7.2E: The Central Limit Theorem for Sample Means (Exercises)
 Page ID
 6942
Use the following information to answer the next six exercises: Yoonie is a personnel manager in a large corporation. Each month she must review 16 of the employees. From past experience, she has found that the reviews take her approximately four hours each to do with a population standard deviation of 1.2 hours. Let \(X\) be the random variable representing the time it takes her to complete one review. Assume \(X\) is normally distributed. Let \(\bar{X}\) be the random variable representing the mean time to complete the 16 reviews. Assume that the 16 reviews represent a random set of reviews.
Exercise \(\PageIndex{5}\)
What is the mean, standard deviation, and sample size?
Answer
mean = 4 hours; standard deviation = 1.2 hours; sample size = 16
Exercise \(\PageIndex{6}\)
Complete the distributions.
 \(X \sim\) _____(_____,_____)
 \(\bar{X} \sim\) _____(_____,_____)
Exercise 7.2.7
Find the probability that one review will take Yoonie from 3.5 to 4.25 hours. Sketch the graph, labeling and scaling the horizontal axis. Shade the region corresponding to the probability.
Figure 7.2.2.
2. \(P\)(________ \(< x <\) ________) = _______
Answer
 Check student's solution.
 3.5, 4.25, 0.2441
Exercise 7.2.8
Find the probability that the mean of a month’s reviews will take Yoonie from 3.5 to 4.25 hrs. Sketch the graph, labeling and scaling the horizontal axis. Shade the region corresponding to the probability.
Figure 7.2.3.
2. \(P\)(________________) = _______
Exercise 7.2.9
What causes the probabilities in Exercise and Exercise to be different?
Answer
The fact that the two distributions are different accounts for the different probabilities.
Exercise 7.2.10
Find the 95^{th} percentile for the mean time to complete one month's reviews. Sketch the graph.

Figure 7.2.4.
 The 95^{th} Percentile =____________