Question
In: Statistics and Probability
An automobile dealer conducted a test to determine whether the time needed to complete a minor...
An automobile dealer conducted a test to determine whether the time needed to complete a minor engine tune-up depends on whether a computerized engine analyzer or an electronic analyzer is used. Because tune-up time varies among compact, intermediate, and full-sized cars, the three types of cars were used as blocks in the experiment. The data (time in minutes) obtained follow. Car Compact Intermediate Full Size Analyzer Computerized 50 55 63 Electronic 42 44 46 The following regression model can be used to analyze the data for a randomized block design involving two treatments and three blocks. E(y) = 0 + 1 x 1 + 2 x 2 + 3 x 3 Show the values of the variables below. If your answer is “zero” enter “0”. Analyzer x 1 Computerized Electronic 1 Car x 2 x 3 Compact 0 0 Intermediate 1 Full Size 0 Enter negative values as negative number. Show the estimated regression equation (to 1 decimal, if necessary). = + x 1 + x 2 + x 3 What is the value of the t test statistic for the type of analyzer (to 2 decimals)? Use ? = .05 to test for any significant differences. What is the p-value? What is your conclusion?
Solutions
orchestra answered 2 years agoRelated Solutions
An automobile dealer conducted a test to determine whether the time needed to complete a minor...
An automobile dealer conducted a test to determine whether the
time needed to complete a minor engine tune-up depends on whether a
computerized engine analyzer or an electronic analyzer is used.
Because tune-up time varies among compact, intermediate, and
full-sized cars, the three types of cars were used as blocks in the
experiment. The data (time in minutes) obtained follow.
Car
Compact
Intermediate
Full Size
Analyzer
Computerized
50
55
63
Electronic
42
44
46
The following regression model can be...
An automobile dealer conducted a test to determine if the time in minutes needed to complete...
An automobile dealer conducted a test to determine if the time
in minutes needed to complete a minor engine tune-up depends on
whether a computerized engine analyzer or an electronic analyzer is
used. Because tune-up time varies among compact, intermediate, and
full-sized cars, the three types of cars were used as blocks in the
experiment. The data obtained follow.
Analyzer
Computerized
Electronic
Car
Compact
50
41
Intermediate
55
44
Full-sized
63
47
Use α = 0.05 to test for any...
An automobile dealer conducted a test to determine if the time in minutes needed to complete...
An automobile dealer conducted a test to determine if the time
in minutes needed to complete a minor engine tune-up depends on
whether a computerized engine analyzer or an electronic analyzer is
used. Because tune-up time varies among compact, intermediate, and
full-sized cars, the three types of cars were used as blocks in the
experiment. The data obtained follow.
Analyzer
Computerized
Electronic
Car
Compact
49
41
Intermediate
56
45
Full-sized
63
46
Use α = 0.05 to test for any...
An automobile dealer conducted a test to determine if the time in minutes needed to complete...
An automobile dealer conducted a test to determine if the time
in minutes needed to complete a minor engine tune-up depends on
whether a computerized engine analyzer or an electronic analyzer is
used. Because tune-up time varies among compact, intermediate, and
full-sized cars, the three types of cars were used as blocks in the
experiment. The data obtained follow.
Analyzer
Computerized
Electronic
Car
Compact
52
43
Intermediate
55
43
Full-sized
61
46
Use α = 0.05 to test for any...
An automobile dealer conducted a test to determine if the time in minutes needed to complete...
An automobile dealer conducted a test to determine if the time
in minutes needed to complete a minor engine tune-up depends on
whether a computerized engine analyzer or an electronic analyzer is
used. Because tune-up time varies among compact, intermediate, and
full-sized cars, the three types of cars were used as blocks in the
experiment. The data obtained follow.
Analyzer
Computerized
Electronic
Car
Compact
50
42
Intermediate
57
45
Full-sized
61
45
Use α = 0.05 to test for any...
To test whether the mean time needed to mix a batch of material is the same...
To test whether the mean time needed to mix a batch of material
is the same for machines produced by three manufacturers, the
Jacobs Chemical Company obtained the following data on the time (in
minutes) needed to mix the material.
Manufacturer
1
2
3
20
30
23
26
28
22
24
33
26
22
29
25
a. Use these data to test whether the
population mean times for mixing a batch of material differ for the
three manufacturers. Use ....
To test whether the mean time needed to mix a batch of material is the same...
To test whether the mean time needed to mix a batch of material
is the same for machines produced by three manufacturers, the
Jacobs Chemical Company obtained the following data on the time (in
minutes) needed to mix the material.
Manufacturer
1
2
3
25
30
22
31
28
21
29
33
25
27
29
24
a. Use these data to test whether the
population mean times for mixing a batch of material differ for the
three manufacturers. Use alpha=...
To test whether the mean time needed to mix a batch of material is the same...
To test whether the mean time needed to mix a batch of material
is the same for machines produced by three manufacturers, the
Jacobs Chemical Company obtained the following data on the time (in
minutes) needed to mix the material.
a. Use these data to test whether the
population mean times for mixing a batch of material differ for the
three manufacturers. Use a=.05
Compute the values below (to 2 decimals, if necessary).
Sum of Squares, Treatment
Sum of Squares,...
To test whether the mean time needed to mix a batch of material is the same...
To test whether the mean time needed to mix a batch of material
is the same for machines produced by three manufacturers, a
chemical company obtained the following data on the time (in
minutes) needed to mix the material.
Manufacturer
1
2
3
21
27
21
26
27
19
24
30
22
25
32
26
Use Fisher's LSD procedure to develop a 95% confidence interval
estimate (in minutes) of the difference between the means for
manufacturer 1 and manufacturer 2....
To test whether the mean time needed to mix a batch of material is the same...
To test whether the
mean time needed to mix a batch of material is the same for
machines produced by three manufacturers, the Jacobs Chemical
Company obtained the following data on the time (in minutes) needed
to mix the material.
Manufacturer
1
2
3
21
27
24
27
24
18
24
30
24
18
24
21
Use these data to test
whether the population mean times for mixing a batch of material
differ for the three manufacturers. Use = .05....
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