1 / 20

Bonds Valuation

Bonds Valuation. PERTEMUAN 17-18. Bond Valuation. Objectives for this session : 1.Introduce the main categories of bonds 2.Understand bond valuation 3.Analyse the link between interest rates and bond prices 4.Introduce the term structure of interest rates

vanida
Download Presentation

Bonds Valuation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Bonds Valuation PERTEMUAN 17-18

  2. Bond Valuation • Objectives for this session : • 1.Introduce the main categories of bonds • 2.Understand bond valuation • 3.Analyse the link between interest rates and bond prices • 4.Introduce the term structure of interest rates • 5.Examine why interest rates might vary according to maturity

  3. Zero-coupon bond • Pure discount bond - Bullet bond • The bondholder has a right to receive: • one future payment (the face value) F • at a future date (the maturity) T • Example : a 10-year zero-coupon bond with face value $1,000 • Value of a zero-coupon bond: • Example : • If the 1-year interest rate is 5% and is assumed to remain constant • the zero of the previous example would sell for

  4. Level-coupon bond • Periodic interest payments (coupons) • Europe : most often once a year • US : every 6 months • Coupon usually expressed as % of principal • At maturity, repayment of principal • Example : Government bond issued on March 31,2000 • Coupon 6.50% • Face value 100 • Final maturity 2005 • 200020012002200320042005 • 6.50 6.50 6.50 6.50 106.50

  5. Valuing a level coupon bond • Example: If r = 5% • Note: If P0 >: the bond is sold at a premium • If P0 <F: the bond is sold at a discount • Expected price one year later P1 = 105.32 • Expected return: [6.50 + (105.32 – 106.49)]/106.49 = 5%

  6. A level coupon bond as a portfolio of zero-coupons • « Cut » level coupon bond into 5 zero-coupon • Face value Maturity Value • Zero 1 6.50 1 6.19 • Zero 2 6.50 2 5.89 • Zero 3 6.50 3 5.61 • Zero 4 6.50 4 5.35 • Zero 5 106.50 5 83.44 • Total 106.49

  7. Bond prices and interest rates Bond prices fall with a rise in interest rates and rise with a fall in interest rates

  8. Sensitivity of zero-coupons to interest rate

  9. Duration for Zero-coupons • Consider a zero-coupon with t years to maturity: • What happens if r changes? • For given P, the change is proportional to the maturity. • As a first approximation (for small change of r): Duration = Maturity

  10. Duration for coupon bonds • Consider now a bond with cash flows: C1, ...,CT • View as a portfolio of T zero-coupons. • The value of the bond is: P = PV(C1) + PV(C2) + ...+ PV(CT) • Fraction invested in zero-coupon t: wt= PV(Ct) / P • • • Duration : weighted average maturity of zero-coupons D= w1 × 1 + w2 × 2 + w3 × 3+…+wt× t +…+ wT×T

  11. Duration - example • Back to our 5-year 6.50% coupon bond. Face value Value wt Zero 1 6.50 6.19 5.81% Zero 2 6.50 5.89 5.53% Zero 3 6.50 5.61 5.27% Zero 4 6.50 5.35 5.02% Zero 5 106.50 83.44 78.35% Total 106.49 • Duration = .0581×1 + .0553×2 + .0527 ×3 + .0502 ×4 + .7835 ×5 • = 4.44 • For coupon bonds, duration < maturity

  12. Price change calculation based on duration • General formula: • In example: Duration = 4.44 (when r=5%) • If Δr =+1% : Δ×4.44 × 1% = - 4.23% • Check: If r = 6%, P = 102.11 • ΔP/P = (102.11 – 106.49)/106.49 = - 4.11% Difference due to convexity

  13. Duration -mathematics • If the interest rate changes: • Divide both terms by P to calculate a percentage change: • As: • we get:

  14. Yield to maturity • Suppose that the bond price is known. • Yield to maturity = implicit discount rate • Solution of following equation:

  15. Spot rates • Consider the following prices for zero-coupons (Face value = 100): Maturity Price 1-year 95.24 2-year 89.85 • The one-year spot rate is obtained by solving: • The two-year spot rate is calculated as follow: • Buying a 2-year zero coupon means that you invest for two years at an average rate of 5.5%

  16. Forward rates • You know that the 1-year rate is 5%. • What rate do you lock in for the second year ? • This rate is called the forward rate • It is calculated as follow: • 89.85 × (1.05) × (1+f2) = 100 →f2 = 6% • In general: (1+r1)(1+f2) = (1+r2)² • Solving for f2: • The general formula is:

  17. Forward rates :example • Maturity Discount factor Spot rates Forward rates • 1 0.9500 5.26 • 2 0.8968 5.60 5.93 • 3 0.8444 5.80 6.21 • 4 0.7951 5.90 6.20 • 5 0.7473 6.00 6.40 • Details of calculation: • 3-year spot rate : • 1-year forward rate from 3 to 4

  18. Why do spot rates for different maturities differ ? As r1 < r2 if f2 > r1 r1 = r2 if f2 = r1 r1 > r2 if f2 < r1 The relationship of spot rates with different maturities is known as the term structure of interest rates Term structure of interest rates Upward sloping Spotrate Flat Downward sloping Time to maturity

  19. Forward rates and expected future spot rates • Assume risk neutrality • 1-year spot rate r1 = 5%, 2-year spot rate r2 = 5.5% • Suppose that the expected 1-year spot rate in 1 year E(r1) = 6% • STRATEGY 1 : ROLLOVER • Expected future value of rollover strategy: • ($100) invested for 2 years : • 111.3 = 100 × 1.05 × 1.06 = 100 × (1+r1) × (1+E(r1)) • STRATEGY 2 : Buy 1.113 2-year zero coupon, face value = 100

  20. Equilibrium forward rate • Both strategies lead to the same future expected cash flow • → their costs should be identical • In this simple setting, the foward rate is equal to the expected future spot rate f2 =E(r1) • Forward rates contain information about the evolution of future spot rates

More Related