Springer Texts in Business and Economics
Relative Efficiency of OLS Under Heteroskedasticity
a. From Eq. (5.9) we have
n / n 2 n / n 2
var(p 0ls) = e x2^i2 / (Ex2) = °2 Ex2x8 / (Ex2)
i=1 i=1 i=1 i=1
where xi = Xi — X. For Xi = 1,2,.., 10 and 8 = 0.5, 1, 1.5 and 2. This is tabulated below.
[2] P
b. Apply these four Wald statistics to the equation relating real per-capita consumption to real per-capita disposable income in the U. S. over the post World War II period 1959-2007. The SAS program that generated these Wald statistics is given below
[4] + p(n — 1) 1 + p(n — 1)
[5] 22
[7] dF/dx is for discrete change of dummy variable from 0 to 1 z and P>|z| correspond to the test of the underlying coefficient being 0
One can also run logit and probit for the unemployment variable and repeat this for females. This is not done here to save space.
[8] dF/dx is for discrete change of dummy variable from 0 to 1
z and P > |z| correspond to the test of the underlying coefficient being 0
[9] dF/dx is for discrete change of dummy variable from 0 to 1 z and P> |z| correspond to the test of the underlying coefficient being 0
