5 the time value of money ©2006 thomson/south-western
TRANSCRIPT
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The Time Value Of Money
©2006 Thomson/South-Western
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Introduction
This chapter introduces the concepts and skills necessary to understand the time value of money and its applications.
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Simple and Compound Interest Simple Interest
Interest paid on the principal sum only
Compound Interest Interest paid on the principal and on
prior interest that has not been paid or withdrawn
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t to denote time
PV0 = principal amount at time 0
FVn = future value n time periods from time 0
PMT to denote cash payment
PV to denote the present value dollar amount
T to denote the tax rate
I to denote simple interest
i to denote the interest rate per period
n to denote the number of periods
Notation
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Future Value of a Cash Flow
At the end of year n for a sum compounded at interest rate i is FVn = PV0 (1 + i)n Formula
In Table I in the text, (FVIFi,n) shows the future value of $1 invested for n years at interest rate i: FVIFi,n = (1 + i)n Table I
When using the table, FVn = PV0 (FVIFi,n)
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Tables have Three Variables Interest factors (IF)
Time periods (n)
Interest rates per period (i)
If you know any two, you can solve algebraically for the third variable.
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Present Value of a Cash Flow PV0 = FVn [ ] Formula
PVIFi, n = Table II
PV0 = FVn(PVIFi, n) Table II
1 (1 + i)n
1 (1 + i)n
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Example Using Formula
What is the PV of $100 one year from now with 12 percent interest compounded monthly?
PV0 = $100 1/(1 + .12/12)(12 1)
= $100 1/(1.126825)
= $100 (.88744923)
= $ 88.74
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Example Using Table II
PV0 = FVn(PVIFi, n)
= $100(.887) From Table II
= $ 88.70
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Annuity
A series of equal dollar CFs for a specified number of periods
Ordinary annuity is where the CFs occur at the end of each period.
Annuity due is where the CFs occur at the beginning of each period.
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FVIFAi, n = Formula for IF
FVANn = PMT(FVIFAi, n) Table III
Future Value of an Ordinary Annuity
(1 + i)n – 1i
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Present Value of an Ordinary Annuity
PVIFAi, n = Formula
PVAN0 = PMT( PVIFAi, n) Table IV
1 (1 + i)n
1 –
i
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Annuity Due
Future Value of an Annuity Due FVANDn = PMT(FVIFAi, n)(1 + i) Table III
Present Value of an Annuity Due PVAND0 = PMT(PVIFAi, n)(1 + i) Table IV
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Other Important Formulas
Sinking Fund PMT = FVANn/(FVIFAi, n) Table III
Payments on a Loan PMT = PVAN0/(PVIFAi, n) Table IV
Present Value of a Perpetuity PVPER0 = PMT/i
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Interest Compounded More Frequently Than Once Per Year
Future Value
m = # of times interest is compoundedn = # of years
nmnom
0nm
i1PVFV )( +=
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Interest Compounded More Frequently Than Once Per Year
Present Value
)nmminom(1 +
FVnPV0 =
m = # of times interest is compoundedn = # of years
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Compounding and Effective Rates Rate of interest per compounding
period im = (1 + ieff)1/m – 1
Effective annual rate of interest ieff = (1 + inom/m)m – 1