3: Hypothesis Testing

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3.1: The Fundamentals of Hypothesis Testing
The previous two chapters introduced methods for organizing and summarizing sample data, and using sample statistics to estimate population parameters. This chapter introduces the next major topic of inferential statistics: hypothesis testing.
3.2: Hypothesis Test about the Population Mean when the Population Standard Deviation is Known
We are going to examine two equivalent ways to perform a hypothesis test: the classical approach and the p-value approach. The classical approach is based on standard deviations. This method compares the test statistic (Z-score) to a critical value (Z-score) from the standard normal table. If the test statistic falls in the rejection zone, you reject the null hypothesis. The p-value approach is based on area under the normal curve.
3.3: Hypothesis Test about the Population Mean when the Population Standard Deviation is Unknown
Frequently, the population standard deviation (σ) is not known. We can estimate the population standard deviation (σ) with the sample standard deviation (s). However, the test statistic will no longer follow the standard normal distribution. We must rely on the student’s t-distribution with n-1 degrees of freedom. Because we use the sample standard deviation (s), the test statistic will change from a Z-score to a t-score.
3.4: Hypothesis Test for a Population Proportion
3.5: Hypothesis Test about a Variance
3.6: Putting it all Together Using the Classical Method

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