Question

Describe the steps involved in using the z-interval procedure to obtain a confidence interval for the population mean when standard deviation is known. Include a description of the preliminary data analysis. Why is preliminary data analysis needed?

Answer 1

If you know the standard deviation for a population, then you can calculate a confidence interval (CI) for the mean, or average, of that population. When a statistical characteristic that’s being measured (such as income, IQ, price, height, quantity, or weight) is numerical, most people want to estimate the mean (average) value for the population. You estimate the population mean,

by using a sample mean,

plus or minus a margin of error. The result is called a confidence interval for the population mean,

When the population standard deviation is known, the formula for a confidence interval (CI) for a population mean is

deviation, n is the sample size, and z* represents the appropriate z*-value from the standard normal distribution for your desired confidence level.

z*–values for Various Confidence Levels
Confidence Level	z*-value
80%	1.28
90%	1.645 (by convention)
95%	1.96
98%	2.33
99%	2.58

The above table shows values of z* for the given confidence levels. Note that these values are taken from the standard normal (Z-) distribution. The area between each z* value and the negative of that z* value is the confidence percentage (approximately). For example, the area between z*=1.28 and z=-1.28 is approximately 0.80. Hence this chart can be expanded to other confidence percentages as well. The chart shows only the confidence percentages most commonly used.

In this case, the data either have to come from a normal distribution, or if not, then n has to be large enough (at least 30 or so) in order for the Central Limit Theorem to be applied , allowing you to use z*-values in the formula.

To calculate a CI for the population mean (average), under these conditions, do the following:

1. Determine the confidence level and find the appropriate z*-value.

   Refer to the above table.

2. Find the sample mean

   

   for the sample size (n).

   Note: The population standard deviation is assumed to be a known value,

   

3. Multiply z* times

   

   and divide that by the square root of n.

   This calculation gives you the margin of error.

4. Take

   

   plus or minus the margin of error to obtain the CI.

   The lower end of the CI is

   

   minus the margin of error, whereas the upper end of the CI is

   

   plus the margin of error.

For example, suppose you work for the Department of Natural Resources and you want to estimate, with 95% confidence, the mean (average) length of all walleye fingerlings in a fish hatchery pond.

1. Because you want a 95% confidence interval, your z*-value is 1.96.

2. Suppose you take a random sample of 100 fingerlings and determine that the average length is 7.5 inches; assume the population standard deviation is 2.3 inches. This means

   

3. Multiply 1.96 times 2.3 divided by the square root of 100 (which is 10). The margin of error is, therefore,

   

4. Your 95% confidence interval for the mean length of walleye fingerlings in this fish hatchery pond is

   

   (The lower end of the interval is 7.5 – 0.45 = 7.05 inches; the upper end is 7.5 + 0.45 = 7.95 inches.)