1 Understanding Interest Rates Chapter 4 2 Chapter Definitions Present Value Present Value Yield to maturity Yield to maturity Simple Loan Simple Loan.

Download 1 Understanding Interest Rates Chapter 4 2 Chapter Definitions Present Value Present Value Yield to maturity Yield to maturity Simple Loan Simple Loan.

Post on 23-Dec-2015

221 views

Category:

Documents

0 download

TRANSCRIPT

  • Slide 1
  • Slide 2
  • 1 Understanding Interest Rates Chapter 4
  • Slide 3
  • 2 Chapter Definitions Present Value Present Value Yield to maturity Yield to maturity Simple Loan Simple Loan Fixed payment loan Fixed payment loan Coupon bond Coupon bond Discount bond Discount bond Rate of return and interest rate risk Rate of return and interest rate risk Real vs nominal interest rates Real vs nominal interest rates
  • Slide 4
  • 3 Yield to Maturity Yield to maturity is the most accurate measure of interest rates. Yield to maturity is the most accurate measure of interest rates. Sometimes it is called internal rate of return. Sometimes it is called internal rate of return. It is the interest rate that relates all the future returns to the present value of a debt/investment. It is the interest rate that relates all the future returns to the present value of a debt/investment.
  • Slide 5
  • 4 Future Value Suppose you put a $1000 in the bank at 5% interest rate. What would be the future value in three years? Suppose you put a $1000 in the bank at 5% interest rate. What would be the future value in three years? 1000 + 1000*(0.05) = 1000 (1.05) at the end of the first year: $1050. 1000 + 1000*(0.05) = 1000 (1.05) at the end of the first year: $1050. 1000 (1.05) + 1000 (1.05)(0.05) = 1000 (1.05)(1+.05) = 1000(1.05)(1.05) at the end of the second year: $1102.50. 1000 (1.05) + 1000 (1.05)(0.05) = 1000 (1.05)(1+.05) = 1000(1.05)(1.05) at the end of the second year: $1102.50. 1000(1.05)(1.05) + 1000(1.05)(1.05)(0.05) = 1000(1.05)(1.05)(1+.05)= 1000(1.05)(1.05)(1.05) at the end of the third year: $1157.625. 1000(1.05)(1.05) + 1000(1.05)(1.05)(0.05) = 1000(1.05)(1.05)(1+.05)= 1000(1.05)(1.05)(1.05) at the end of the third year: $1157.625.
  • Slide 6
  • 5 Present Value If you expect to be paid $1157.625 three years from today, the present value of this future payment is $1000 if the funds earn 5% interest. If you expect to be paid $1157.625 three years from today, the present value of this future payment is $1000 if the funds earn 5% interest. Would the present value of this future payment be greater or less than $1000 if the funds were to earn 10% interest? Would the present value of this future payment be greater or less than $1000 if the funds were to earn 10% interest? FV=1000(1+i) 3 FV=1000(1+i) 3 PV=1000/(1+i) 3 PV=1000/(1+i) 3
  • Slide 7
  • 6 Present Value If you only want to earn 5% interest for the next two years on the $900 you have, and someone offers you $1102.50 in two years, would you take the offer? If you only want to earn 5% interest for the next two years on the $900 you have, and someone offers you $1102.50 in two years, would you take the offer? PVrnFV 9000.052992.25
  • Slide 8
  • 7 Debt Types Simple loan: you borrow today and pay the principal plus the interest in the future. Simple loan: you borrow today and pay the principal plus the interest in the future. Fixed payment loan: you borrow today but make equal payments per time period until your loan is all paid. Fixed payment loan: you borrow today but make equal payments per time period until your loan is all paid. Coupon bond: firm sells the bond (borrows the funds) pays interest per period and at the maturity date pays the principal, too. Coupon bond: firm sells the bond (borrows the funds) pays interest per period and at the maturity date pays the principal, too. Discount bond: firm sells the bond at less than face value pays the face value at the maturity date. Discount bond: firm sells the bond at less than face value pays the face value at the maturity date.
  • Slide 9
  • 8 Yield to Maturity: Simple Loan If you borrow $1000 today and asked to pay $1100 a year from now, what is the interest rate? If you borrow $1000 today and asked to pay $1100 a year from now, what is the interest rate? 1000 = 1100/(1+i) 1+i = 1100/1000 i = 1100/1000 - 1 i = 1100/1000 - 1 i = 1.1 - 1 i = 1.1 - 1 i =.1 = 10% i =.1 = 10%
  • Slide 10
  • 9 Yield to Maturity: Fixed Payment Loan Suppose you got a $50,000 mortgage. The bank wants you to pay $550.60 per month for 20 years. What is the interest rate you are charged? Suppose you got a $50,000 mortgage. The bank wants you to pay $550.60 per month for 20 years. What is the interest rate you are charged? 50,000 = [550.60/(1+i)] +[550.60/(1+i )2 ] + [550.60/(1+i )3 ] + + [550.60/(1+i) 240 ] i =.01 or 1% per month or 12% per year. If the interest rate were lower than 12%, would your monthly payments increase or decrease? If the interest rate were lower than 12%, would your monthly payments increase or decrease?
  • Slide 11
  • 10 Yield to Maturity: Coupon Bond You buy a ten-year corporate bond with a face value of $1000, coupon rate of 10% for $885.30. What is the interest rate you are earning? You buy a ten-year corporate bond with a face value of $1000, coupon rate of 10% for $885.30. What is the interest rate you are earning? 885.30 = [100/(1+i)] + [100/(1+i) 2 + +1100/(1+i) 10 i = 0.12 or 12%. What is the interest rate you are earning if you bought it for $1000? What is the interest rate you are earning if you bought it for $1000?
  • Slide 12
  • 11 Yield to Maturity: Consol You bought a consol for $1250. It pays $100 per year. What is the interest rate you are getting? You bought a consol for $1250. It pays $100 per year. What is the interest rate you are getting? i = 100/1250 i = 0.08 or 8%. What if you bought the consol for $1000; what would be the interest rate? What if you bought the consol for $1000; what would be the interest rate?
  • Slide 13
  • 12 Yield to Maturity: Discount Bond You bought a discount bond for $800 which will pay $1000 a year from now. What is the interest rate? You bought a discount bond for $800 which will pay $1000 a year from now. What is the interest rate? i = (1000 - 800)/800 i = 200/800 i = 0.25 or 25%. Would the interest rate be higher or lower than 25% if you had bought the bond for $900? Would the interest rate be higher or lower than 25% if you had bought the bond for $900?
  • Slide 14
  • 13 Other Measures of Interest Rates Current Yield: calculating the interest rate on a coupon bond as if it were a consol. Current Yield: calculating the interest rate on a coupon bond as if it were a consol. Current yield approaches yield to maturity when the price of the bond is close to the face value and the maturity date is far away. Current yield approaches yield to maturity when the price of the bond is close to the face value and the maturity date is far away. Yield on a discount basis: the price of Treasury Bills is quoted in this fashion. It is always less than the yield to maturity. Yield on a discount basis: the price of Treasury Bills is quoted in this fashion. It is always less than the yield to maturity.
  • Slide 15
  • 14 An Example of Treasury Bill A T-Bill that has 91 days to maturity sells for 5.4% discount. Find the price and yield to maturity. A T-Bill that has 91 days to maturity sells for 5.4% discount. Find the price and yield to maturity..054 (91/360) = [10,000 - P]/10,000 P = $9863.50 i = [(10,000 - 9863.50)/9863.50][360/91] i = 0.0547 or 5.47%.
  • Slide 16
  • 15 Debt Types
  • Slide 17
  • 16 Interest Rate vs. Rate of Return Rate of return on a bond includes the capital gains/losses. Rate of return on a bond includes the capital gains/losses. Capital gain is the increase in the price of the bond. Capital loss is the decrease in the price of the bond. Capital gain is the increase in the price of the bond. Capital loss is the decrease in the price of the bond. If you bought a bond for $1000, held it for a year, received $100 interest payment and sold it for $1100, the return is If you bought a bond for $1000, held it for a year, received $100 interest payment and sold it for $1100, the return is R = [100 + 1100]/1000 =.20 or 20%.
  • Slide 18
  • 17 Why Bonds Are Risky If you hold the bond until maturity, return and interest rate will be the same. If you hold the bond until maturity, return and interest rate will be the same. If interest rates rise while you own a bond, the price of the bond falls yielding capital losses. If interest rates rise while you own a bond, the price of the bond falls yielding capital losses. The farther the maturity date the larger is the capital loss (or capital gain when interest rates fall). The farther the maturity date the larger is the capital loss (or capital gain when interest rates fall). Prices and returns for long-term bonds are more volatile than those for shorter term bonds. Prices and returns for long-term bonds are more volatile than those for shorter term bonds.
  • Slide 19
  • 18 Real and Nominal Interest Rates If people expect inflation, they will not lend money at low rates. They would want to preserve the value of their money by including the inflation rate in the nominal interest rate. If people expect inflation, they will not lend money at low rates. They would want to preserve the value of their money by including the inflation rate in the nominal interest rate. Suppose you lend $1. You want to receive a real interest rate of r and want to compensate the erosion of the value of the money by the expected inflation rate, p. Suppose you lend $1. You want to receive a real interest rate of r and want to compensate the erosion of the value of the money by the expected inflation rate, p.
  • Slide 20
  • 19 Real and Nominal Interest Rates 1+i = (1+r)(1+p) 1+i = (1+r)(1+p) = 1 + r + p + rp i = r + p + rp i = r + p + rp Nominal interest rate is equal to real interest rate plus the expected inflation plus the product of the two. Nominal interest rate is equal to real interest rate plus the expected inflation plus the product of the two. This is called the Fisher equation. This is called the Fisher equation. For low values of real interest rates and expected inflation the last term can be ignored. For low values of real interest rates and expected inflation the last term can be ignored.

Recommended

View more >