9: Bivariate Data, Correlation, and Regression

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What happens to housing prices as the number of bedrooms increases? Do students who study more tend to score higher on exams? As gas prices go up, do fewer people take road trips? These are all examples of questions involving bivariate data where we’re interested in the relationship between two variables.

In this chapter, we'll explore how to visually and numerically investigate associations between two variables. You’ll learn how to describe the direction, strength, and form of a relationship, and how to interpret the results in context. And just as importantly, we’ll also discuss when a relationship might not be meaningful or when it might be misleading.

Key idea: Correlation and regression help us explore how one variable may be associated with or even help predict another.

But remember: correlation ≠ causation.

We begin with scatterplots, the foundational way to visualize relationships between two quantitative variables. From there, you’ll learn about the correlation coefficient (r), a numerical measure that tells us how strong and in what direction two variables move together.

Then we’ll build a regression model: the best-fitting straight line that helps us predict one variable from another. We’ll look at equations, interpret slope and intercept, and examine how well our line fits the data using residuals (prediction errors).

Understand what a linear relationship looks like and how to detect it
Calculate and interpret the correlation coefficient (r)
Construct and interpret a least-squares regression line
Use context to make predictions (within reason!)
Recognize the limitations of regression models

Why it matters: From economics to healthcare to sports analytics, understanding relationships between variables helps us make better decisions and smarter predictions.

By the end of this chapter, you won’t just be spotting patterns you’ll be modeling them.

Let’s explore what happens when we connect two variables and what those connections can reveal.

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