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Chapter 16

Chapter 16. Option Valuation. Outline. Valuation Intrinsic and time values Factors determining option price Black-Scholes Model How valuation helps trading (optional) Hedge ratio (Delta) and option elasticity Other variables. 1. valuation. Option Values.

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Chapter 16

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  1. Chapter 16 Option Valuation

  2. Outline • Valuation • Intrinsic and time values • Factors determining option price • Black-Scholes Model • How valuation helps trading (optional) • Hedge ratio (Delta) and option elasticity • Other variables

  3. 1. valuation

  4. Option Values • Intrinsic value - profit that could be made if the option was immediately exercised • Call: stock price - exercise price • Put: exercise price - stock price • However, option price is always higher than or equal to its intrinsic value • Time value - the difference between the option price and the intrinsic value

  5. Time Value of Options: Call Option value Value of Call Intrinsic Value Time value X Stock Price

  6. Factors Influencing Option Values: Calls If this variable increasesValue of a call option Stock price increases Exercise price decreases Volatility of stock price increases Time to expiration increases Interest rate increases Dividend Rate decreases • Interest affects the PV(x), your obligation to pay in the future. Higher interest, the less you need to pay in today’s value, the higher the value of call • Div is a drag on stock price, call holder want stock price to be higher

  7. Factors Influencing Option Values: Puts If this variable increasesValue of a Put option Stock price decreases Exercise price increases Volatility of stock price increases Time to expiration increases Interest rate decreases Dividend Rate Increases • Interest affects the PV(x), your sell price in the future. Higher interest, the less you get paid in today’s value, the lower the value of put • Div is a drag on stock price, put holder want stock price be low

  8. Black-Scholes Option Valuation Co= SoN(d1) - Xe-rTN(d2) d1 = [ln(So/X) + (r – d + s2/2)T] / (s T1/2) d2 = d1 - (s T1/2) where Co = Current call option value. So= Current stock price N(d) = probability that a random draw from a normal dist. will be less than 1.

  9. Black-Scholes Option Valuation X = Exercise price. d = Annual dividend yield of underlying stock e = 2.71828, the base of the nat. log. r = Risk-free interest rate (annualizes continuously compounded with the same maturity as the option. T = time to maturity of the option in years. ln = Natural log function s = Standard deviation of annualized cont. compounded rate of return on the stock

  10. Call Option Example So = 100 X = 95 r = .10 T = .25 (quarter) s = .50 d = 0 d1 = [ln(100/95)+(.10-0+(.5 2/2))]/(.5.251/2) = .43 d2 = .43 - ((.5)( .251/2) = .18

  11. Probabilities from Normal Dist. N (.43) = .6664 Table 17.2 d N(d) .42 .6628 .43 .6664 .44 .6700

  12. Probabilities from Normal Dist. N (.18) = .5714 Table 17.2 d N(d) .16 .5636 .18 .5714 .20 .5793

  13. Call Option Value Co= Soe-dTN(d1) - Xe-rTN(d2) Co = 100 X .6664 - 95 e- .10 X .25 X .5714 Co = 13.70

  14. Put Option Value: Black-Scholes P=Xe-rT [1-N(d2)] – S0 [1-N(d1)] Using the sample data P = $95e(-.10X.25)(1-.5714) - $100 (1-.6664) P = $6.35

  15. 2.HOW VALUATION HELPS TRADING

  16. Hedge ratio • Hedge ratio: The change in the price of an option for a $1 increase in stock price. Hedge ratio is also called delta • If we graph option value as a function of stock price, hedge ratio is the slope • For call, 0<delta<1, for put -1<delta<0 • In Black-Schole model, hedge ratio for call is N(d1), for put is N(d1)-1

  17. How to use hedge ratio in trading • Hedge ratio (delta) help to understand your potential gain and loss for options positions • Leverage • Option elasticity: (%change of option price)/(% change of stock price) • Option elasticity=(delta/option price)/(1/stock price) • Elasticity measures your leverage (with options) vs. investing in stocks • My own measurement: delta/option price • Measures % change of option value for $1 change of stock price

  18. Important measurements in trading • Delta: the change in an option price for one dollar increase in stock price • Gamma: the change of Delta for one $ increase in stock price • Theta: the change in an option price given a one-day change in time. Always negative, Good for option sellers.

  19. Important measurements in trading • Rho: the change in an option price for one % change in risk free rate ( not a big concern in trading. 1% rate is huge change, compared with $1 change of underlying stock price)

  20. Important measurements in trading • Vega: sensitivity to volatility. The change in an option price for 1%change in implied volatility • Vega declines overtime • Example: • June 2010 S&P index Put, exercise price: 800 • Index now: 1015; option Price/premium: $33 Vega: 2.3;implied volatility 35% • If implied volatility increase by 10% from 35% to 45%. (CBOE Volatility Index soars as Wall St slumps) • Put price: 2.3*10+33=$56

  21. Important measurements in trading • Calculate option price change

  22. Important measurements in trading

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