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In: Statistics and Probability

A tire manufacturer produces tires that have a mean life of at least 30000 miles when...

A tire manufacturer produces tires that have a mean life of at least 30000 miles when the production process is working properly. The operations manager stops the production process if there is evidence that the mean tire life is below 30000 miles. The testable hypotheses in this situation are ?0:?=30000 H 0 : μ = 30000 vs ??:?<30000 H A : μ < 30000 .

1. Identify the consequences of making a Type I error. A. The manager does not stop production when it is necessary. B. The manager does not stop production when it is not necessary. C. The manager stops production when it is not necessary. D. The manager stops production when it is necessary.

2. Identify the consequences of making a Type II error. A. The manager does not stop production when it is not necessary. B. The manager stops production when it is not necessary. C. The manager stops production when it is necessary. D. The manager does not stop production when it is necessary. To monitor the production process, the operations manager takes a random sample of 15 tires each week and subjects them to destructive testing. They calculate the mean life of the tires in the sample, and if it is less than 28500, they will stop production and recalibrate the machines. They know based on past experience that the standard deviation of the tire life is 2000 miles.

3. What is the probability that the manager will make a Type I error using this decision rule? Round your answer to four decimal places.

4. Using this decision rule, what is the power of the test if the actual mean life of the tires is 28600 miles? That is, what is the probability they will reject ?0 H 0 when the actual average life of the tires is 28600 miles? Round your answer to four decimal places.

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orchestra answered 1 year ago
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