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8: Introduction to Linear Regression

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    56958

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    • 8.1: Fitting a line, residuals, and correlation
      Imagine what a perfect linear relationship would mean: you would know the exact value of y just by knowing the value of x. This is unrealistic in almost any natural process. For example, if we took family income x, this value would provide some useful information about how much financial support y a college may offer a prospective student. However, there would still be variability in financial support, even when comparing students whose families have similar financial backgrounds.
    • 8.2: Least squares regression
      In this section, we examine criteria for identifying a linear model and introduce a new statistic, correlation.
    • 8.3: Types of outliers in linear regression
      Fitting linear models by eye is open to criticism since it is based on an individual preference. In this section, we use least squares regression as a more rigorous approach.
    • 8.4: Inference for Linear Regression
      In this section we discuss uncertainty in the estimates of the slope and y-intercept for a regression line. Just as we identi ed standard errors for point estimates in previous chapters, we first discuss standard errors for these new estimates. However, in the case of regression, we will identify standard errors using statistical software.
    • 8.5: Exercises
      Exercises for Chapter 7 of the "OpenIntro Statistics" textmap by Diez, Barr and Çetinkaya-Rundel.

    Thumbnail: An example of a statistical technique used in R: a linear regression model. This graph reflects the relationship between test scores and ages of participants in a study. (CC BY-SA 4.0; Hassa372 via wikipedia)

    This page titled 8: Introduction to Linear Regression is shared under a CC BY-SA 3.0 license and was authored, remixed, and/or curated by David Diez, Christopher Barr, & Mine Çetinkaya-Rundel via source content that was edited to the style and standards of the LibreTexts platform.