CHAPTER 2: THE GENERAL CONCEPTS ON ENGINEERING ECONOMICS
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A SHORT INTRODUCTION TO A CASH FLOW STATEMENT
Definition: a financial statement showing information on cash inflows and outflows occurring during the fiscal year.
It is prepared for either a enterprise wide basis or a specific investment project basis.
Other types of the financial statements are a balance sheet, an income statement, and a statement of changes in owner’s equity.
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Types of the Financial Statements
- balance sheet- income profit/loss(PL) statement- cash flow statement- statement of changes in owner’ equity
Cash flow Basis
Depositor Tong_Il Bank
10 million won(cash outflow)
11million won(cash inflow)
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Cash Flow Statement prepared with MS_Excel
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Ex 2.1]
Year Net Cash Flows
0 -300,000
1 90,000
2 90,000
3 90,000
4 90,000
5 90,000
(Unit: 000 won)
An investment project for purchasing the equipment
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- Evaluation Techniques
(1) net present value: NPV
(2) annual equivalent worth: AE
(3) net future value: NFV
(4) internal rate of return: IRR
Ex) NPV using MS-Excel
=NPV(D1,D5:D9)+D4
An investment project for purchasing the equipment
6
7
We pay interest only when we borrow money. Borrowing is a matter of obtaining purchasing power that we have not yet earned. Borrowers want money now though they currently have no valuable service to offer in exchange for it. They persuade lenders to provide them with money bow by promising to pay later. Then enter a mutually agreed-upon contract. The ratio between what is given back later and what is obtained now determined the interest rate Interest is thus the price that people pay to obtain resources now rather than wait until they have earned the purchasing power with which to buy the resources. The best way to think about interest is to view it as the premium paid to obtain current command of resources. It surely is not the price of money. Current resources are generally more valuable than future resources because having resources now usually expands one’s opportunity. Present command of resources will often enable us to do things that cause our earning capacity to increase over time, so that we will have more resources at some future date than we would otherwise have had. When we see such a prospect, we want to borrow. And we are willing to pay, if we have to, a premium-interest-as long as the interest is less than what we expect to gain as a result of borrowing
What Is Interest?
THE TYPES OF INTEREST
1. A SIMPLE INTEREST2. A COMPOUND INTEREST
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9
• A Simple Interest Calculation Interest is applied to the initial principal only
(1 )F P I P iN
( )I iP N
10
• A Compound Interest Calculation Interest is applied to the total amount
accumulated by so far.
22 (1 ) [ (1 )] (1 )(1 ) (1 )F P i i P i P i i P i
1 (1 )F P Pi P i
2 2 33 (1 ) [ (1 ) ] (1 )F P i i P i P i
(1 )NF P i
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A Simple Interest
• P = principal• i = interest rate• N = a number of
interest periods• Ex 2.2]:
P = 200milliomn won
i = 6%N = 3 years
N
Balance at the
beginning
Interest
Balance at the ending
0 200,000
1 200,000 12,000 212,000
2 212,000 12,000 224,000
3 224,000 12,000 236,000
(unit: 000 won)
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A Compounding Interest
• Ex 2.3]:P = 200 million
woni = 6%N = 3 years
(unit: 000 won)
N
Balance at the
beginning
interest
Balance at the ending
0 200,000
1 200,000 12,000 212,000
2 212,000 12,720 224,720
3 224,72013,483
.2238,203.
2
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(1 )NF P i
The Fundamental of EE
A COMPARISON OF A SIMPLE AND COMPOUND INTEREST
A white man bought Manhattan Island for $24 in 1626Given: P=$24 i=8% N=383yearsSimple: F =24(1+0.08×383) = $759.4
Compound: F =24(1+0.08)383 = $151trillion 883.1billion 14
WHO IS THE WEALTHIEST IN THE WORLD?
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Rothschild FamilyGiven:P: $600 million in 1840i: 8%N: 169 years
F=6*(1+0.08)169=$267trillion 156.7billion(the value as of 2009
Bill Gates: $57 bl in 2008Warren Buffett: $50 bl in 2008
THE FUTURE VALUE OF THE INVESTMENT PROJECT FOR THE EQUIPMENT PURCHASE
Ex 2.5]
Given: cash flows for each year, i=12%, N=5 years
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N C.F. Future Value Factor
F. V.
0 -300,000 (1+0.12)5=1.762 -528,703
1 90,000 (1+0.12)4=1.574 141,617
2 90,000 (1+0.12)3=1.405 126,444
3 90,000 (1+0.12)2=1.254 112,896
4 90,000 (1+0.12)1=1.120 100,800
5 90,000 (1+0.12)0=1.000 90,000
Total 43,054
(unit: 000 won)
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Inflation ? The value of Money
Earning Power
Purchasing Power
Earning PowerPurchasing power
Investment Opportunities
Decrease in purchasing power (inflation)Increase in purchasing power (deflation
Calculate Inflation Rate
- Calculate the inflation rate by dividing the difference between the previous and current year’s price by the previous year’s price.
The price index changes every 5 years in Korea
Ex) calculate the inflation rate with the price of a sports footwear
Given] 100,000 won in 2008 110,000 won in 2009Find] f
Sol.]
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%101.010
1011
f
Market Interest Rate (i): It is an interest rate for which the inflation and deflation effects are reflected.
Inflation_Free Interest Rate(i’): it is an interest rate for which the inflation and deflation effects are completely removed
Fisher’s Equation: The Relationship among the interest and inflation (deflation)rates
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A Type of Interest Rates Based on the Inflation Concept
(1 ) (1 ')(1 )
' '
i i f
i i f i f
Actual Cash Flow(An): It is a cash flows for which the inflation and deflation effects are reflected.
Constan Cash flow(A’n): It is a cash flows for which the inflation and deflation effects are not reflected.
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A Type of Cash Flows Based on The Inflation Effect
A.C.F
C.C.F Inflation_Free. I.R(i’)
M.I.R(i)
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A Nominal and Real Rate of Return on Investment
Ex 2.6]Given] P=100million won, I=8 million won, f=5.5%
Find] A Nominal ROR(r) and A Real ROR(r’)
Sol]
-
-
min ROR
8000.08 8%
100,000
No al
r
Re ( ') ' Equation( , ' ')
' '
0.08 ' 0.055 0.055 '
( ) 0.08 0.055' 0.0237 2.37%
(1 0.055)
al ROR r Fisher s i r i r
r r f r f
r r
r fr
i f
Ex 2.7]Given] Cash flows, inflation rate(f)=5.4%, market interest rate(i)=10%
%364.404364.0)054.01(
054.01.0)(',''
fi
fiififii
( 단위 : 천원 )
An Economic Evaluation Based on The Constant Cash Flow
n C. C. FCompounding Factor(i=4.364%)
F. V.
0 -300,000 (1+0.4364)5=1.238 -371,428
1 90,000 (1+0.4364)4=1.186 106,769
2 90,000 (1+0.4364)3=1.137 102,304
3 90,000 (1+0.4364)2=1.089 98,027
4 90,000 (1+0.4364)1=1.044 93,928
5 90,000 (1+0.4364)0=1.000 90,000
total 119,600
(unit: 000 won)
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n C. C. F Inflation Factor A. C. F.
0 -300,000 (1+0.054)0=1.000 -300,000
1 90,000 (1+0.054)1=1.054 94,860
2 90,000 (1+0.054)2=1.111 99,982
3 90,000 (1+0.054)3=1.171 105,381
4 90,000 (1+0.054)4=1.234 111,072
5 90,000 (1+0.054)5=1.301 117,07023
(unit: 000 won)
Inflation Rate=5.4%, Market Interest Rate=10%
An Economic Evaluation Based on A Actual Cash Flow
♦Step 1: convert the constant cash flows to the actual cash flows
n A. C. F. Compounding Interest Factor
F. V.
0 -300,000 (1+0.1)5=1.611 -483,153
1 94,860 (1+0.1)4=1.464 138,885
2 99,982 (1+0.1)3=1.331 133,076
3 105,381 (1+0.1)2=1.210 127,511
4 111,072 (1+0.1)1=1.100 122,179
5 117,070 (1+0.1)0=1.000 117,070
Total 155,568 24
(unit: ooo won)
An Economic Evaluation Based on A Actual Cash Flow
♦ step 2: calculate the future value of each actual cash flow using the market interest rate
Inflation Rate=5.4%, Market Interest Rate=10%
The Characteristics of the Fixed Asset: its value decreases as time goes onDefinition: decrease in the value of the fixed assetsA Depreciation Cost: the amount of decrease in the value of the fixed assets over the specific period of time
Ex: The worth of 15million won for an automobile
Dep
recia
tion
n Market value
Depreciation
0
1
2
3
4
5
15,00010,0008,0006,0005,0004,000
5,0002,0002,0001,0001,000
(unit: thousand won
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Depreciation
THE FACTORS CONSIDERED WITH DEPRECIATION
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A Depreciable LifeA Salvage ValueA Depreciation MethodCost Basis
THE CONDITIONS FOR A DEPRECIABLE ASSETS
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The fixed assets must be used longer than one year with the limited time.They must be used for production, not for sale.Their value must decreases over the time due to erosion, worn out, and so on.
Considering the three conditions, land can not be a depreciable asset.
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Revenue-Expense:(COGS)( Depreciation)(Operating)
Taxable Income
- Taxes
Net Income
Managerial Expense:
A depreciation cost decreases a taxable income and finally results in taxes
The Reason Why Considering A Depreciation Cost
- Straight-Line Depreciation Method: SL) The value of the fixed assets decreases by the same amount of money per year
Equation
- Declining-Balance Method: DB) : The value of the fixed assets decreases by the same rate of mony per year
where, I: a cost basis N: a depreciable life S: a salvage value at the end of the depreciable life
N
SID
Depreciation Methods
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Ex 2.8] Given: cost basis(I)=300 million won, depreciable life(N)=5 years,
salvage value(S)=50M won, depreciation method= SL
Sol.:
300,000 50,00050
3
I SD Mwon
N
n 도 depreciation Book value
0 300,000
1 50,000 250,000
2 50,000 200,000
3 50,000 150,000
4 50,000 100,000
5 50,000 50,000
(unit: ooo won)
Calculate the Depreciation Cost Using the SL Method
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RevenueExpenses: Cost of Goods Sold Depreciation Operating CostTaxable IncomeCorporate Taxes
Net Income
Item
Taxable Income and Taxes
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Ex 2.9]
Given] Taxable Income=350M won, Corporate Tax Rate
Sol.]Taxable Income
Tax Rate Tax
100,000 13% 13,000
250,000 25% 62,500
Total 75,500
Calculate A Corporate Tax
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- Those which do not consider interest payback period: PB accounting rate of return: ARR
- Those which consider interest net present value: NPV net future value: NFV annual equivalent worth: AE internal rate of return: IRR
Appraisal Techniques
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Definition Time to completely recover the initial investment cost with the cash flows generated by the underlying project.
Method: Point in time which equates the initial investment cost
with the accumulated cash flow 수 Mathematical Expression:
Payback Period
n
ttCFCF
10
Where t: time at which a cash flow occurs CF0: the initial investment cost incurred at time= “0” CFt: a cash flows occurring at time = “t”
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Ex 2.10]
n Cash
FlowAcc. C. F.
0 -300,000 -300,000
1 90,000 -210,000
2 90,000 -120,000
3 90,000 -30,000
4 90,000 60,000
5 90,000 150,000
(unit: 000 won)
300,000(initial cost)=90,000(C. F. for the 1st year)+ 90,000(C.F. for the 2nd year)
+ 90,000(C.F. for the 3rd year) +
PB=3~4 years = years
3
13
000,90
)000,270000,300(
Determine The Payback Period of The Project for Purchasing The Tooling
Equipment
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This technique does not consider interest like the PB This technique depends on a net(accounting) income instead of a cash flow Mathematical Expression
-After Tax Average Net IncomeARR
Initial Investment Cost
An Accounting Rate of Return
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Ex 2.11](unit: 000 won)
nNet Income for Each
Alternative
A B C D
0 -1,000 -1,000 -1,000 -1,000
1 100 0 100 200
2 900 0 200 300
3 100 300 300 500
4 -100 700 400 500
5 -400 1,300 1,250 600
ARR -8% 26% 25% 22%
The After-Tax Average Accounting Profit for Alt. “A”
The ARR for Alt. “A”
805
400100100900100000,1
- Pr 808%
1,000A
After Tax Average ofitARR
Initial Cost
Calculate The Accounting Rate of Return
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Definition: It is a technique which allows us to convert the value of all cash flows occurring at any time to the value of the cash flows at time=0 using an interest rate given and subtract the sum of the present value of the cash outflows from that of the cash inflows.
Decision Rule: if NPV(i)> 0, accept, if NPV(i)<0, reject *minimum attractive rate of rate: MARR
2 3 4 5
0 1
Cash inflow
Cash outflow
0
PW(i)
PW(i)
NPV
PW(i) > 0
Net Present Value
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Ex 2.12] Make an investment decision based on the NPV
Given] cash flows for the tooling equipment, MARR=15%
n C.F. Discounting Factor (MARR=15%)
PV
0 -300,000 (1+0.15)0=1.000 -300,000
1 90,000 (1+0.15)-1=0.870 78,260
2 90,000 (1+0.15)-2=0.756 68,052
3 90,000 (1+0.15)-3=0.658 59,176
4 90,000 (1+0.15)-4=0.572 51,458
5 90,000 (1+0.15)-5=0.497 44,746
Total 1,692
(unit: 000 won)
Since NPV(15%)=1.692M won>0 , it is desirable for a company to undertake the project.
NPV for the Tooling Equipment Project
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Given: Cash Flows MARR (i)
Find: To find the future value at the end of the project life
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Net Future Value
Ex 2.13] Make an investment decision based on the NFV
Given] Cash Flow, MARR=15%
n C.F. Compounding Factor (MARR=15%)
Future Value
0 -300,000 (1+0.15)5=2.011 -603,407
1 90,000 (1+0.15)4=1.749 157,410
2 90,000 (1+0.15)3=1.521 136,879
3 90,000 (1+0.15)2=1.323 119,025
4 90,000 (1+0.15)1=1.150 103,500
5 90,000 (1+0.15)0=1.000 90,000
Total 3,407
Since NFV(15%)=3.407M won>0 , it is economically better for a firm to undertake the project. It is noted that NPV(15%)=NFV(15%)(1+MARR)-
N=3,407(1+0.15)-5=1,694
Calculate the NFV of the Equipment Project
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(unit: 000 won)
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Def. 1: The term of ROR is defined as an interest rate earned on unpaid balance of an installment loan.
Def. 2: The term of ROR is the break-even interest rate, i*, which makes the sum of the present value of the cash inflows equal that of the cash outflows.
Mathematical Relationship:
Def. 3: The term of Return on invested capital is defined as an interest rate earned on the unrecovered balance of the initial investment cost by the end of the project life and makes the unrecovered balance zero at the end of the project life. This rate is generally coined as an internal rate of return , IRR.
* * *( ) ( ) ( )
0
PW i PW i PW i
C. I nfl ow C. Outfl ow
Rate of Return
Ex 2.14] Make an investment decision based on the IRR criteria
Given] Cash Flows, MARR=15%
Sol.]
1) Calculate the IRR using MS-Excel
3*2***
)1(
000,90
)1(
000,90
)1(
000,90000,300)(
iiiiNPV
0)1(
000,90
)1(
000,905*4*
ii
Calculate the IRR
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2) Calculate the IRR using Mathematica 7.0
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Calculate the IRR
3) Calculate the IRR using the computer program
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Calculate the IRR
The Characteristics of the Real Investment Project(a) Uncertainty (b) irreversibility (c) the flexibility of the investment time
The reason for why uncertainty exists in the investment project : all the benefits and costs happen in the future time
What-if framework Wait-see framework
A Project Evaluation and Uncertainty
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1) Sensitivity Analysis
2) Scenario analysis
3) Break-even point analysis
4) Decision tree analysis
5) Probabilistic approach
6) ROV etc.
A Variety of the Techniques Dealing with Uncertainty
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-Def.: It is the techniques which allows us to see what will happen at the final variable of interest(ex. NPV) when one of the variables changes.
Step 2
Indentify changes in the economic value by varying the value of the variable selected by a constant rate
Step 1
Evaluate the economic value using the base scenario
step 3
Take the same procedure for the remaining variable as in step 2
Step 4
Draw a graph for the varied economic values
Sensitivity Analysis
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The NPV profile for the project corresponding to the varying interest rate
A COST OF CAPITAL FOR THE PROJECT
n Cash flow
0 -300,000
1 90,000
2 90,000
3 90,000
4 90,000
5 90,000
total
IRR=15.0268%
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(unit: 000 won)
WEIGHTED AVERAGE COST OF CAPITAL (WACC)
Capital =equity + debt A cost of capital must reflect the cost of debt and equity WACC: The WACC is calculated as following
)()1)(( emd rT
Etr
T
DWACC
단 , T: total capital, D: total debt E: total equity tm: marginal tax rate, rd: cost of debt re: cost of equity
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CALCULATE THE WACC
Ex 2.14]
Given] Total capital(T)=300M won, total debt(D)=100M won,
Total equity(E)=200M won, Marginal tax rate(tm)=25%, cost of debt(rd)=6%, cost of equity(re)=12%
Sol.]
095.0
)12.0(3
2)25.01)(06.0(
3
1
)()1)((
emd rT
Etr
T
DWACC
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