a. What is the interpretation of the educationand dself coefficients? Are these twocoefficients individually significant? (Note: use a significance level of 1 percent.)

b. What is the interpretation of the experience coefficients? What is the marginal effect of experienceon lnearnings?

c. Is the marginal effect of experienceon lnearnings diminishing? Or is it constant?Write down the null and alternative hypotheses and all the other relevant steps of this test. What do you conclude? (Note: use a significance level of 1 percent.)

d. What are the predicted lnearnings for someone with 10 years of education and the following characteristics? Fill in the fo llo wing table and provide the working outs.

	10 years of experience	20 years of experience
self- employed
non-self employed

e. We want to investigate if education and experience (and its square) jointly have any effect on lnearnings. Write down the null and alternative hypotheses of this test. What are the degrees of freedom associated with this test?

f.For the test in part (e), what is the critical value associated with a significance level of 1 percent? Briefly explain how you obtain this result

 

Transcribed Image Text:

For this assignment question, suppose that we have access to a data set on 494 male full-time workers aged 25 to 65 with information on their annual earnings in 2010 and other variables of interest. The variables are defined as follows: earnings = Annual earnings in $ Inearnings = Natural logarithm of earnings education = Educational attainment: years of schooling exper = Experience in years expersq = exper dself = dummy variable equal to 1 if the worker is self-employed, 0 otherwise A multiple regression of Inearnings on education, exper, expersq and dself generates the following result:

Transcribed Image Text:

Dependent Variable: LNEARNINGS Method: Least Squares Date: 04/28/21 Time: 15:10 Sample: 1 494 Included observations: 494 Huber-White-Hinkley (HC1) heteroskedasticity consistent standard errors and covariance Variable Coefficient Std. Error t-Statistic Prob. 8.872332 0.105770 0.036186 -0.000582 0.205671 0.010740 0.012561 0.000264 43.13847 9.848378 2.880816 -2.200194 EDUCATION 0.0000 0.0000 EXPER EXPERSQ 0.0041 0.0283 0.9296 DSELF -0.011738 0.132745 -0.088423 R-squared Adjusted R-squared S.É. of regression Sum squared resid Log likeihood F-statistic Prob(F-statistic) Prob(Wald F-statistic) Mean dependent var S.D. dependent var Akaike info criterion Schwarz criterion Hannan-Quinn criter. Durbin-Watson stat Wald F-statistic 0.204750 0.198245 0.647330 10.77651 0.722945 1.978150 204.9090 -483.6031 31.47522 0.000000 0.000000 2.020686 1.994850 2.024028 25.84566