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Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.
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Transcript of Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.
![Page 1: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/1.jpg)
Ch. 7:Valuation
and Characteristics
of
2002, Prentice Hall, Inc.
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Characteristics of Bonds
Bonds pay fixed coupon (interest) payments at fixed intervals (usually every 6 months) and pay the par value at maturity.
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Characteristics of Bonds
Bonds pay fixed coupon (interest) payments at fixed intervals (usually every 6 months) and pay the par value at maturity.
00 1 1 2 . . .2 . . . nn
$I $I $I $I $I $I+$M$I $I $I $I $I $I+$M
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example: ATT 6 1/2 29
• par value = $1000
• coupon = 6.5% of par value per year.
= $65 per year ($32.50 every 6 months).
• maturity = 28 years (matures in 2029).
• issued by AT&T.
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example: ATT 6 1/2 29
• par value = $1000
• coupon = 6.5% of par value per year.
= $65 per year ($32.50 every 6 months).
• maturity = 28 years (matures in 2029).
• issued by AT&T.
0 1 2 … 28
$32.50 $32.50 $32.50 $32.50 $32.50 $32.50+$1000
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Types of Bonds
• Debentures - unsecured bonds.
• Subordinated debentures - unsecured “junior” debt.
• Mortgage bonds - secured bonds.
• Zeros - bonds that pay only par value at maturity; no coupons.
• Junk bonds - speculative or below-investment grade bonds; rated BB and below. High-yield bonds.
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Types of Bonds
• Eurobonds - bonds denominated in one currency and sold in another country. (Borrowing overseas).• example - suppose Disney decides to sell
$1,000 bonds in France. These are U.S. denominated bonds trading in a foreign country. Why do this?
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Types of Bonds
• Eurobonds - bonds denominated in one currency and sold in another country. (Borrowing overseas).• example - suppose Disney decides to sell
$1,000 bonds in France. These are U.S. denominated bonds trading in a foreign country. Why do this?
– If borrowing rates are lower in France,
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Types of Bonds
• Eurobonds - bonds denominated in one currency and sold in another country. (Borrowing overseas).• example - suppose Disney decides to sell
$1,000 bonds in France. These are U.S. denominated bonds trading in a foreign country. Why do this?
– If borrowing rates are lower in France,– To avoid SEC regulations.
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The Bond Indenture
• The bond contract between the firm and the trustee representing the bondholders.
• Lists all of the bond’s features:
coupon, par value, maturity, etc.
• Lists restrictive provisions which are designed to protect bondholders.
• Describes repayment provisions.
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Value
• Book Value: value of an asset as shown on a firm’s balance sheet; historical cost.
• Liquidation value: amount that could be received if an asset were sold individually.
• Market value: observed value of an asset in the marketplace; determined by supply and demand.
• Intrinsic value: economic or fair value of an asset; the present value of the asset’s expected future cash flows.
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Security Valuation
• In general, the intrinsic value of an asset = the present value of the stream of expected cash flows discounted at an appropriate required rate of return.
• Can the intrinsic value of an asset differ from its market value?
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Valuation
• Ct = cash flow to be received at time t.
• k = the investor’s required rate of return.
• V = the intrinsic value of the asset.
V = V = t = 1t = 1
nn
$Ct
(1 + k)t
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Bond Valuation
• Discount the bond’s cash flows at the investor’s required rate of return.
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Bond Valuation
• Discount the bond’s cash flows at the investor’s required rate of return.– the coupon payment stream (an
annuity).
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Bond Valuation
• Discount the bond’s cash flows at the investor’s required rate of return.– the coupon payment stream (an
annuity).
– the par value payment (a single sum).
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Bond Valuation
Vb = $It (PVIFA kb, n) + $M (PVIF kb, n)
$It $M
(1 + kb)t (1 + kb)nVVbb = + = +
nn
t = 1t = 1
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Bond Example
• Suppose our firm decides to issue 20-year bonds with a par value of $1,000 and annual coupon payments. The return on other corporate bonds of similar risk is currently 12%, so we decide to offer a 12% coupon interest rate.
• What would be a fair price for these
bonds?
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0 1 2 3 . . . 20
1000 120 120 120 . . . 120
P/YR = 1 N = 20 I%YR = 12
FV = 1,000 PMT = 120
Solve PV = -$1,000
Note: If the coupon rate = discount rate, the bond will sell for par value.
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .12, 20 ) + 1000 (PVIF .12, 20 )
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .12, 20 ) + 1000 (PVIF .12, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .12, 20 ) + 1000 (PVIF .12, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
PV = 120 1 - (1.12 )20 + 1000/ (1.12) 20 = $1000
.12
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• Suppose interest rates fall immediately after we issue the bonds. The required return on bonds of similar risk drops to 10%.
• What would happen to the bond’s intrinsic value?
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P/YR = 1
Mode = end
N = 20
I%YR = 10
PMT = 120
FV = 1000
Solve PV = -$1,170.27
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P/YR = 1
Mode = end
N = 20
I%YR = 10
PMT = 120
FV = 1000
Solve PV = -$1,170.27
Note: If the coupon rate > discount rate, the bond will sell for a premium.
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .10, 20 ) + 1000 (PVIF .10, 20 )
![Page 27: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/27.jpg)
Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .10, 20 ) + 1000 (PVIF .10, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .10, 20 ) + 1000 (PVIF .10, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
PV = 120 1 - (1.10 )20 + 1000/ (1.10) 20 = $1,170.27
.10
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• Suppose interest rates rise immediately after we issue the bonds. The required return on bonds of similar risk rises to 14%.
• What would happen to the bond’s intrinsic value?
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P/YR = 1
Mode = end
N = 20
I%YR = 14
PMT = 120
FV = 1000
Solve PV = -$867.54
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P/YR = 1
Mode = end
N = 20
I%YR = 14
PMT = 120
FV = 1000
Solve PV = -$867.54
Note: If the coupon rate < discount rate, the bond will sell for a discount.
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
![Page 33: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/33.jpg)
Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 120 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
PV = 120 1 - (1.14 )20 + 1000/ (1.14) 20 = $867.54
.14
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Suppose coupons are semi-annual
P/YR = 2
Mode = end
N = 40
I%YR = 14
PMT = 60
FV = 1000
Solve PV = -$866.68
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 60 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
![Page 37: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/37.jpg)
Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 60 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
![Page 38: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/38.jpg)
Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
PV = 60 (PVIFA .14, 20 ) + 1000 (PVIF .14, 20 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
PV = 60 1 - (1.07 )40 + 1000 / (1.07) 40 = $866.68
.07
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Yield To Maturity
• The expected rate of return on a bond.
• The rate of return investors earn on a bond if they hold it to maturity.
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Yield To Maturity
• The expected rate of return on a bond.
• The rate of return investors earn on a bond if they hold it to maturity.
$It $M
(1 + kb)t (1 + kb)nPP00 = + = +
nn
t = 1t = 1
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YTM Example
• Suppose we paid $898.90 for a $1,000 par 10% coupon bond with 8 years to maturity and semi-annual coupon payments.
• What is our yield to maturity?
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P/YR = 2
Mode = end
N = 16
PV = -898.90
PMT = 50
FV = 1000
Solve I%YR = 12%
YTM Example
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
898.90 = 50 (PVIFA k, 16 ) + 1000 (PVIF k, 16 )
![Page 44: Ch. 7: Valuation and Characteristics of 2002, Prentice Hall, Inc.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649e0b5503460f94af2f54/html5/thumbnails/44.jpg)
Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
898.90 = 50 (PVIFA k, 16 ) + 1000 (PVIF k, 16 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
898.90 = 50 (PVIFA k, 16 ) + 1000 (PVIF k, 16 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
898.90 = 50 1 - (1 + i )16 + 1000 / (1 + i) 16
i
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Bond Example
Mathematical Solution:
PV = PMT (PVIFA k, n ) + FV (PVIF k, n )
898.90 = 50 (PVIFA k, 16 ) + 1000 (PVIF k, 16 )
1
PV = PMT 1 - (1 + i)n + FV / (1 + i)n
i
1
898.90 = 50 1 - (1 + i )16 + 1000 / (1 + i) 16
i solve using trial and error
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Zero Coupon Bonds
• No coupon interest payments.
• The bond holder’s return is determined entirely by the price discount.
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Zero Example
• Suppose you pay $508 for a zero coupon bond that has 10 years left to maturity.
• What is your yield to maturity?
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Zero Example
• Suppose you pay $508 for a zero coupon bond that has 10 years left to maturity.
• What is your yield to maturity?
0 100 10
-$508 $1000-$508 $1000
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Zero Example
P/YR = 1
Mode = End
N = 10
PV = -508
FV = 1000
Solve: I%YR = 7%
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Mathematical Solution:
PV = FV (PVIF i, n )
508 = 1000 (PVIF i, 10 )
.508 = (PVIF i, 10 ) [use PVIF table]
PV = FV /(1 + i) 10
508 = 1000 /(1 + i)10
1.9685 = (1 + i)10
i = 7%
Zero Example
0 10
PV = -508 FV = 1000
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The Financial Pages: Corporate Bonds
Cur Net
Yld Vol Close Chg
Polaroid 11 1/2 06 19.3 395 59 3/4 ...
• What is the yield to maturity for this bond?
P/YR = 2, N = 10, FV = 1000,
PV = $-597.50,
PMT = 57.50
• Solve: I/YR = 26.48%
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The Financial Pages: Corporate Bonds
Cur Net
Yld Vol Close Chg
HewlPkd zr 17 ... 20 51 1/2 +1
• What is the yield to maturity for this bond?
P/YR = 1, N = 16, FV = 1000,
PV = $-515,
PMT = 0
• Solve: I/YR = 4.24%
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The Financial Pages: Treasury Bonds
Maturity Ask
Rate Mo/Yr Bid Asked Chg Yld
9 Nov 18 139:14 139:20 -34 5.46
• What is the yield to maturity for this
Treasury bond? (assume 35 half years)
P/YR = 2, N = 35, FV = 1000,
PMT = 45,
PV = - 1,396.25 (139.625% of par)
• Solve: I/YR = 5.457%