Chapter 6 Capital Budgeting Techniques Sept 2010 Dr. B. Asiri © 2005 Thomson/South-Western.
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Transcript of Chapter 6 Capital Budgeting Techniques Sept 2010 Dr. B. Asiri © 2005 Thomson/South-Western.
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Chapter 6
Capital BudgetingTechniques
Sept 2010Dr. B. Asiri
© 2005 Thomson/South-Western
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What is Capital Budgeting?
The process of planning and evaluating expenditures on assets whose cash flows are expected to extend beyond one yearAnalysis of potential additions to fixed assets
Long-term decisions; involve large expenditures
Very important to firm’s future
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Generating Ideas for Capital Projects
A firm’s growth and its ability to remain competitive depend on a constant flow of ideas for new products, ways to make existing products better, and ways to produce output at a lower cost.
Procedures must be established for evaluating the worth of such projects.
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Project Classifications Replacement Decisions:Replacement Decisions: whether to
purchase capital assets to take the place of existing assets to maintain or improve existing operations
Expansion Decisions:Expansion Decisions: whether to purchase capital projects and add them to existing assets to increase existing operations
Independent Projects:Independent Projects: Projects whose cash flows are not affected by decisions made about other projects
Mutually Exclusive Projects:Mutually Exclusive Projects: A set of projects where the acceptance of one project means the others cannot be accepted
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Net Cash Flows for Project S and Project L
1,5001,200
800300
400900
1,3001,500
^Net Cash Flows, CFt
r e dp AEx cte fte -Tax
Year Project S Project L0 $(3,000) $(3,000)1234
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1. Payback Period: PB
The length of time before the original cost of an investment is recovered from the expected cash flows or . . . How long it takes to get our money back.
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Payback Period for Project S
=PaybackS 2 + 300/800 = 2.375 years
Net Cash Flow
Cumulative Net CF
1,500
-1,500
800
500
1,200
-300
-3,000
-3,000
300
800
PBS0 1 2 3 4
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=PaybackL 3 + 400/1,500 = 3.3 years
Net Cash Flow
Cumulative Net CF
400
- 2,600
1,300
- 400
900
- 1,700
- 3,000
- 3,000
1,500
1,100
PBL0 1 2 3 4
Payback Period for Project L
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Strengths of Payback:Strengths of Payback:• Provides an indication of a
project’s risk and liquidity• Easy to calculate and understand
Weaknesses of Payback:Weaknesses of Payback: • Ignores TVM• Ignores CFs occurring after the
payback period
Strengths and Weaknesses of Payback:
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2. Net Present Value: NPV
Sum of the PVs of Inflows + Outflows
Cost is CF0 and is generally negative.
NPV
CF
kt
nt
t 0 1
.^
NPV
CF
kCF
t
nt
t
0
01
.^
^
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What is Project S’s NPV?k = 10%
1,500 8001,200(3,000)
1,363.64
991.74
601.05
204.90
161.33
300
0 1 2 3 4
NPVS =
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What is Project L’s NPV?
k = 10%
400 1300900(3,000)
363.64
743.80
976.71
1024.52
108.67
1500
0 1 2 3 4
NPVL =
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Rationale for the NPV method:
NPV = PV inflows - Cost= Net gain in wealth.
Accept project if NPV > 0.
Choose between mutually exclusive projects on basis of higher NPV. Which adds most value?
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Using NPV method, which project(s) should be accepted?
If Projects S and L are mutually exclusive, accept S because NPVS > NPVL.
If S & L are independent, accept both; NPV > 0.
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3. Internal Rate of Return: IRR
0 1 2 3
CF0 CF1 CF2 CF3
Cost Inflows
IRR is the discount rate that forces PV inflows = cost.
This is the same as forcing NPV = 0.
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t
nt
t
CF
kNPV
0 1.
t
nt
t
CF
IRR
0 10.
NPV:
IRR:
Calculating IRR
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What is Project S’s IRR?
NPVS = IRRS = 13.1%0
(3,000)
IRR = ?0 1 2 3 4
Sum of PVs for CF1-4 = 3,000
1,500 8001,200 300
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What is Project L’s IRR?
NPVL = IRRL = 11.4%0
IRR = ?
400 1300900 1500
0 1 2 3 4
Sum of PVs for CF1-4 = 3,000
(3,000)
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Rationale for the IRR Method:
If IRR (project’s rate of return) > the firm’s required rate of return, k, then some return is left over to boost stockholders’ returns.
Example: k = 10%,IRR = 15%. Profitable.
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IRR acceptance criteria:
If IRR > k, accept project. If IRR < k, reject project.
Decisions on Projects S and L per IRR If S and L are independent,
accept both. IRRs > k = 10%. If S and L are mutually exclusive,
accept S because IRRS > IRRL .