In a study of the effectiveness of airbags in cars, 11,541 occupants were observed in car...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2969 occupants...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2969 occupants not wearing seat​ belts, 32 were killed. Among 7784 occupants wearing seat​ belts, 20 were killed. Use a 0.01 significance level to test the claim that seat belts are effective in reducing fatalities. Complete parts​ (a) through​ (c) below. a. Test the claim using a hypothesis test. Consider the first sample to be the sample of occupants not wearing seat belts and the second...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2997 occupants...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2997 occupants not wearing seat​ belts, 29 were killed. Among 7657 occupants wearing seat​ belts, 13 were killed. Use a 0.050 significance level to test the claim that seat belts are effective in reducing fatalities. a. Test the claim using a hypothesis test. Consider the first sample to be the sample of occupants not wearing seat belts and the second sample to be the sample of...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2997 occupants...

A simple random sample of​ front-seat occupants involved in car crashes is obtained. Among 2997 occupants not wearing seat​ belts, 32 were killed. Among 7649 occupants wearing seat​ belts, 10 were killed. Use a 0.05 significance level to test the claim that seat belts are effective in reducing fatalities. - Identify the test statistic? - Identify the p value? - Test the claim by constructing an appropriate confidence level? - What is the conclusion base on the hypothesis test? -...

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants...

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants not wearing seat belts, 15 were killed. Among 7500 occupants wearing seat belts, 15 were killed. Use this data with 0.05 significance level to test the claim that the fatality rate is higher for those not wearing seat belts. (Write all necessary steps like Hypotheses, Test Statistic, P-value & Conclusion) Given that P(z<3.17)=0.9992.

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants...

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants not wearing seat belts, 15 were killed. Among 7500 occupants wearing seat belts, 15 were killed. Use this data with 0.05 significance level to test the claim that the fatality rate is higher for those not wearing seat belts. (Write all necessary steps like Hypotheses, Test Statistic, P-value & Conclusion) Given that   Pz<3.17=0.9992 .

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants...

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2500 occupants not wearing seat belts, 15 were killed. Among 7500occupants wearing seat belts, 15 were killed. Use this data with 0.05 significance level to test the claim that the fatality rate is higher for those not wearing seat belts. (Write all necessary steps like Hypotheses, Test Statistic, P-value & Conclusion) Given that.

9. A simple random sample of front-seat occupants involved in car crashes was obtained. Among 7,000...

9. A simple random sample of front-seat occupants involved in car crashes was obtained. Among 7,000 occupants not wearing seat belts, 18 were killed. Among 7765 occupants wearing seat belts, 16 were killed. Use a 0.05 significance level to test the claim that seat belts are effective in reducing fatalities using the critical value approach.

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2833 occupants...

A simple random sample of front-seat occupants involved in car crashes is obtained. Among 2833 occupants not wearing seat belts, 31 were killed. Among 7765 occupants wearing seat belts, 15 were killed. (a) Construct a 95% confidence interval for the difference of fatality rate between those who wear seat belts and those who don’t. (b) Based on the confidence interval in (a), can we conclude that seat belts are effective in reducing fatalities? Why?

1. A simple random sample of front seat occupants involved in car crashes is obtained. Among...

1. A simple random sample of front seat occupants involved in car crashes is obtained. Among 2823 occupants not wearing seat belts, 31 were killed. Among 7765 occupants wearing seat belts, 16 were killed. Does the data provide evidence to conclude that seat belts are effective in avoiding fatalities. Perform a hypothesis test at the 5% significance level.

among 2901 Accu prints not wearing seatbelts 28 were killed among 7743 occupants wearing seatbelt 14...

among 2901 Accu prints not wearing seatbelts 28 were killed among 7743 occupants wearing seatbelt 14 were killed use a 0.05 significance level to test the claim that seatbelt are effective in reducing fatalities complete parts a through C test the claim by conatructing an appropriate confidence interval