10.9: SPSS Lesson 7- Paired Sample t-Test

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To follow along, load in the Data Set “Methadone.sav”:

SPSS screenshot © International Business Machines Corporation.

As set up, the file has two dependent variables. This “within subjects” dataset is fundamentally multivariate. When we did the paired \(t\)-test by hand we converted the multivariate data to univariate data by taking differences. SPSS will do the differences behind the scene and you won’t actually see them. Run the \(t\)-test by picking Analyze \(\rightarrow\) Compare Means \(\rightarrow\) Paired -Samples T-Test:

Move the two variables into Pair 1 and hit OK (Options again allows you to specify a confidence intervals percentage):

The output is:

The first two tables are descriptive statistics. The last table gives the stuff we want: \(\overline{D} = 0.9615\), \(s_{D} = 10.7067\), the confidence interval

\[\begin{equation*} -5.5084< \mu_{D} < 7.4315, \end{equation*}\]

\(t_{\rm test} = 0.324\), \(\nu = 12\) and \(p = 0.002\) for the two-tailed hypotheses pair

\[H_{0}: & \mu_{D} = 0 \] \[\begin{equation*} H_{1}: & \mu_{D} \neq 0. \end{equation*}\]

The very low \(p\)-value (0 in this case) and the absence of 0 in the confidence interval guide us to reject \(H_{0}\), the differences are significantly different from zero.

The standardized effect size and strength of association for the paired \(t\)-test are

\[\begin{equation*} d = \frac{t}{\sqrt{n}} = \frac{\overline{D}}{s_{D}} \end{equation*}\]

and

\[\begin{equation*} \eta^{2} = \frac{t^{2}}{t^{2}+n-1} \end{equation*}\]

respectively.

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