Question
Net Present Value Method, Internal Rate of Return Method, and Analysis for a Service Company The management of Advanced Alternative Power Inc. is considering two
Net Present Value Method, Internal Rate of Return Method, and Analysis for a Service Company
The management of Advanced Alternative Power Inc. is considering two capital investment projects. The estimated net cash flows from each project are as follows:
Year | Wind Turbines | Biofuel Equipment | ||
1 | $390,000 | $820,000 | ||
2 | 390,000 | 820,000 | ||
3 | 390,000 | 820,000 | ||
4 | 390,000 | 820,000 |
The wind turbines require an investment of $1,009,710, while the biofuel equipment requires an investment of $2,341,100. No residual value is expected from either project.
Present Value of an Annuity of $1 at Compound Interest | |||||
Year | 6% | 10% | 12% | 15% | 20% |
1 | 0.943 | 0.909 | 0.893 | 0.870 | 0.833 |
2 | 1.833 | 1.736 | 1.690 | 1.626 | 1.528 |
3 | 2.673 | 2.487 | 2.402 | 2.283 | 2.106 |
4 | 3.465 | 3.170 | 3.037 | 2.855 | 2.589 |
5 | 4.212 | 3.791 | 3.605 | 3.353 | 2.991 |
6 | 4.917 | 4.355 | 4.111 | 3.785 | 3.326 |
7 | 5.582 | 4.868 | 4.564 | 4.160 | 3.605 |
8 | 6.210 | 5.335 | 4.968 | 4.487 | 3.837 |
9 | 6.802 | 5.759 | 5.328 | 4.772 | 4.031 |
10 | 7.360 | 6.145 | 5.650 | 5.019 | 4.192 |
Required:
1a. Compute the net present value for each project. Use a rate of 10% and the present value of an annuity of $1 in the table above. If required, use the minus sign to indicate a negative net present value. If required, round to the nearest whole dollar.
Wind Turbines | Biofuel Equipment | |
Present value of annual net cash flows | $fill in the blank 1 | $fill in the blank 2 |
Less amount to be invested | fill in the blank 3 | fill in the blank 4 |
Net present value | $fill in the blank 5 | $fill in the blank 6 |
1b. Compute a present value index for each project. If required, round your answers to two decimal places.
Present Value Index | |
Wind Turbines | fill in the blank 7 |
Biofuel Equipment | fill in the blank 8 |
2. Determine the internal rate of return for each project by (a) computing a present value factor for an annuity of $1 and (b) using the present value of an annuity of $1 in the table above. If required, round your present value factor answers to three decimal places and internal rate of return to the nearest whole percent.
Wind Turbines | Biofuel Equipment | |||
Present value factor for an annuity of $1 | fill in the blank 9 | fill in the blank 10 | ||
Internal rate of return | fill in the blank 11 | % | fill in the blank 12 | % |
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