principles of finance part 3. requests for permission to make copies of any part of the work should...
TRANSCRIPT
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Principles of FinancePart 3
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Requests for permission to make copies of any part of the work
should be mailed to: Thomson/South-Western
5191 Natorp Blvd.Mason, OH 45040
Chapter 9
The Time Value of Money
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Time Value of Money
The most important concept in finance
Used in nearly every financial decisionBusiness decisionsPersonal finance decisions
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Cash Flow Time Lines
CF0 CF1 CF3CF2
0 1 2 3k%
Time 0 is todayTime 1 is the end of Period 1 or the beginning of Period 2.
Graphical representations used to show timing of cash flows
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100
0 1 2 Year
k%
Time line for a $100 lump sum due at the end of Year 2
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Time line for an ordinary annuity of $100 for 3 years
100 100100
0 1 2 3k%
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Time line for uneven CFs - $50 at t = 0 and $100, $75, and $50 at the end of Years 1 through 3
100 50 75
0 1 2 3k%
-50
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The amount to which a cash flow or series of cash flows will grow over a period of time when compounded at a given interest rate.
Future Value
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FVn = FV1 = PV + INT
= PV + PV(k)
= PV (1 + k)
= $100(1 + 0.05) = $100(1.05) = $105
How much would you have at the end of one year if you deposited $100 in a bank account that pays 5 percent interest each year?
Future Value
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FV = ?
0 1 2 310%
100
Finding FV is Compounding.
What’s the FV of an initial $100 after three years if k = 10%?
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After 1 year:FV1 = PV + Interest1 = PV + PV (k)
= PV(1 + k)= $100 (1.10)= $110.00.
After 2 years:FV2 = PV(1 + k)2
= $100 (1.10)2
= $121.00.
After 3 years: FV3 = PV(1 + k)3
= 100 (1.10)3
= $133.10.
In general, FVn = PV (1 + k)n
Future Value
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Three Ways to Solve Time Value of Money Problems
Use Equations
Use Financial Calculator
Use Electronic Spreadsheet
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Solve this equation by plugging in the appropriate values:
Numerical (Equation) Solution
nn k)PV(1FV
PV = $100, k = 10%, and n =3
$133.100)$100(1.331
$100(1.10)FV 3n
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There are 4 variables. If 3 are known, the calculator will solve for the 4th.
Financial Calculator Solution
nn k)PV(1FV
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INPUTS
OUTPUT
3 10 -100 0 ? N I/YR PV PMT FV
133.10
Here’s the setup to find FV:
Clearing automatically sets everything to 0, but for safety enter PMT = 0.
Set: P/YR = 1, END
Financial Calculator Solution
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Spreadsheet Solution
Set up Problem Click on insert function and choose Financial/FV
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Spreadsheet Solution
Reference cells:
Rate = interest rate, k
Nper = number of periods interest is earned
Pmt = periodic payment
PV = present value of the amount
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Present Value
Present value is the value today of a future cash flow or series of cash flows.
Discounting is the process of finding the present value of a future cash flow or series of future cash flows; it is the reverse of compounding.
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100
0 1 2 310%
PV = ?
What is the PV of $100 due in three years if k = 10%?
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Solve FVn = PV (1 + k )n for PV:
n
nnn
k+11
FV = k+1
FV =PV
$75.13 = 0.7513$100 =
1.10
1$100 =PV
3
What is the PV of $100 duein three years if k = 10%?
This is the numerical solution to solve for PV.
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INPUTS
OUTPUT
3 10 ? 0100
N I/YR PV PMT FV
-75.13
Financial Calculator Solution
Either PV or FV must be negative. HerePV = -75.13. Invest $75.13 today, take out $100 after 3 years.
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Spreadsheet Solution
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Solve for n:
FVn = 1(1 + k)n
2 = 1(1.20)n
If sales grow at 20% per year,how long before sales double?
The numerical solution is somewhat difficult.
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INPUTS
OUTPUT
? 20 -1 0 2N I/YR PV PMT FV
3.8
GraphicalIllustration:
01 2 3 4
1
2
FV
3.8
Year
Financial Calculator Solution
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Spreadsheet Solution
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Future Value of an Annuity
Annuity: A series of payments of equal amounts at fixed intervals for a specified number of periods.
Ordinary (deferred) Annuity: An annuity whose payments occur at the end of each period.
Annuity Due: An annuity whose payments occur at the beginning of each period.
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PMT PMTPMT
0 1 2 3k%
PMT PMT
0 1 2 3k%
PMT
Ordinary Annuity Versus Annuity Due
Ordinary Annuity
Annuity Due
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100 100100
0 1 2 310%
110
121
FV = 331
What’s the FV of a 3-year Ordinary Annuity of $100 at 10%?
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Numerical Solution:
k1k)(1
PMTk)(1PMTFVAn1n
0t
tn
$331.0000)$100(3.310
0.101(1.10)
$100FVA3
3
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Financial Calculator Solution
INPUTS
OUTPUT
3 10 0 -100 ?
331.00
N I/YR PV PMT FV
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Spreadsheet Solution
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Present Value of an Annuity
PVAn = the present value of an annuity
with n payments.
Each payment is discounted, and the sum of the discounted payments is the present value of the annuity.
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248.69 = PV
100 100100
0 1 2 310%
90.91
82.64
75.13
What is the PV of this Ordinary Annuity?
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Numerical Solution
k
-1PMT
k)(1
1PMTPVA
nk)(11n
1ttn
$248.6985)$100(2.486
0.10
-1$100PVA
3(1.10)1
3
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We know the payments but no lump sum FV,so enter 0 for future value.
Financial Calculator Solution
INPUTS
OUTPUT
3 10 ? 100 0
-248.69
N I/YR PV PMT FV
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Spreadsheet Solution
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100 100
0 1 2 310%
100
Find the FV and PV if theAnnuity were an Annuity Due.
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Numerical Solution
k)(1
k
-1PMT
k)(1
1PMTPVA
nk)(111-n
0ttn
$273.5553)$100(2.735
1.10(2.48685)$100
(1.10)0.10
-1$100PVA
3(1.10)1
3
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Switch from “End” to “Begin”.
Then enter variables to find PVA3 = $273.55.
Then enter PV = 0 and press FV to findFV = $364.10.
Financial Calculator Solution
INPUTS
OUTPUT
3 10 ? 100 0
-273.55
N I/YR PV PMT FV
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Spreadsheet Solution
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250 250
0 1 2 3k = ?
- 864.80
4
250 250
You pay $864.80 for an investment that promises to pay you $250 per year for the next four years, with payments made at the end of each year. What interest rate will you earn on this investment?
Solving for Interest Rates with Annuities
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Use trial-and-error by substituting different values of k into the following equation until the right side equals $864.80.
Numerical Solution
k
-1$250$864.80
4k)(11
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Financial Calculator Solution
INPUTS
OUTPUT
4 ? -846.80 250 0
7.0
N I/YR PV PMT FV
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Spreadsheet Solution
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$100 (1 + k )3 = $125.97.
What interest rate would cause $100 to grow to $125.97 in 3 years?
INPUTS
OUTPUT
N I/YR PV PMT FV
3 ? -100 0 125.97
8%
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Spreadsheet Solution
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Uneven Cash Flow Streams
A series of cash flows in which the amount varies from one period to the next:Payment (PMT) designates constant cash
flows—that is, an annuity stream.Cash flow (CF) designates cash flows in
general, both constant cash flows and uneven cash flows.
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0
100
1
300
2
300
310%
-50
4
90.91
247.93
225.39
-34.15530.08 = PV
What is the PV of this Uneven Cash Flow Stream?
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Numerical Solution
nn2211k)(1
1CF...
k)(1
1CF
k)(1
1CFPV
4321 (1.10)
150)(
(1.10)
1300
(1.10)
1300
(1.10)
1100PV
$530.09
01)$50)(0.683(31)$300(0.75145)$300(0.82609)$100(0.909
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Financial Calculator Solution
Input in “CF” register:CF0 = 0CF1 = 100CF2 = 300CF3 = 300CF4 = -50
Enter I = 10%, then press NPV button to get NPV = 530.09. (Here NPV = PV.)
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Spreadsheet Solution
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Semiannual and Other Compounding Periods
Annual compounding is the process of determining the future value of a cash flow or series of cash flows when interest is added once a year.
Semiannual compounding is the process of determining the future value of a cash flow or series of cash flows when interest is added twice a year.
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If compounding is more frequent than once a year—for example, semi-annually, quarterly, or daily—interest is earned on interest—that is, compounded—more often.
Will the FV of a lump sum be larger or smaller if we compound more often, holding the stated k constant?
LARGER!
Why?
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Compounding Annually vs. Semi-Annually
0 1 2 310%
100133.10
Annually: FV3 = 100(1.10)3 = 133.10.
Number ofInterestPayments
1 2 30
0 1 2 35%
4 5 6
134.01100
Semi-annually: FV6/2 = 100(1.05)6 = 134.01.
Number ofInterestPayments
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kSIMPLE = Simple (Quoted) Rate used to compute the interest paid per period EAR = Effective Annual Ratethe annual rate of interest actually being earned
APR = Annual Percentage Rate = kSIMPLE periodic rate X the number of periods per year
Distinguishing Between Different Interest Rates
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1 - m
k + 1 = EAR
mSIMPLE
10.25% = 0.1025 =1.0 - 1.05 =
1.0 - 2
0.10 +1 =
2
2
How do we find EAR for a simple rate of 10%, compounded semi-annually?
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nmSIMPLE
n mk
+ 1PV = FV
$134.0110)$100(1.3402
0.10 + 1$100 = FV
32
23
FV of $100 after 3 years if interest is 10% compounded semi-annual? Quarterly?
$134.4989)$100(1.3444
0.10 + 1$100 = FV
34
43
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Fractional Time Periods
0 0.25 0.50 0.7510%
- 100
1.00
FV = ?
Example: $100 deposited in a bank at EAR = 10% for 0.75 of the year
INPUTS
OUTPUT
0.75 10 -100 0 ?
107.41
N I/YR PV PMT FV
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Spreadsheet Solution
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Amortized Loans
Amortized Loan: A loan that is repaid in equal payments over its life.
Amortization tables are widely used for home mortgages, auto loans, retirement plans, and so forth to determine how much of each payment represents principal repayment and how much represents interest. They are very important, especially to homeowners!
Financial calculators (and spreadsheets) are great for setting up amortization tables.
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Construct an amortization schedule for a $1,000, 10 percent loan that requiresthree equal annual payments.
PMT PMTPMT
0 1 2 310%
-1,000
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PMT PMTPMT
0 1 2 310%
-1000
INPUTS
OUTPUT
3 10 -1000 ? 0
402.11
N I/YR PV PMT FV
Step 1: Determine the required payments
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Step 2: Find interest charge for Year 1
INTt = Beginning balancet (k)
INT1 = 1,000(0.10) = $100.00
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Repayment = PMT - INT= $402.11 - $100.00= $302.11.
Step 3: Find repayment of principal in Year 1
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Ending bal. = Beginning bal. - Repayment
= $1,000 - $302.11 = $697.89.
Repeat these steps for the remainder of the payments (Years 2 and 3 in this case) to complete the amortization table.
Step 4: Find ending balance after Year 1
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Spreadsheet Solution
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Interest declines, which has tax implications.
Loan Amortization Table10 Percent Interest Rate
YR Beg Bal PMT INT Prin PMT End Bal
1 $1000.00 $402.11 $100.00 $302.11 $697.89
2 697.89 402.11 69.79 332.32 365.57
3 365.57 402.11 36.56 365.55 0.02
Total 1,206.33 206.35 999.98 *
* Rounding difference
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Comparison of Different Types of Interest Rates
kSIMPLE : Written into contracts, quoted by banks and brokers. Not used in
calculations or shown on time lines.
kPER : Used in calculations, shown on time lines.
If kSIMPLE has annual compounding, then kPER = kSIMPLE/1 = kSIMPLE
EAR : Used to compare returns on investments with different interest payments per year. (Used for calculations when dealing with annuities where payments don’t match interest compounding periods .)
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Simple (Quoted) Rate
kSIMPLE is stated in contracts. Periods per year (m) must also be given.
Examples:8%, compounded quarterly8%, compounded daily (365 days)
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Periodic Rate
Periodic rate = kPER = kSIMPLE/m, where m is number of compounding periods per year. m = 4 for quarterly, 12 for monthly, and 360 or 365 for daily compounding.
Examples: 8% quarterly: kPER = 8/4 = 2% 8% daily (365): kPER = 8/365 = 0.021918%
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Effective Annual Rate:The annual rate that causes PV to grow to the same FV as under multi-period compounding.
Example: 10%, compounded semiannually:EAR = (1 + kSIMPLE/m)m - 1.0
= (1.05)2 - 1.0 = 0.1025 = 10.25%
Because (1.1025)1 – 1.0 = 0.1025 = 10.25%, any PV would grow to same FV at 10.25% annually or 10% semiannually.
Effective Annual Rate
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End of Chapter 9
The Time Value of Money