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ggplot2-solutions1.Rmd
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ggplot2-solutions1.Rmd
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---
title: "Exercise Set 1 — Geoms and Aesthetics"
author: "Mark Dunning"
date: '`r format(Sys.time(), "Last modified: %d %b %Y")`'
output: html_document
---
```{r setup, include=FALSE}
knitr::opts_chunk$set(echo = T,eval=T)
```
## Exercise 1
These first few exercises will run through some of the simple principles of creating a ggplot2 object, assigning aesthetics mappings and geoms.
1. Read in the cleaned patients dataset as we saw in ggplot2 course earlier ("patients_clean_ggplot2.txt")
```{r exerciseReadin, echo=T}
patients_clean <- read.delim("patient-data-cleaned.txt",sep="\t")
```
### Scatterplots
2. Using the patient dataset generate a scatter plot of BMI versus Weight.
```{r exercise1}
library(ggplot2)
plot <- ggplot(data=patients_clean,
mapping=aes(x=BMI,y=Weight))+geom_point()
plot
```
3. Extending the plot from exercise 2, add a colour scale to the scatterplot based on the Height variable.
```{r exercise2}
plot <- ggplot(data=patients_clean,
mapping=aes(x=BMI,y=Weight,colour=Height))+geom_point()
plot
```
4. Following from exercise 3, split the BMI vs Weight plot into a grid of plots separated by Smoking status and Sex .
```{r exercise3}
plot <- ggplot(data=patients_clean,
mapping=aes(x=BMI,y=Weight,colour=Height))+geom_point()
plot+facet_grid(Sex~Smokes)
```
5. Using an additional geom, add an extra layer of a fit line to the solution from exercise 3.
```{r exercise4}
plot <- ggplot(data=patients_clean,
mapping=aes(x=BMI,y=Weight,colour=Height))+geom_point()+
geom_smooth()
plot
```
6. Does the fit in question 5 look good? Look at the description for ?geom_smooth() and adjust the method for a better fit.
```{r exercise5}
plot <- ggplot(data=patients_clean,
mapping=aes(x=BMI,y=Weight,colour=Height))+geom_point()+
geom_smooth(method="lm",se=F)
plot
```
###Boxplots and Violin plots
7. Generate a boxplot of BMIs comparing smokers and non-smokers.
```{r exercise6}
plot <- ggplot(data=patients_clean,
mapping=aes(x=Smokes,y=BMI))+geom_boxplot()
plot
```
8. Following from the boxplot comparing smokers and non-smokers in exercise 7, colour boxplot edges by Sex.
```{r exercise7}
plot <- ggplot(data=patients_clean,
mapping=aes(x=Smokes,y=BMI,colour=Sex))+geom_boxplot()
plot
```
9. Now reproduce the boxplots in exercise 8 (grouped by smoker, coloured by sex) but now include a separate facet for people of different age (using Age column).
```{r exercise8}
plot <- ggplot(data=patients_clean,
mapping=aes(x=Smokes,y=BMI,colour=Sex))+
geom_boxplot()+
facet_wrap(~Age)
plot
```
10. Produce a similar boxplot of BMIs but this time group data by Sex, colour by Age and facet by Smoking status.
HINT - Discrete values such as in factors are used for categorical data.
```{r exercise9}
plot <- ggplot(data=patients_clean,
mapping=aes(x=Sex,y=BMI,colour=factor(Age)))+
geom_boxplot()+
facet_wrap(~Smokes)
plot
```
11. Regenerate the solution to exercise 10 but this time using a violin plot.
```{r exercise10}
plot <- ggplot(data=patients_clean,
mapping=aes(x=Sex,y=BMI,colour=factor(Age)))+
geom_violin()+
facet_wrap(~Smokes)
plot
```
###Histogram and Density plots
12. Generate a histogram of BMIs with each bar coloured blue.
```{r exercise11}
plot <- ggplot(data=patients_clean,
mapping=aes(BMI))+
geom_histogram(fill="blue")
plot
```
13. Generate density plots of BMIs coloured by Sex.
HINT: alpha can be used to control transparancy.
```{r exercise12}
plot <- ggplot(data=patients_clean,
mapping=aes(BMI))+ geom_density(aes(fill=Sex),alpha=0.5)
plot
```
14. Generate a separate density plot of BMI coloured by sex for each Grade,
```{r exercise13}
plot <- ggplot(data=patients_clean,
mapping=aes(BMI))+ geom_density(aes(fill=Sex),alpha=0.5)
plot+facet_wrap(~Grade)
```