Study Guide For Brigham/houston's Fundamentals Of Financial Management, 14th
Study Guide For Brigham/houston's Fundamentals Of Financial Management, 14th
14th Edition
ISBN: 9781305403895
Author: Eugene F. Brigham, Joel F. Houston
Publisher: Cengage Learning
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Chapter 6, Problem 20SP

INTEREST RATE DETERMINATION AND YIELD CURVES

a. What effect would each of the following events likely have on the level of nominal interest rates?

  1. 1. Households dramatically increase their savings rate.
  2. 2. Corporations increase their demand for funds following an increase in investment opportunities.
  3. 3. The government runs a larger-than-expected budget deficit.
  4. 4. There is an increase in expected inflation.

b. Suppose you are considering two possible investment opportunities: a 12-year Treasury bond and a 7-year, A-rated corporate bond. The current real risk-free rate is 4%; and inflation is expected to be 2% for the next 2 years, 3% for the following 4 years, and 4% thereafter. The maturity risk premium is estimated by this formula: MRP = 0 02(t − 1)%. The liquidity premium (LP) for the corporate bond is estimated to be 0.3%. You may determine the default risk premium (DRP), given the company’s bond rating, from the table below. Remember to subtract the bond’s LP from the corporate spread given in the table to arrive at the bond’s DRP. What yield would you predict for each of these two investments?

  Rate Corporate Bond Yield Spread = DRP + LP
U.S. Treasury 0.83% ----
AAA corporate 0.93 0.10%
AA corporate 1.29 0.46
A corporate 1.67 0.84

c. Given the following Treasury bond yield information, construct a graph of the yield curve.

Maturity Yield
1 year 5.37%
2 years 5.47
3 years 5.65
4 years 5.71
5 years 5.64
10 years 5.75
20 years 6.33
30 years 5.94

d. Based on the information about the corporate bond provided in part b, calculate yields and then construct a new yield curve graph that shows both the Treasury and the corporate bonds.

e. Which part of the yield curve (the left side or right side) is likely to be most volatile over time?

f. Using the Treasury yield information in part c, calculate the following rates using geometric averages:

  1. 1. The 1-year rate 1 year from now
  2. 2. The 5-year rate 5 years from now
  3. 3. The 10-year rate 10 years from now
  4. 4. The 10-year rate 20 years from now

a. (1)

Expert Solution
Check Mark
Summary Introduction

To identify: The effect of given events on the nominal interest rate.

Nominal Rate:

An interest rate which is agreed and paid such as the borrower is ready to pay and the lender is ready to receive the money is known as the nominal interest rate.

Answer to Problem 20SP

The increment in the rates of savings account of households leads to increase in nominal interest rate as the households get good returns from treasury bills or bonds the nominal rate would increase.

Explanation of Solution

  • The increase ininterest rate of savings account of the households resultsto increase the demand for the funds.
  • To offer the good returns to households lead to increase in demand forinvestment in a savings account and the returns of Treasury securities where the household invest their money would also increase.
Conclusion

Hence, if the households would increase the interest rates to get more investment it will lead to increase in nominal rate.

(2)

Expert Solution
Check Mark
Summary Introduction

To identify: The effect of given events on the nominal interest rate.

Nominal Rate:

An interest rate which is agreed and paid such as the borrower is ready to pay and the lender is ready to receive the money is known as the nominal interest rate.

Answer to Problem 20SP

The corporations increase the rates to increase the demand of their funds which leads to increase in nominal rate.

Explanation of Solution

  • The corporations require fund for their business and to increase the demand for the product.
  • Increase in demand of the product leads to increase in nominal interest rate.
Conclusion

Hence, the increase in nominal rate would result in the increase in demand of the funds of corporations.

3.

Expert Solution
Check Mark
Summary Introduction

To identify: The effect of given events on the nominal interest rate.

Nominal Rate:

An interest rate which is agreed and paid such as the borrower is ready to pay and the lender is ready to receive the money is known as the nominal interest rate.

Answer to Problem 20SP

Solution:

The larger-than-expected budget leads to increase in nominal interest rate.

Explanation of Solution

  • The larger-than-expected budget refers the negative condition of the budget of government.
  • To make the balance of budget, the governmentwould issue the investment securities and increase the interest on that and nominal rates would increase.
Conclusion

Hence, the larger deficit of the budget leads to increase in nominal rate as the government issues the securities to raise fund.

4.

Expert Solution
Check Mark
Summary Introduction

To identify: The effect of given events on the nominal interest rate.

Nominal Rate:

An interest rate which is agreed and paid such as the borrower is ready to pay and the lender is ready to receive the money is known as the nominal interest rate.

Answer to Problem 20SP

Increase in interest rate leads to increase rate as it is included in nominal rate.

Explanation of Solution

  • Inflation refers to the condition when the price of the goods and commodity increase and the purchasing power parity would also increase.
  • The interest rates of the investments avenues include the inflation rate in it.
Conclusion

Hence, the increase in inflation positively leads to increase in nominal interest rate.

b.

Expert Solution
Check Mark
Summary Introduction

To compute: The expected yield for 12-year Treasury bond and 7-year A-rated corporate bond.

Yield:

Yield is the percentage of the securities at which the return is provided by the company to its investors. Yield can be there in the form of dividend and interest.

Explanation of Solution

Compute the yield for the 12-years treasury bonds.

The risk-free rate is 4%. (Given)

The inflation premium is 3.33%. (Calculated in working note)

The maturity risk premium is 0.22%. (Calculated in working note)

The formula to calculate the yield on treasury bonds,

r=r*+IP+MRP

Where,

  • r is the interest rate on treasury bills.
  • r* is the real risk-free return.
  • IP is inflation premium.
  • MRP is maturity risk premium.

Substitute 4% for r* , 3.33% for IP and 0.22% for MRP.

r=4%+3.33%+0.22%=7.55%

The yield on 12-year treasury bonds is 7.55%.

Compute the default risk premium on a corporate bond,

Study Guide For Brigham/houston's Fundamentals Of Financial Management, 14th, Chapter 6, Problem 20SP , additional homework tip  1

Table (1)

Compute the yield for AAA Corporate bond.

The risk-free rate is 4%. (Given)

The liquidity premium and default risk premium is 0.10%. (Given)

The inflation premium is 2.86%. (Calculated in working note)

The maturity risk premium is 0.12%. (Calculated in working note)

The formula to calculate the yield,

r=r*+IP+MRP+DRP+LP

Where,

  • r is the interest rate on treasury bills.
  • r* is the real risk-free return.
  • IP is inflation premium.
  • MRP is maturity risk premium.
  • DRP is default risk premium.
  • LP is the liquidity premium.

Substitute 4% for r* , 2.86% for IP, 0.10 for DRP+LP and 0.12% for MRP.

r=4%+2.86%+0.12%+0.10%=7.08%

The yield on 7-year AAA corporate bond is 7.08%.

Compute the yield for AA Corporate bond.

The risk-free rate is 4%. (Given)

Default risk premium and liquidity premium is 0.46%. (Given)

The inflation premium is 2.86%. (Calculated in working note)

The maturity risk premium is 0.12%. (Calculated in working note)

The formula to calculate the yield,

r=r*+IP+MRP+DRP+LP

Where,

  • r is the interest rate on treasury bills.
  • r* is the real risk-free return.
  • IP is inflation premium.
  • MRP is maturity risk premium.
  • DRP is default risk premium.
  • LP is liquidity premium.

Substitute 4% for r* , 2.86% for IP, 0.46 for DRP+LP and 0.12% for MRP.

r=4%+2.86%+0.12%+0.46%=7.44%

The yield on 7-year AA corporate bond is 7.44%.

Compute the yield for A Corporate bond.

The risk-free rate is 4%. (Given)

Default risk premium and liquidity premium is 0.84%. (Given)

The inflation premium is 2.86%. (Calculated in working note)

The maturity risk premium is 0.12%. (Calculated in working note)

The formula to calculate the yield,

r=r*+IP+MRP+DRP+LP

Where,

  • r is the interest rate on treasury bills.
  • r* is the real risk-free return.
  • IP is inflation premium.
  • MRP is maturity risk premium.
  • DRP is default risk premium.
  • LP is liquidity premium.

Substitute 4% for r* , 2.86% for IP, 0.84 for DRP+LP and 0.12% for MRP.

r=4%+2.86%+0.12%+0.84%=7.82%

The yield on 7-year A corporate bond is 7.82%.

Working note:

Treasury bond calculations:

Computation of inflation premium on 12-years treasury bonds,

IP=SumoftheInflationfortheeachyearNumberofyears=(2%×2)+(3%×4)+(4%×6)12=4%+12%+24%12=3.33%

Computation of the maturity risk premium,

MRP=0.02×(t1)%=0.02×11%=0.22%

7-years bond calculations:

Computation of the inflation premium,

IP=SumoftheInflationfortheeachyearNumberofyears=(2%×2)+(3%×4)+(4%×1)7=4%+12%+4%7=2.86%

Computation of the maturity risk premium,

MRP=0.02×(t1)%=0.02×(71)%=0.02×6%=0.12%

Conclusion

Hence,the default risk premiums of AAA corporate bond, AA corporate bond, and A corporate bond, are (0.20%), 0.16% and 0.54% respectively. The expected yield of 12-yearTreasury bond is 7.55%, AAA corporate bond is 7.08%, AA corporate bond is 7.44% and A corporate bond is 7.82%.

c.

Expert Solution
Check Mark
Summary Introduction

To prepare: A yield curve chart for given information.

Yield Curve:

The graphical representation of the expected return, provided by the company to its investors during the years is known as the yield curve.

Answer to Problem 20SP

The yield curve chart

Study Guide For Brigham/houston's Fundamentals Of Financial Management, 14th, Chapter 6, Problem 20SP , additional homework tip  2

Fig 1

Explanation of Solution

  • The x-axis shows the number of years.
  • The y-axis shows years to maturity.
  • The graph shows the expected yield with their respective years.
  • The yield curve is sloping upwards and is increasing until the 20th year and then it slopes downward.
Conclusion

The yield curve chart for the given information is as mentioned above.

d.

Expert Solution
Check Mark
Summary Introduction

To draw: The yield curve chart.

Answer to Problem 20SP

Statement to show the relative yields, calculated in part b.

BondExpected Yield
12-year Treasury Bond7.55%
7-year AAA Corporate Bond7.08%
7-year AA Corporate Bond7.44%
7-year A Corporate Bond7.82%

Table (2)

The yield to maturity graph:

Study Guide For Brigham/houston's Fundamentals Of Financial Management, 14th, Chapter 6, Problem 20SP , additional homework tip  3

Fig 2

Explanation of Solution

  • The x-axis shows the number of years.
  • The y-axis shows years to maturity.
  • The graph shows the expected yield with their respective years.
  • The yield curve shows a downward slope up to 12 years.
  • The curve then shows an upward slope and continues to increase.
Conclusion

Thus, the yield curve chart is shown as above.

e.

Expert Solution
Check Mark
Summary Introduction

To identify: The side of a yield curve which would be more volatile.

Answer to Problem 20SP

Solution:

The right side of the yield curve would be more volatile as an increase in the maturity increases the yield of the bond.

Explanation of Solution

  • The yield curve represents the yield of relative bonds with their respective years.
  • The yield increase towards the right as the year of maturity increases and more volatile from the right side.
Conclusion

Hence, the right side of the yieldcurve is more volatile than the left side.

f. (1)

Expert Solution
Check Mark
Summary Introduction

To identify: The rates for the following statements.

Explanation of Solution

Given,

The yield for 2 years is 5.47%.

The yield for 1 year is 5.37%.

The formula to compute the rate,

(1+Yieldforyear2)(Numberofyearsofrate+Yearsfromnow)=[(1+Yieldforyear1)Yearsfromnow×(1+Newyear)Numberofyears]

Substitute 0.0547 for yield for year 2, 0.0537 for yield for year 1, 1 for a number of years and 1 for years from now.

(1+0.0547)(1+1)=(1+0.0537)1×(1+Newyear)1(1+Newyear)1=(1+0.0547)(1+1)(1+0.0537)1Newyear=1.05771=0.0577or5.57%

The rate is 5.57%.

Conclusion

Hence, the rate of 1-year, 1 year from now is 5.57%.

2.

Expert Solution
Check Mark
Summary Introduction

To identify: The rates for the following statements.

Explanation of Solution

Given,

The yield for 10 years is 5.75%.

The yield for 5years is 5.64%.

The formula to compute the rate,

(1+Yieldforyear10)(Numberofyearsofrate+Yearsfromnow)=[(1+Yieldforyear5)Yearsfromnow×(1+Newyear)Numberofyears]

Substitute 0.0575 for yield for year 10, 0.0564 for yield for year 5, 5 for a number of years and 5 for years from now.

(1+0.0575)(5+5)=(1+0.0564)5×(1+Newyear)5(1+Newyear)5=(1+0.0575)(10)(1+0.0564)5(1+Newyear)5=1.74911.3157(1+Newyear)5=1.3294

Take root to bothsides.

(1+Newyear)55=1.32945Newyear=1.05861Newyear=0.0586or5.86%

The rate is 5.86%.

Conclusion

Hence, the rate of 5-year, 5 years from now is 5.86%.

3.

Expert Solution
Check Mark
Summary Introduction

To identify: The rates for the following statements.

Explanation of Solution

Given,

The yield for 20 years is 6.33%.

The yield for 10years is 5.75%.

The formula to compute the rate,

(1+Yieldforyear20)(Numberofyearsofrate+Yearsfromnow)=[(1+Yieldforyear10)Yearsfromnow×(1+Newyear)Numberofyears]

Substitute 0.0633 for yield for year 20, 0.0575 for yield for year 10, 10 for a number of years and 10 for years from now.

(1+0.0633)(10+10)=(1+0.0575)10×(1+Newyear)10(1+Newyear)10=(1+0.0633)20(1+0.0575)10(1+Newyear)10=3.41281.7491(1+Newyear)10=1.9512

Take root to bothsides.

(1+Newyear)1010=1.951210Newyear=1.06911Newyear=0.0691or6.91%

The rate is 6.91%.

Conclusion

Hence, the rate of 10-year, 10 years from now is 6.91%.

4.

Expert Solution
Check Mark
Summary Introduction

To identify: The rates for the following statements.

Explanation of Solution

Given,

The yield for 30 years is 5.94%.

The yield for 20 years is 6.33%.

The formula to compute the rate,

(1+Yieldforyear30)(Numberofyearsofrate+Yearsfromnow)=[(1+Yieldforyear20)Yearsfromnow×(1+Newyear)Numberofyears]

Substitute 0.0633 for yield for year 20, 0.0594 for yield for year 30, 10 for a number of years and 20 for years from now.

(1+0.0594)(10+20)=(1+0.0633)20×(1+Newyear)10(1+Newyear)10=(1+0.0594)30(1+0.0633)20(1+Newyear)10=5.64683.4128(1+Newyear)10=1.6546

Take root to bothsides.

(1+Newyear)1010=1.656410Newyear=1.05161Newyear=0.0561or5.61%

The rate is 5.61%.

Conclusion

Hence, the rate of 10-year, 20 years from now is 5.61%.

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