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12.8: Correlated t Simulation

  • Page ID
    2343
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    Learning Objectives

    • State the effect of increasing \(r\) on power

    Instructions

    This simulation demonstrates the \(t\) test for correlated observations. When you click the "sample" button, \(12\) subjects with scores in two conditions are sampled from a population. Each population is normally distributed with a standard deviation of \(4\). The mean for condition \(1\) is \(15\) and the mean for condition \(2\) is \(13\). The initial population correlation between conditions is \(0.5\), although you can change that. The data from the sample of \(12\) subjects is graphed with a line connecting the two data points for a subject. The difference scores (Condition \(A\) - Condition \(B\)) are computed and graphed as well and shown in a table. The bottom of simulation displays the mean difference score, the standard deviation of the difference scores, the standard error of the mean difference score, the value of \(t\), and the value of \(p\).

    Illustrated Instructions

    Video Demo

    The video begins by running simulations with the population correlation set to \(0.5\). More simulation are run with the correlation set to \(0.1\). As you watch the video and run simulations for yourself see if you can determine a correspondence between an aspect of the graph and the standard deviation of the difference scores. Specifically, look at the degree to which the lines diverge from being parallel and the standard deviation. What effect does increasing the correlation have on the parallel lines and the standard deviation? What effect does increasing the correlation have?


    This page titled 12.8: Correlated t Simulation is shared under a Public Domain license and was authored, remixed, and/or curated by David Lane via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.

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