9.3: Related Samples t-Statistic

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Page ID: 56652

Chanler Hilley, Kennesaw State University
University of Missouri System

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Our test statistic for our change scores follows exactly the same format as it did for our one-sample t-test. In fact, the only difference is in the data that we use. For our change test, we first calculate a difference score as shown above. Then, we use those scores as the raw data in the same mean calculation, standard error formula, and t statistic. Let’s look at each of these.

The mean difference score is calculated in the same way as any other mean: sum each of the individual difference scores and divide by the sample size.

\[
\Large
M_D=\frac{\sum{X_D}}{n}
\nonumber
\]

Here we are using the subscript D to keep track of the fact that these are difference scores instead of raw scores; it has no actual effect on our calculation. Using this, we calculate the standard deviation of the difference scores the same way as well:

\[
\Large
s_D=\sqrt{\frac{\sum{(X_D-M_D)^2}}{n-1}}=\sqrt{\frac{SS}{df}}
\nonumber
\]

We will find the numerator, the sum of squares, using the same table format that we learned in Chapter 3. Once we have our standard deviation, we can find the standard error:

\[
\Large
s_{M_D}=\frac{s_D}{\sqrt{n}}
\nonumber
\]

Finally, our test statistic t has the same structure as well:

\[
\Large
t=\frac{M_D-\mu_D}{s_{M_D}}
\nonumber
\]

As we can see, once we calculate our difference scores from our raw measurements, everything else is exactly the same. Let’s see an example in the next section.

Video: Dependent Samples t-Test

Dependent Samples t-Test on YouTube. Note that the notation used in the video differs slightly from the textbook, but the ideas are the same.

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