Exam 12: One-Factor Within-Subjects Analysis of Variance

If an experiment using a one-factor within-subjects design has four treatment conditions and uses a total of 12 participants, then the dfTotal equals.

The total degrees of freedom in a one-factor within-subjects analysis of variance are equal to.

Suppose 11 participants were tested under four treatment conditions in a one-factor within-subjects design. The denominator of the F statistic for the analysis of variance would have degrees of freedom.

If the alternative hypothesis is accepted in a one-factor within-subjects analysis of variance on three levels of the independent variable, then.

In which of the following instances is a post hoc test needed in a one-factor within-subjects analysis of variance?

In comparison to between-subjects designs, within-subjects designs.

If $SS _ { A } = 40.00 , S S _ { S } = 70.00$ , and $S S _ {{ A } \times S }= 60.00$ in a one-factor w ithin-subjects analysis of variance, then $\eta ^ { 2 }$ is____

The MSS in a one-factor within-subjects analysis of variance is equal to the SSS divided by.

If SSA = 27.00, SSA × S = 99.00, SSS = 44.00, dfA = 3, dfA × S = 33, and dfS = 11, then MSA equals in a one-factor within-subjects analysis of variance.

If Fobs does not fall into the rejection region in a one-factor within-subjects analysis of variance, then the.

Which of the following is not an assumption underlying the use of a one-factor within-subjects analysis of variance.

If Fobs falls into the rejection region in a one-factor within-subjects analysis of variance, then the.

A within-subjects design also is known as a design.

Which assumption for a one-factor within-subjects analysis of variance is most likely to be violated?

Which of the following is correct for a one-factor within-subjects analysis of variance?

If the null hypothesis is true for a one-factor within-subjects analysis of variance, then Fobs should be approximately and the null hypothesis should.

If you reject H0 in a one-factor within-subjects analysis of variance, then you conclude that the.

A one-factor within-subjects analysis of variance revealed that the means differ significantly, F(2, 10) = 12.37, MSA × S = 10.62, p < .05. Given this

A one-factor within-subjects experiment uses three treatments and a total of nine subjects; thus the df associated with the mean square in the denominator of the F statistic for the analysis of variance equals.

Which of the following does not belong with the others?