8-4 CONFIDENCE INTERVAL ON THE VARIANCE AND STANDARD DEVIATION OF A NORMAL POPULATION 26310 degrees of freedom. We may write this as a probability statement as follows:Conversely, a lower5% point of chi-square with 10 degrees of freedom would be ^2 0.95,103.94
(from Appendix Table III). Both of these percentage points are shown in Figure 8-9(b).
The construction of the 100(1 )% CI for ^2 is straightforward. Becauseis chi-square with n1 degrees of freedom, we may writeso thatThis last equation can be rearranged asThis leads to the following definition of the confidence interval for ^2.P a1 n 12 S^2
^2 2,n 1^2 1 n 12 S 2
^21 2,n 1b 1 P a^21 2,n 1 1 n 12 S 2
^2^2 2,n 1 b 1 P 1 ^21 2,n 1 X^2 ^2 2,n 12 1 X 2 1 n 12 S 2
^2P 1 X 2
^2 0.05,10 2 P 1 X 2
18.31 2 0.05(a)α,kα0 ^2f(x) f(x)x(b)0 ^20.05 0.050.95, 10
= 3.94^2 0.05, 10
= 18.31Figure 8-9 Percentage point of the ^2 distribution. (a) The percentage point ^2 ,k. (b) The upper
percentage point ^2 0.05,1018.31 and the lower percentage point ^2 0.95,103.94.If s^2 is the sample variance from a random sample of nobservations from a normal dis-
tribution with unknown variance ^2 , then a 100(1)% confidence interval on ^2 is(8-21)where and are the upper and lower 1002 percentage points of
the chi-square distribution with n1 degrees of freedom, respectively. A confidence
interval forhas lower and upper limits that are the square roots of the correspon-
ding limits in Equation 8-21.^2 2,n 1 ^21 2,n 11 n 12 s^2
^2 2,n 1^2 1 n 12 s^2
^21 2,n 1Definitionc 08 .qxd 5/15/02 6:13 PM Page 263 RK UL 6 RK UL 6:Desktop Folder:TEMP WORK:MONTGOMERY:REVISES UPLO D CH114 FIN L:Quark Files: