---
title: "Lab 1"
author: "Your Name Here"
date: ""
output: html_document
---
```{r}
# If you don't already have the tidyverse library installed,
# you will need to type install.packages("tidyverse") into the Console
library(tidyverse)
```
### 1. Changing the author field and file name.
##### (a) Change the `author:` field on the Rmd document from Your Name Here to your own name.
##### (b) Rename this file to "lab01_YourHameHere.Rmd", where YourNameHere is changed to your own name.
### 2. Hello World!
Here's an R code chunk that prints the text 'Hello world!'.
```{r}
print("Hello world!")
```
#### (a) Modify the code chunk below to print your name
```{r}
# Edit me
```
### 3. Creating sequences
We just learned about the `c()` operator, which forms a vector from its arguments. If we're trying to build a vector containing a sequence of numbers, there are several useful functions at our disposal. These are the colon operator `:` and the sequence function `seq()`.
##### `:` Colon operator:
```{r}
1:10 # Numbers 1 to 10
127:132 # Numbers 127 to 132
```
##### `seq` function: `seq(from, to, by)`
```{r}
seq(1,10,1) # Numbers 1 to 10
seq(1,10,2) # Odd numbers from 1 to 10
seq(2,10,2) # Even numbers from 2 to 10
```
> To learn more about a function, type `?functionname` into your console. E.g., `?seq` pulls up a Help file with the R documentation for the `seq` function.
#### (a) Use `:` to output the sequence of numbers from 3 to 12
```{r}
# Edit me
```
#### (b) Use `seq()` to output the sequence of numbers from 3 to 30 in increments of 3
```{r}
print("Hi")
```
#### (c) Save the sequence from (a) as a variable `x`, and the sequence from (b) as a variable `y`. Output their product `x*y`
```{r}
# Edit me
```
### 4. Cars data
We'll look at data frame and plotting in much more detail in later classes. For a previous of what's to come, here's a very basic example.
For this example we'll use a very simple dataset. The `cars` data comes with the default installation of R. To see the first few columns of the data, just type `head(cars)`.
```{r}
head(cars)
```
We'll do a bad thing here and use the `attach()` command, which will allow us to access the `speed` and `dist` columns of `cars` as though they were vectors in our workspace.
```{r}
attach(cars) # Using this command is poor style. We will avoid it in the future.
speed
dist
```
#### (a) Calculate the average and standard deviation of speed and distance.
```{r}
# Edit me
```
We can easily produce a histogram of stopping distance using the `qplot` function.
```{r}
qplot(dist) # Histogram of stopping distance
```
The `qplot(x,y,...)` function can also be used to plot a vector `y` against a vector `x`. You can type `?qplot` into the Console to learn more about the basic qplot function.
#### (b) Use the `qplot(x,y)` function to create a scatterplot of dist against speed.
```{r}
# Edit me
```