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 $400,000 $840,000 2 400,000 840,000 3 400,000 840,000 4 400,000 840,000 The wind turbines require an investment of $1,035,600, while the biofuel equipment requires an investment of $2,398,200. No residual value is expected from either project. 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. Line Item Description Wind Turbines Biofuel Equipment Present value of annual net cash flows $fill in the blank 1 $fill in the blank 2 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. Project 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. Line Item Description 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 % 3. The net present value, present value index, and internal rate of return all indicate that the is/are a better financial opportunity compared to the , although both investments meet the minimum return criterion of 10%.
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 $400,000 $840,000 2 400,000 840,000 3 400,000 840,000 4 400,000 840,000 The wind turbines require an investment of $1,035,600, while the biofuel equipment requires an investment of $2,398,200. No residual value is expected from either project. 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. Line Item Description Wind Turbines Biofuel Equipment Present value of annual net cash flows $fill in the blank 1 $fill in the blank 2 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. Project 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. Line Item Description 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 % 3. The net present value, present value index, and internal rate of return all indicate that the is/are a better financial opportunity compared to the , although both investments meet the minimum return criterion of 10%.
Chapter1: Financial Statements And Business Decisions
Section: Chapter Questions
Problem 1Q
Related questions
Question
-
Question Content Area
Net present value method,internal rate of return method, and analysis for a service companyThe 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 $400,000 $840,000 2 400,000 840,000 3 400,000 840,000 4 400,000 840,000
The wind turbines require an investment of $1,035,600, while the biofuel equipment requires an investment of $2,398,200. No residual value is expected from either project.
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.
Line Item Description Wind Turbines Biofuel Equipment Present value of annual net cash flows $fill in the blank 1 $fill in the blank 2 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.
Project 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.
Line Item Description 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 % 3. The net present value, present value index, and internal rate of return all indicate that the
is/are a better financial opportunity compared to the
, although both investments meet the minimum return criterion of 10%.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 6 steps
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, accounting and related others by exploring similar questions and additional content below.Recommended textbooks for you
Accounting
Accounting
ISBN:
9781337272094
Author:
WARREN, Carl S., Reeve, James M., Duchac, Jonathan E.
Publisher:
Cengage Learning,
Accounting Information Systems
Accounting
ISBN:
9781337619202
Author:
Hall, James A.
Publisher:
Cengage Learning,
Accounting
Accounting
ISBN:
9781337272094
Author:
WARREN, Carl S., Reeve, James M., Duchac, Jonathan E.
Publisher:
Cengage Learning,
Accounting Information Systems
Accounting
ISBN:
9781337619202
Author:
Hall, James A.
Publisher:
Cengage Learning,
Horngren's Cost Accounting: A Managerial Emphasis…
Accounting
ISBN:
9780134475585
Author:
Srikant M. Datar, Madhav V. Rajan
Publisher:
PEARSON
Intermediate Accounting
Accounting
ISBN:
9781259722660
Author:
J. David Spiceland, Mark W. Nelson, Wayne M Thomas
Publisher:
McGraw-Hill Education
Financial and Managerial Accounting
Accounting
ISBN:
9781259726705
Author:
John J Wild, Ken W. Shaw, Barbara Chiappetta Fundamental Accounting Principles
Publisher:
McGraw-Hill Education