Answer to Question #157333 in Statistics and Probability for EUGINE HAWEZA

Question #157333

The following output summarizes the results of fitting a least-squares regression to simulated data. Because we constructed these data using a computer, we know the SRM holds and we know the parameters of the model. We chose Beta0 = 7, Beta1 = 0.5, and se = 1.5. The fit is to a sample of n = 50 cases.

If Beta1 = ½ in the population, then why isn’t b1 = ½?
Do the 95% confidence intervals for Beta0 and Beta1 contain Beta0 and Beta1 in this example?
What’s going to change in this summary if we increase the sample size from 50 cases to 5,000 cases?

Expert's answer

a) The values of "\\beta_1" and b₁ are not equal because b₁ is only an estimate of the population slope that will change due to sampling variation.

b) Degree of freedom = n-2 = 50-2 = 48

Critical value of t at 95% confidence interval and df = 48 is 2.01

95% confidence interval of "\\beta_0" is

"(6.993459 -2.01 \\times 0.181933, 6.993459 + 2.01 \\times 0.181933) \\\\\n\n(6.993459 -0.365685, 6.993459 + 0.365685) \\\\\n\n(6.627774, 7.359144)"

The 95% confidence interval for "\\beta_0" contains the value of "\\beta_0"

95% confidence interval of "\\beta_1" is

"(0.5134397 -2.01 \\times 0.029887, 0.5134397 + 2.01 \\times 0.029887) \\\\\n\n( 0.5134397 -0.060072, 0.5134397 +0.060072) \\\\\n\n(0.4533677, 0.5735117)"

The 95% confidence interval for "\\beta_1" contains the value of "\\beta_1"

c) If we increase the sample size, the model will overfit the data.

SSError will decrease and SSRregression will increase

So, the value of "r^2" will increase.

The value of se will decrease.

The values of standard errors will decrease.