Which statement about sphericity is true?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Study for the UEL Clinical Psychology Screening Test. Prepare with comprehensive multiple choice questions, complete with hints and explanations. Equip yourself for success!

Multiple Choice

Which statement about sphericity is true?

Explanation:
Sphericity refers to the relationship between how the repeated-measures differences behave across all pairs of conditions. Specifically, it means that if you take the difference scores for every pair of treatment levels (for each participant), the variances of those difference scores should be the same across all pairs. With k conditions, there are k(k−1)/2 such pairwise differences, and sphericity says their variances are equal. This property helps ensure the F tests in a repeated-measures ANOVA have the correct distribution under the null. If sphericity holds, the within-subjects test is straightforward to interpret. If it doesn’t, the test can be biased, leading to inflated or deflated Type I error rates, which is why corrections like Greenhouse-Geisser or Huynh-Feldt are used to adjust the degrees of freedom. For example, with three conditions, you’d look at the variances of the three pairwise difference scores (condition 1 minus 2, 1 minus 3, and 2 minus 3). Those three variances should be roughly equal for sphericity to hold. The other statements—variance in treatment scores increasing over time, means needing to be equal across conditions, or data needing to be non-normal—do not describe sphericity.

Sphericity refers to the relationship between how the repeated-measures differences behave across all pairs of conditions. Specifically, it means that if you take the difference scores for every pair of treatment levels (for each participant), the variances of those difference scores should be the same across all pairs. With k conditions, there are k(k−1)/2 such pairwise differences, and sphericity says their variances are equal. This property helps ensure the F tests in a repeated-measures ANOVA have the correct distribution under the null.

If sphericity holds, the within-subjects test is straightforward to interpret. If it doesn’t, the test can be biased, leading to inflated or deflated Type I error rates, which is why corrections like Greenhouse-Geisser or Huynh-Feldt are used to adjust the degrees of freedom.

For example, with three conditions, you’d look at the variances of the three pairwise difference scores (condition 1 minus 2, 1 minus 3, and 2 minus 3). Those three variances should be roughly equal for sphericity to hold. The other statements—variance in treatment scores increasing over time, means needing to be equal across conditions, or data needing to be non-normal—do not describe sphericity.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy