8: Hypothesis Testing

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So far, we’ve been focused on estimating population values using confidence intervals. But what if instead of estimating, we want to test whether a claim is true? That’s where hypothesis testing comes in a framework that helps us make decisions using sample data.

Imagine this: A school claims that its students score an average of 80% on a state exam. A new study collects data from a sample of students and finds an average score of 77%. Is that just random variation, or evidence that the true average is lower than claimed? We need a way to check.

Hypothesis testing is how we decide whether the differences we see in a sample are statistically significant, or just due to natural variation. It is often used in medicine, science, education, and business any time someone asks, “Is this effect real, or just random?”

Key idea: Hypothesis testing helps us answer questions like:

Is the new product better than the current one?
Is this average different from what we expected?
Does this difference matter statistically?

In this chapter, we’ll walk step-by-step through the hypothesis testing process for a population mean or proportion. You’ll learn how to:

Write formal null and alternative hypotheses
Use sample data to calculate a test statistic (like z or t)
Find and interpret a p-value: the probability of seeing your result by random chance
Decide whether to reject or fail to reject the null hypothesis
Understand what it means to make a Type I or Type II error

Why it matters: Hypothesis testing is the core tool researchers use to draw conclusions. Whether testing a medical treatment, a business strategy, or a public claim, knowing how to interpret evidence correctly is essential and powerful.

By the end of this chapter, you’ll be able to look at a sample and say, with statistical confidence: “Yes, this difference looks real” or “No, this could just be random chance.”

Let’s learn how to test our questions not just ask them.

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