Assume the following about a 6-year project: Mean Std Dev Sales Growth 4% 3%

COGS/Sales. 50% 10% Fixed Cost $3,000 NWC as % of Sales 10% Tax Rate 25% Cost of Capital 12% Sales for the first year will be $10,500, but the sales in subsequent years are uncertain. Estimated sales growth is assumed to be normally distributed with a mean of 4% and a standard deviation of 3%. Costs of goods Sold (COGS) each year are uncertain as well but are assumed to be a percentage of sales. COGS as a percentage of sales is assumed to be distributed normally with a mean of 50% and a standard deviation of 10%. Fixed costs will be $3,000 per year. The project will require an initial investment in net working capital of $500. Beginning at year 1, NWC is 10% of sales. The entire NWC investment (across all years) will be recovered at the end of the project. To operate the project, a new piece of equipment must be purchased at a cost of $12,000. The equipment will be depreciated using the straight-line approach (depreciate over 6 years, no salvage value). The equipment will have 0 salvage value by the end of the project. The cost of capital for this project is 12%. Tasks: a) Calculate the NPV of the project while capturing the uncertainty in sales and costs of goods sold. b) Simulate the NPV 500 times using a data table.

c) Graph the frequency distribution of the NPV estimates; calculate the mean NPV and standard deviation. d) What is the probability that the NPV is positive? What is your recommendation for the project? Why?

Problem 1 (60 points): Assume the following about a 6-year project: Mean 4% 50% Std Dev 3% 10% Sales Growth COGS/Sales Fixed Cost $3,000 NWC as % of Sales 10% Tax Rate 25% Cost of Capital 12% Sales for the first year will be $10,500, but the sales in subsequent years are uncertain. Estimated sales growth is assumed to be normally distributed with a mean of 4% and a standard deviation of 3%. Costs of goods Sold (COGS) each year are uncertain as well but are assumed to be a percentage of sales. COGS as a percentage of sales is assumed to be distributed normally with a mean of 50% and a standard deviation of 10%. Fixed costs will be $3,000 per year. The project will require an initial investment in net working capital of $500. Beginning at year 1, NWC is 10% of sales. The entire NWC investment (across all years) will be recovered at the end of the project. To operate the project, a new piece of equipment must be purchased at a cost of $12,000. The equipment will be depreciated using the straight-line approach (depreciate over 6 years, no salvage value). The equipment will have o salvage value by the end of the project. The cost of capital for this project is 12%. Tasks: a) Calculate the NPV of the project while capturing the uncertainty in sales and costs of goods sold. b) Simulate the NPV 500 times using a data table. c) Graph the frequency distribution of the NPV estimates; calculate the mean NPV and standard deviation. d) What is the probability that the NPV is positive? What is your recommendation for the project? Why? Problem 1 (60 points): Assume the following about a 6-year project: Mean 4% 50% Std Dev 3% 10% Sales Growth COGS/Sales Fixed Cost $3,000 NWC as % of Sales 10% Tax Rate 25% Cost of Capital 12% Sales for the first year will be $10,500, but the sales in subsequent years are uncertain. Estimated sales growth is assumed to be normally distributed with a mean of 4% and a standard deviation of 3%. Costs of goods Sold (COGS) each year are uncertain as well but are assumed to be a percentage of sales. COGS as a percentage of sales is assumed to be distributed normally with a mean of 50% and a standard deviation of 10%. Fixed costs will be $3,000 per year. The project will require an initial investment in net working capital of $500. Beginning at year 1, NWC is 10% of sales. The entire NWC investment (across all years) will be recovered at the end of the project. To operate the project, a new piece of equipment must be purchased at a cost of $12,000. The equipment will be depreciated using the straight-line approach (depreciate over 6 years, no salvage value). The equipment will have o salvage value by the end of the project. The cost of capital for this project is 12%. Tasks: a) Calculate the NPV of the project while capturing the uncertainty in sales and costs of goods sold. b) Simulate the NPV 500 times using a data table. c) Graph the frequency distribution of the NPV estimates; calculate the mean NPV and standard deviation. d) What is the probability that the NPV is positive? What is your recommendation for the project? Why