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Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.1 Introduction to Binomial Trees Chapter 11.

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Presentation on theme: "Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.1 Introduction to Binomial Trees Chapter 11."— Presentation transcript:

1 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.1 Introduction to Binomial Trees Chapter 11

2 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.2 A Simple Binomial Model A stock price is currently $20 In three months it will be either $22 or $18 Stock Price = $22 Stock Price = $18 Stock price = $20

3 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.3 Stock Price = $22 Option Price = $1 Stock Price = $18 Option Price = $0 Stock price = $20 Option Price=? A Call Option ( Figure 11.1, page 248) A 3-month call option on the stock has a strike price of 21.

4 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.4 Consider the Portfolio:long  shares short 1 call option Portfolio is riskless when 22  – 1 = 18  or  = 0.25 22  – 1 18  Setting Up a Riskless Portfolio

5 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.5 Valuing the Portfolio (Risk-Free Rate is 12%) The riskless portfolio is: long 0.25 shares short 1 call option The value of the portfolio in 3 months is 22  0.25 – 1 = 4.50 The value of the portfolio today is 4.5e – 0.12  0.25 = 4.3670

6 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.6 Valuing the Option The portfolio that is long 0.25 shares short 1 option is worth 4.367 The value of the shares is 5.000 (= 0.25  20 ) The value of the option is therefore 0.633 (= 5.000 – 4.367 )

7 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.7 Generalization Binomial Formula for pricing option ƒ = [ p ƒ u + (1 – p )ƒ d ]e –rT where

8 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.8 Risk-Neutral Valuation ƒ = [ p ƒ u + (1 – p )ƒ d ]e -rT The variables p and (1  – p ) can be interpreted as the risk-neutral probabilities of up and down movements The value of a derivative is its expected payoff in a risk-neutral world discounted at the risk-free rate Su ƒ u Sd ƒ d SƒSƒ p (1  – p )

9 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.9 Irrelevance of Stock’s Expected Return When we are valuing an option in terms of the underlying stock the expected return on the stock is irrelevant

10 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.10 Original Example Revisited Since p is a risk-neutral probability 20 e 0.12  0.25 = 22p + 18(1 – p ); p = 0.6523 Alternatively, we can use the formula Su = 22 ƒ u = 1 Sd = 18 ƒ d = 0 S ƒS ƒ p (1  – p )

11 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.11 Valuing the Option The value of the option is e –0.12  0.25 [0.6523  1 + 0.3477  0] = 0.633 Su = 22 ƒ u = 1 Sd = 18 ƒ d = 0 SƒSƒ 0.6523 0.3477

12 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.12 A Two-Step Example Figure 11.3, page 253 Each time step is 3 months K=21, r=12% 20 22 18 24.2 19.8 16.2

13 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.13 Valuing a Call Option Figure 11.4, page 253 Value at node B = e –0.12  0.25 (0.6523  3.2 + 0.3477  0) = 2.0257 Value at node A = e –0.12  0.25 (0.6523  2.0257 + 0.3477  0) = 1.2823 20 1.2823 22 18 24.2 3.2 19.8 0.0 16.2 0.0 2.0257 0.0 A B C D E F

14 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.14 A Put Option Example; K=52 Figure 11.7, page 256 K = 52,  t = 1yr r = 5% 50 4.1923 60 40 72 0 48 4 32 20 1.4147 9.4636 A B C D E F

15 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.15 What Happens When an Option is American (Figure 11.8, page 257) 50 5.0894 60 40 72 0 48 4 32 20 1.4147 12.0 A B C D E F

16 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.16 Delta Delta (  ) is the ratio of the change in the price of a stock option to the change in the price of the underlying stock The value of  varies from node to node

17 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.17 Choosing u and d See Page 258 One way of matching the volatility is to set where  is the volatility and  t is the length of the time step. This is the approach used by Cox, Ross, and Rubinstein

18 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.18 The Probability of an Up Move

19 Fundamentals of Futures and Options Markets, 6 th Edition, Copyright © John C. Hull 2007 11.19 Recommended Study Problems All Quiz Questions 11.1 – 11.7 11.9 11.10 11.12

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