Reference no: EM13662926

Question 1:

A two-tailed test is conducted at the 0.10 significance level. What is the P-value required to reject the null hypothesis? 
A. Greater than or equal to .010 
B. Greater than or equal to 0.05 
C. Less than or equal to 0.10 
D. Less than or equal to 0.05

Question 2:

A consumer group claims that the mean running time for a certain type of flashlight battery is not the same as the manufacturer's claims. Determine the null and alternative hypotheses for the test described. 

A. 
H0: µ = Manufacturer's claims Ha: µ < Manufacturer's claims 

B. 
H0: µ = Manufacturer's claims Ha: µ ¹ Manufacturer's claims 

C. 
H0: µ = Manufacturer's claims Ha: µ > Manufacturer's claims 

D. 
H0: µ ¹ Manufacturer's claims Ha: µ = Manufacturer's claims

Question 3:

A nationwide study of American homeowners revealed that 65% have one or more lawn mowers. A lawn equipment manufacturer, located in Omaha, feels the estimate is too low for households in Omaha. Find the P-value for a test of the claim that the proportion with lawn mowers in Omaha is higher than 65%. Among 497 randomly selected homes in Omaha, 340 had one or more lawn mowers. Use Table 5.1 to find the best answer. 
A. 0.0559 
B. 0.1118 
C. 0.0252 
D. 0.0505

Question 4:

A long-distance telephone company claims that the mean duration of long-distance telephone calls originating in one town was greater than 9.4 minutes, which is the average for the state. Determine the conclusion of the hypothesis test assuming that the results of the sampling do not lead to rejection of the null hypothesis. 
A. Conclusion: Support the claim that the mean is less than 9.4 minutes. 
B. Conclusion: Support the claim that the mean is greater than 9.4 minutes. 
C. Conclusion: Support the claim that the mean is equal to 9.4 minutes. 
D. Conclusion: Do not support the claim that the mean is greater than 9.4 minutes. 

Question 5:

A long-distance telephone company claims that the mean duration of long-distance telephone calls originating in one town was greater than 9.4 minutes, which is the average for the state. Determine the conclusion of the hypothesis test assuming that the results of the sampling do not lead to rejection of the null hypothesis. 
A. Conclusion: Support the claim that the mean is less than 9.4 minutes. 
B. Conclusion: Support the claim that the mean is greater than 9.4 minutes. 
C. Conclusion: Support the claim that the mean is equal to 9.4 minutes. 
D. Conclusion: Do not support the claim that the mean is greater than 9.4 minutes. 

Question 6:

A researcher claims that the amounts of acetaminophen in a certain brand of cold tablets have a mean different from the 600 mg claimed by the manufacturer. Test this claim at the 0.02 level of significance. The mean acetaminophen content for a random sample of n = 41 tablets is 603.3 mg. Assume that the population standard deviation is 4.9 mg. 
A. Since the test statistic is greater than the critical z, there is sufficient evidence to accept the null hypothesis and to support the claim that the mean content of acetaminophen is 600 mg. 
B. Since the test statistic is greater than the critical z, there is sufficient evidence to reject the null hypothesis and to support the claim that the mean content of acetaminophen is not 600 mg. 
C. Since the test statistic is less than the critical z, there is sufficient evidence to reject the null hypothesis and to support the claim that the mean content of acetaminophen is not 600 mg. 
D. Since the test statistic is greater than the critical z, there is insufficient evidence to reject the null hypothesis and to support the claim that the mean content of acetaminophen is not 600 mg. 

Question 7:

A researcher wants to check the claim that convicted burglars spend an average of 18.7 months in jail. She takes a random sample of 35 such cases from court files and finds that months. Assume that the population standard deviation is 7 months. Test the null hypothesis that µ = 18.7 at the 0.05 significance level. 

A. 
Do not reject the null hypothesis and conclude that the claim that the mean is different from 18.7 months is supported. 

B. 
Do not reject the null hypothesis and conclude that the claim that the mean is different from 18.7 months cannot be supported. 

C. 
Reject the null hypothesis and conclude that the claim that the mean is different from 18.7 months is supported. 

D. 
Reject the null hypothesis and conclude that the claim that the mean is different from 18.7 months cannot be supported. 

Question 8:

A two-tailed test is conducted at the 5% significance level. What is the left tail percentile required to reject the null hypothesis? 
A. 97.5% 
B. 5% 
C. 2.5% 
D. 95% 

Question 9:

Which of the following statements is true? 

A. The p distribution cannot be used when finding a confidence interval for the population mean with a small sample anytime the population standard deviation is unknown. 
B. The t distribution can be used when finding a confidence interval for the population mean with a small sample anytime the population standard deviation is unknown. 
C. The t distribution cannot be used when finding a confidence interval for the population mean with a small sample anytime the population standard deviation is unknown. 
D. The p distribution can be used when finding a confidence interval for the population mean with a small sample anytime the population standard deviation is unknown. 

Question 10:

A 95% confidence interval for the mean of a normal population is found to be 15.6 < µ < 24.8. What is the margin of error? 

A. 4.4 
B. 4.6 
C. 4.8 
D. 5.0 
Question 11:

One hundred people are selected at random and tested for colorblindness to determine whether gender and colorblindness are independent. The following counts were observed. 

Colorblind Not Colorblind Total 
Male 7 53 60 
Female 1 39 40 
Total 8 92 100 
If gender and colorblindness are independent, find the expected values corresponding to the female combinations of gender and colorblindness. 

A. Colorblind Female 4.8; Not Colorblind Female 55.2 
B. Colorblind Female 3.2; Not Colorblind Female 36.8 
C. Colorblind Female 4.8; Not Colorblind Female 35.2 
D. Colorblind Female 3.8; Not Colorblind Female 36.2 

Question 12:

One hundred people are selected at random and tested for colorblindness to determine whether gender and colorblindness are independent. The following counts were observed. 

Colorblind Not Colorblind Total 
Male 8 52 60 
Female 2 38 40 
Total 10 90 100 
State the null and alternative hypothesis for the test associated with this data. 

A. 
H0: Colorblindness and gender are dependent characteristics. 
Ha: Colorblindness and gender are not related in any way. 

B. 
H0: Colorblindness and gender are dependent characteristics. 
Ha: Colorblindness and gender are related in some way. 

C. 
H0: Colorblindness and gender are independent characteristics. 
Ha: Colorblindness and gender are not related in any way. 

D. 
H0: Colorblindness and gender are independent characteristics. 
Ha: Colorblindness and gender are related in some way. 

Question 13:

A golfer wished to find a ball that would travel more than 180 yards when hit with his 5-iron with a club speed of 90 miles per hour. He had a golf equipment lab test a low compression ball by having a robot swing his club 7 times at the required speed. State the null and alternative hypotheses for this test. 

A. 
H0: µ = 180; Ha: µ > 180 

B. 
H0: µ > 180; Ha: µ > 180 

C. 
H0: µ < 180; Ha: µ > 180 

D. 
H0: µ = 180; Ha: µ < 180 

Question 14:

A large test statistic F tells us that the sample means __________ the data within the individual samples, which would be unlikely if the populations means really were equal (as the null hypothesis claims). 
A. differ more than 
B. differ less than 
C. are equal to 
D. do not vary with 

Question 15:

A 95% confidence interval for the mean of a normal population is found to be 15.6 < µ < 25.2. What is the margin of error? 

A. 3.9 
B. 4.8 
C. 4.9 
D. 3.7 

Question 16.

A golfer wished to find a ball that would travel more than 160 yards when hit with his 7-iron with a club speed of 90 miles per hour. He had a golf equipment lab test a low compression ball by having a robot swing his club 8 times at the required speed. State the null and alternative hypotheses for this test. 

A. 
H0: µ = 160; Ha: µ > 150 

B. 
H0: µ = 150; Ha: µ > 150 

C. 
H0: µ = 160; Ha: µ > 160 

D. 
H0: µ = 140; Ha: µ > 160 

Question 17.

One hundred people are selected at random and tested for colorblindness to determine whether gender and colorblindness are independent. The following counts were observed. 

Colorblind Not Colorblind Total 
Male 7 53 60 
Female 1 39 40 
Total 8 92 100 
State the null and alternative hypothesis for the information above. 

A. 
H0: Colorblindness and gender are dependent characteristics. 
Ha: Colorblindness and gender are related in some way. 

B. 
H0: Colorblindness and gender are independent characteristics. 
Ha: Colorblindness and gender are not related in any way. 

C. 
H0: Colorblindness and gender are dependent characteristics. 
Ha: Colorblindness and gender are not related in any way. 

D. 
H0: Colorblindness and gender are independent characteristics. 
Ha: Colorblindness and gender are related in some way. 

Question 18:

The __________ test statistic is for the one-way analysis of variance. 
A. P-Value 
B. t 
C. F 
D. p 

Question 19:

A golfer wished to find a ball that would travel more than 160 yards when hit with his 7-iron with a club speed of 90 miles per hour. He had a golf equipment lab test a low compression ball by having a robot swing his club 8 times at the required speed. 

Data from this test resulted in a sample mean of 163.2 yards with a sample standard deviation of 5.8 yards. Assuming normality, carry out a hypothesis test at the 0.05 significance level to determine whether the ball meets the golfer's requirements. Use the partial t-table below to solve this problem. 

Area in one tail 
0.025 0.05 
Area in two tails 
Degrees of 
Freedom 
n - 1 0.05 0.10 
6 2.447 1.943 
7 2.365 1.895 
8 2.306 1.860 
9 2.262 1.833 
A. 
Do not reject the null hypothesis. The data do not provide sufficient 
evidence that the average distance is greater than 160 yards. 

B. Reject the null hypothesis. The data does provide sufficient evidence that the average distance is greater than 160 yards. 
C. t= 1.2334; Critical value = 1.992 
D. Insufficient information to answer this question. 

Question 20:

A golfer wished to find a ball that would travel more than 170 yards when hit with his 6-iron with a club head speed of 90 miles per hour. He had a golf equipment lab test a low compression ball by having a robot swing his club 12 times at the required speed. State the null and alternative hypotheses for this test. 

A. 
H0: µ > 170; Ha: µ = 170 

B. 
H0: µ < 170; Ha: µ = 170 

C. 
H0: µ = 170; Ha: µ > 170 

D. 
H0: µ = 160; Ha: µ > 160 

Question 21:

Which of the following statements is true? 

A. 
The t distribution can be used when finding a confidence interval for the population mean whenever the sample size is small. 

B. The p distribution can be used when finding a confidence interval for the population mean whenever the sample size is small. 
C. The t distribution cannot be used when finding a confidence interval for the population mean whenever the sample size is small. 
D. The p distribution cannot be used when finding a confidence interval for the sample mean whenever the sample size is small. 

Question 22:

Which of the following statements is true? 

A. The t distribution cannot be used when finding a confidence interval for the population mean with a small sample whenever the sample comes from a symmetric population. 
B. The t distribution can be used when finding a confidence interval for the population mean with a small sample whenever the sample comes from a symmetric population. 
C. The p distribution can be used when finding a confidence interval for the population mean with a small sample whenever the sample comes from a symmetric population. 
D. The p distribution can be used when finding a confidence interval for the population mean with a small sample whenever the sample comes from a symmetric population.