Appendix 15.2 Multiple Regression with Excel Managerial Report 751 1. Treating Cost/Mile as the dependent variable, develop an estimated regression with Family-Sedan and Upscale-Sedan as the independent variables. Discuss your findings. 2. Treating Value Score as the dependent variable, develop an estimated regression equation using Cost/Mile, Road-Test Score, Predicted Reliability, Family-Sedan, and Upscale-Sedan as the independent variables. 3. Delete any independent variables that are not significant from the estimated regres- sion equation developed in part 2 using a .05 level of significance. After deleting any independent variables that are not significant, develop a new estimated regression equation. 4. Suppose someone claims that "smaller cars provide better values than larger cars." For the data in this case, the Small Sedans represent the smallest type of car and the Upscale Sedans represent the largest type of car. Does your analysis support this claim? 5. Use regression analysis to develop an estimated regression equation that could be used to predict the value score given the value of the Road-Test Score. 6. Use regression analysis to develop an estimated regression equation that could be used to predict the value score given the Predicted Reliability. 7. What conclusions can you derive from your analysis? Case Problem 3 Finding the Best Car Value DATA file CarValues When trying to decide what car to buy, real value is not necessarily determined by how much you spend on the initial purchase. Instead, cars that are reliable and don't cost much to own often represent the best values. But no matter how reliable or inexpensive a car may cost to own, it must also perform well. To measure value, Consumer Reports developed a statistic referred to as a value score. The value score is based upon five-year owner costs, overall road-test scores, and predicted-reliability ratings. Five-year owner costs are based upon the expenses incurred in the first five years of ownership, including depreciation, fuel, maintenance and repairs, and so on. Using a national average of 12,000 miles per year, an average cost per mile driven is used as the measure of five-year owner costs. Road-test scores are the results of more than 50 tests and evaluations and are based on a 100-point scale, with higher scores indicating better performance, comfort, convenience, and fuel economy. The highest road- test score obtained in the tests conducted by Consumer Reports was a 99 for a Lexus LS 460L. Predicted-reliability ratings (1 = Poor, 2 = Fair, 3 = Good, 4 = Very Good, and 5 = Excellent) are based upon data from Consumer Reports Annual Auto Survey. A car with a value score of 1.0 is considered to be an "average-value" car. A car with a value score of 2.0 is considered to be twice as good a value as a car with a value score of 1.0; a car with a value score of 0.5 is considered half as good as average; and so on. The data for three sizes of cars (13 small sedans, 20 family sedans, and 21 upscale sedans), including the price ($) of each car tested, are contained in the file named CarVal- ues (Consumer Reports website, April 18, 2012). To incorporate the effect of size of car, a categorical variable with three values (small sedan, family sedan, and upscale sedan), use the following dummy variables: Family-Sedan = Upscale-Sedan [1 if the car is a Family Sedan [0 otherwise 1 if the car is an Upscale Sedan [0 otherwise

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when trying to decide what car to buy, real value is not necessarily determined by how much you spend on the initial purchase. Instead, cars that are reliable and don’t cost much to own often represent the best values. but no matter how reliable or inexpensive a car may cost to own, it must also perform well. To measure value, Consumer Reports developed a statistic referred to as a value score. The value score is based upon five-year owner costs, overall road-test scores, and predicted-reliability ratings. Five-year owner costs are based upon the expenses incurred in the first five years of ownership, including depreciation, fuel, maintenance and repairs, and so on. Using a national average of 12,000 miles per year, an average cost per mile driven is used as the measure of five-year owner costs. Road-test scores are the results of more than 50 tests and evaluations and are based on a 100-point scale, with higher scores indicating better performance, comfort, convenience, and fuel economy. The highest roadtest score obtained in the tests conducted by Consumer Reports was a 99 for a Lexus LS 460L. Predicted-reliability ratings (1 = Poor, 2 = Fair, 3 = Good, 4 = Very Good, and 5 = Excellent) are based upon data from Consumer Reports’ Annual Auto Survey. A car with a value score of 1.0 is considered to be an “average-value” car. A car with a value score of 2.0 is considered to be twice as good a value as a car with a value score of 1.0; a car with a value score of 0.5 is considered half as good as average; and so on. The data for three sizes of cars (13 small sedans, 20 family sedans, and 21 upscale sedans), including the price ($) of each car tested, are contained in the file named CarValues (Consumer Reports website, April 18, 2012). To incorporate the effect of size of car, a categorical variable with three values (small sedan, family sedan, and upscale sedan), use the following dummy variables:
Toyota Corolla (base, manual) Small Sedan 16,419 0.44 70 4 1.99
Mazda3 i Touring (manual) Small Sedan 18,895 0.50 74 5 1.94
Toyota Corolla LE Small Sedan 18,404 0.47 71 4 1.89
Mazda3 i Touring Small Sedan 19,745 0.52 70 5 1.82
Hyundai Elantra GLS Small Sedan 18,445 0.53 80 3 1.64
Nissan Sentra 2.0 SL Small Sedan 19,750 0.57 74 4 1.51
Ford Focus SE Small Sedan 19,950 0.52 68 2 1.30
Ford Fiesta SE Small Sedan 16,595 0.47 61 2 1.25
Volkswagen Jetta SE (2.5) Small Sedan 20,100 0.54 60 3 1.24
Volkswagen Jetta TDI Small Sedan 25,100 0.50 68 2 1.18
Chevrolet Cruze LS (1.8) Small Sedan 18,375 0.57 67 1 1.04
Chevrolet Cruze 1LT (1.4T) Small Sedan 20,530 0.60 69 1 0.91
Nissan Altima 2.5 S (4-cyl.) Family Sedan 23,970 0.59 91 4 1.75
Kia Optima LX (2.4) Family Sedan 21,885 0.58 81 4 1.73
Subaru Legacy 2.5i Premium Family Sedan 23,830 0.59 83 4 1.73
Ford Fusion Hybrid Family Sedan 32,360 0.63 84 5 1.70
Honda Accord LX-P (4-cyl.) Family Sedan 23,730 0.56 80 4 1.62
Mazda6 i Sport (4-cyl.) Family Sedan 22,035 0.58 73 4 1.60
Hyundai Sonata GLS (2.4) Family Sedan 21,800 0.56 89 3 1.58
Ford Fusion SE (4-cyl.) Family Sedan 23,625 0.57 76 4 1.55

Appendix 15.2 Multiple Regression with Excel
Managerial Report
751
1. Treating Cost/Mile as the dependent variable, develop an estimated regression with
Family-Sedan and Upscale-Sedan as the independent variables. Discuss your findings.
2. Treating Value Score as the dependent variable, develop an estimated regression
equation using Cost/Mile, Road-Test Score, Predicted Reliability, Family-Sedan,
and Upscale-Sedan as the independent variables.
3. Delete any independent variables that are not significant from the estimated regres-
sion equation developed in part 2 using a .05 level of significance. After deleting any
independent variables that are not significant, develop a new estimated regression
equation.
4. Suppose someone claims that "smaller cars provide better values than larger cars."
For the data in this case, the Small Sedans represent the smallest type of car and
the Upscale Sedans represent the largest type of car. Does your analysis support
this claim?
5. Use regression analysis to develop an estimated regression equation that could be
used to predict the value score given the value of the Road-Test Score.
6. Use regression analysis to develop an estimated regression equation that could be
used to predict the value score given the Predicted Reliability.
7. What conclusions can you derive from your analysis?
Transcribed Image Text:Appendix 15.2 Multiple Regression with Excel Managerial Report 751 1. Treating Cost/Mile as the dependent variable, develop an estimated regression with Family-Sedan and Upscale-Sedan as the independent variables. Discuss your findings. 2. Treating Value Score as the dependent variable, develop an estimated regression equation using Cost/Mile, Road-Test Score, Predicted Reliability, Family-Sedan, and Upscale-Sedan as the independent variables. 3. Delete any independent variables that are not significant from the estimated regres- sion equation developed in part 2 using a .05 level of significance. After deleting any independent variables that are not significant, develop a new estimated regression equation. 4. Suppose someone claims that "smaller cars provide better values than larger cars." For the data in this case, the Small Sedans represent the smallest type of car and the Upscale Sedans represent the largest type of car. Does your analysis support this claim? 5. Use regression analysis to develop an estimated regression equation that could be used to predict the value score given the value of the Road-Test Score. 6. Use regression analysis to develop an estimated regression equation that could be used to predict the value score given the Predicted Reliability. 7. What conclusions can you derive from your analysis?
Case Problem 3 Finding the Best Car Value
DATA file
CarValues
When trying to decide what car to buy, real value is not necessarily determined by how
much you spend on the initial purchase. Instead, cars that are reliable and don't cost much
to own often represent the best values. But no matter how reliable or inexpensive a car may
cost to own, it must also perform well.
To measure value, Consumer Reports developed a statistic referred to as a value
score. The value score is based upon five-year owner costs, overall road-test scores, and
predicted-reliability ratings. Five-year owner costs are based upon the expenses incurred
in the first five years of ownership, including depreciation, fuel, maintenance and repairs,
and so on. Using a national average of 12,000 miles per year, an average cost per mile
driven is used as the measure of five-year owner costs. Road-test scores are the results of
more than 50 tests and evaluations and are based on a 100-point scale, with higher scores
indicating better performance, comfort, convenience, and fuel economy. The highest road-
test score obtained in the tests conducted by Consumer Reports was a 99 for a Lexus LS
460L. Predicted-reliability ratings (1 = Poor, 2 = Fair, 3 = Good, 4 = Very Good, and
5 = Excellent) are based upon data from Consumer Reports Annual Auto Survey.
A car with a value score of 1.0 is considered to be an "average-value" car. A car
with a value score of 2.0 is considered to be twice as good a value as a car with a value
score of 1.0; a car with a value score of 0.5 is considered half as good as average; and so
on. The data for three sizes of cars (13 small sedans, 20 family sedans, and 21 upscale
sedans), including the price ($) of each car tested, are contained in the file named CarVal-
ues (Consumer Reports website, April 18, 2012). To incorporate the effect of size of car, a
categorical variable with three values (small sedan, family sedan, and upscale sedan), use
the following dummy variables:
Family-Sedan =
Upscale-Sedan
[1 if the car is a Family Sedan
[0 otherwise
1 if the car is an Upscale Sedan
[0 otherwise
Transcribed Image Text:Case Problem 3 Finding the Best Car Value DATA file CarValues When trying to decide what car to buy, real value is not necessarily determined by how much you spend on the initial purchase. Instead, cars that are reliable and don't cost much to own often represent the best values. But no matter how reliable or inexpensive a car may cost to own, it must also perform well. To measure value, Consumer Reports developed a statistic referred to as a value score. The value score is based upon five-year owner costs, overall road-test scores, and predicted-reliability ratings. Five-year owner costs are based upon the expenses incurred in the first five years of ownership, including depreciation, fuel, maintenance and repairs, and so on. Using a national average of 12,000 miles per year, an average cost per mile driven is used as the measure of five-year owner costs. Road-test scores are the results of more than 50 tests and evaluations and are based on a 100-point scale, with higher scores indicating better performance, comfort, convenience, and fuel economy. The highest road- test score obtained in the tests conducted by Consumer Reports was a 99 for a Lexus LS 460L. Predicted-reliability ratings (1 = Poor, 2 = Fair, 3 = Good, 4 = Very Good, and 5 = Excellent) are based upon data from Consumer Reports Annual Auto Survey. A car with a value score of 1.0 is considered to be an "average-value" car. A car with a value score of 2.0 is considered to be twice as good a value as a car with a value score of 1.0; a car with a value score of 0.5 is considered half as good as average; and so on. The data for three sizes of cars (13 small sedans, 20 family sedans, and 21 upscale sedans), including the price ($) of each car tested, are contained in the file named CarVal- ues (Consumer Reports website, April 18, 2012). To incorporate the effect of size of car, a categorical variable with three values (small sedan, family sedan, and upscale sedan), use the following dummy variables: Family-Sedan = Upscale-Sedan [1 if the car is a Family Sedan [0 otherwise 1 if the car is an Upscale Sedan [0 otherwise
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