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A lathe is set to cut bars of steel into lengths of 6 centimeters. The lathe is considered to be in perfect adjustment if the average length of the bars it cuts is 6 centimeters. A sample of 144 bars is selected randomly and measured. It is determined that the average length of the bars in the sample is 6.09 centimeters with a standard deviation of .48 centimeters.

a. Formulate the hypotheses to determine whether or not the lathe is in perfect adjustment.

b. Compute the test statistic.

c. Using the p-value approach, what is your conclusion? Let ? = .05.

How do you compute using excel?

1 Answer

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Answer: We reject H₀ ⇒ μ₀ = 6

Explanation:

We are going to evaluate in a two tail test (the lathe cut above or below 6 ?)

So:

Normal Distribution with mean μ₀ = 6 and Standard deviation σ = 0.48

1.- Hipothesis test:

Null hypothesis H₀ ⇒ μ₀ = 6

Alternative hypothesis Hₐ ⇒ μ₀ ≠ 6

To compute the z(s) we apply :

z(s) = [ ( μ - μ₀) ] / (σ√144) ⇒ z(s) = [ ( 0.09 )* 12 ]/ .48

z(s) = 2.25

Now we have to compare z(s) with z(c) and we find z(c) from tables taken into account that α = 0.05 or the confidence interval is 95 %

and as the test is a two tail one we get haft of α for each tail.

So we have to find the value of z(c) from an area value of 0.025

then z(c) = 1.96

Then we have the situation in which z(s) > z(c) 2.25 > 1.96 that means we are in the rejection zone so we reject null hypothesis

Using excel we in any cell we do as follows

In a cell we insert fucntion and look for statistics and standard normal distribution

we introduce values of z(s) and we will get the probability of z(s) = .987 that probability is out of 0.95 the requierement of the problem so we reject H₀ ⇒ μ₀ = 6

We also can use inverse normal distribution. In which case we must introduce areas (for instance 0,05) to find the z(c) and the compare

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