Statistics Confidence Intervals for Variance and Standard Deviation
In manufacturing, it is necessary to control the amount that a process varies. For instance, a cabinet shop will make hundred of similar cuts. It is important that the lengths of the cuts vary little or not at all to insure the construction in beautiful sets of cabinets. Chi-square distribution is used to measure the amount of variation that exists in a population. The point estimate for the population’s variance σ2 is a sample’s variance s2 . The point estimate for the population’s standard deviation σ is a sample’s standard deviation s.
Chi-square distribution is a family of curves that are skewed positively. Each uses a degree of freedom that is equal to one less than the size of the sample. d.f. = n – 1 The area under each curve equals one.
There are two critical values for each level of confidence. The value χ2R represents the right-tail critical value and χ2L represents the left-tail critical value. The table gives areas that represent the regions under the chi-square curve to the RIGHT of the critical value. This means these values are right tail values, not at all like the normal distribution z table we used earlier.
Example. Find the critical values χ2R and χ2L for a 95% confidence interval when the sample size is 15. Because the sample size is 15, there are 14 degrees of freedom.
From the table, you can see that χ2R = 26.119 and χ2L = 5.629.
We will use these critical values χ2R and χ2L to construct a confidence interval for a population’s variance and standard deviation. A c-confidence interval for a population’s variance and standard deviation are determine from the following intervals: 2 2 n 1 s n 1 s 2 for a population's variance 2 χR χ 2L for a population's standard deviation
n 1 s2 2 χR
n 1 s2 χ 2L
Guidelines 1. Verify that the population is normally distributed. 2. Identify the degree of freedom. 3. Find the point estimate s2. 4. Find the critical values χ2R and χ2L that correspond to the given level of confidence. 5. Find the left and right endpoints and form the confidence interval for the population's variance and population's standard deviation.
The probability that the confidence interval contains σ2 or σ is c.
Example. You randomly select 30 pieces of trim that has been cut in a cabinet shop. The sample standard deviation is 1.2 millimeters. Assuming the lengths are normally distributed, construct 99% confidence intervals for the population variance and standard deviation. Critical values‌ n = 30 d.f. = 29 Area to right = 0.005 Area to left = 0.995
From the table, χ2R = 52.336 and χ2L = 13.121. Using these critical values and s = 1.2, here’s how we find the confidence interval for σ2 .
n 1 s 2 χ2
30 1 1.22 0.7979 52.336
30 1 1.2 3.1827 2
13.121
The confidence interval for σ2 is (0.7979, 3.1827) The confidence interval for σ is 0.7979 , 3.1827 = (0.8933, 1.7840). So with 99% confidence, the interval (0.7979, 3.1827) contains the population’s variance. With the same 99% confidence, the interval (0.8933, 1.7840) contains the population’s standard deviation.