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# How to Create an Interaction Plot in R

A two-way ANOVA is used to determine if there is a difference between the means of three or more independent groups that have been split on two factors.

We use a two-way ANOVA when weâ€™d like to know if two specific factors affect a certain response variable.

However, sometimes there is an interaction effectÂ present between the two factors, which can impact the way we interpret the relationship between the factors and the response variable.

For example, we might want to know if the factors (1) exercise and (2) gender affect the response variable weight loss. While itâ€™s possible that both factors affect weight loss, itâ€™s also possible that the two factors interact with each other.

For example, itâ€™s possible that exercise leads to weight loss at different rates for males and females. In this case, there is an interact effect between exercise and gender.

The easiest way to detect and understand interaction effects between two factors is with anÂ interaction plot.

This is a type of plot that displays the fitted values of a response variable on the y-axis and the values of the first factor on the x-axis. Meanwhile, the lines in the plot represent the values of the second factor of interest.

This tutorial explains how to create and interpret an interaction plot in R.

### Example: Interaction Plot in R

Suppose researchers want to determine if exercise intensity and gender impact weight loss. To test this, they recruit 30 men and 30 women to participate in an experiment in which they randomly assign 10 of each to follow a program of either no exercise, light exercise, or intense exercise for one month.

Use the following steps to create a data frame in R, perform a two-way ANOVA, and create an interaction plot to visualize the interaction effect between exercise and gender.

Step 1: Create the data.

The following code shows how to create a data frame in R:

```#make this example reproducible
set.seed(10)

#create data frame
data rep(c("Male", "Female"), each = 30),
exercise = rep(c("None", "Light", "Intense"), each = 10, times = 2),
weight_loss = c(runif(10, -3, 3), runif(10, 0, 5), runif(10, 5, 9),
runif(10, -4, 2), runif(10, 0, 3), runif(10, 3, 8)))

#view first six rows of data frame

gender exercise weight_loss
1   Male     None  0.04486922
2   Male     None -1.15938896
3   Male     None -0.43855400
4   Male     None  1.15861249
5   Male     None -2.48918419
6   Male     None -1.64738030```

Step 2: Fit the two-way ANOVA model.

The following code shows how to fit a two-way ANOVA to the data:

```#fit the two-way ANOVA model
model #view the model output
summary(model)

# Df Sum Sq Mean Sq F value Pr(>F)
#gender           1   15.8   15.80  11.197 0.0015 **
#exercise         2  505.6  252.78 179.087 ```

Note that the p-value (0.0141) for the interaction term between exercise and gender is statistically significant, which indicates that there is a significant interaction effect between the two factors.

Step 3: Create the interaction plot.

The following code shows how to create an interaction plot for exercise and gender:

```interaction.plot(x.factor = data\$exercise, #x-axis variable
trace.factor = data\$gender, #variable for lines
response = data\$weight_loss, #y-axis variable
fun = median, #metric to plot
ylab = "Weight Loss",
xlab = "Exercise Intensity",
col = c("pink", "blue"),
lty = 1, #line type
lwd = 2, #line width
trace.label = "Gender")
```

In general, if the two lines on the interaction plot are parallel then there is no interaction effect. However, if the lines intersect then there is likely an interaction effect.

We can see in this plot that the lines for males and females do intersect, which indicates that there is likely an interaction effect between the variables of exercise intensity and gender.

This matches the fact that the p-value in the output of the ANOVA table was statistically significant for the interaction term in the ANOVA model.