Chapter 17 – Testing for differences between two samples

related t test

Reason:   Repeated measures design. Each participant performed in both conditions.

single sample t test

We have only one group, but we can compare their mean with the standardized mean for IQ of 100.

Unrelated t test

Two separate groups each with a mean on the same DV. Independent samples design.

Scenario 1 (related t)
The mean time to solve anagrams in the noisy room (M = 193.45 secs, SD = 43.16) was higher than the mean time for the quiet room (M = 178.25, SD = 24.52) resulting in a mean difference of 15.2 seconds. This difference was not significant, t (19) = 1.558, p = .136. The mean difference (95% CI: -5.22 to 35.62) was small (Cohen’s d = 0.35).

Scenario 2 (single sample t)
The ‘free’ school children had a lower mean than the standard average IQ of 100 (M = 97.7, SD = 9.5). This difference, however, was not significant, t (24) = 1.22, p = .236. The difference between the sample mean and the population mean was small (2.32, 95% CI: -6.26 to 1.62, Cohen’s d = 0.243).

Note that SPSS uses the sample SD to calculate Cohen’s d.

Scenario 3 (unrelated t)
The film group produced a higher mean attitude score (M = 25.65, SD = 5.25) than the control group (M = 22.2, SD = 4.76). The difference between means was significant, t (38) = 2.18, p = .036. The difference between means (difference = 3.45, 95% CI: 0.24 to 6.66) was moderate (Cohen’s d = 0.69).

Note Effect size is calculated using $$d=\frac{{\bar{x}}_1-{\bar{x}}_2}{s}$$where s is the mean standard deviation for the two groups ( sample sizes are equal).

Wilcoxon and Sign test, but Wilcoxon is a lot more powerful.

Mann-Whitney

Scenario 1: (Wilcoxon)

The differences between time taken to solve anagram in the noisy room and time taken in the quiet room were ranked according to size for each participant. A Wilcoxon T analysis on the difference ranks showed a rank total of 139 where noisy room times were higher than quiet room times and a rank total of 71 where quiet room times were higher. Hence, quiet rooms times were generally lower than noisy room times but this difference was not significant, T (N = 20) = 71, p = .204. The estimated effect size was small to moderate, r = 0.2.

Scenario 1: (Sign test)

For each participant the difference between noisy room and quiet room time was found and the sign of this difference recorded. The 13 cases where quiet room score was less than noisy room score were contrasted with the 7 cases where the difference was in the opposite direction using a sign test analysis. The difference was found not to be significant with S (N = 20) = 7, p = .263.

Scenario 3: Mann-Whitney

The children’s disability attitude scores were ranked as one group. The rank total for the control group was 339.5 whereas the total for the film trained group was 480.5. Using a Mann-Whitney analysis significance was very nearly achieved with U (N = 40)= 129.5, p = .056. The effect size was moderate, r = 0.3

NOTE: If using later versions of SPSS and not the ‘Legacy dialogs’ you’ll find the higher value of U is reported. Just to check. SPSS gives U = 270.5.  Total ranks = N₁ X N₂ = 400. Subtracting 270.5 from 400 gives 129.5 which is the answer given here. It is conventional to use the lower value and to check this in tables which usually use lower values.