Chapter 10



Chapter 10

Valuation and Rates of Return

(For the first 20 bond problems, assume interest payments are on an annual basis.)

1. Bond value (LO3) The Lone Star Company has $1,000 par value bonds outstanding at 9 percent interest. The bonds will mature in 20 years. Compute the current price of the bonds if the present yield to maturity is:

a. 6 percent.

b. 8 percent.

c. 12 percent.

10-1. Solution:

Loan Star Company

a. 6 percent yield to maturity

Present Value of Interest Payments

PVA = A × PVIFA (n = 20, i = 6%) Appendix D

PVA = 90 × 11.470 = $1,032.30

Present Value of Principal Payment at Maturity

PV = FV × PVIF (n = 20, i = 6%) Appendix B

PV = 1,000 × .312 = $312

Total Present Value

Present Value of Interest Payments $1,032.30

Present Value of Principal Payment 312.00

Total Present Value or Price of the Bond $1,344.30

10-1. (Continued)

b. 8 percent yield to maturity

PVA = A × PVIFA (n = 20, i = 8%) Appendix D

PVA = $90 × 9.818 = $883.62

PV = FV × PVIF (n = 20, i = 8%) Appendix B

PV = $1,000 × .215 = $215

$ 883.62

215.00

$1,098.62

c. 12 percent yield to maturity

PVA = A × PVIFA (n = 20, i = 12%) Appendix D

PVA = $90 × 7.469 = $672.21

PV = FV × PVIF (n = 20, i = 12%) Appendix B

PV = $1,000 × .104 = $104

$672.21

104.00

$776.21

3. Bond value (LO3) Barry’s Steroids Company has $1,000 par value bonds outstanding at 12 percent interest. The bonds will mature in 50 years. Compute the current price of the bonds if the percent yield to maturity is:

a. 4 percent.

b. 14 percent.

10-3. Solution:

Barry’s Steroids Company

a. 4 percent yield to maturity

Present Value of Interest Payments

PVA = A × PVIFA (n = 50, i = 4%) Appendix D

PVA = $120 × 21.482 = $2,577.84

Present Value of Principal Payment

PV = FV × FVIF (n = 50, i = 4%) Appendix B

PV = $1,000 × .141 = $141

Present Value of Interest Payments $2,577.84

Present Value of Principal Payment 141.00

Total Present Value or Price of the Bond $2,718.84

b. 14 percent yield to maturity

Present Value of Interest Payments

PVA = A × PVIFA (n = 50, i = 14%) Appendix D

PVA = $120 × 7.133 = $855.96

Present Value of Principal Payment

PV = FV × FVIF (n = 50, i = 14%) Appendix B

PV = $1,000 × .001 = $1

Present Value of Interest Payments $855.96

Present Value of Principal Payment 1.00

Total Present Value or Price of the Bond $856.96

13. Effect of yield to maturity on bond price (LO3) Tom Cruise Lines, Inc., issued bonds five years ago at $1,000 per bond. These bonds had a 25-year life when issued and the annual interest payment was then 12 percent. This return was in line with the required returns by bondholders at that point as described below:

Real rate of return 3%

Inflation premium 5

Risk premium 4

Total return 12%

Assume that five years later the inflation premium is only 3 percent and is appropriately reflected in the required return (or yield to maturity) of the bonds.

The bonds have 20 years remaining until maturity. Compute the new price of the bond.

10-13. Solution:

Tom Cruise Lines, Inc.

First compute the new required rate of return (yield to maturity).

Real rate of return 3%

Inflation premium 3

Risk premium 4

Total return 10%

Then use this value to find the price of the bond.

Present Value of Interest Payments

PVA = A × PVIFA (n = 20, i = 10%) Appendix D

PVA = $120 × 8.514 = $1,021.68

Present Value of Principal Payment at Maturity

PV = FV × PVIF (n = 20, i = 10%) Appendix B

PV = $1,000 × .149 = $149

$1,021.68

149.00

$1,170.68

18. Approximate yield to maturity (LO3) Bonds issued by the Coleman Manufacturing Company have a par value of $1,000, which, of course, is also the amount of principal to be paid at maturity. The bonds are currently selling for $850. They have 10 years remaining to maturity. The annual interest payment is 8 percent ($80).

Compute the approximate yield to maturity, using Formula 10–2.

10-18. Solution:

Coleman Manufacturing Company

Approximate Yield to Maturity is represented by Y'

[pic]

26. Preferred stock rate of return (LO4) Grant Hillside Homes, Inc., has preferred stock outstanding that pays an annual dividend of $9.80. Its price is $110. What is the required rate of return (yield) on the preferred stock?

10-26. Solution:

Grant Hillside Homes, Inc.

[pic]

(All of the following problems pertain to the common stock section of the chapter.)

27. Common stock value (LO5) Stagnant Iron and Steel currently pays a $4.20 annual cash dividend (D0). They plan to maintain the dividend at this level for the foreseeable future as no future growth is anticipated. If the required rate of return by common stockholders (Ke) is 12 percent, what is the price of the common stock?

10-27. Solution:

Stagnant Iron & Steel

[pic]

28. Common stock value (LO5) Laser Optics will pay a common stock dividend of $1.60 at the end of the year (D1). The required return on common stock (Ke) is 13 percent. The firm has a constant growth rate (g) of 7 percent. Compute the current price of the stock (P0).

10-28. Solution:

Laser Optics

[pic]

29. Common stock value under different market conditions (LO5) Ecology Labs, Inc., will pay a dividend of $3 per share in the next 12 months (D1). The required rate of return (Ke) is 10 percent and the constant growth rate is 5 percent.

a. Compute P0.

(For parts b, c, d in this problem, all variables remain the same except the one specifically changed. Each question is independent of the others.)

b. Assume Ke, the required rate of return, goes up to 12 percent; what will be the new value of P0?

c. Assume the growth rate (g) goes up to 7 percent; what will be the new value of P0? Ke goes back to its original value of 10 percent.

d. Assume D1 is $3.50; what will be the new value of P0? Assume Ke is at its original value of 10 percent and g goes back to its original value of 5 percent.

10-29. Solution:

Ecology Labs, Inc.

[pic]

a. [pic]

b. [pic]

c. [pic]

d. [pic]

34. Common stock value based on PV calculations (LO5) Hunter Petroleum Corporation paid a $2 dividend last year. The dividend is expected to grow at a constant rate of 5 percent over the next three years. The required rate of return is 12 percent (this will also serve as the discount rate in this problem). Round all values to three places to the right of the decimal point where appropriate.

a. Compute the anticipated value of the dividends for the next three years. That is, compute D1, D2, and D3; for example, D1 is $2.10 ($2.00 × 1.05).

b. Discount each of these dividends back to the present at a discount rate of

12 percent and then sum them.

c. Compute the price of the stock at the end of the third year (P3).

[pic]

(D4 is equal to D3 times 1.05)

d. After you have computed P3, discount it back to the present at a discount rate of 12 percent for three years.

e. Add together the answers in part b and part d to get P0, the current value of the stock. This answer represents the present value of the first three periods of dividends, plus the present value of the price of the stock after three periods (which, in turn, represents the value of all future dividends).

f. Use Formula 10-9 to show that it will provide approximately the same answer as part e.

[pic] (10–9)

For Formula 10-9 use D1 = $2.10, Ke = 12 percent, and g = 5 percent. (The slight difference between the answers to part e and part f is due to rounding.)

10-34. Solution:

Hunter Petroleum Corporation

a. D1= $2.00 (1.05) = $2.10

D2= $2.10 (1.05) = $2.205

D3= $2.205 (1.05) = $2.315

b. Dividends PV(12%) PV of Dividends

D1 $2.10 .893 $1.875

D2 $2.205 .797 1.757

D3 $2.315 .712 1.648

$5.280

c. [pic]

[pic]

d. PV of P3 for n = 3, i = 12%

$34.729 × .712 = $24.727

e. answer to part b (PV of dividends) $ 5.280

answer to part d (PV of P3) 24.727

current value of the stock $30.007

f. [pic]

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