a. Does it appear that the 45 data values appear to be a random sample from a normal

distribution?

b. Compute the correlation coefficient and p-value to assess whether the data appear to

be sampled from a normal distribution. c. Do the results in part b confirm your conclusion from part a? 4.93 Suppose a population consists of the 10 measurements 2, 3, 6, 8, 9, 12, 25, 29, 39, 50. Generate the 45 possible values for the sample mean based on a sample of n ⫽ 2 observations per sample.

a. Use the 45 sample means to determine whether the sampling distribution of the

sample mean is approximately normally distributed by constructing a boxplot, relative frequency histogram, and normal quantile plot of the 45 sample means.

b. Compute the correlation coefficient and p-value to assess whether the 45 means

appear to be sampled from a normal distribution. c. Do the results in part b confirm your conclusion from part a? 4.94 The fracture toughness in concrete specimens is a measure of how likely blocks used in new home construction may fail. A construction investigator obtains a random sample of 15 concrete blocks and determines the following toughness values: .47, .58, .67, .70, .77, .79, .81, .82, .84, .86, .91, .95, .98, 1.01, 1.04

a. Use a normal quantile plot to assess whether the data appear to fit a normal

distribution.

b. Compute the correlation coefficient and p-value for the normal quantile plot.

Comment on the degree of fit of the data to a normal distribution. Supplementary Exercises Bus. 4.95 One way to audit expense accounts for a large consulting firm is to sample all reports dated the last day of each month. Comment on whether such a sample constitutes a random sample. Engin. 4.96 The breaking strengths for 1-foot-square samples of a particular synthetic fabric are approximately normally distributed with a mean of 2,250 pounds per square inch psi and a standard deviation of 10.2 psi.

a. Find the probability of selecting a 1-foot-square sample of material at random that on

testing would have a breaking strength in excess of 2,265 psi.

b. Describe the sampling distribution for based on random samples of 15 1-foot sections.

4.97 Refer to Exercise 4.96. Suppose that a new synthetic fabric has been developed that may have a different mean breaking strength. A random sample of 15 one-foot sections is obtained and each section is tested for breaking strength. If we assume that the population standard devi- ation for the new fabric is identical to that for the old fabric, give the standard deviation for the sampling distribution of using the new fabric. 4.98 Refer to Exercise 4.97. Suppose that the mean breaking strength for the sample of 15 one- foot sections of the new synthetic fabric is 2,268 psi. What is the probability of observing a value of equal to or greater than 2,268, assuming that the mean breaking strength for the new fabric is 2,250, the same as that for the old? 4.99 Based on your answer in Exercise 4.98, do you believe the new fabric has the same mean breaking strength as the old? Assume s ⫽ 10.2. Gov. 4.100 Suppose that you are a regional director of an IRS office and that you are charged with sampling 1 of the returns with gross income levels above 15,000. How might you go about this? Would you use random sampling? How? Med. 4.101 Experts consider high serum cholesterol levels to be associated with an increased incidence of coronary heart disease. Suppose that the natural logarithm of cholesterol levels for males in a given age bracket is normally distributed with a mean of 5.35 and a standard deviation of .12.

a. What percentage of the males in this age bracket could be expected to have a serum

cholesterol level greater than 250 mgml, the upper limit of the clinical normal range? y y y