1. Properties of Stock Options
Chapter 9
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

2. Notation c : European call option price C : American Call option price
p : European put option price
S0 : Stock price today
K : Strike price
T : Life of option
: Volatility of stock price
C : American Call option price
P : American Put option price
ST :Stock price at option maturity
D : Present value of dividends during option’s life
r : Risk-free rate for maturity T with cont comp
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

3. Effect of Variables on Option Pricing (Table 9.1, page 206)K T  r D c p C P – – + + – – + + + + ? + + + + – – + + – – + +
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

4. American vs European Options
An American option is worth at least as much as the corresponding European option
C  c
P  p
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

5. Upper and Lower Bounds on Options Prices
Upper Bounds:
No matter what, the call option can never be worth more that the stock
S0  c and S0  C
If this is not true, an arbitrageur could easily make a riskless profit by buying the stock and selling the call option
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

6. Upper and Lower Bounds on Options Prices
Upper Bounds:
No matter what, the put option can never be worth more that the strike price
K  p and K  P
Ke-rT  p
If this is not true, an arbitrageur could easily make a riskless profit by writing the option and investing the proceeds
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

7. Lower Bounds in Call Options
c  S0 - Ke-rT
Suppose that
c = S0 = 20
T = r = 10%
K = D = 0
Then, S0 - Ke-rT = 3.71
Is there an arbitrage opportunity?
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

8. Lower Bounds in Call Options
If c=3 < S0 - Ke-rT, an arbitrageur can short the stock and buy the call to provide a cash inflow of
20-3=17.
If invested for 1 year the $17 grows to $18.79
At maturity, if the stock price is greater than $18, the arbitrageur exercises the option for $18, closes out the short position, and makes a profit of
$18.79-$18=$0.79
If the stock price is lower than $18, the stock is bought in the market and the short position is closed out. If the stock price is $17, the arbitrageur gains:
$18.79-$17=$1.79
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

9. Lower Bounds in Call Options
Consider the following two portfolios:
Portfolio A: one European call option plus one amount of cash equal to Ke-rT,
Portfolio B: one share
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

10. Lower Bounds in Call Options
Portfolio A
The cash, if invested at r, grows to K.
If ST>K the option is exercised and the portfolio worth ST.
If ST<K the call expires worthless and the portfolio is worth K.
Hence, at time T, portfolio A is worth
max(ST,K )
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

11. Lower Bounds in Call Options
Portfolio B
Portfolio B is worth ST at time T.
Hence, portfolio A is always worth as much as, and can be worth more than portfolio B. This must also be true today. Thus:
c + Ke-rT  S0 or
c  S0 - Ke-rT
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

12. Lower Bounds in Put options
p  Ke -rT–S0
Suppose that
p = S0 = 37 T = r =5%
K = D = 0
then, Ke -rT–S0 = 2.01
Is there an arbitrage opportunity?
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

13. Lower Bounds in Put Options
If p=1 < Ke-rT - S0,an arbitrageur can borrow $38 for 6 months to buy both the put and the stock.
At the end of the 6 months he pays back $38.96
At maturity, if the stock price is below $40, the arbitrageur exercises the option to sell the stock for $40, repays the loan, and makes a profit of
$40-$38.96=$1.04
If the stock price is greater than $40, the arbitrageur discards the option, sells the stock, and repays the loan. If for example the stock price is $42:
$42-$38.96=$3.04
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

14. Lower Bounds in Put Options
Consider the following two portfolios:
Portfolio C: one European put option plus
one share,
Portfolio D: an amount of cash equal to Ke-rT
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

15. Lower Bounds in Put Options
Portfolio C
If ST<K the option is exercised and the portfolio becomes worth K.
If ST>K the put expires worthless and the portfolio is worth ST.
Hence, at time T, portfolio C is worth
max(ST,K )
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

16. Lower Bounds in Call Options
Portfolio D
Assuming the cash is invested at r, portfolio D is worth K at time T.
Hence, portfolio C is always worth as much as, and can be worth more than portfolio D. This must also be true today. Thus:
p + S0  Ke-rT or
p  Ke-rT - S0
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

17. Put-Call Parity; No Dividends (Equation 9.3, page 212)
Consider the following 2 portfolios:
Portfolio A: European call on a stock + PV of the strike price in cash
Portfolio C: European put on the stock + the stock
Both are worth max(ST , K ) at the maturity of the options
They must therefore be worth the same today. This means that c + Ke -rT = p + S0
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

18. Arbitrage Opportunities
Suppose that
c = S0 = 31
T = r = 10%
K = D = 0
What are the arbitrage possibilities when p = 2.25 ? p = 1 ?
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

19. Put-Call Parity p = c + Ke -rT - S0 = 1.26
From Put-Call Parity: c + Ke -rT = p + S0 or
p = c + Ke -rT - S0 = 1.26
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

20. Arbitrage when p=2.25 Buy call for $3 Short Put to realize $2.25
Short the stock to realize $31
Invest $30.25 for 3 months
If ST > 30, receive $31.02 from investment, exercise call to buy stock for $ Net profit = $1.02
If ST < 30, receive $31.02 from investment, put exercised: buy the stock for $30.
Net profit = $1.02
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

21. Arbitrage when p=1 Borrow $29 for 3 months Short call to realize $3
Buy put for $1
Buy the stock for $31.
If ST > 30, call exercised: sell stock for $ Use $29.73 to repay the loan Net profit = $0.27
If ST < 30, exercise put to sell stock for $ Use to repay the loan Net profit = $0.27
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

22. Early Exercise
Usually there is some chance that an American option will be exercised early
An exception is an American call on a non-dividend paying stock
This should never be exercised early
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

23. An Extreme Situation For an American call option:
S0 = 100; T = 0.25; K = 60; D = 0
Should you exercise immediately?
What should you do if
you want to hold the stock for the next 3 months?
you do not feel that the stock is worth holding for the next 3 months?
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

24. Reasons For Not Exercising a Call Early (No Dividends)
No income is sacrificed
Payment of the strike price is delayed
Holding the call provides insurance against stock price falling below strike price
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

25. Should Puts Be Exercised Early ?
Are there any advantages to exercising an American put when
S0 = 60; T = 0.25; r=10%
K = 100; D = 0
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

26. The Impact of Dividends on Lower Bounds to Option Prices (Equations 9
The Impact of Dividends on Lower Bounds to Option Prices (Equations 9.5 and 9.6, pages )
Consider the following two portfolios:
Portfolio A: one European call option plus one amount of cash equal to D+Ke-rT,
Portfolio B: one share
Then, using the similar arguments as before:
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

27. The Impact of Dividends on Lower Bounds to Option Prices (Equations 9
The Impact of Dividends on Lower Bounds to Option Prices (Equations 9.5 and 9.6, pages )
Consider the following two portfolios:
Portfolio C: one European put option plus
one share,
Portfolio D: an amount of cash equal to D+ Ke-rT
Then, using the similar arguments as before:
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005

28. Put-Call Parity; Dividends (Equation 9.7, page 219)
Consider the following 2 portfolios:
Portfolio A: European call on a stock + PV of the strike price in cash + D
Portfolio C: European put on the stock + the stock
Both are worth max(ST , K ) at the maturity of the options
They must therefore be worth the same today. This means that c + D + Ke -rT = p + S0
Options, Futures, and Other Derivatives 6th Edition, Copyright © John C. Hull 2005