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A researcher compares two compounds (1 and 2) used in the manufacture of car tires that...

A researcher compares two compounds (1 and 2) used in the manufacture of car tires that are designed to reduce braking distances for SUVs equipped with the tires. SUVs equipped with tires using compound 1 have a mean braking distance of 74 feet and a standard deviation of 7.8 feet. SUVs equipped with tires using compound 2 have a mean braking distance of 77 feet and a standard deviation of 7.3 feet. Suppose that a sample of 81 braking tests are performed for each compound. Using these results, test the claim that the braking distance for SUVs equipped with tires using compound 1 is shorter than the braking distance when compound 2 is used. Let μ1 be the true mean braking distance corresponding to compound 1 and μ2 be the true mean braking distance corresponding to compound 2. Use the 0.1 level of significance.

Step 1 of 4: State the null and alternative hypotheses for the test.

Step 2 of 4: Compute the value of the test statistic. Round your answer to two decimal places.

Step 3 of 4: Determine the decision rule for rejecting the null hypothesis H0H0. Round the numerical portion of your answer to two decimal places.

Reject H0 if

Step 4 of 4: Make the decision for the hypothesis test.

Reject Null Hypothesis Fail to Reject Null Hypothesis

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