A particular manufacturer (the vendee) uses sample data sent by a vendor to investigate whether the mean length of rods produced by the vendor's production process is truly 10 mm or more, as claimed by the vendor and desired by the vendee. The production process has a standard deviation of 0.03 mm, the vendor supplies n = 200 items to the vendee, and the vendee uses α = .05 in testing Ho: μ = 10 mm against H₂: µ< 10 mm. If the true mean is really μ = 9.9975 mm, what is the chance that they will make a Type II error? What is the probability that the vendee's test will fail to reject the null hypothesis when in fact μ = 9.9975 mm? (Round to four decimal places as needed.)
A particular manufacturer (the vendee) uses sample data sent by a vendor to investigate whether the mean length of rods produced by the vendor's production process is truly 10 mm or more, as claimed by the vendor and desired by the vendee. The production process has a standard deviation of 0.03 mm, the vendor supplies n = 200 items to the vendee, and the vendee uses α = .05 in testing Ho: μ = 10 mm against H₂: µ< 10 mm. If the true mean is really μ = 9.9975 mm, what is the chance that they will make a Type II error? What is the probability that the vendee's test will fail to reject the null hypothesis when in fact μ = 9.9975 mm? (Round to four decimal places as needed.)
Glencoe Algebra 1, Student Edition, 9780079039897, 0079039898, 2018
18th Edition
ISBN:9780079039897
Author:Carter
Publisher:Carter
Chapter10: Statistics
Section10.5: Comparing Sets Of Data
Problem 14PPS
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0.1190 is wrong could you please kindly reattempt this?
Transcribed Image Text:A particular manufacturer (the vendee) uses sample data sent by a vendor to investigate whether the mean length of
rods produced by the vendor's production process is truly 10 mm or more, as claimed by the vendor and desired by the
vendee. The production process has a standard deviation of 0.03 mm, the vendor supplies n = 200 items to the vendee,
and the vendee uses α = .05 in testing Hỏ: µ = 10 mm against H₂: µ< 10 mm. If the true mean is really μ = 9.9975 mm,
what is the chance that they will make a Type Il error?
What is the probability that the vendee's test will fail to reject the null hypothesis when in fact μ = 9.9975 mm?
(Round to four decimal places as needed.)
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The answer is wrong. Please explain how they got 0.6808.
Transcribed Image Text:A particular manufacturer (the vendee) uses sample data sent by a vendor to investigate
whether the mean length of rods produced by the vendor's production process is truly 10 mm
or more, as claimed by the vendor and desired by the vendee. The production process has a
standard deviation of 0.03 mm, the vendor supplies n = 200 items to the vendee, and the
vendee uses α = .05 in testing Ho: μ = 10 mm against H₂: μ< 10 mm. If the true mean is really
μ = 9.9975 mm, what is the chance that they will make a Type II error?
What is the probability that the vendee's test will fail to reject the null hypothesis when in fact
μ = 9.9975 mm?
0.1170 (Round to four decimal places as needed.)
That's incorrect.
Correct answer: 0.6808
Your answer:
0.1170
X
Solution
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