2000 Flex-Time and Flex-Mode Prob-Stat I Topic PS2 Page

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45-733 PROBABILITY AND STATISTICS I

XIX. Relationships With Prob-Stat II


============================================================
Dependent Variable: GNP                                               
Method: Least Squares                                                 
Date: 02/25/99   Time: 15:49                                          
Sample: 1915 1988                                                     
Included observations: 74                                             
============================================================
     Variable      CoefficientStd. Errort-Statistic  Prob.            
============================================================
         C           3.025348   0.547696   5.523772   0.0000 (1)
      MILMOB         3.697863   0.547363   6.755782   0.0000          
============================================================
R-squared (2)        0.387966    Mean dependent var 3.061841 (3)
Adjusted R-squared   0.379466    S.D. dependent var 5.980692 (4)
S.E. of regression   4.711230    Akaike info criter 5.964430          
Sum squared resid    1598.089    Schwarz criterion  6.026702          
Log likelihood (5)  -218.6839    F-statistic        45.64060 (6)
Durbin-Watson stat   1.266900    Prob(F-statistic)  0.000000 (7)
============================================================

This is the two-tail P-Value for the null hypothesis in the hypothesis test:
```
     H₀: b₀ = 0
     H₁: b₀ ¹ 0
      where
              _Ù        _Ù
        (b₀ - b₀)/(VAR(b₀)^1/2
```
has at t-distribution with n-k-1 degrees of freedom (k = number of independent variables excluding the constant). The test statistic here is just the coefficient value divided by the standard error:

Test Statistic = 3.025348/.547696 = 5.523772

If you issued the EViews command:

Scalar PVal=@TDIST(5.523772,72)

you would get the two-tail P-Value = .000000499.

Hence, in EViews -- as is the case with almost all stat packages -- the column labeled "Prob" is simply the two-tail P-Values for the null hypothesis that the corresponding coefficient is equal to zero. It is then up to you to interpret this substantively!

R-squared. This is literally the squared correlation coefficient:

_Ù_Ù
  r² = COV(Y,Y)²/[VAR(Y)VAR(Y)],  where
                _Ù
  Y = GNP  and  Y is the estimated GNP based on the above equation:
   _Ù
  GNP = 3.025348 + 3.697863*MILMOB

Mean dependent var. This is literally the sample mean discussed in class:

      _ 
      Y_n = S_i=1,nY_i/n

   Note that the sample size, n, here is equal to 74.

S.D. dependent var: This is the unbiased estimator formula discussed in class:

                      _{_}  
   s_y = {[å_i=1,n (y_i - Y_n)²]/(n -1)}^1/2

Log likelihood. This is the value of the log of the likelihood function:

L(e₁ , e₂ , ... , e_n | b₀, b₁) = ln{f(e₁ , e₂ , ... , e_n | b₀, b₁)}

where in this example

e_i = y_i - b₀ - b₁x_i and e_i ~ N(0, s²)

Here y = GNP and x = MILMOB. The idea is to find estimates of the coefficients -- the bs -- that maximize the likelihood function.
F-statistic. This is the overall F-Statistic of the regression. It is the ratio:

[r²/k]/[(1 - r²)/(n - k - 1)]

Where r² is the R-squared of the regression explained in point (1) above; k = number of independent variables (excluding the constant or intercept term); and n = sample size.
This is the upper-tail P-Value for the F-Statistic.