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A **three-way ANOVA** is used to determine how three different factors affect some response variable.

Three-way ANOVAs are less common than a one-way ANOVA (with only one factor) or two-way ANOVA (with only two factors) but they are still used in a variety of fields.

Whenever we perform a three-way ANOVA, weâ€™re interested in whether there is a statistically significant relationship between each factor and the response variable along with whether there are any interaction effects between the factors.

This tutorial shares several scenarios in which you might use a three-way ANOVA along with an example of how to perform one.

**When to Use a Three-Way ANOVA**

Here are a few scenarios where you may use a three-way ANOVA:

**Scenario 1: Botany**

A botanist may want to determine how (1) sunlight exposure, (2) watering frequency, and (3) fertilizer type affect plant growth.

In this scenario, she could perform a three-way ANOVA since there are three factors and one response variable.

**Scenario 2: Retail**

An executive at a retail store may want to determine how (1) day of the week, (2) store location, and (3) advertising campaigns affect total sales.

In this scenario, he could perform a three-way ANOVA since there are three factors and one response variable.

**Scenario 3: Medical**

A doctor may want to determine how (1) gender, (2) diet, and (3) exercise habits affect weight.

In this scenario, she could perform a three-way ANOVA since there are three factors and one response variable.

**Three-Way ANOVA: Example**

Suppose a researcher wants to determine if training program, gender, and athletic division affect jumping height.

To test this, he can perform a three-way ANOVA with the following factors:

**1. Training program**(program 1 vs. program 2)**2. Gender**(male vs. female)**3. Athletic Division**(division I vs. division II)

The one response variable will be **jumping height**.

Suppose he collects this data on 40 individuals:

He then uses statistical software to perform a three-way ANOVA and receives the following output:

The **P-value** column shows the p-value for each individual factor and the interactions between the factors.

From the output we can see that none of the interactions between the three factors were statistically significant.

We can also see that each of the three factors (Program, Gender, and Division) were statistically significant.

In conclusion, we would state that training program, gender, and division are all significant predictors of the jumping height increase among players.

We would also state that there are no significant interaction effects between these three factors.

**Note**: In practice, we would also calculate the mean jumping height for each program, gender, and division so that we could determine which levels of each factor are associated with increased jumping height.

**Additional Resources**

The following tutorials explain how to perform a three-way ANOVA in R and Python:

How to Perform a Three-Way ANOVA in R

How to Perform a Three-Way ANOVA in Python