Workspace Node: t-Test, Independent Samples, by Variables - Results - Options Tab

In the t-test for Independent Samples, by Variables node dialog box, under the Results heading, select the Options tab to access options to determine the detail and formatting of the t-test for independent samples results spreadsheet.

Element Name Description
Display long variable names Select this check box to display the long variable names (if any, see Variable Specs Editor) along with the short names in the first column of the result spreadsheets. If no long variable names have been specified for any of the selected variables, then the setting of this check box will have no effect.
t-test with separate variance estimates Select this check box to add the t-test with separate variance estimates to the results spreadsheet. In order to compute the t-test for independent samples, STATISTICA has to estimate the variance of the difference for the respective dependent variable. By default, this variance is estimated from the pooled (averaged) within-group variances. If the variances in the two groups are widely different, and the number of observations in each group also differs, the t-test computed in this manner may not accurately reflect the statistical significance of the difference. In that case, you should use this option to compute the t-test with separate variance estimates and approximate degrees of freedom (see Blalock, 1972; this test is also called the Welch t; see Welch, 1938).
Homogeneity of variances Two tests for the homogeneity of variance assumption are available in this group box. For more information on the importance of the homogeneity of variance assumption, see Homogeneity of Variances.
Levene's test Select this check box to add the Levene test to the results spreadsheet. The standard t-test for independent samples is based on the assumption that the variances in the two groups are the same (homogeneous). A powerful statistical test of this assumption is Levene's test (however, see also the description of the Brown-Forsythe modification of this test below). For each dependent variable, an analysis of variance is performed on the absolute deviations of values from the respective group means. If the Levene test is statistically significant, the hypothesis of homogeneous variances should be rejected. However, note that the t-test for independent samples is a robust test as long as the N per group is greater than 30 (and, in particular, in the case of equal N); thus, a significant Levene test does not necessarily call into question the validity of the t-test (see also the general overview to the t-test for independent samples). Also, in the case of unbalanced designs (i.e., unequal N per group), the Levene test is itself not very robust, as has recently been pointed out in, for example, Glass and Hopkins (1996; see also the next paragraph).
Brown & Forsythe test Select this check box to add the Brown & Forsythe test to the results spreadsheet. Recently, some authors (e.g., Glass and Hopkins, 1996) have called into question the power of the Levene test for unequal variances. Specifically, the absolute deviation (from the group means) scores can be expected to be highly skewed; thus, the normality assumption for the ANOVA of those absolute deviation scores is usually violated. This poses a particular problem when there is unequal N in the two (or more) groups that are to be compared. A more robust test that is very similar to the Levene test has been proposed by Brown and Forsythe (1974). Instead of performing the ANOVA on the deviations from the mean, you can perform the analysis on the deviations from the group medians. Olejnik and Algina (1987) have shown that this test will give quite accurate error rates even when the underlying distributions for the raw scores deviate significantly from the normal distribution. However, recently, Glass and Hopkins (1996, p. 436) have pointed out that both the Levene test as well as the Brown-Forsythe modification suffer from what those authors call a "fatal flaw," namely, that both tests themselves rely on the homogeneity of variances assumption (of the absolute deviations from the means or medians), and hence, it is not clear how robust these tests are themselves in the presence of significant variance heterogeneity and unequal N. In most cases, when you suspect a violation of the homogeneity of variances assumption, it is probably advisable to interpret the t-test with separate variance estimates described above.

p-value for highlighting. The default p-value for highlighting is .05. You can adjust this p-value by entering a new value in the edit box or using the microscroll buttons. For more details on p-value, see Elementary Concepts.

CI for estimates Select this check box to compute confidence interval estimates for the differences between means. You can specify confidence limits for any p-value using the corresponding field. By default, the 95% confidence limits (p=.05) is computed. If the Test w/ separate variance estimates check box (see above) is cleared, the variance used in the calculation of the confidence limits is estimated from the pooled (averaged) within-group variances; if the Test w/ separate variance estimates check box is selected, separate variance estimates with the approximate degrees of freedom are used in calculating the confidence limits. For more information on confidence limits, see Descriptive Statistics - "True" Mean and Confidence Interval.

Options / C / W. See Common Options.

OK Click the OK button to accept all the specifications made in the dialog box and to close it. The analysis results are placed in the Reporting Documents after running (updating) the project.