(1) Consider the GASTURBINE data set and corresponding output from Minitab. Note

Question

(1) Consider the GASTURBINE data set and corresponding output from Minitab. Note that all tests should be performed at the = 0.05 level. Use the complete data set in your analysis. The first 10 observations are given for illustrative purposes. Complete parts a) through f) below.

ENGINE

SHAFTS

RPM

CPRATIO

INLET-TEMP

EXH-TEMP

AIRFLOW

POWER

HEATRATE

Traditional

1

27245

9.2

1134

602

7

1630

14622

Traditional

1

14000

12.2

950

446

15

2726

13196

Traditional

1

17384

14.8

1149

537

20

5247

11948

Traditional

1

11085

11.8

1024

478

27

6726

11289

Traditional

1

14045

13.2

1149

553

29

7726

11964

Traditional

1

6211

15.7

1172

517

176

52600

10526

Traditional

1

6210

17.4

1177

510

193

57500

10387

Traditional

1

3600

13.5

1146

503

315

89600

10592

Traditional

1

3000

15.1

1146

524

375

113700

10460

Traditional

1

3000

15

1171

525

514

164300

10086

Regression Analysis: HEATRATE versus RPM, CPRATIO, ...

The regression equation is

HEATRATE = 14314 + 0.0806 RPM - 6.8 CPRATIO - 9.51 INLET-TEMP + 14.2 EXH-TEMP

- 2.55 AIRFLOW + 0.00426 POWER

Predictor Coef SE Coef T P

Constant 14314 1112 12.87 0.000

RPM 0.08058 0.01611 5.00 0.000

CPRATIO -6.78 30.38 -0.22 0.824

INLET-TEMP -9.507 1.529 -6.22 0.000

EXH-TEMP 14.155 3.469 4.08 0.000

AIRFLOW -2.553 1.746 -1.46 0.149

POWER 0.004257 0.004217 1.01 0.317

S = 458.757 R-Sq = 92.5% R-Sq(adj) = 91.7%

Analysis of Variance

Source. DF SS MS F P

Regression 6 155269735 25878289 122.96 0.000

Residual Error 60 12627473 210458

Total 66 167897208

a) Write a first-order model in general form for the model that includes RPM, CPRATIO, INLET-TEMP, EXH-TEMP, AIRFLOW, and POWER to predict HEATRATE.

b) Write out the least squares prediction equation for the model that was fit in Minitab.

c) Calculate and give an interpretation of the coefficients based on a one-unit change in each xi.Calculate and give an interpretation of the effect on HEATRATE based on a 1-unit change in AIRFLOW together with a 200-unit change in POWER.

d) Interpret the overall model F-test. State the appropriate hypothesis test and associated numerator and denominator degrees of freedom used for this test as well as the critical value that the test statistic is compared to. State the conclusion you would make regarding the null hypothesis. Specifically, would you reject or fail to reject the null hypothesis, and what does this conclusion means about the model parameters? Does this tell us anything about the significance of the individual predictors? Why or why not?

e) Report and interpret the model R2.

f) Which predictors are significant in the model? Report the appropriate hypothesis test and formal conclusion you would make regarding RPM and CPRATIO. In your conclusion, state their p-values and test statistics. Would you suggest removing all non-significant predictors at once and refitting the model? Why or why not?

ENGINE

SHAFTS

RPM

CPRATIO

INLET-TEMP

EXH-TEMP

AIRFLOW

POWER

HEATRATE

Traditional

1

27245

9.2

1134

602

7

1630

14622

Traditional

1

14000

12.2

950

446

15

2726

13196

Traditional

1

17384

14.8

1149

537

20

5247

11948

Traditional

1

11085

11.8

1024

478

27

6726

11289

Traditional

1

14045

13.2

1149

553

29

7726

11964

Traditional

1

6211

15.7

1172

517

176

52600

10526

Traditional

1

6210

17.4

1177

510

193

57500

10387

Traditional

1

3600

13.5

1146

503

315

89600

10592

Traditional

1

3000

15.1

1146

524

375

113700

10460

Traditional

1

3000

15

1171

525

514

164300

10086

Explanation / Answer

a)

HEATRATE = b0+ b1 RPM +b2 CPRATIO + b3* INLET-TEMP + b4* EXH-TEMP + b5* AIRFLOW + b6* POWER

b)

HEATRATE = 14314 + 0.0806 RPM - 6.8 CPRATIO - 9.51 INLET-TEMP + 14.2 EXH-TEMP

- 2.55 AIRFLOW + 0.00426 POWER

c) any beta coefficient is interpreted as

if we change 1 unit in independent variable , dependent variable will change by beta coefficient of that variable

for eg , if we increase RPM by 1 unit , heat_rate will increase by 0.0806 unit

- 2.55 AIRFLOW + 0.00426 POWER

- 2.55 *1 + 0.00426 *200 = -1.698

hence heat_rate will decrease by 1.698 unit

d)

df1 = 6

df2 = 60

TS = 122.96

critical value = 2.25

since TS > critical value , we reject the null and conclude that overall model is significant.

it does not say about significance of individual variable.

e)

R^2 = 92.5%

it means that 92.5 % of variation in dependnet variable is explained by this model

f)

if p-value is less than 0.05 , the variable is significant

here RPM , INLET-TEMP ,EXh -TEMP are significant as their p-value =0.000 < 0.05

Please don't forget to rate positively if you found this response helpful.
Feel free to comment on the answer if some part is not clear or you would like to be elaborated upon.
Thanks and have a good day!

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