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27 November, 02:53

An engineer has designed a valve that will regulate water pressure on an automobile engine. The valve was tested on 140 engines and the mean pressure was 6.9 pounds/square inch (psi). Assume the population standard deviation is 0.7. The engineer designed the valve such that it would produce a mean pressure of 6.8 psi. It is believed that the valve does not perform to the specifications. A level of significance of 0.05 will be used. Find the value of the test statistic. Round your answer to two decimal places.

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  1. 27 November, 03:24
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    Step-by-step explanation:

    We would set up the hypothesis test. This is a test of a single population mean since we are dealing with mean

    For the null hypothesis,

    µ = 6.8 psi

    For the alternative hypothesis,

    µ ≠ 6.8

    This is a 2 tailed test

    Since the population standard deviation is given, z score would be determined from the normal distribution table. The formula is

    z = (x - µ) / (σ/√n)

    Where

    x = sample mean

    µ = population mean

    σ = population standard deviation

    n = number of samples

    From the information given,

    µ = 6.8

    x = 6.9

    σ = 0.7

    n = 140

    z = (6.9 - 6.8) / (0.7/√140) = 0.17

    Therefore, the value of the test statistic us 0.17
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