CHAPTER 12 AN OPTIONS PRIMER

1. CHAPTER 12AN OPTIONS PRIMER • In this chapter, we provide an introduction to options. This chapter is organized into the following sections: • Options and Options Markets • Options Pricing • The Option Pricing Model • Speculating with Options • Hedging with Options Chapter 12

2. Options and Options Markets • Options • Options are specialized financial instruments that give the purchaser the right but not the obligation to do something. • That is, the purchaser can do something if he/she wants to, but he/she does not have to do it. • Options are a relatively new financial instruments dating back to the 1970’s. • IBM Example: • IBM common stocks trades at $120, an investor has an option to buy a IBM stock for $100 through August in the current year. Chapter 12

3. Options and Options Markets • There are two classes of options referred to as put and call options. You may purchase or sell either a call option or a put option. • Put and call options each give buyers and sellers different rights and responsibilities as follows: • Call Options • The buyer of a call option has the right but not the obligation to purchase a pre-specified amount of a pre-specified asset at a pre-specified price during a pre-specified time period. • The seller of a call option has the obligation to sell a pre-specified amount of a pre-specified asset at a pre-specified price if asked to do so during a pre-specified time period. Chapter 12

4. Options and Options Markets • Put Options • The buyer of a put option has the right but not the obligation to sell a pre-specified amount of a pre-specified asset at a pre-specified price during a pre-specified time period. • The seller of a put option has the obligation to purchase a pre-specified amount of a pre-specified asset at a pre-specified price if asked to do so during a pre-specified time period. Chapter 12

5. Options and Options MarketsTerminology • The Premium • The buyer of an option pays the seller of the option a premium on the day that the agreement is entered into. • The Strike Price or the Exercise Price • The pre-specified price is referred to as the strike or the exercise price. • Expiration • The amount of time specified in the options contract. • Exercise • The option buyer elects to utilize his/her right. • In the case of a call option, the buyer utilizes his/her right to buy the stock. • In the case of a put option, the buyer utilizes her/his right to sell the stock. Chapter 12

6. Options and Options MarketsTerminology • Option Writer • The seller of an option. • Writing an Option • The act of selling an option. • European Options • European options can be exercised only on the maturity date. • American Options • American options can be exercised any time prior to maturity. • Covered Call • Writing call options against stock that the writer owns. • Naked Option • Writing a call option on a stock that the writer does not own. Chapter 12

7. Options and Options MarketsTerminology • Intrinsic Value • The value of an option if it is exercised immediately. • Option Clearing Corporation (OCC) • Oversees the conduct of the market and helps to make the market orderly. Option buyers and sellers only obligations are to the OCC. If an option is exercised, the OCC matches buyers and sellers, and manages the completion of the exercise process. Chapter 12

8. 0 2 3 1 -$2.50 Call Option Example • You buy a call option on 100 shares of IBM stock with a strike price of $50 per share and a premium of $2.50 per share. The option has 3 months to maturity. • Suppose that at the time you enter into the contract, the price of IBM stock is $49.50 • The buyer pays the seller a $2.50 premium on the day they enter into the agreement. • Timeline: Chapter 12

9. Call Option Example • After three months the stock price will have either gone up, gone down, or stayed the same. • A. Suppose that after three months the price of IBM stock has gone down to $47 per share. • The option will expire worthless: that is, the buyer will not exercise his/her right to purchase the shares for $50 per share. • The purchaser of the option loses the $2.50 per share premium. • B. Suppose that after three months, the price of IBM stock has stayed at $49.50 per share. • The option will expire worthless: that is, the buyer will not exercise her/his right to purchase the shares for $50 per share. • The purchaser of the option loses the $2.50 per share premium. Chapter 12

10. Call Option Example • Suppose that after three months, the price of IBM stock has gone up to $70 per share. In this case, the buyer of the call option will exercise his option. • The purchaser of the option will exercise his/her right to purchase 100 shares for $50 per share. • The purchaser will then go to the market to sell his/her share of stock for $70 per share. Thus the purchaser makes a profit Chapter 12

11. 0 2 3 1 -$2.50 Put Option Example • You buy a put option on 100 shares of IBM stock with a strike price of $50 per share and a premium of $2.50 per share. The option has 3 months to maturity. • Suppose that at the time you enter into the contract, the price of IBM stock is $50.50 • The buyer pays the seller a $2.50 premium on the day they enter into the agreement. • Timeline: Chapter 12

12. Put Option Example • After three months the stock price will have either gone up, gone down, or stayed the same. • A. Suppose that after three months the price of IBM stock has gone down to $45 per share. • The buyer of option will exercise her/his option to sell the stock for $50. • Thus, the buyer will purchase the stock for $45 in the market and sell it using the put option for $50. • The purchaser of the put option makes a profit • B. Suppose that after three months, the price of IBM stock has stayed at $50.50 per share. • The option will expire worthless: that is, the buyer will not exercise her/his right to sell the shares for $50 per share. • The purchaser of the option loses the $2.50 per share premium. Chapter 12

13. Put Option Example • C. Suppose that after three months, the price of IBM stock has gone up to $70 per share. In this case, the buyer of the put option will not exercise his/her option. • The option will expire worthless: that is, the buyer will not exercise his/her right to sell the shares for $50 per share. • The purchaser of the option loses $2.50 per share premium. Chapter 12

14. Option Exchanges Chapter 12

15. Option Quotations • Insert Figure 12.1 here Chapter 12

16. Option Pricing • Five factors affect the price of options on stocks without cash dividends: This section considers the effects of the first three factors. Thus, a call price can be expressed using: C(S, E, t) Chapter 12

17. Pricing Call Options at Expiration • First principle of option pricing • At expiration, a call option must have a value that is equal to zero or to the difference between the stock price and the exercise price, whichever is greater. This quantity is referred to as the intrinsic value of the option: • C(S, E, 0) = max(0, S - E) • If this condition does not hold, an arbitrage opportunity exists. • Two possibilities may arise, regarding the relationship between the exercise price (E) and the stock price (S). • S E • S > E • Where t = 0. Chapter 12

18. Pricing Call Options at Expiration • First Possibility: S E • Example: • A call option with an exercise price of $80 on a stock trading at $70. The option is about to expire. • If an option is at expiration and the stock price is less than or equal to the exercise price, the call option has no value. • Max(0, S-E) • Max(0, 70-80) = 0 Chapter 12

19. Pricing Call Options at Expiration • Second Possibility: S > E • If the stock price is greater than the exercise price, the call option must have a price equal to the difference between the stock price and the exercise price. • Max(0, S-E) = S – E • If this relationship did not hold, there would be an arbitrage opportunity. • Example 1: • Consider a call option that is selling with an exercise price of $40 on a stock trading at $50. The option is selling for $5. • An arbitrageur would make the following trades: • Transaction Cash Flow • Buy a call option $ -5Exercise the option to buy the stock -40Sell the stock 50Net Cash Flow $ 5 Chapter 12

20. Pricing Call Options at Expiration • Example 2: • A call option with an exercise price of $40 on a stock trading at $50. The option is now selling $15. The option is about to expire. • An arbitrageur would make the following trades: • Transaction Cash Flow • Write a call option $ 15Buy the stock - 50Initial Cash Flow -$35 • If owner of the call option exercises the option. The arbitrageur’s transactions are: • Transaction Cash Flow • Initial cash flow -$ 35Deliver stock 0Collect exercise price +$40Net Cash Flow $ 5 Chapter 12

21. Pricing Call Options at Expiration • If the owner of the call option allows the option to expire. The arbitrageur’s transactions are: • Initial cash flow -$ 35Sell Stocks +$50Net Cash Flow $ 15 • In order for these arbitrage opportunities not to exist, principle 1 must hold. Chapter 12

22. Graphical Analysis of Option Values and Profits Expiration • Assume a call and a put option both with $100 striking price. We can graph the payoff on these options as demonstrated in Figure 12.2. • Insert Figure 12.2 Here Chapter 12

23. Option Values and Profits Expiration • Assume a call and a put option both with $100 striking price. Trades had taken place for the options with premiums of $5 on each of the put and call options. • Figure 12.3 illustrates the alternatives outcomes. • Insert Figure 12.3a here Chapter 12

24. Option Values and Profits Expiration • Insert Figure 12.3b here Chapter 12

25. Pricing Prior to Maturity • Second principle of option pricing: • A call option with a zero exercise price and an infinite time to maturity must sell for the same price as the stock. This is because the buyer of the call option can convert his/her option into the stock and sell it. • C(S, 0, ) = S • Combining principle #1 and #2, we can establish bounds for the price of an option. That is, establish upper and lower limits for the price of the option. • The bounds for the price of a call option are a function of the stock price, the exercise price, and the time to expiration. Figure 12.4 presents these boundaries. Chapter 12

26. A Call Option with Zero Exercise Price and an Infinite Time until Expiration • Insert Figure 12.4 here Chapter 12

27. Relationship Between Option Prices • Third principle of option pricing • If two call options are alike, except the exercise price of the first is less than that of the second, then the option with the lower exercise price must have a price that is equal to or greater than the price of the option with the higher exercise price. • The relationship can be defined as follows: • If E1 < E2, C(S, E1, t) C(S, E2, t) • If this relationship does not hold, an arbitrage profit can be earned. Chapter 12

28. Relationship Between Option Prices • Example: • You have two identical options. The first option has an exercise price of $100 and sells for $10. The second option has an exercise price of $90 and sells for $5. • An arbitrageur would make the following trades: • Transaction Cash Flow • Sell the option with the $100 exercise price $10Buy the option with the $90 exercise price - 5 • Net Cash Flow $ 5 • Figures 12.5a creates an arbitrage opportunity and figure 12.5b graphs the combined positions. Chapter 12

29. Relationship Between Option Prices • Insert figure 12.5a here • Insert figure 12.5b here Chapter 12

30. Relationship Between Option Prices • Consider the profit and loss position on each option and the overall position for alternative stock prices that might prevail at expiration. The result is graphed in figure 12.5c. Chapter 12

31. Relationship Between Option Prices • Insert figure 12.5c here Notice in figure 12.5c that regardless of the ultimate stock price, a positive profit is earned. In order to avoid this arbitrage principle 3 must hold. Chapter 12

32. Relationship Between Option Prices • Fourth principle of option pricing (expiration date principle) • If there are two options that are otherwise alike, the option with the longer time to expiration must sell for an amount equal to or greater than the option that expires earlier. • If t1 > t2, C(S, t1, E) C(S, t2, E) • If the option with the longer period to expiration sold for less than the option with the shorter time to expiration, there would also be an arbitrage opportunity. Chapter 12

33. Relationship Between Option Prices • Example: • Two options on the same stock both having a striking price of $100. The first option has a time to expiration of 6 months and trades for $8. The second option has 3 months to expiration and trades for $10. • An arbitrageur would make the following transactions: • Transaction Cash Flow • Buy the 6-month option for $8 -$ 8Sell the 3-month option for $10 +$10Net Cash Flow +$ 2 • The option with the longer time to expiration must be worth more than the option with the shorter time to expiration. • Figure 12.6 illustrate this Chapter 12

34. Relationship Between Option Prices • Insert figure 12.6 here Chapter 12

35. Call Option Prices and Interest Rates • Example: • Assume that a stock now sells for $100. Over the next year, its value can change by 10% in either direction (100 shares equal to $9,000 or $11,000) The risk-free rate of interest is 12%. A call option exists with a striking price of $100/share and expiration one year from now. • Assume two portfolios: • Portfolio A 100 shares of stock, current value $10,000. • Portfolio B A $10,000 pure discount bond maturing in one year, with a current value of $8,929 (PV with 12% interest rate). One option contract, with an exercise price of $100/share ($10,000/ entire contract) • Table 12.2 illustrates the impact of price changes on each portfolio. Chapter 12

36. Call Option Prices and Interest Rates • Portfolio B is the best portfolio to hold. If the stock price goes down, Portfolio B is worth $1,000 more than Portfolio A. If the stock price goes up, Portfolios A and B have the same value. • This implies that the value of the option should be at least: Chapter 12

37. Call Option Prices and Interest Rates • Fifth principle of option pricing • Other things being equal, the higher the risk-free rate of interest, the greater must be the price of a call option. • Thus, the interest rate principle can be expressed as: • If r1 > r2, C(S, E, t, r1) C(S, E, t, r2) • Recall that the price of the call must be either zero or S - E at expiration or: The call price must be greater than or equal to the stock price minus the present value of the exercise price. So the higher the interest rate, the higher the value of call option. Using the data from previous example, now assume that interest rates goes up to 20%. The new value of the option should be: Chapter 12

38. Prices of Call Options and The Riskiness of Stocks • Sixth principle of option pricing (the risk principle) • The riskier the stock on which an option is written, the greater will be the value of a call option. Thus the sixth principle can be stated as: • If σ1 > σ2, C(S, E, t, r, σ1) C(S, E, t, r, σ2) • Other things being equal, a call option on a riskier good will be worth at least as much as a call option on a less risky good. Chapter 12

39. Prices of Call Options and The Riskiness of Stocks • Table 12.3 shows the impact that stock price changes have on option prices. Chapter 12

40. Option Pricing Model • Recall that the price of an option must be at least as great as the stock price minus the present value of the exercise price. However, options have an inherent insurance policy. • The insurance character of the option can be seen by comparing the payoffs from Portfolio A and B from Table 12.3. Holding the options insures that the worst outcome from the investment will be $10,000. • To reflect this, the value of the option must be equal to the stock price minus the present value of the exercise price, plus the value of the insurance policy (I) inherent in the option or: • C(S, E, t, r, σ) = S - Present Value(E) + I • Option pricing models can be used to determined the insurance policy value. Chapter 12

41. Option Pricing Model (OPM) • The Black and Scholes Option Pricing Model (OPM) assumes that stock prices follow a stochastic process or Wiener process. Where a stochastic process is a mathematical description of the change in the value of some variable through time. • Wiener process shows that the changes over any given time interval are distributed normally. • Figure 12.7 shows a graph of the path that stock prices might follow if they followed a Wiener process. Chapter 12

42. Option Pricing Model (OPM) • Insert figure 12.7 here Chapter 12

43. Option Pricing Model (OPM) • The Black-Scholes OPM is given by: • C = SN(d1) - Ee-rtN(d2) • The Black-Scholes OPM can be used to calculate the theoretical price of an option. If we know the value of the following variables: Where + S = stock price- E = exercise price+ t = time to expiration+ r = risk-free interest rate+ σ = variability of the stock Chapter 12

44. Option Pricing Model (OPM) • Example: assume the following values: • S = $100E = $100t = 1 yearr = 12%σ = 10% • Step 1: calculate the values for d1 and d2. Chapter 12

45. Option Pricing Model (OPM) • Step 2: calculate N(d1) and N(d2) • The cumulative normal probability can be obtained from tables that are widely available or by using the excel function: “=normsdist(d)” • Using a standardized normal probability distribution table • N(d1) = N(1.25) = .8944N(d2) = N(1.15) = .8749 • Step 3: calculate the call option price using OPM • C = S N(d1) - E e-rtN(d2) • C = $100 (.8944) - $100 e-(.12)(1) (.8749) • C = $89.44 - $100 (.8869) (.8749) • C = $89.44 - $77.60 = $11.84 • The value of the option is $11.84 • Recall form Table 12.2 that option value was $10.71. • The difference is due to the value of the insurance policy that is captured by the Black-Scholes OPM. Chapter 12

46. The Value of Put Options and Put-Call Parity • While the Black-Schole OPM applies to call options, we can infer the corresponding value of a put option by utilizing a concept called Put-Call Parity. • The Put-Call Parity tells us that the value of a put option can be computed as follows: For example, suppose a stock is trading for $100 per share. Using the Black-Scholes OPM, we have computed the value of a call option with a $100 striking price to be $11.84. The interest rate is 12%. The value of the put option is computed as: Chapter 12

47. Speculating with Options • Using our prior calculations, what would be the effect of a 1% change in stock prices? What are the speculating opportunities? • Original Values 1% Increase1% Decrease • S = $100 S = $101 S = $99 • C = $11.84 C = $12.73 C$10.95 • Options can be used to take very low risk speculative positions by using options in combinations. The combinations are virtually endless, including combinations called strips, straps, spreads and straddles. Chapter 12

48. Speculating with Options • A straddle is a combination of positions involving a put and a call option on the same stock. To buy a straddle, the investor buys both call and put options. Consider a call and put option, both with an exercise price of $100. The call trades for $40 and the put for $7. Table 12.5 shows the payoff on the straddle at various stock prices. Chapter 12

49. Speculating with Options • The payoff is graphically displayed in Figure 12.9. • Insert figure 12.9 here Chapter 12

50. Hedging with Options • Options can be used to control risk. Consider an original portfolio comprised of 8,944 shares of stock selling at $100 per share and assume that a trader sells 100 option contracts, or options on 10,000 shares, at $11.84. The entire portfolio would have a value of $776,000. • Table 12.6 shows a hedged portfolio. Notice that by hedging, the value of the portfolio did not change as a result of the change in stock prices. Chapter 12