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A two-way ANOVA is used to determine whether or not there is a statistically significant difference between the means of three or more independent groups that have been split on two variables.

Whenever you perform a two-way ANOVA, you will end up with a summary table that looks like the following:

Source | Sum of Squares (SS) | df | Mean Squares (MS) | F | P-value |
---|---|---|---|---|---|

Factor 1 | 15.8 | 1 | 15.8 | 11.205 | 0.0015 |

Factor 2 | 505.6 | 2 | 252.78 | 179.087 | 0.0000 |

Interaction | 13.0 | 2 | 6.5 | 4.609 | 0.0141 |

Residuals | 76.2 | 54 | 1.41 | Â | Â |

Each of the **F-values** in the table are calculated as:

- F-value = Mean Squares / Mean Squares Residuals

Each F-value also has a corresponding p-value.

If the p-value is less than a certain threshold (e.g. Î± = .05) then we conclude that the factor has a statistically significant effect on whatever outcome weâ€™re measuring.

The following example shows how to interpret F-values in a two-way ANOVA in practice.

**Example: Interpreting F-Values in Two-Way ANOVA**

Suppose we want to determine if exercise intensity and gender impact weight loss.

We recruit 30 men and 30 women to participate in an experiment in which we randomly assign 10 of each to follow a program of either no exercise, light exercise, or intense exercise for one month.

We then perform a two-way ANOVA using statistical software and we receive the following output:

Source | Sum of Squares (SS) | df | Mean Squares (MS) | F | P-value |
---|---|---|---|---|---|

Gender | 15.8 | 1 | 15.8 | 11.205 | 0.0015 |

Exercise | 505.6 | 2 | 252.78 | 179.087 | 0.0000 |

Gender * Exercise | 13.0 | 2 | 6.5 | 4.609 | 0.0141 |

Residuals | 76.2 | 54 | 1.41 | Â | Â |

Here is how to interpret each F-value in the output:

**Gender**:

- The F-value is calculated as MS Gender / MS Residuals = 15.8 / 1.41 =
**11.197**. - The corresponding p-value is
**.0015**. - Since this p-value is less than .05, we conclude that gender has a statistically significant effect on weight loss.

**Exercise**:

- The F-value is calculated as MS Exercise / MS Residuals = 252.78 / 1.41 =
**179.087**. - The corresponding p-value is
**<.0000>.** - Since this p-value is less than .05, we conclude that exercise has a statistically significant effect on weight loss.

**Gender * Exercise**:

- The F-value is calculated as MS Gender * Exercise / MS Residuals = 6.5 / 1.41 =
**4.609**. - The corresponding p-value is
**.0141**. - Since this p-value is less than .05, we conclude that the interaction between gender and exercise has a statistically significant effect on weight loss.

In this particular example, both of the factors (gender and exercise) had a statistically significant effect on the response variable (weight loss) and the interaction between the two factors also had a statistically significant effect on the response variable.

**Note**: When the interaction effect is statistically significant, you can create an interaction plot to better understand the interaction between the two factors and visualize exactly how the two factors affect the response variable.

**Additional Resources**

The following tutorials explain how to perform a two-way ANOVA using different statistical software:

How to Perform a Two-Way ANOVA in Excel

How to Perform a Two-Way ANOVA in R

How to Perform a Two-Way ANOVA in Python

How to Perform a Two-Way ANOVA in SPSS