When the bond’s coupon rate is less than the bondholder’s required return, the bond’s intrinsic value will be less than its par value, and the bond will trade at . For example, assume Oliver wants to earn a return of 10.50% and is offered the opportunity to purchase a $1,000 par value bond that pays a 8.75% coupon rate (distributed semiannually) with three years remaining to maturity. The following formula can be used to compute the bond’s intrinsic value: Intrinsic ValueIntrinsic Value = = A(1+C)1+A(1+C)2+A(1+C)3+A(1+C)4+A(1+C)5+A(1+C)6+B(1+C)6A1+C1+A1+C2+A1+C3+A1+C4+A1+C5+A1+C6+B1+C6 Complete the following table by identifying the appropriate corresponding variables used in the equation. Unknown Variable Name Variable Value A B $1,000 C Semiannual required return Based on this equation and the data, it is to expect that Oliver’s potential bond investment is currently exhibiting an intrinsic value less than $1,000. Now, consider the situation in which Oliver wants to earn a return of 6.75%, but the bond being considered for purchase offers a coupon rate of 8.75%. Again, assume that the bond pays semiannual interest payments and has three years to maturity. If you round the bond’s intrinsic value to the nearest whole dollar, then its intrinsic value of (rounded to the nearest whole dollar) is its par value, so that the bond is . Given your computation and conclusions, which of the following statements is true? When the coupon rate is greater than Oliver’s required return, the bond’s intrinsic value will be less than its par value. A bond should trade at a par when the coupon rate is greater than Oliver’s required return. When the coupon rate is greater than Oliver’s required return, the bond should trade at a premium. When the coupon rate is greater than Oliver’s required
When the bond’s coupon rate is less than the bondholder’s required return, the bond’s intrinsic value will be less than its par value, and the bond will trade at . For example, assume Oliver wants to earn a return of 10.50% and is offered the opportunity to purchase a $1,000 par value bond that pays a 8.75% coupon rate (distributed semiannually) with three years remaining to maturity. The following formula can be used to compute the bond’s intrinsic value: Intrinsic ValueIntrinsic Value = = A(1+C)1+A(1+C)2+A(1+C)3+A(1+C)4+A(1+C)5+A(1+C)6+B(1+C)6A1+C1+A1+C2+A1+C3+A1+C4+A1+C5+A1+C6+B1+C6 Complete the following table by identifying the appropriate corresponding variables used in the equation. Unknown Variable Name Variable Value A B $1,000 C Semiannual required return Based on this equation and the data, it is to expect that Oliver’s potential bond investment is currently exhibiting an intrinsic value less than $1,000. Now, consider the situation in which Oliver wants to earn a return of 6.75%, but the bond being considered for purchase offers a coupon rate of 8.75%. Again, assume that the bond pays semiannual interest payments and has three years to maturity. If you round the bond’s intrinsic value to the nearest whole dollar, then its intrinsic value of (rounded to the nearest whole dollar) is its par value, so that the bond is . Given your computation and conclusions, which of the following statements is true? When the coupon rate is greater than Oliver’s required return, the bond’s intrinsic value will be less than its par value. A bond should trade at a par when the coupon rate is greater than Oliver’s required return. When the coupon rate is greater than Oliver’s required return, the bond should trade at a premium. When the coupon rate is greater than Oliver’s required
Essentials Of Investments
11th Edition
ISBN:9781260013924
Author:Bodie, Zvi, Kane, Alex, MARCUS, Alan J.
Publisher:Bodie, Zvi, Kane, Alex, MARCUS, Alan J.
Chapter1: Investments: Background And Issues
Section: Chapter Questions
Problem 1PS
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• | When the bond’s coupon rate is less than the bondholder’s required return, the bond’s intrinsic value will be less than its par value, and the bond will trade at . |
For example, assume Oliver wants to earn a return of 10.50% and is offered the opportunity to purchase a $1,000 par value bond that pays a 8.75% coupon rate (distributed semiannually) with three years remaining to maturity. The following formula can be used to compute the bond’s intrinsic value:
Intrinsic ValueIntrinsic Value | = = | A(1+C)1+A(1+C)2+A(1+C)3+A(1+C)4+A(1+C)5+A(1+C)6+B(1+C)6A1+C1+A1+C2+A1+C3+A1+C4+A1+C5+A1+C6+B1+C6 |
Complete the following table by identifying the appropriate corresponding variables used in the equation.
Unknown
|
Variable Name
|
Variable Value
|
---|---|---|
A | ||
B | $1,000 | |
C | Semiannual required return |
Based on this equation and the data, it is to expect that Oliver’s potential bond investment is currently exhibiting an intrinsic value less than $1,000.
Now, consider the situation in which Oliver wants to earn a return of 6.75%, but the bond being considered for purchase offers a coupon rate of 8.75%. Again, assume that the bond pays semiannual interest payments and has three years to maturity. If you round the bond’s intrinsic value to the nearest whole dollar, then its intrinsic value of (rounded to the nearest whole dollar) is its par value, so that the bond is .
Given your computation and conclusions, which of the following statements is true?
When the coupon rate is greater than Oliver’s required return, the bond’s intrinsic value will be less than its par value.
A bond should trade at a par when the coupon rate is greater than Oliver’s required return.
When the coupon rate is greater than Oliver’s required return, the bond should trade at a premium.
When the coupon rate is greater than Oliver’s required return, the bond should trade at a discount.
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