We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $52, variable cost per unit is $36, and fixed costs are $750,000 per year. The tax rate is 21 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity, variable costs, and fixed costs are all accurate to within ±15 percent. |
Calculate the best-case and worst-case NPV figures. (A negative answer should be indicated by a minus sign. Do not round intermediate calculations and round your answers to 2 decimal places, e.g., 32.16.) |
Best Case:
We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $52, variable cost per unit is $36, and fixed costs are $750,000 per year. The tax rate is 21 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity, variable costs, and fixed costs are all accurate to within ±15 percent. |
Calculate the best-case and worst-case NPV figures. (A negative answer should be indicated by a minus sign. Do not round intermediate calculations and round your answers to 2 decimal places, e.g., 32.16.) |
We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $52, variable cost per unit is $36, and fixed costs are $750,000 per year. The tax rate is 21 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity, variable costs, and fixed costs are all accurate to within ±15 percent. |
Calculate the best-case and worst-case NPV figures. (A negative answer should be indicated by a minus sign. Do not round intermediate calculations and round your answers to 2 decimal places, e.g., 32.16.) |
We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $52, variable cost per unit is $36, and fixed costs are $750,000 per year. The tax rate is 21 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity, variable costs, and fixed costs are all accurate to within ±15 percent. |
Calculate the best-case and worst-case NPV figures. (A negative answer should be indicated by a minus sign. Do not round intermediate calculations and round your answers to 2 decimal places, e.g., 32.16.) |
Best Case: 6696270.81 is WRONG
Worst Case:-3369906.04 is WRONG
We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage...
We are evaluating a project that costs $788,400, has a nine-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $52, variable cost per unit is $36, and fixed costs are $750,000 per year. The tax rate is 21 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $924,000, has an eight-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 75,000 units per year. Price per unit is $46, variable cost per unit is $31, and fixed costs are $825,000 per year. The tax rate is 35 percent, and we require a 15 percent return on this project. Suppose the projections given for price, quantity, variable...
We are evaluating a project that costs $2,070,000, has a 7-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 93,400 units per year. Price per unit is $38.73, variable cost per unit is $23.85, and fixed costs are $854,000 per year. The tax rate is 23 percent and we require a return of 12 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $2,010,000, has a 7-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 89,400 units per year. Price per unit is $38.61, variable cost per unit is $23.75, and fixed costs are $848,000 per year. The tax rate is 21 percent and we require a return of 12 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $2.130,000, has a 8-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 90,600 units per year. Price per unit is $38.85, variable cost per unit is $23.95, and fixed costs are $860,000 per year. The tax rate is 25 percent and we require a return of 11 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $2,040,000, has a 7-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 89,700 units per year. Price per unit is $38.67, variable cost per unit is $23.80, and fixed costs are $851,000 per year. The tax rate is 22 percent and we require a return of 12 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $744,000, has a six-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 45,000 units per year. Price per unit is $60, variable cost per unit is $20, and fixed costs are $740,000 per year. The tax rate is 35 percent, and we require a return of 18 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $1,160,000, has a ten-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 39,000 units per year. Price per unit is $41, variable cost per unit is $20, and fixed costs are $645,000 per year. The tax rate is 35 percent, and we require a return of 20 percent on this project. Suppose the projections given for price, quantity,...
We are evaluating a project that costs $1,120,000, has a ten-year life, and has no salvage value. Assume that depreciation is straight- line to zero over the life of the project. Sales are projected at 64,000 units per year. Price per unit is $50, variable cost per unit is $25, and fixed costs are $620,000 per year. The tax rate is 35 percent, and we require a return of 12 percent on this project. Suppose the projections given for price,...
We are evaluating a project that costs $1,140,000, has a ten-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 51,000 units per year. Price per unit is $42, variable cost per unit is $20, and fixed costs are $720,000 per year. The tax rate is 35 percent, and we require a return of 18 percent on this project. Suppose the projections given for price, quantity,...