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12.8: Summary

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Statistical hypothesis testing is a formalization of the hypothesizing, testing, analyzing, and concluding parts of the modern scientific method. The process starts by specifying null and alternative hypotheses about the parameter of a population. The alternative hypothesis is the theory that the researchers want to prove. The null hypothesis is the hypothesis that is true when the alternative is not. Once data has been observed in the corresponding population, the evidence against the null hypothesis is measured using a test statistic. This test statistic usually measures what the best guess is about the value of the population parameter and how it is related to the null hypothesis relative to the typical error of the estimate, a value known as the standard error. The amount of evidence required for the null hypothesis to be rejected is specified by the rejection region for the test statistic. To determine the rejection region, the researcher must specify the significance level for the test, which is equal to the amount of risk the researcher is willing to take in rejecting a true null hypothesis. Once this is determined, the researcher can conclude whether the null hypothesis is rejected. Alternatively, a researcher can compute a p-value, which allows each individual to determine whether they would reject the null hypothesis based on their own risk level.

As an alternative to estimating an unknown parameter value with a single value, a researcher can use the standard error of the estimate to specify a range of values where the true parameter value is likely to be. When a specific level of risk is associated with this range, the corresponding estimate is known as a confidence interval. Before the data is observed, the researcher specifies risk by determining the probability that the interval they will compute will contain the true parameter value. This value, reported as a chance in percent, is the amount of confidence the researcher has that the interval contains the parameter value after it is computed.

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