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1 Capital-BudgetingTechniques Chapter 9. 2 Capital Budgeting Concepts  Capital Budgeting involves evaluation of (and decision about) projects. Which.

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Presentation on theme: "1 Capital-BudgetingTechniques Chapter 9. 2 Capital Budgeting Concepts  Capital Budgeting involves evaluation of (and decision about) projects. Which."— Presentation transcript:

1 1 Capital-BudgetingTechniques Chapter 9

2 2 Capital Budgeting Concepts  Capital Budgeting involves evaluation of (and decision about) projects. Which projects should be accepted? Here, our goal is to accept a project which maximizes the shareholder wealth. Benefits are worth more than the cost.  The Capital Budgeting is based on forecasting.  Estimate future expected cash flows.  Evaluate project based on the evaluation method.  Classification of Projects  Mutually Exclusive - accept ONE project only  Independent - accept ALL profitable projects.

3 3 Capital Budgeting Concepts  Initial Cash Outlay - amount of capital spent to get project going. Cash Flows

4 4 Capital Budgeting Concepts  Initial Cash Outlay - amount of capital spent to get project going.  If spend $10 million to build new plant then the Initial Outlay (IO) = $10 million Cash Flows CF 0 = Cash Flow time 0 = -10 million

5 5 Capital Budgeting Concepts  Initial Cash Outlay - amount of capital spent to get project going.  If spend $10 million to build new plant then the Initial Outlay (IO) = $10 million Cash Flows CF n = Sales - Costs  Annual Cash Inflows--after-tax CF  Cash inflows from the project CF 0 = Cash Flow time 0 = -10 million We will determine these in Chapter 10

6 6 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period

7 7 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

8 8 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period 0 1 2 3 4 3,500 (10,000) P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

9 9 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period 0 1 2 3 4 3,500 -6,500 3,500 (10,000) Cumulative CF P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

10 10 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period 0 1 2 3 4 3,500 -6,500 3,500 -3,000 3,500 (10,000) Cumulative CF P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

11 11 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period 0 1 2 3 4 3,500 -6,500 3,500 -3,000 3,500 +500 3,500(10,000) Cumulative CF P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

12 12 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period 0 1 2 3 4 3,500 -6,500 3,500 -3,000 3,500 +500 3,500(10,000) Payback 2.86 years Cumulative CF P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

13 13 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

14 14 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 4,60010,000(10,000)

15 15 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 5004,60010,000(10,000) Cumulative CF

16 16 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 500 -9,000 4,60010,000(10,000) Cumulative CF

17 17 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 500 -9,000 4,600 -4,400 10,000(10,000) Cumulative CF

18 18 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 500 -9,000 4,600 -4,400 10,000 +5,600 (10,000) Cumulative CF

19 19 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 500 -9,000 4,600 -4,400 10,000 +5,600 (10,000) Payback = 3.44 years Cumulative CF

20 20 Capital Budgeting Methods  Number of years needed to recover your initial outlay. Payback Period P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 0 1 2 3 4 500 -9,500 500 -9,000 4,600 -4,400 10,000 +5,600 (10,000) Payback 3.44 years Cumulative CF Evaluation: Company sets maximum acceptable payback. If Max PB = 3 years, accept project A and reject project C

21 21 Payback Method The payback method is not a good method as it does not consider the time value of money. Which project should you choose? CF0 CF1 CF2 CF3 A -100,000 90,000 9,000 1,000 B -100,000 1,000 9,000 90,000 B -100,000 1,000 9,000 90,000

22 22 Payback Method The Discounted payback method can correct this shortcoming of the payback method. To find the discounted pay back (1) Find the PV of each cash flow on the time line. (2) Find the payback using the discounted CF and NOT the CF. Example In Table 9-2

23 23 Payback Method Also, the payback method is not a good method as it does not consider the cash flows beyond the payback period.

24 24 Payback Method Also, the payback method is not a good method as it does not consider the cash flows beyond the payback period. Which project should you choose? CF0 CF1 CF2 Cf3 CF4 A -100000 90000 10000 0 0 B -100000 90000 9000 80000 1000000

25 25 Payback Method Also, the payback method is not a good method as it does not consider the cash flows beyond the payback period. Which project should you choose? CF0 CF1 CF2 Cf3 CF4 CF0 CF1 CF2 Cf3 CF4 A -100,000 90,000 10,000 0 0 B -100,000 90,000 9,000 80,000 100,0000 These two shortcomings often result in an incorrect decisions.

26 26 Capital Budgeting Methods Methods that consider time value of money and all cash flows Net Present Value: Present Value of all costs and benefits of a project.

27 27 Capital Budgeting Methods Present Value of all costs and benefits of a project. Concept is similar to Intrinsic Value of a security but subtracts cost of the project. Net Present Value NPV = PV of Inflows - Initial Outlay

28 28 Capital Budgeting Methods  Present Value of all costs and benefits of a project.  Concept is similar to Intrinsic Value of a security but subtracts of cost of project. Net Present Value NPV = PV of Inflows - Initial Outlay NPV = + + +···+ – IO CF 1 (1+ k ) CF 2 (1+ k ) 2 CF 3 (1+ k ) 3 CF n (1+ k ) n

29 29 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) k=10% P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

30 30 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 k=10% $500 (1.10) P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

31 31 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 413 k=10% $500 (1.10) 2 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

32 32 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 413 3,456 k=10% $4,600 (1.10) 3 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

33 33 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 6,830 413 3,456 k=10% $10,000 (1.10) 4 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

34 34 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 $11,154 6,830 413 3,456 k=10% P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

35 35 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 6,830 413 3,456 k=10% PV Benefits > PV Costs P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 $11,154 > $ 10,000 $11,154

36 36 Capital Budgeting Methods Net Present Value 0 1 2 3 4 500 4,60010,000(10,000) 455 6,830 413 3,456 k=10% PV Benefits > PV Costs P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 $11,154 > $ 10,000 NPV > $0 $1,154 > $0 $11,154 $1,154 = NPV

37 37 Capital Budgeting Methods Net Present Value 0 1 2 3 4 3,500(10,000) k=10% 3,500 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

38 38 Capital Budgeting Methods Net Present Value 0 1 2 3 4 3,500(10,000) k=10% 3,500 NPV = + + + – 10,000 3,500 (1+.1 ) 3,500 (1+.1) 2 3,500 (1+.1 ) 3 3,500 (1+.1 ) 4 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

39 39 Capital Budgeting Methods Net Present Value 0 1 2 3 4 3,500(10,000) k=10% 3,500 NPV = + + + – 10,000 3,500 (1+.1 ) 3,500 (1+.1) 2 3,500 (1+.1 ) 3 3,500 (1+.1 ) 4 PV of 3,500 Annuity for 4 years at 10% P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

40 40 Capital Budgeting Methods Net Present Value 0 1 2 3 4 3,500(10,000) k=10% 3,500 NPV = + + + – 10,000 3,500 (1+.1 ) 3,500 (1+.1) 2 3,500 (1+.1 ) 3 3,500 (1+.1 ) 4 = 3,500 x PVIFA 4,.10 - 10,000 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 $1,095 = 11,095 – 10,000 = $1,095

41 41 Capital Budgeting Methods  If projects are independent then accept all projects with NPV  0. NPV Decision Rules ACCEPT A & B

42 42 Capital Budgeting Methods  If projects are independent then accept all projects with NPV  0.  If projects are mutually exclusive, accept projects with higher NPV. NPV Decision Rules ACCEPT A & B ACCEPT B only

43 43 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates NPV(0%) = + + + – 10,000 3,500 (1+ 0 ) 3,500 (1+ 0) 2 3,500 (1+ 0 ) 3 3,500 (1+ 0) 4 = $4,000 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

44 44 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates NPV(5%) = + + + – 10,000 3,500 (1+.05 ) 3,500 (1+.05) 2 3,500 (1+.05 ) 3 3,500 (1+.05) 4 = $2,411 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

45 45 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates NPV(10%) = + + + – 10,000 3,500 (1+.10 ) 3,500 (1+.10) 2 3,500 (1+.10 ) 3 3,500 (1+.10) 4 = $1,095 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

46 46 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates NPV(15%) = + + + – 10,000 3,500 (1+.15 ) 3,500 (1+.15) 2 3,500 (1+.15 ) 3 3,500 (1+.15) 4 = – $7.58 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

47 47 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates NPV(20%) = + + + – 10,000 3,500 (1+.20 ) 3,500 (1+.20) 2 3,500 (1+.20 ) 3 3,500 (1+.20) 4 = – $939 P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

48 48 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates Connect the Points P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

49 49 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 NPV(0%) = + + + – 10,000 500 (1+ 0 ) 500 (1+ 0) 2 4,600 (1+ 0 ) 3 10,000 (1+ 0) 4 = $5,600

50 50 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 NPV(5%) = + + + – 10,000 500 (1+.05) 500 (1+.05) 2 4,600 (1+.05) 3 10,000 (1+.05) 4 = $3,130

51 51 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 NPV(10%) = + + + – 10,000 500 (1+.10) 500 (1+.10) 2 4,600 (1+.10) 3 10,000 (1+.10) 4 = $1.154

52 52 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 NPV(15%) = + + + – 10,000 500 (1+.15) 500 (1+.15) 2 4,600 (1+.15) 3 10,000 (1+.15) 4 = –$445

53 53 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 Connect the Points

54 54 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B Net Present Value Profile  Graphs the Net Present Value of the project with different required rates P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000

55 55 Net Present Value Profile  Compare NPV of the two projects for different required rates 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B Crossover point Project A

56 56 Net Present Value Profile  Compare NPV of the two projects for different required rates 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B Crossover point Project A For any discount rate < crossover point choose B

57 57 Net Present Value Profile  Compare NPV of the two projects for different required rates 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B Crossover point For any discount rate > crossover point choose A Project A For any discount rate < crossover point choose B

58 58 Capital Budgeting Methods Internal Rate of Return  Measures the rate of return that will make the PV of future CF equal to the initial outlay. Definition: The IRR is that discount rate at which NPV = 0 IRR is like the YTM. It is the same cocept but the term YTM is used only for bonds.

59 59 Capital Budgeting Methods Internal Rate of Return  Measures the rate of return that will make the PV of future CF equal to the initial outlay. The IRR is the discount rate at which NPV = 0 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B NPV = $0

60 60 Capital Budgeting Methods Internal Rate of Return  Measures the rate of return that will make the PV of future CF equal to the initial outlay. Or, the IRR is the discount rate at which NPV = 0 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B NPV = $0 IRR A  15% IRR B  14%

61 61 Capital Budgeting Methods Internal Rate of Return  Determine the mathematical solution for IRR

62 62 Capital Budgeting Methods Internal Rate of Return  Determine the mathematical solution for IRR 0 = NPV = + +···+ – IO CF 1 (1+ IRR ) CF 2 (1+ IRR ) 2 CF n (1+ IRR ) n

63 63 Capital Budgeting Methods Internal Rate of Return  Determine the mathematical solution for IRR 0 = NPV = + +···+ – IO CF 1 (1+ IRR ) CF 2 (1+ IRR ) 2 CF n (1+ IRR ) n IO = + +···+ CF 1 (1+ IRR ) CF 2 (1+ IRR ) 2 CF n (1+ IRR ) n Outflow = PV of Inflows

64 64 Capital Budgeting Methods Internal Rate of Return  Determine the mathematical solution for IRR 0 = NPV = + +···+ – IO CF 1 (1+ IRR ) CF 2 (1+ IRR ) 2 CF n (1+ IRR ) n IO = + +···+ CF 1 (1+ IRR ) CF 2 (1+ IRR ) 2 CF n (1+ IRR ) n Outflow = PV of Inflows Solve for Discount Rates

65 65 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

66 66 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 TRY 14% 10,000 = + + + 500 (1+.14 ) 500 (1+.14) 2 10,000 (1+.14 ) 4 4,600 (1+.14 ) 3 ? 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

67 67 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 TRY 14% 10,000 = + + + 500 (1+.14 ) 500 (1+.14) 2 10,000 (1+.14 ) 4 4,600 (1+.14 ) 3 ? 10,000 = 9,849 ? PV of Inflows too low, try lower rate 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

68 68 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 TRY 13% 10,000 = + + + 500 (1+.13 ) 500 (1+.13) 2 10,000 (1+.13 ) 4 4,600 (1+.13 ) 3 ? 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

69 69 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 TRY 13% 10,000 = + + + 500 (1+.13 ) 500 (1+.13) 2 10,000 (1+.13 ) 4 4,600 (1+.13 ) 3 ? 10,000 = 10,155 ? 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

70 70 Capital Budgeting Methods Internal Rate of Return For Project B Cannot solve for IRR directly, must use Trial & Error 10,000 = + + + 500 (1+ IRR ) 500 (1+ IRR ) 2 10,000 (1+ IRR ) 4 4,600 (1+ IRR ) 3 TRY 13% 10,000 = + + + 500 (1+.13 ) 500 (1+.13) 2 10,000 (1+.13 ) 4 4,600 (1+.13 ) 3 ? 10,000 = 10,155 ? 13% < IRR < 14% 10%5% 0 Cost of Capital NPVNPV 6,000 3,000 20%15% Project B IRR B  14%

71 71 Capital Budgeting Methods Decision Rule for Internal Rate of Return Independent Projects Accept Projects with IRR  required rate Mutually Exclusive Projects Accept project with highest IRR  required rate

72 72 Capital Budgeting Methods Profitability Index PI = PV of Inflows Initial Outlay Very Similar to Net Present Value

73 73 Capital Budgeting Methods Profitability Index PI = PV of Inflows Initial Outlay Very Similar to Net Present Value Instead of Subtracting the Initial Outlay from the PV of Inflows, the Profitability Index is the ratio of Initial Outlay to the PV of Inflows.

74 74 Capital Budgeting Methods Profitability Index PI = PV of Inflows Initial Outlay Very Similar to Net Present Value Instead of Subtracting the Initial Outlay from the PV of Inflows, the Profitability Index is the ratio of Initial Outlay to the PV of Inflows. + + +···+ CF 1 (1+ k ) CF 2 (1+ k ) 2 CF 3 (1+ k ) 3 CF n (1+ k ) n PI = IO

75 75 Capital Budgeting Methods Profitability Index for Project B P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 + + + 500 (1+.1 ) 500 (1+.1) 2 4,600 (1+.1 ) 3 10,000 (1+.1 ) 4 10,000 PI =

76 76 Capital Budgeting Methods Profitability Index for Project B P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 + + + 500 (1+.1 ) 500 (1+.1) 2 4,600 (1+.1 ) 3 10,000 (1+.1 ) 4 10,000 PI = 11,154 10,000 = 1.1154

77 77 Capital Budgeting Methods Profitability Index for Project B P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 + + + 500 (1+.1 ) 500 (1+.1) 2 4,600 (1+.1 ) 3 10,000 (1+.1 ) 4 10,000 PI = 11,154 10,000 = 1.1154 Profitability Index for Project A 10,000 PI = 3,500 x PVIFA 4,.10

78 78 Capital Budgeting Methods Profitability Index for Project B P R O J E C T TimeAB 0(10,000.) (10,000.) 13,500500 23,500500 33,5004,600 43,50010,000 + + + 500 (1+.1 ) 500 (1+.1) 2 4,600 (1+.1 ) 3 10,000 (1+.1 ) 4 10,000 PI = 11,154 10,000 = 1.1154 Profitability Index for Project A 10,000 PI = 11,095 10,000 = 1.1095 3,500( ) 1.10(1+.10) 4 1.10

79 79 Capital Budgeting Methods Profitability Index Decision Rules  Independent Projects  Accept Project if PI  1  Mutually Exclusive Projects  Accept Highest PI  1 Project

80 80 Comparison of Methods Project AProject BChoose Payback< 3 years< 4 yearsA NPV$1,095$1,154B IRR14.96%13.50%A PI1.10951.1154B

81 81 Comparison of Methods  Time Value of Money  Payback - Does not adjust for timing differences (ignore Discounted Payback)  NPV, IRR and PI take into account the time value of money

82 82 Comparison of Methods  Time Value of Money  Payback - Does not adjust for timing differences  NPV, IRR and PI take into account the time value of money  Relevant Cash Flows?  NPV, IRR and PI use all Cash Flows  Payback method ignores Cash Flows that occur after the Payback Period.

83 83 Comparison of Methods  Time Value of Money  Payback - Does not adjust for timing differences  NPV, IRR and PI take into account the time value of money  Relevant Cash Flows?  NPV, IRR and PI use all Cash Flows  Payback method ignores Cash Flows that occur after the Payback Period. 0 1 2 5,000 (10,000) Project 1

84 84 Comparison of Methods  Time Value of Money  Payback - Does not adjust for timing differences  NPV, IRR and PI take into account the time value of money  Relevant Cash Flows?  NPV, IRR and PI use all Cash Flows  Payback method ignores Cash Flows that occur after the Payback Period. 0 1 2 5,000 (10,000) Project 1 0 1 2 3 5,000 (10,000) Project 2 10,000 Both Projects have Identical Payback

85 85 Comparison of Methods NPV & PI indicated accept Project B while IRR indicated that Project A should be accepted. Why? Sometimes there is a conflict between the decisions based on NPV and IRR methods. The conflict arises if there is difference in the timing of CFs or sizes of the projects (or both). The cause of the conflict is the underlying reinvestment rate assumption. Reinvestment Rate Assumptions  NPV assumes cash flows are reinvested at the required rate, k.  IRR assumes cash flows are reinvested at IRR. Reinvestment Rate of k more realistic as most projects earn approximately k (due to competition) NPV is the Better Method for project evaluation

86 86 IRR Because of its unreasonable reinvestment rate assumption, IRR method can result in bad decisions. Another problem with IRR is that if the sign of the cash flow changes more than once, there is a possibility of multiple IRR. See p 340. The problem of unreasonable assumption can be addressed by using Modified IRR

87 87 MIRR To find MIRR 1.Find the FV of all intermediate CFs using the cost of capital (the hurdle rate) as the interest rate. 2.Add all FV. 3. Find that discount rate which makes the PV of the FV equal to the PV of outflows. Drop MIRR computations.

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