + sh:minCount 1 ; + sh:or ( [ sh:class s223:Numerical-LineLineVoltage ] [ sh:class s223:Numerical-LineNeutralVoltage ] [ sh:class s223:Numerical-Voltage ] ) ; + sh:path s223:hasVoltage ], [ rdfs:comment "An electricity AC medium must have a frequency"^^xsd:string ; sh:class s223:Numerical-Frequency ; sh:minCount 1 ; @@ -81791,14 +91855,72 @@ s223:Electricity-AC a s223:Class, ns1:dimensionExponentForTime -3 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^2 M T^-3\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2 M T^-3$"^^ns1:LatexString, + "\\(L^2 M T^-3\\)"^^ns1:LatexString ; rdfs:isDefinedBy . - rdfs:label "QUDT SHACL Schema Supplement Version 2.1.27"^^xsd:string ; + rdfs:label "QUDT SHACL Schema Supplement Version 2.1.27"^^xsd:string, + "QUDT SHACL Schema Supplement Version 2.1.41"^^xsd:string ; + ns2:hasGraphMetadata ns2:GMD_SHACLQUDTOVERLAY-SCHEMA ; rdfs:comment "Supplements the generated SHACL Schema with constructs not expressible in the QUDT OWL Ontology"^^xsd:string . +s223:OutletConnectionPoint a s223:Class, + sh:NodeShape ; + rdfs:label "Outlet Connection Point"^^xsd:string ; + rdfs:comment "An OutletConnectionPoint is a ConnectionPoint for which a Medium is expected to flow out of the associated Connectable."^^xsd:string ; + rdfs:subClassOf s223:ConnectionPoint ; + sh:property [ rdfs:comment "If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:message "s223: {$this} must have a mapsTo an OutletConnectionPoint of {?parentEquipment} and not an external Connection to {?destinationEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?parentEquipment ?destinationEquipment +WHERE { +?equipment s223:hasConnectionPoint $this . +?parentEquipment s223:contains ?equipment . +$this s223:connectsThrough/s223:connectsTo ?destinationEquipment . +FILTER NOT EXISTS {?parentEquipment s223:contains ?destinationEquipment} . +FILTER NOT EXISTS {$this s223:mapsTo ?anything} . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:class s223:InletConnectionPoint ; + sh:message "s223: If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:path s223:pairedConnectionPoint ], + [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:class s223:InletConnectionPoint ; + sh:message "s223: If the relation pairedConnectionPoint is present it must associate the OutletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:path s223:pairedConnectionPoint ], + [ rdfs:comment "If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the OutletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure an OutletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:message "s223: {$this} must have a mapsTo an OutletConnectionPoint of {?parentEquipment} and not an external Connection to {?destinationEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?parentEquipment ?destinationEquipment +WHERE { +?equipment s223:hasConnectionPoint $this . +?parentEquipment s223:contains ?equipment . +$this s223:connectsThrough/s223:connectsTo ?destinationEquipment . +FILTER NOT EXISTS {?parentEquipment s223:contains ?destinationEquipment} . +FILTER NOT EXISTS {$this s223:mapsTo ?anything} . +} +"""^^xsd:string ] ] . + a ns1:QuantityKind ; rdfs:label "Volume per Unit Time"@en ; + dcterms:isReplacedBy ; ns1:applicableUnit , , , @@ -81896,13 +92018,69 @@ s223:Electricity-AC a s223:Class, , , ; + ns1:deprecated true ; ns1:exactMatch ; ns1:hasDimensionVector ; rdfs:isDefinedBy . +s223:InletConnectionPoint a s223:Class, + sh:NodeShape ; + rdfs:label "Inlet Connection Point"^^xsd:string ; + rdfs:comment "An InletConnectionPoint is a ConnectionPoint for which a Medium is expected to flow into the associated Connectable."^^xsd:string ; + rdfs:subClassOf s223:ConnectionPoint ; + sh:property [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:path s223:pairedConnectionPoint ], + [ rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:message "s223: {$this} must have a mapsTo an InletConnectionPoint of {?parentEquipment} and not an external Connection from {?sourceEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?parentEquipment ?sourceEquipment +WHERE { +?equipment s223:hasConnectionPoint $this . +?parentEquipment s223:contains ?equipment . +$this s223:connectsThrough/s223:connectsFrom ?sourceEquipment . +FILTER NOT EXISTS {?parentEquipment s223:contains ?sourceEquipment} . +FILTER NOT EXISTS {$this s223:mapsTo ?anything} . +} +"""^^xsd:string ] ], + [ rdfs:comment "If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:class s223:OutletConnectionPoint ; + sh:message "s223: If the relation pairedConnectionPoint is present it must associate the InletConnectionPoint with an OutletConnectionPoint."^^xsd:string ; + sh:path s223:pairedConnectionPoint ], + [ rdfs:comment "If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:class s223:InletConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:class s223:InletConnectionPoint ; + sh:message "s223: If the relation mapsTo is present it must associate the InletConnectionPoint with an InletConnectionPoint."^^xsd:string ; + sh:path s223:mapsTo ], + [ rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:path s223:mapsTo ; + sh:sparql [ a sh:SPARQLConstraint ; + rdfs:comment "Ensure an InletConnectionPoint has a mapsTo relation to its containing Equipment if it has an external Connection"^^xsd:string ; + sh:message "s223: {$this} must have a mapsTo an InletConnectionPoint of {?parentEquipment} and not an external Connection from {?sourceEquipment}."^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this ?parentEquipment ?sourceEquipment +WHERE { +?equipment s223:hasConnectionPoint $this . +?parentEquipment s223:contains ?equipment . +$this s223:connectsThrough/s223:connectsFrom ?sourceEquipment . +FILTER NOT EXISTS {?parentEquipment s223:contains ?sourceEquipment} . +FILTER NOT EXISTS {$this s223:mapsTo ?anything} . +} +"""^^xsd:string ] ] . + a ns1:QuantityKind ; rdfs:label "Volume Flow Rate"@en ; - dcterms:description "Volumetric Flow Rate, (also known as volume flow rate, rate of fluid flow or volume velocity) is the volume of fluid which passes through a given surface per unit time."^^rdf:HTML ; + dcterms:description "Volumetric Flow Rate, (also known as volume flow rate, rate of fluid flow or volume velocity) is the volume of fluid which passes through a given surface per unit time."^^ns1:LatexString, + "Volumetric Flow Rate, (also known as volume flow rate, rate of fluid flow or volume velocity) is the volume of fluid which passes through a given surface per unit time."^^rdf:HTML ; ns1:applicableUnit , , , @@ -82000,7 +92178,8 @@ s223:Electricity-AC a s223:Class, , , ; - ns1:exactMatch ; + ns1:exactMatch , + ; ns1:hasDimensionVector ; ns1:iec61360Code "0112/2///62720#UAD239"^^xsd:string ; ns1:informativeReference "http://en.wikipedia.org/wiki/Volumetric_flow_rate"^^xsd:anyURI ; @@ -82008,6 +92187,7 @@ s223:Electricity-AC a s223:Class, ns1:latexDefinition "$q_V = \\frac{dV}{dt}$, where $V$ is volume and $t$ is time."^^ns1:LatexString ; ns1:plainTextDescription "Volumetric Flow Rate, (also known as volume flow rate, rate of fluid flow or volume velocity) is the volume of fluid which passes through a given surface per unit time."^^xsd:string ; ns1:symbol "q_V"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:VolumeFlowRate"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -82025,41 +92205,8 @@ s223:Electricity-AC a s223:Class, ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind , ; - ns1:latexDefinition "\\(L^-1 M T^-2\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(T^-1\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L3I0M0H0T-1D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 3 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime -1 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L^3 T^-1\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^-1 M T^-2$"^^ns1:LatexString, + "\\(L^-1 M T^-2\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:Unit ; @@ -82068,6 +92215,7 @@ s223:Electricity-AC a s223:Class, "volt"@cs, "Volt"@de, "βολτ"@el, + "Volt"@en, "volt"@en, "voltio"@es, "ولت"@fa, @@ -82109,6 +92257,42 @@ s223:Electricity-AC a s223:Class, ns1:uneceCommonCode "VLT"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$T^-1$"^^ns1:LatexString, + "\\(T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L3I0M0H0T-1D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 3 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime -1 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$L^3 T^-1$"^^ns1:LatexString, + "\\(L^3 T^-1\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Unknown"@en ; dcterms:description "Placeholder value used for reference from units where it is not clear what a given unit is a measure of."@en ; @@ -82500,12 +92684,14 @@ s223:Electricity-AC a s223:Class, , , , + , , , , , , , + , , , , @@ -82574,25 +92760,9 @@ s223:Electricity-AC a s223:Class, , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:Unknown"^^xsd:string ; rdfs:isDefinedBy . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M1H0T0D0"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 1 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 0 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(M\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:QuantityKind ; rdfs:label "طول"@ar, "Дължина"@bg, @@ -82617,7 +92787,8 @@ s223:Electricity-AC a s223:Class, "dolžina"@sl, "uzunluk"@tr, "长度"@zh ; - dcterms:description "In geometric measurements, length most commonly refers to the est dimension of an object. In some contexts, the term \"length\" is reserved for a certain dimension of an object along which the length is measured."^^rdf:HTML ; + dcterms:description "In geometric measurements, length most commonly refers to the est dimension of an object. In some contexts, the term \"length\" is reserved for a certain dimension of an object along which the length is measured."^^ns1:LatexString, + "In geometric measurements, length most commonly refers to the est dimension of an object. In some contexts, the term \"length\" is reserved for a certain dimension of an object along which the length is measured."^^rdf:HTML ; ns1:applicableUnit , , , @@ -82664,8 +92835,27 @@ s223:Electricity-AC a s223:Class, ns1:plainTextDescription "In geometric measurements, length most commonly refers to the est dimension of an object. In some contexts, the term \"length\" is reserved for a certain dimension of an object along which the length is measured."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "l"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Length"^^xsd:string ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M1H0T0D0"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 1 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 0 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$M$"^^ns1:LatexString, + "\\(M\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Voltage"@en ; dcterms:description """$\\textit{Voltage}$, also referred to as $\\textit{Electric Tension}$, is the difference between electrical potentials of two points. For an electric field within a medium, $U_{ab} = - \\int_{r_a}^{r_b} E . {dr}$, where $E$ is electric field strength. @@ -82692,17 +92882,9 @@ For an irrotational electric field, the voltage is independent of the path betwe ns1:latexDefinition "$U_{ab} = V_a - V_b$, where $V_a$ and $V_b$ are electric potentials at points $a$ and $b$, respectively."^^ns1:LatexString ; ns1:latexSymbol "$U_{ab}$"^^ns1:LatexString ; ns1:symbol "U"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Voltage"^^xsd:string ; rdfs:isDefinedBy . -s223:hasConnectionPoint a rdf:Property ; - rdfs:label "has connection point"^^xsd:string ; - s223:inverseOf s223:isConnectionPointOf ; - rdfs:comment "The relation hasConnectionPoint is part of a pair of relations that bind a Connectable thing to a ConnectionPoint. It is the inverse of the relation isConnectionPointOf (see `s223:isConnectionPointOf`)."^^xsd:string . - -s223:hasMedium a rdf:Property ; - rdfs:label "has Medium"^^xsd:string ; - rdfs:comment "The relation hasMedium is used to indicate what medium is flowing through the connection (e.g., air, water, electricity). The possible values are defined in EnumerationKind-Medium (see `s223:EnumerationKind-Medium`)."^^xsd:string . - a ns1:QuantityKind ; rdfs:label "كتلة"@ar, "Маса"@bg, @@ -82727,7 +92909,8 @@ s223:hasMedium a rdf:Property ; "masa"@sl, "kütle"@tr, "质量"@zh ; - dcterms:description "In physics, mass, more specifically inertial mass, can be defined as a quantitative measure of an object's resistance to acceleration. The SI unit of mass is the kilogram (\\(kg\\))"^^ns1:LatexString ; + dcterms:description "In physics, mass, more specifically inertial mass, can be defined as a quantitative measure of an object's resistance to acceleration. The SI unit of mass is the kilogram ($kg$)"^^ns1:LatexString, + "In physics, mass, more specifically inertial mass, can be defined as a quantitative measure of an object's resistance to acceleration. The SI unit of mass is the kilogram (\\(kg\\))"^^ns1:LatexString ; ns1:applicableUnit , , , @@ -82788,6 +92971,7 @@ s223:hasMedium a rdf:Property ; ns1:informativeReference "http://en.wikipedia.org/wiki/Mass"^^xsd:anyURI ; ns1:siExactMatch ; ns1:symbol "m"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Mass"^^xsd:string ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -82804,7 +92988,8 @@ s223:hasMedium a rdf:Property ; ns1:dimensionExponentForTime 0 ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(L\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L$"^^ns1:LatexString, + "\\(L\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKindDimensionVector_CGS, @@ -82822,7 +93007,8 @@ s223:hasMedium a rdf:Property ; ns1:dimensionlessExponent 0 ; ns1:hasReferenceQuantityKind , ; - ns1:latexDefinition "\\(L^2\\,M\\,T^{-2}\\)"^^ns1:LatexString ; + ns1:latexDefinition "$L^2\\,M\\,T^{-2}$"^^ns1:LatexString, + "\\(L^2\\,M\\,T^{-2}\\)"^^ns1:LatexString ; rdfs:isDefinedBy . a ns1:QuantityKind ; @@ -82849,7 +93035,8 @@ s223:hasMedium a rdf:Property ; "energija"@sl, "enerji"@tr, "能量"@zh ; - dcterms:description "Energy is the quantity characterizing the ability of a system to do work."^^rdf:HTML ; + dcterms:description "Energy is the quantity characterizing the ability of a system to do work."^^ns1:LatexString, + "Energy is the quantity characterizing the ability of a system to do work."^^rdf:HTML ; ns1:applicableUnit , , , @@ -82905,6 +93092,7 @@ s223:hasMedium a rdf:Property ; ns1:plainTextDescription "Energy is the quantity characterizing the ability of a system to do work."^^xsd:string ; ns1:siExactMatch ; ns1:symbol "E"^^xsd:string ; + rdfs:comment "Applicable units are those of quantitykind:Energy"^^xsd:string ; rdfs:isDefinedBy ; rdfs:seeAlso , , @@ -82913,6 +93101,24 @@ s223:hasMedium a rdf:Property ; , . + a ns1:SystemOfUnits ; + rdfs:label "Planck System of Units"@en ; + dcterms:description """In physics, Planck units are physical units of measurement defined exclusively in terms of five universal physical constants listed below, in such a manner that these five physical constants take on the numerical value of 1 when expressed in terms of these units. Planck units elegantly simplify particular algebraic expressions appearing in physical law. +Originally proposed in 1899 by German physicist Max Planck, these units are also known as natural units because the origin of their definition comes only from properties of nature and not from any human construct. Planck units are unique among systems of natural units, because they are not defined in terms of properties of any prototype, physical object, or even elementary particle. +Unlike the meter and second, which exist as fundamental units in the SI system for (human) historical reasons, the Planck length and Planck time are conceptually linked at a fundamental physical level. Natural units help physicists to reframe questions."""^^rdf:HTML, + """In physics, Planck units are physical units of measurement defined exclusively in terms of five universal physical constants listed below, in such a manner that these five physical constants take on the numerical value of 1 when expressed in terms of these units. Planck units elegantly simplify particular algebraic expressions appearing in physical law. +Originally proposed in 1899 by German physicist Max Planck, these units are also known as natural units because the origin of their definition comes only from properties of nature and not from any human construct. Planck units are unique among systems of natural units, because they are not defined in terms of properties of any prototype, physical object, or even elementary particle. +Unlike the meter and second, which exist as fundamental units in the SI system for (human) historical reasons, the Planck length and Planck time are conceptually linked at a fundamental physical level. Natural units help physicists to reframe questions."""^^rdf:HTML ; + ns1:abbreviation "PLANCK"^^xsd:string ; + ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_units"^^xsd:anyURI ; + ns1:hasBaseUnit , + , + , + , + ; + ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_units?oldid=495407713"^^xsd:anyURI ; + rdfs:isDefinedBy . + a ns1:QuantityKind ; rdfs:label "Dimensionless Ratio"@en ; ns1:applicableUnit , @@ -82930,23 +93136,194 @@ s223:hasMedium a rdf:Property ; , ; ns1:hasDimensionVector ; + rdfs:comment "Applicable units are those of quantitykind:DimensionlessRatio"^^xsd:string ; rdfs:isDefinedBy ; skos:broader . - a ns1:SystemOfUnits ; - rdfs:label "Planck System of Units"@en ; - dcterms:description """In physics, Planck units are physical units of measurement defined exclusively in terms of five universal physical constants listed below, in such a manner that these five physical constants take on the numerical value of 1 when expressed in terms of these units. Planck units elegantly simplify particular algebraic expressions appearing in physical law. -Originally proposed in 1899 by German physicist Max Planck, these units are also known as natural units because the origin of their definition comes only from properties of nature and not from any human construct. Planck units are unique among systems of natural units, because they are not defined in terms of properties of any prototype, physical object, or even elementary particle. -Unlike the meter and second, which exist as fundamental units in the SI system for (human) historical reasons, the Planck length and Planck time are conceptually linked at a fundamental physical level. Natural units help physicists to reframe questions."""^^rdf:HTML ; - ns1:abbreviation "PLANCK"^^xsd:string ; - ns1:dbpediaMatch "http://dbpedia.org/resource/Planck_units"^^xsd:anyURI ; - ns1:hasBaseUnit , - , - , - , - ; - ns1:informativeReference "http://en.wikipedia.org/wiki/Planck_units?oldid=495407713"^^xsd:anyURI ; - rdfs:isDefinedBy . + a owl:Ontology ; + owl:imports , + , + , + , + , + , + , + sh: ; + owl:versionInfo "Created with TopBraid Composer", + "Created with TopBraid Composer"^^xsd:string ; + sh:declare [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + sh:prefix "unit"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2002/07/owl#"^^xsd:anyURI ; + sh:prefix "owl"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223/1.0/vocab/role#"^^xsd:anyURI ; + sh:prefix "role"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "qudtqk"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2004/02/skos/core#"^^xsd:anyURI ; + sh:prefix "skos"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "quantitykind"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + sh:prefix "unit"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:string ; + sh:prefix "sh"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; + sh:prefix "sh"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "quantitykind"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2004/02/skos/core#"^^xsd:anyURI ; + sh:prefix "skos"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/dimensionvector/"^^xsd:anyURI ; + sh:prefix "qkdv"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + sh:prefix "unit"^^xsd:string ], + [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; + sh:prefix "sh"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "quantitykind"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "quantitykind"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2002/07/owl#"^^xsd:anyURI ; + sh:prefix "owl"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2004/02/skos/core#"^^xsd:anyURI ; + sh:prefix "skos"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://purl.org/dc/terms/"^^xsd:anyURI ; + sh:prefix "dcterms"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://purl.org/dc/terms/"^^xsd:anyURI ; + sh:prefix "dcterms"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://qudt.org/schema/qudt/"^^xsd:anyURI ; + sh:prefix "qudt"^^xsd:string ], + [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://purl.org/dc/terms/"^^xsd:anyURI ; + sh:prefix "dcterms"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + sh:prefix "unit"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:string ; + sh:prefix "sh"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "quantitykind"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://www.w3.org/1999/02/22-rdf-syntax-ns#"^^xsd:anyURI ; + sh:prefix "rdf"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2002/07/owl#"^^xsd:anyURI ; + sh:prefix "owl"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; + sh:prefix "sh"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2001/XMLSchema#"^^xsd:anyURI ; + sh:prefix "xsd"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; + sh:prefix "sh"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223/1.0/vocab/role#"^^xsd:anyURI ; + sh:prefix "role"^^xsd:string ], + [ sh:namespace "http://qudt.org/vocab/quantitykind/"^^xsd:anyURI ; + sh:prefix "qudtqk"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/unit/"^^xsd:anyURI ; + sh:prefix "unit"^^xsd:string ], + [ sh:namespace "http://www.w3.org/ns/shacl#"^^xsd:anyURI ; + sh:prefix "sh"^^xsd:string ], + [ sh:namespace "http://www.w3.org/2000/01/rdf-schema#"^^xsd:anyURI ; + sh:prefix "rdfs"^^xsd:string ], + [ sh:namespace "http://data.ashrae.org/standard223#"^^xsd:anyURI ; + sh:prefix "s223"^^xsd:string ], + [ a sh:PrefixDeclaration ; + sh:namespace "http://qudt.org/vocab/dimensionvector/"^^xsd:anyURI ; + sh:prefix "qkdv"^^xsd:string ] . a ns1:QuantityKind ; rdfs:label "Currency"@en ; @@ -83137,11 +93514,16 @@ Unlike the meter and second, which exist as fundamental units in the SI system f rdfs:isDefinedBy ; skos:broader . - rdfs:label "QUDT VOCAB Currency Units Release 2.1.37"^^xsd:string ; + rdfs:label "QUDT Units of Measure for Currency Units Release 2.1.26"^^xsd:string, + "QUDT VOCAB Currency Units Release 2.1.37"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_QUDT-UNITS-CURRENCY ; rdfs:isDefinedBy ; owl:versionIRI . +sh: rdfs:label "W3C Shapes Constraint Language (SHACL) Vocabulary"@en ; + rdfs:comment "This vocabulary defines terms used in SHACL, the W3C Shapes Constraint Language."@en ; + sh:suggestedShapesGraph . + a ns1:CountingUnit, ns1:DimensionlessUnit, ns1:Unit ; @@ -83158,6 +93540,7 @@ Unlike the meter and second, which exist as fundamental units in the SI system f ns1:hasQuantityKind , , , + , , , , @@ -83220,6 +93603,7 @@ Unlike the meter and second, which exist as fundamental units in the SI system f , , , + , , , , @@ -83236,26 +93620,48 @@ Unlike the meter and second, which exist as fundamental units in the SI system f , , , + , , ; - ns1:symbol "一"^^xsd:string ; + ns1:symbol "unitless"^^xsd:string, + "一"^^xsd:string ; ns1:uneceCommonCode "C62"^^xsd:string ; rdfs:isDefinedBy . -sh: rdfs:label "W3C Shapes Constraint Language (SHACL) Vocabulary"@en ; - rdfs:comment "This vocabulary defines terms used in SHACL, the W3C Shapes Constraint Language."@en ; - sh:suggestedShapesGraph . +s223:hasConnectionPoint a rdf:Property ; + rdfs:label "has connection point"^^xsd:string ; + s223:inverseOf s223:isConnectionPointOf ; + rdfs:comment "The relation hasConnectionPoint is part of a pair of relations that bind a Connectable thing to a ConnectionPoint. It is the inverse of the relation isConnectionPointOf (see `s223:isConnectionPointOf`)."^^xsd:string . + +s223:hasMedium a rdf:Property ; + rdfs:label "has Medium"^^xsd:string ; + rdfs:comment "The relation hasMedium is used to indicate what medium is flowing through the connection (e.g., air, water, electricity). The possible values are defined in EnumerationKind-Medium (see `s223:EnumerationKind-Medium`)."^^xsd:string . - ns2:hasGraphMetadata ns2:GMD_QUDT-DIMENSION-VECTORS ; + rdfs:label "QUDT VOCAB Dimension Vectors Release 2.1.37"^^xsd:string ; + ns2:hasGraphMetadata ns2:GMD_QUDT-DIMENSION-VECTORS ; rdfs:isDefinedBy ; owl:versionIRI . - rdfs:label "QUDT VOCAB Physical Constants Release 2.1.41"^^xsd:string ; + rdfs:label "QUDT VOCAB Physical Constants Release 2.1.41"^^xsd:string, + "QUDT VOCAB Physical Constants Release 2.1.46"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_QUDT-CONSTANTS ; owl:versionIRI . rdf:Property a sh:NodeShape ; - sh:property [ rdfs:comment "This Property must have a comment"^^xsd:string ; + sh:property [ rdfs:comment "This Property must have a label"^^xsd:string ; + sh:path rdfs:label ; + sh:sparql [ a sh:SPARQLConstraint ; + sh:message "s223: {$this} must have an rdfs:label"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +BIND(REPLACE(STR($this), "^(.*)(/|#)([^#/]*)$", "$1") AS ?prop) . +FILTER (?prop = "http://data.ashrae.org/standard223") . +FILTER (NOT EXISTS {$this rdfs:label ?something}) . +} +"""^^xsd:string ] ], + [ rdfs:comment "This Property must have a comment"^^xsd:string ; sh:path rdfs:comment ; sh:sparql [ a sh:SPARQLConstraint ; sh:message "s223: {$this} must have an rdfs:comment"^^xsd:string ; @@ -83280,30 +93686,27 @@ BIND(REPLACE(STR($this), "^(.*)(/|#)([^#/]*)$", "$1") AS ?prop) . FILTER (?prop = "http://data.ashrae.org/standard223") . FILTER (NOT EXISTS {$this rdfs:label ?something}) . } +"""^^xsd:string ] ], + [ rdfs:comment "This Property must have a comment"^^xsd:string ; + sh:path rdfs:comment ; + sh:sparql [ a sh:SPARQLConstraint ; + sh:message "s223: {$this} must have an rdfs:comment"^^xsd:string ; + sh:prefixes ; + sh:select """ +SELECT $this +WHERE { +BIND(REPLACE(STR($this), "^(.*)(/|#)([^#/]*)$", "$1") AS ?prop) . +FILTER (?prop = "http://data.ashrae.org/standard223") . +FILTER (NOT EXISTS {$this rdfs:comment ?something}) . +} """^^xsd:string ] ] . - rdfs:label "QUDT SHACL Schema Version 2.1.27"^^xsd:string ; + rdfs:label "QUDT SHACL Schema Version 2.1.27"^^xsd:string, + "QUDT SHACL Schema Version 2.1.41"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_SHACLQUDT-SCHEMA ; rdfs:isDefinedBy ; owl:versionIRI . - a ns1:QuantityKindDimensionVector_CGS, - ns1:QuantityKindDimensionVector_ISO, - ns1:QuantityKindDimensionVector_Imperial, - ns1:QuantityKindDimensionVector_SI ; - rdfs:label "A0E0L0I0M0H0T0D1"^^xsd:string ; - ns1:dimensionExponentForAmountOfSubstance 0 ; - ns1:dimensionExponentForElectricCurrent 0 ; - ns1:dimensionExponentForLength 0 ; - ns1:dimensionExponentForLuminousIntensity 0 ; - ns1:dimensionExponentForMass 0 ; - ns1:dimensionExponentForThermodynamicTemperature 0 ; - ns1:dimensionExponentForTime 0 ; - ns1:dimensionlessExponent 1 ; - ns1:hasReferenceQuantityKind ; - ns1:latexDefinition "\\(U\\)"^^ns1:LatexString ; - rdfs:isDefinedBy . - a ns1:SystemOfUnits ; rdfs:label "US Customary Unit System"@en ; dcterms:description "United States customary units are a system of measurements commonly used in the United States. Many U.S. units are virtually identical to their imperial counterparts, but the U.S. customary system developed from English units used in the British Empire before the system of imperial units was standardized in 1824. Several numerical differences from the imperial system are present. The vast majority of U.S. customary units have been defined in terms of the meter and the kilogram since the Mendenhall Order of 1893 (and, in practice, for many years before that date). These definitions were refined in 1959. The United States is the only industrialized nation that does not mainly use the metric system in its commercial and standards activities, although the International System of Units (SI, often referred to as \"metric\") is commonly used in the U.S. Armed Forces, in fields relating to science, and increasingly in medicine, aviation, and government as well as various sectors of industry. [Wikipedia]"^^rdf:HTML ; @@ -83320,6 +93723,24 @@ FILTER (NOT EXISTS {$this rdfs:label ?something}) . ns1:informativeReference "http://www.oxfordreference.com/view/10.1093/acref/9780199234899.001.0001/acref-9780199234899-e-3147"^^xsd:anyURI ; rdfs:isDefinedBy . + a ns1:QuantityKindDimensionVector_CGS, + ns1:QuantityKindDimensionVector_ISO, + ns1:QuantityKindDimensionVector_Imperial, + ns1:QuantityKindDimensionVector_SI ; + rdfs:label "A0E0L0I0M0H0T0D1"^^xsd:string ; + ns1:dimensionExponentForAmountOfSubstance 0 ; + ns1:dimensionExponentForElectricCurrent 0 ; + ns1:dimensionExponentForLength 0 ; + ns1:dimensionExponentForLuminousIntensity 0 ; + ns1:dimensionExponentForMass 0 ; + ns1:dimensionExponentForThermodynamicTemperature 0 ; + ns1:dimensionExponentForTime 0 ; + ns1:dimensionlessExponent 1 ; + ns1:hasReferenceQuantityKind ; + ns1:latexDefinition "$U$"^^ns1:LatexString, + "\\(U\\)"^^ns1:LatexString ; + rdfs:isDefinedBy . + a ns1:SystemOfUnits ; rdfs:label "CGS System of Units - EMU"@en ; dcterms:description "The units in this system are formed in a manner similar to that of the cgs electrostatic system of units: the unit of electric current was defined using the law that describes the force between current-carrying wires. To do this, the permeability of free space (the magnetic constant, relating the magnetic flux density in a vacuum to the strength of the external magnetic field), was set at 1. To distinguish cgs electromagnetic units from units in the international system, they were often given the prefix “ab-”. However, most are often referred to purely descriptively as the 'e.m. unit of capacitance', etc. "^^rdf:HTML ; @@ -83361,7 +93782,8 @@ FILTER (NOT EXISTS {$this rdfs:label ?something}) . , . - rdfs:label "QUDT Quantity Kind Vocabulary Version 2.1.41"^^xsd:string ; + rdfs:label "QUDT Quantity Kind Vocabulary Version 2.1.41"^^xsd:string, + "QUDT Quantity Kind Vocabulary Version 2.1.46"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_QUDT-QUANTITY-KINDS-ALL ; rdfs:isDefinedBy ; owl:versionIRI . @@ -83414,10 +93836,13 @@ FILTER (NOT EXISTS {$this rdfs:label ?something}) . ; rdfs:isDefinedBy . - rdfs:label "QUDT VOCAB Units of Measure Release 2.1.32"^^xsd:string ; + rdfs:label "QUDT Units of Measure for All Units Release 2.1.26"^^xsd:string, + "QUDT VOCAB Units of Measure Release 2.1.32"^^xsd:string ; ns2:hasGraphMetadata ns2:GMD_QUDT-UNITS-ALL ; rdfs:isDefinedBy ; owl:versionIRI . [] sh:minCount 1 . +[] sh:minCount 1 . +