![]() ![]() ![]() The vertical axis summarizes the frequencies with which we might obtain particular values for the sample mean. This graph's vertical axis is a "second dimension" that illustrates the results we might obtain were we to draw many samples from a population. To illustrate the relationship between the sample mean and the hypothetical but unknown population mean m, we add a second dimension to the "number line." Somewhere on the number line is the true but unknown population mean m. Depending on the sample that we draw by chance, the mean's value could be anywhere on the illustrated number line. In that respect, the sample mean is a continuous variable that could take on many values. Although we collect just one sample, and therefore calculate a single sample mean, we understand that the sample that we have drawn is one of many that we might have drawn. For example, we can calculate a t-statistic using the sample mean and sample variance. We calculate test statistics from information that we obtain from the sample. calculating the test statistic (in this case, a t statistic) using sample data.In our example, which states a null hypothesis in terms of the population mean, a relevant test statistic is the t. identifying a test statistic that relates to the hypothesized and unknown population parameter.This requires knowing whether the outcome of interest can be summarized as, for instance, a mean, a count, or a proportion.įor example, when we can measure the outcome variable at the interval or ratio scale, we can formulate a null hypothesis in terms of the population mean, which is designated by the greek symbol m. specifying a null hypothesis (H 0) that relates to a population parameter.However, test statistics are designed to evaluate not the research hypothesis, but a specific null hypothesis. Online calculator for Bonferroni adjustments (of alpha or z) for multiple comparisons.Ī research hypothesis drives and motivates statistical testing.Power and sample size programs, University of California - San Francisco, including links to free programs.Russ Lenth's power and sample size page, including Java applets that explore influences of sample and effect sizes on power.txt files with SAS programs that create the graphs that appear on this page: Factors that determine the location of the rejection regionsĭownload.This discussion illustrates the core concepts by exploring the t-test on a single sample of independent observations. Hypothesis testing and power Hypothesis testing and statistical powerĪll power and sample size calculations depend on the nature of the null hypothesis and on the assumptions associated with the statistical test of the null hypothesis. ![]()
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