Stats for Strategy Exam 1 In-Class Practice Questions DIRECTIONS



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Stats for Strategy Exam 1 In-Class Practice Questions DIRECTIONS Choose the single best answer for each question. Discuss questions with classmates, TAs and Professor Whitten. Raise your hand to check answers with TAs. Jump to similar Topic examples or background information in the Notebook when you encounter a puzzling question! These questions afford an opportunity to review as well as practice. This file will be posted after class on the Exams page of the course website, with answers listed on the last page. Exam 1 Additional Practice Questions are also found on the website. The actual exam includes 25 questions, tables and a formula sheet. Use the Exam 1 Formula Sheet from the Notebook for these practice questions, as needed. Disclaimer: These practice questions are intended to familiarize you with the style of the exam. The content of actual exam questions will differ. Practice questions can t replace the homework; they only add value to your previous homework preparation. Questions 1 2. 1. Suppose that the P -value for a hypothesis test is The interpretation is P -value = 0.2610 (a) There is a 26.10% risk of error if the alternative hypothesis H A is accepted on the basis of the sample (or stronger) evidence, assuming that H A is true. (b) There is a 26.10% chance that the alternative hypothesis is true. (c) The maximum tolerated risk of error in this hypothesis test is 26.10%. (d) There is a 26.10% risk of error if the null hypothesis H 0 is rejected on the basis of the sample (or stronger) evidence, assuming that H 0 is true. (e) None of the above. 2. Why are confidence intervals used to make inferences? (a) There is almost no chance that estimates such as x and p are correct unless we combine them with margins of error. (b) Confidence interval formulas are valid regardless of sample size. (c) The values of population parameters µ and p vary, depending on sample measurements. (d) Using confidence intervals is the only way to answer specific questions about parameters. (e) Using confidence intervals is the only way to answer specific questions about statistics. 1

Questions 3 7. A recent poll of UI students conducted by the Daily Iowan newspaper found that 432 out of 642 respondents disagreed with U.S. policy in Iraq, while the remainder agreed with U.S policy in Iraq. Is it true that the fraction of all UI students who agree with U.S. policy in Iraq differs from one-third? Use 10% significance. (Use at least 4 decimal places accuracy in calculations.) 3. Define the parameter. (a) p = proportion of UI students surveyed who agree with U.S. policy in Iraq (b) p = proportion of UI students surveyed who agree with U.S. policy in Iraq (c) µ = average number of UI students who agree with U.S. policy in Iraq (d) µ = percentage of UI students who agree with U.S. policy in Iraq (e) None of the above 4. Define hypotheses. (a) H A : p < 1/3 H 0 : p 1/3 (b) H A : µ 1/3 H 0 : µ = 1/3 (c) H A : p 1/3 H 0 : p = 1/3 (d) H A : p = 1/3 H 0 : p 1/3 (e) H A : p = 0.6729 H 0 : p 0.6729 5. Find the P -value. (a) 0.3333 (b) 0.3707 (c) 0.6293 (d) 0.6667 (e) None of the answers is correct to the fourth decimal place. 6. Decide. (a) Reject H 0 since P -value 0.10 = α (b) Reject H 0 since P -value > 0.10 = α (c) Fail to Reject H 0 since P -value 0.10 = α (d) Fail to Reject H 0 since P -value > 0.10 = α (e) None of the above 7. Interpret. (a) There is not sufficient evidence to show that the fraction of all UI students who agree with U.S. policy in Iraq is one-third. (b) There is not sufficient evidence to show that more than one-third of all UI students agree with U.S. policy in Iraq. (c) There is sufficient evidence to show that the fraction of all UI students who agree with U.S. policy in Iraq differs from one-third. (d) There is not sufficient evidence to show that the fraction of all UI students who agree with U.S. policy in Iraq differs from one-third. (e) None of the answers is correct. (more space next page) 2

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Questions 8 11. A hypothesis test H A : µ > 36 H 0 : µ 36 based on a sample of 26 measurements resulted in the statistics x = 34.3 and t = 1.526. Use a significance level α = 0.10 for the test. Consider the following MINITAB steps and output: Calc > Probability Distributions > t > (Select Cumulative probability ) > (Input Degrees of freedom: 25) > (Input constant 1.526) > OK Cumulative Distribution Function Student s t distribution with 25 DF x P( X <= x ) -1.526 0.0697814 8. Find the P -value for the hypothesis test, rounded to 2 decimal places. (a) 0.07 (b) 0.93 (c) 0.14 (d) 0.86 (e) None of the answers is correct (Tip: You used similar MINITAB steps in the Week 1 Discussion Worksheet. Recall that the notation P(X<=x) indicates that MINITAB shades the t-curve in which direction?) 9. Decide. (a) Reject H 0 since P -value > α (b) Fail to Reject H 0 since P -value > α (c) Reject H 0 since P -value α (d) Fail to Reject H 0 since P -value α 10. Which of the following statements most accurately describes the summarized sample evidence in this problem? (a) There is some evidence against the null hypothesis H 0, but not enough to reject H 0. (b) There is sufficient evidence against H 0 to reject H 0. (c) There is no sample evidence against H 0. (d) There is no way to determine whether there is any sample evidence against H 0. 11. How would you describe the risk of drawing an incorrect conclusion from the data if H 0 is rejected? (a) Not risky since the data support H A. (b) Risky since the data support H A. (c) Not risky since the data don t support H A. (d) Risky since the data don t support H A. (e) The risk is unknown since only a sample is measured, not the entire population. (more space next page) 4

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Questions 12 17. Money worries in the United States start at an early age. In a survey, 660 children (330 boys and 330 girls) ages 6 to 14 were asked the question Do you worry about having enough money? Of the boys surveyed, 201 answered yes. Of the girls surveyed, 152 answered no. At a 1% significance level, is the proportion of boys who worry about having enough money greater than the corresponding proportion of girls? A colleague has run MINITAB for you in reference to this question, with output as shown below. Test and CI for Two Proportions Sample X N Sample p 1 201 330 0.609091 2 152 330 0.460606 Difference = p (1) - p (2) Estimate for difference: 0.148485 95% lower bound for difference: 0.0853262 Test for difference = 0 (vs > 0): Z = 3.82 P-Value = 0.000 Fisher s exact test: P-Value = 0.000 Test and CI for Two Proportions Sample X N Sample p 1 201 330 0.609091 2 152 330 0.460606 Difference = p (1) - p (2) Estimate for difference: 0.148485 95% CI for difference: (0.0732267, 0.223743) Test for difference = 0 (vs not = 0): Z = 3.82 P-Value = 0.000 Fisher s exact test: P-Value = 0.000 (more space next page) 6

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12. Define parameters for this problem. (a) p 1 = proportion of boys who worry about money p 2 = proportion of girls who worry about money (b) µ 1 = average number of boys who worry about money µ 2 = average number of girls who worry about money (c) p 1 = average number of boys who worry about money p 2 = average number of girls who worry about money (d) p 1 = proportion of children ages 6 to 14 who are boys p 2 = proportion of children ages 6 to 14 who are girls 13. Define hypotheses. (a) H A : µ 1 > µ 2 (b) H A : p 1 < p 2 (c) H A : p 1 p 2 (d) H A : p 1 > p 2 H 0 : µ 1 µ 2 H 0 : p 1 p 2 H 0 : p 1 = p 2 H 0 : p 1 p 2 (e) None of the definitions is correct. 14. Find the P -value. (a) 0.000 (b) 0.035 (c) 0.070 (d) 1.000 (e) 1.035 15. What s the decision? (a) Reject H 0 (b) Fail to Reject H 0 (c) Impossible to determine based on the available information 16. What s the interpretation? (a) There is sufficient evidence to show that the percentage of boys who worry about money differs from the percentage of girls who worry about money. (b) There is not sufficient evidence to show that the percentage of boys who worry about money differs from the percentage of girls who worry about money. (c) There is sufficient evidence to show that the percentage of boys who worry about money is greater than the percentage of girls who worry about money. (d) There is not sufficient evidence to show that the percentage of boys who worry about money is greater than the percentage of girls who worry about money. (e) None of the answers is correct. 17. Interpret a 95% confidence interval for this problem. We are 95% confident that (a) between 7.3% fewer and 22.4% more boys than girls worry about money. (b) between 4.6% and 9.8% more boys than girls worry about money. (c) between 7.3% and 22.4% fewer boys than girls worry about money. (d) between 0.6% fewer and 14.5% more boys than girls worry about money. (e) between 7.3% and 22.4% more boys than girls worry about money. 8

Answers 1. d 2. a 3. e p = proportion of all UI students who agree with U.S. policy in Iraq 4. c 5. e P -value = 0.7414 6. d 7. d 8. b 9. b 10. c The summary sample evidence is x = 34.3. The null hypothesis is H 0 : µ 36 Comparing these, there is NO summary sample evidence against H 0. In fact, x actually supports H 0 since it s less than 36: x = 34.3 < 36 11. d The risk is 93%. That s risky! 12. a 13. d 14. b The boys data and girls data were entered into MINITAB inconsistently (such that yes for boys means no for girls.) This is such a serious mistake that MINITAB output for this problem is useless. So these calculations must be done by hand instead. 15. b 16. d 17. d 9

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