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1. The following are body mass index (BMI) scores measured in 12 patients who are free of diabetes and participating in a study of risk factors for obesity. Body mass index is measured as the ratio of weight in kilograms to height in meters squared. Generate a 95% confidence interval estimate of the true BMI. 25 27 31 33 26 28 38 41 24 32 35 40 2. Consider the data in Problem #1. How many subjects would be needed to ensure that a 95% confidence interval estimate of BMI had a margin of error not exceeding 2 units? 3. A clinical trial is run to investigate the effectiveness of an experimental drug in reducing preterm delivery to a drug considered standard care and to placebo. Pregnant women are enrolled and randomly assigned to receive either the experimental drug, the standard drug or placebo. Women are followed through delivery and classified as delivering preterm (< 37 weeks) or not. The data are shown below. Preterm Delivery Experimental Drug Standard Drug Placebo Yes 17 23 35 No 83 77 65 Is there a statistically significant difference in the proportions of women delivering preterm among the three treatment groups? Run the test at a 5% level of significance. 4. Consider the data presented in problem #4. Previous studies have shown that approximately 32% of women deliver prematurely without treatment. Is the proportion of women delivering prematurely significantly higher in the placebo group? Run the test at a 5% level of significance. 5. A study is run comparing HDL cholesterol levels between men who exercise regularly and those who do not. The data are shown below. Regular Exercise N Mean Std Dev Yes 35 48.5 12.5 No 120 56.9 11.9 6. A clinical trial is run to assess the effects of different forms of regular exercise on HDL levels in persons between the ages of 18 and 29. Participants in the study are randomly assigned to one of three exercise groups – Weight training, Aerobic exercise or Stretching/Yoga – and instructed to follow the program for 8 weeks. Their HDL levels are measured after 8 weeks and are summarized below. Exercise Group N Mean Std Dev Weight Training 20 49.7 10.2 Aerobic Exercise 20 43.1 11.1 Stretching/Yoga 20 57.0 12.5 Is there a significant difference in mean HDL levels among the exercise groups? Run the test at a 5% level of significance. HINT: SSwithin = 21,860. 7. Consider again the data in problem #6. Suppose that in the aerobic exercise group we also measured the number of hours of aerobic exercise per week and the mean is 5.2 hours with a standard deviation of 2.1 hours. The sample correlation is -0.42. a) Is there evidence of a significant correlation between number of hours of exercise per week and HDL cholesterol level? Run the test at a 5% level of significance. b) Estimate the equation of the regression line that best describes the relationship between number of hours of exercise per week and HDL cholesterol level (Assume that the dependent variable is HDL level). c) Estimate the HDL level for a person who exercises 7 hours per week. d) Estimate the HDL level for a person who does not exercise. 8. The following data were collected in a clinical trial to compare a new drug to a placebo for its effectiveness in lowering total serum cholesterol. Generate a 95% confidence interval for the difference in mean total cholesterol levels between treatments. New Drug Placebo Total Sample (n=75) (n=75) (n=150) Mean (SD) Total Serum Cholesterol % Patients with Total Cholesterol < 200 185.0 (24.5) 204.3 (21.8) 194.7 (23.2) 78.0% 65.0% 71.5% 9. A small pilot study is conducted to investigate the effect of a nutritional supplement on total body weight. Six participants agree to take the nutritional supplement. To assess its effect on body weight, weights are measured before starting the supplementation and then after 6 weeks. The data are shown below. Is there a significant increase in body weight following supplementation? Run the test at a 5% level of significance. Subject Initial Weight Weight after 6 Weeks 1 155 157 2 142 145 3 176 180 4 180 175 5 210 209 6 125 126 10. Answer True or False to each of the following a) The margin of error is always greater than or equal to the standard error. b) If a test is run and p=0.0356, then we can reject H0 at ?=0.01. c) If a 95% CI for the difference in two independent means is (-4.5 to 2.1), then the point estimate is -2.1. d) If a 95% CI for the difference in two independent means is (2.1 to 4.5), there is no significant difference in means.

1. The following are body mass index (BMI) scores measured in 12 patients who are free of diabetes and participating in a study
of risk factors for obesity. Body mass index is measured as the ratio of weight in kilograms to height in meters squared.
Generate a 95% confidence interval estimate of the true BMI. 25 27 31 33 26 28 38 41 24 32 35 40

2. Consider the data in Problem #1. How many subjects would be needed to ensure that a 95% confidence interval estimate of
BMI had a margin of error not exceeding 2 units?

3. A clinical trial is run to investigate the effectiveness of an experimental drug in reducing preterm delivery to a drug considered
standard care and to placebo. Pregnant women are enrolled and randomly assigned to receive either the experimental drug, the
standard drug or placebo. Women are followed through delivery and classified as delivering preterm (< 37 weeks) or not. The data
are shown below.
Preterm Delivery
Experimental Drug
Standard Drug
Placebo
Yes
17
23
35
No
83
77
65
Is there a statistically significant difference in the proportions of women delivering preterm among the three treatment groups?
Run the test at a 5% level of significance.

4. Consider the data presented in problem #4. Previous studies have shown that approximately 32% of women deliver prematurely
without treatment. Is the proportion of women delivering prematurely significantly higher in the placebo group? Run the test at a
5% level of significance.

5. A study is run comparing HDL cholesterol levels between men who exercise regularly and those who do not. The data are shown
below.
Regular Exercise
N
Mean
Std Dev
Yes
35
48.5
12.5
No
120
56.9
11.9
6. A clinical trial is run to assess the effects of different forms of regular exercise on HDL levels in persons between the ages of 18 and
29. Participants in the study are randomly assigned to one of three exercise groups – Weight training, Aerobic exercise or
Stretching/Yoga – and instructed to follow the program for 8 weeks. Their HDL levels are measured after 8 weeks and are
summarized below.
Exercise Group
N
Mean
Std Dev
Weight Training
20
49.7
10.2
Aerobic Exercise
20
43.1
11.1
Stretching/Yoga
20
57.0
12.5
Is there a significant difference in mean HDL levels among the exercise groups? Run the test at a
5% level of significance. HINT: SSwithin = 21,860.

7. Consider again the data in problem #6. Suppose that in the aerobic exercise group we also measured the number of hours of aerobic
exercise per week and the mean is 5.2 hours with a standard deviation of 2.1 hours. The sample correlation is -0.42.
a) Is there evidence of a significant correlation between number of hours of exercise per week and HDL cholesterol level? Run the
test at a 5% level of significance.
b) Estimate the equation of the regression line that best describes the relationship between number of hours of exercise per week
and HDL cholesterol level (Assume that the dependent variable is HDL level).
c) Estimate the HDL level for a person who exercises 7 hours per week.

d) Estimate the HDL level for a person who does not exercise.

8. The following data were collected in a clinical trial to compare a new drug to a placebo for its effectiveness in lowering total serum
cholesterol. Generate a 95% confidence interval for the difference in mean total cholesterol levels between treatments.
New Drug
Placebo
Total Sample
(n=75)
(n=75)
(n=150)

Mean (SD) Total Serum
Cholesterol
% Patients with Total
Cholesterol < 200

185.0 (24.5)

204.3 (21.8)

194.7 (23.2)

78.0%

65.0%

71.5%

9. A small pilot study is conducted to investigate the effect of a nutritional supplement on total body weight. Six participants agree to
take the nutritional supplement. To assess its effect on body weight, weights are measured before starting the supplementation and
then after 6 weeks. The data are shown below. Is there a significant increase in body weight following supplementation? Run the
test at a 5% level of significance.
Subject
Initial Weight
Weight after 6
Weeks
1
155
157
2
142
145
3
176
180
4
180
175
5
210
209
6
125
126

10. Answer True or False to each of the following
a) The margin of error is always greater than or equal to the standard error.
b) If a test is run and p=0.0356, then we can reject H0 at ?=0.01.
c) If a 95% CI for the difference in two independent means is (-4.5 to 2.1), then the point estimate is -2.1.
d) If a 95% CI for the difference in two independent means is (2.1 to 4.5), there is no significant difference in means.

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