6.5: Conclusion

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In this chapter, we systematically examined the consequences of violating the core assumptions of ordinary least squares regression — along with the effects of multicollinearity. In each case, we introduced a specific violation and observed its impact on our parameter estimates, test statistics, and confidence intervals.

Our exploration revealed that not all violations are equally severe. For instance, deviations from the Normality assumption generally have minimal effects on inference — unless the error distribution lacks a finite variance, in which case standard tests become nearly useless. A more critical issue is misspecifying the model's expected value, such as omitting a necessary predictor. This bias undermines everything: estimators, tests, and confidence intervals become unreliable, underscoring the necessity of a correctly specified model.

Heteroskedasticity, while leaving coefficient estimates unbiased, distorts inference by invalidating the standard errors used in hypothesis tests and confidence intervals. The issue is not one of bias, but of miscalibrated uncertainty. Finally, multicollinearity — stemming from highly correlated predictors — inflates standard errors, reducing statistical power. Beyond the numerical consequence, it creates an interpretive challenge by making it difficult to disentangle the distinct effects of the correlated variables.

Taken together, these findings reinforce a central principle: awareness and diagnosis of these conditions are essential for trustworthy regression analysis.

Caution

Again, be aware of the multiple comparisons issue discussed in The Appendix of Statistics. It explains why you need to either adjust your p-value or your alpha level when performing multiple tests, such as when you are testing both \(\beta_0 = 4\) and \(\beta_1 = 0\).

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