Levi-Strauss Co manufactures clothing. The quality control department measures w
ID: 3370402 • Letter: L
Question
Levi-Strauss Co manufactures clothing. The quality control department measures weekly values of different suppliers for the percentage difference of waste between the layout on the computer and the actual waste when the clothing is made (called run-up). The data is in the following table, and there are some negative values because sometimes the supplier is able to layout the pattern better than the computer ("Waste run up," 2013).
Table #11.3.3: Run-ups for Different Plants Making Levi Strauss Clothing
Plant 1
Plant 2
Plant 3
Plant 4
Plant 5
1.2
16.4
12.1
11.5
24
10.1
-6
9.7
10.2
-3.7
-2
-11.6
7.4
3.8
8.2
1.5
-1.3
-2.1
8.3
9.2
-3
4
10.1
6.6
-9.3
-0.7
17
4.7
10.2
8
3.2
3.8
4.6
8.8
15.8
2.7
4.3
3.9
2.7
22.3
-3.2
10.4
3.6
5.1
3.1
-1.7
4.2
9.6
11.2
16.8
2.4
8.5
9.8
5.9
11.3
0.3
6.3
6.5
13
12.3
3.5
9
5.7
6.8
16.9
-0.8
7.1
5.1
14.5
19.4
4.3
3.4
5.2
2.8
19.7
-0.8
7.3
13
3
-3.9
7.1
42.7
7.6
0.9
3.4
1.4
70.2
1.5
0.7
3
8.5
2.4
6
1.3
2.9
Do the data show that there is a difference between some of the suppliers? Test at the 1% level
**********************************************************************
Let x1 = percentage difference of waste between the layout on the computer and the actual waste when the clothing is made (called run-up) from plant 1
Let x2 = percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 2
Let x3 = percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 3
Let x4 = percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 4
Let x5 = percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 5
Let ?1 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 1
Let ?2 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 2
Let ?3 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 3
Let ?4 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 4
Let ?5 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 5
(i) Which of the following statements correctly defines the null hypothesis HO?
A. All five mean percentage differences are equal
B. Two of the mean percentage differences are not equal
C. At least four of the mean percentage differences are equal
D. At least two of the mean percentage differences are not equal
Let ?1 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 1
Let ?2 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 2
Let ?3 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 3
Let ?4 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 4
Let ?5 = mean percentage difference of waste between the layout on the computer and the actual waste of run-up from plant 5
(ii) Which of the following statements correctly defines the alternate hypothesis HA?
A. All five mean percentage differences are equal
B. Two of the mean percentage differences are not equal
C. At least four of the mean percentage differences are equal
D. At least two of the mean percentage differences are not equal
(iii) Enter the level of significance ? used for this test: Enter in decimal form.
(iv) Calculate sample mean and sample standard deviation for Plant 1 sample Enter sample mean in decimal form to nearest hundredth, then comma, then sample standard deviation in decimal form to nearest hundredth
(v) Calculate sample mean and sample standard deviation for Plant 2 sample Enter sample mean in decimal form to nearest hundredth, then comma, then sample standard deviation in decimal form to nearest hundredth
(vi) Calculate sample mean and sample standard deviation for Plant 3 sample Enter sample mean in decimal form to nearest hundredth, then comma, then sample standard deviation in decimal form to nearest hundredth
(vii) Calculate sample mean and sample standard deviation for Plant 4 sample Enter sample mean in decimal form to nearest hundredth, then comma, then sample standard deviation in decimal form to nearest hundredth.
(viii) Calculate sample mean and sample standard deviation for Plant 5 sample Enter sample mean in decimal form to nearest hundredth, then comma, then sample standard deviation in decimal form to nearest hundredth.
(ix) Using technology, determine F ratio test statistic and corresponding p-value. Use "CTRL-click" to access link. Enter test statistic to nearest hundredth, then enter comma, then enter p-value to nearest thousandth.
(x) Comparing p-value and ? value, which is the correct decision to make for this hypothesis test?
A. Reject Ho B. Fail to reject Ho C. Accept Ho D. Accept HA
(xi) Select the statement that most correctly interprets the result of this test:
A. The result is not statistically significant at .01 level of significance. Sufficient evidence exists to support the claim that there is a difference between some of the suppliers.
B. The result is statistically significant at .01 level of significance. There is not enough evidence to support the claim that there is a difference between some of the suppliers.
C. The result is statistically significant at .01 level of significance. Sufficient evidence exists to support the claim that there is a difference between some of the suppliers.
D. The result is not statistically significant at .01 level of significance. There is not enough evidence to support the claim that there is a difference between some of the suppliers.
Plant 1
Plant 2
Plant 3
Plant 4
Plant 5
1.2
16.4
12.1
11.5
24
10.1
-6
9.7
10.2
-3.7
-2
-11.6
7.4
3.8
8.2
1.5
-1.3
-2.1
8.3
9.2
-3
4
10.1
6.6
-9.3
-0.7
17
4.7
10.2
8
3.2
3.8
4.6
8.8
15.8
2.7
4.3
3.9
2.7
22.3
-3.2
10.4
3.6
5.1
3.1
-1.7
4.2
9.6
11.2
16.8
2.4
8.5
9.8
5.9
11.3
0.3
6.3
6.5
13
12.3
3.5
9
5.7
6.8
16.9
-0.8
7.1
5.1
14.5
19.4
4.3
3.4
5.2
2.8
19.7
-0.8
7.3
13
3
-3.9
7.1
42.7
7.6
0.9
3.4
1.4
70.2
1.5
0.7
3
8.5
2.4
6
1.3
2.9
Explanation / Answer
(i) Which of the following statements correctly defines the null hypothesis HO?
A. All five mean percentage differences are equal
(ii) Which of the following statements correctly defines the alternate hypothesis HA?
D. At least two of the mean percentage differences are not equal
(iii) Enter the level of significance ? used for this test: 0.01
(iv)-(viii)
Variable Mean StDev
Plant 1 4.52 10.03
Plant 2 8.83 15.35
Plant 3 4.83 4.40
Plant 4 7.489 3.657
Plant 5 10.38 9.56
ix) F ratio=1.16 p-value=0.334
x) Since p-value=0.334>0.01 B. Fail to reject Ho
Xi) D. The result is not statistically significant at .01 level of significance. There is not enough evidence to support the claim that there is a difference between some of the suppliers.
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