3.5: Conclusion

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This chapter started with defining what we can mean by "best." Because we decided to define "best" as "minimizing the sum of squared residuals," we were able to obtain closed-form solutions for the estimates. From those equations, we were able to learn even more about our estimators — things not obvious from the definition.

That was the entire purpose of this chapter: to see that our results arise from applying mathematics to our selected definition of "best." Had we chosen a different meaning, we may have arrived at different results.

In the next chapter, we will change how we represent the data. Using matrices allows us to generalize what we did in this chapter to more than one independent variable. It also allows us to draw some interesting results. For instance, the estimators are only independent in simple linear regression if \(\bar{x}=0\). Showing this requires us to find the covariance between \(b_0\) and \(b_1\). This is much easier when working with matrices.

Realize This

One myth about linear regression is that the data can only be modelled using lines. Linear models are called "linear models" because the estimating equations are linear in the coefficients. If you believe (or your substantive theory believes) that the relationship between \(x\) and \(y\) is quadratic, then you can define a new variable \(x^* = x^2\) and use \(x^*\) in the model.

Voilà!

Quadratic modelling.

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