1. Chapter 3 Understanding Interest Rates

2. Four Types of Credit Instruments 1.Simple (Interest) Loan 2.Fixed Payment Loan (Amortizing) 3.Coupon Bond Face or Par Value ($1,000 increments) Maturity Coupon Rate (% of the Face Value) 4.Discount Bond (Zero Coupon) Purchased at a Discount (Below Face Value) Matures to Face Value

3. Present Value Concept of Present Value Simple loan of $1 at 10% interest Year123n $1.10$1.21$1.33 $1  (1 + i) n $1 PV of $1 =——— (1 + i) n Calculating Present Value is Referred to as Discounting

4. Yield to Maturity: Loans Yield to maturity = interest rate that equates today’s value with present value of all future payments 1.Simple Loan (i = 10%) $100 = $110/(1 + i)  $110 – $100$10 i = ————— =——=.10 = 10%$100 2.Fixed Payment Loan (i = 12%) $126$126$126$126 $1000 =——— + ——— + ——— +... + ——— (1 + i) (1 + i) 2 (1 + i) 3 (1 + i) 25 FP FP FP FP LOAN =——— + ——— + ——— +... + ——— (1 + i) (1 + i) 2 (1 + i) 3 (1 + i) 25

5. Mortgage Payments Table

6. Bond Table

7. Yield to Maturity: Bonds 3.Coupon Bond (Coupon rate = 10% = C/F) $100 $100 $100$100$1000 P B =——— + ——— + ——— +... + ——— + ———— (1 + i) (1 + i) 2 (1 + i) 3 (1 + i) 10 (1 + i) 10 C C C C F P B =——— + ——— + ——— +... + ——— + ———— (1 + i) (1 + i) 2 (1 + i) 3 (1 + i) N (1 + i) N Perpetuity: Fixed coupon payments of $C forever (No Payback)C P c = —— i =—— iP c

8. Yield to Maturity: Bonds 4. Discount Bond (P d = $900, Face = $1000) $1000 $900 = ———  (1 + i) $1000 – $900 i = —————— =.111 = 11.1% $900 F – P d i =——— P d

9. Relationship Between Price and Yield to Maturity Three Interesting Facts in Table 1 1.When bond is at par, yield equals coupon rate 2.Price and yield are inversely related 3.Yield is greater than the coupon rate when the bond price is below par value

10. Current Yield C i c = —— P B Two Characteristics 1.Is better approximation of yield to maturity, the nearer the bond price is to par and the longer the maturity of bond 2.Change in current yield always signals change in same direction as yield to maturity

11. Yield on a Discount Basis (F – P d )360 i db =————  ———————————— F(number of days to maturity) One year bill, P d = $900, F = $1000 $1000 – $900360 i db =———————  ——=.099 = 9.9% $1000365 Two Characteristics 1.Understates yield to maturity; longer the maturity, greater is understatement 2.Change in discount yield always signals change in same direction as yield to maturity

12. Bond Page of the Newspaper

13. Distinction Between Interest Rates and Returns Rate of Return C + P t+1 – P t RET =——————= i c + g P t C where: i c = ——= current yield P t P t+1 – P t g =———= capital gain P t

14. Key Facts about Relationship Between Interest Rates and Returns

15. Maturity and the Volatility of Bond Returns Key Findings from Table 2 1.Only bond whose return = yield is one with maturity = holding period 2.For bonds with maturity > holding period, i  PB  implying capital loss 3.Longer is maturity, greater is price change associated with interest rate change 4.Longer is maturity, more return changes with change in interest rate 5.Bond with high initial interest rate can still have negative return if i 

16. Maturity and the Volatility of Bond Returns Conclusion from Table 2 Analysis 1.Prices and returns more volatile for long-term bonds because they have higher interest-rate risk 2.No interest-rate risk for any bond whose maturity equals holding period

17. Reinvestment Risk 1.Occurs if an investor holds a series of short term bonds over long term holding period 2.i at reinvestment is uncertain 3.gain from an i , lose when i 

18. Calculating Duration, i = 10% 10-yr 10% Coupon Bond

19. Calculating Duration, i = 20% 10-yr 10% Coupon Bond

20. Formula for Duration Key facts about duration Everything else equal, 1.when the maturity of a bond lengthens, the duration rises as well. 2.when interest rates rise, the duration of a coupon bond falls. 3.the higher the coupon rate on the bond, the shorter the duration of the bond. 4.duration is additive: the duration of a portfolio of securities is the weighted-average of the durations of the individual securities, with the weights equaling the proportion of the portfolio invested in each.

21. Duration and Interest Rate Risk %  P  – DUR   i/(1 + i) i  10% to 11%: Table 3—10% coupon bond %  P= 6.76 .01/(1 +.10) = –.0615 = –6.15%. Actual decline = 6.23% 20% coupon bond, DUR = 5.72 years %  P= – 5.72 .01/(1 +.10) = –.0520 = –5.20% The greater the duration of a security, the greater the percentage change in the market value of the security for a given change in interest rates. Therefore, the greater the duration of a security, the greater its interest-rate risk.

22. Distinction Between Real and Nominal Interest Rates Real interest rate Interest rate that is adjusted for expected changes in the price level i r = i –  e 1.Real interest rate more accurately reflects true cost of borrowing 2.When real rate is low, greater incentives to borrow and less to lend

23. Distinction Between Real and Nominal Interest Rates Real interest rates an Example if i = 5% and  e = 0% then i r = 5% – 0% = 5% if i = 10% and  e = 20% then i r = 10% – 20% = –10%

24. U.S. Real and Nominal Interest Rates