If we now take the next step, often a researcher wants to know whether more than two groups differ on a specific variable. In this chapter, we expand what was already covered and now consider the case where we test whether more than two population means are statistically different. In a sense, we are asking whether there is an association among a group of means. These groups or samples can either be naturally occurring or can be set up by the researcher for the purpose of study. In the case of the latter, we call this the experimental design approach (Chapter 19 will have more on this). In a true experimental design, the researcher can assign subjects to different groups, control the environment (i.e., when are the subjects exposed to a treatment, who is exposed to a treatment, etc.), and manipulate the independent variable in order to bring about a change in the dependent variable. The effect of the treatment is then analyzed. As an example, if one were examining the effects of four different medical treatments on Alzheimer's patients, individuals with similar attributes would be randomly assigned to groups and subjected to the different treatments. The results would then be analyzed for differences.¹

At this point, the first question many students ask is "Why can't we just continue to use the t-statistic to test if the means are different?" The answer is rather obvious. The t-statistic can only be calculated between two phenomena (i.e., a population mean and a sample mean, two sample means, etc.). Although it is technically possible to compare multiple means by conducting separate t-tests, it is not very practical. Imagine the problem we are faced with in the case of just three means. We would calculate a t-statistic between the first and second sample, then we would calculate a t-statistic between the first and third sample, and then we would calculate a t-statistic between the second and third sample. These multiple t-statistics may not tell us whether the three means are statistically different. As an example, suppose the first t-test is statistically significant, while the other two are not. We cannot determine whether this tells us the group of the means is different or the same.

The problem only gets worse in the case of comparing more than three means. Conducting multiple f-tests can lead to severe statistical problems tha...