Black-Scholes Pricing cont’d & Beginning Greeks
Black-Scholes cont’d Through example of JDS Uniphase Pricing Historical Volatility Implied Volatility
Beginning Greeks & Hedging Hedge Ratios Greeks (Option Price Sensitivities) delta, gamma (Stock Price) rho (riskless rate) theta (time to expiration) vega (volatility) Delta Hedging
Hedge Ratios Number of units of hedging security to moderate value change in exposed position If trading options: Number of units of underlying to hedge options portfolio If trading underlying: Number of options to hedge underlying portfolio For now: we will act like trading European Call Stock Options with no dividends on underlying stock.
Delta, Gamma Sensitivity of Call Option Price to Stock Price change (Delta): = N(d 1 ) We calculated this to get option price. Gamma is change in Delta measure as Stock Price changes…. we’ll get to this later!
Delta Hedging If an option were on 1 share of stock, then to delta hedge an option, we would take the overall position: +C - S = 0 (change) This means whatever your position is in the option, take an opposite position in the stock (+ = bought option sell stock) (+ = sold option buy stock)
Recall the Pricing Example IBM is trading for $75. Historically, the volatility is 20% ( A call is available with an exercise of $70, an expiry of 6 months, and the risk free rate is 4%. ln(75/70) + (.04 + (.2) 2 /2)(6/12) d 1 = =.70, N(d 1 ) = * (6/12) 1/2 d 2 =.70 - [.2 * (6/12) 1/2 ] =.56, N(d 2 ) =.7123 C = $75 (.7580) - 70 e -.04(6/12) (.7123) = $7.98 Intrinsic Value = $5, Time Value = $2.98
Hedge the IBM Option Say we bought (+) a one share IBM option and want to hedge it: + C - S means 1 call option hedged with shares of IBM stock sold short (-). = N(d 1 ) =.758 shares sold short.
Overall position value: Call Option cost = -$ 7.98 Stock (short) gave = +$ ( S =.758*75 = 56.85) Overall account value: +$ Hedge the IBM Option
Why a Hedge? Suppose IBM goes to $74. ln(74/70) + (.04 + (.2) 2 /2)(6/12) d 1 = = 0.61, N(d 1 ) = * (6/12) 1/2 d 2 = [.2 * (6/12) 1/2 ] = 0.47, N(d 2 ) =.6808 C = $74 (.7291) - 70 e -.04(6/12) (.6808) = $7.24
Results Call Option changed: ( )/7.98 = -9.3% Stock Price changed: ( )/75 = -1.3% Hedged Portfolio changed: (Value now – (.758*74) = $48.85) ( )/48.87 = -0.04%! Now that’s a hedge!
Hedging Reality #1 Options are for 100 shares, not 1 share. You will rarely have one option to hedge. Both these issues are just multiples! + C - S becomes C S for 1 actual option, or + X*100 C - X*100 S for X actual options
Hedging Reality #2 Hedging Stock more likely: + C - S = 0 becomes algebraically - (1/ ) C + S So to hedge 100 shares of long stock (+), you would sell (-) 1/ options For example, (1/.758) = 1.32 options
Hedging Reality #3 Convention does not hedge long stock by selling call options (covered call). Convention hedges long stock with bought put options (protective put). Instead of- (1/ ) C + S - (1/ P ) P + S
Hedging Reality #3 cont’d P = [N(d 1 ) - 1], so if N(d 1 ) < 1 (always), then P < 0 This means - (1/ P ) P + S actually has the same positions in stock and puts ( -(-) = + ). This is what is expected, protective put is long put and long stock.
Reality #3 Example Remember IBM pricing: ln(75/70) + (.04 + (.2) 2 /2)(6/12) d 1 = =.70, N(d 1 ) = * (6/12) 1/2 d 2 =.70 - [.2 * (6/12) 1/2 ] =.56, N(d 2 ) =.7123 C = $75 (.7580) - 70 e -.04(6/12) (.7123) = $7.98 Put Price = Call Price + X e -rT - S Put = $ e -.04(6/12) - 75 =$1.59
Hedge 100 Shares of IBM - (1/ P ) P + S = * (1/ P ) P * S P = N(d 1 ) – 1 =.758 – 1 = (1/ P ) = - (1/ -.242) = options Thus if “ + “ of + S means bought stock, then “ + “ of means bought put options! That’s a protective put!
Hedge Setup Position in Stock: $75 * 100 = +$7500 Position in Put Options: $1.59 * * 100 = +$ Total Initial Position =+$
IBM drops to $74 Remember call now worth $7.24 Puts now worth $1.85 * 4.13 * 100 = $ Total Position = $ = $ Put Price = Call Price + X e -rT - S Put = $ e -.04(6/12) - 74 =$1.85
Results Stock Price changed: ( )/75 = -1.3% Portfolio changed: ( – ) / = +0.09%!!!! Now that’s a hedge!