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CHAPTER 23 OPTIONS

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Title: CHAPTER 23 OPTIONS


1
CHAPTER 23 OPTIONS
  • Topics
  • 23.1 Background
  • 23.5 Stock Option Quotations
  • 23.2 - 23.4 Value of Call and Put Options at
    Expiration
  • 23.6 Combinations of Options
  • 23.7 Valuing Options
  • 23.8 An Option Pricing Formula


2
23.1 Background
  • A derivative security is simply a contract which
    has a value that is dependent upon (or derived
    from) the value of some other asset(s)
  • Derivatives that we consider in this course
  • Futures and forward contracts (Chapter 26)
  • Options
  • there are many different kinds of options stock
    options, index options, futures options, foreign
    exchange options, interest rate caps, callable
    bonds, convertible bonds, retractable/extendable
    bonds, etc.

3
Why option is important in corporate finance
  • Important financial markets besides stock and
    bond markets
  • Many employees are compensated in stock options
  • You need to what theyre worth
  • You need to know how their value might depend
    upon the actions chosen by those employees
  • Many corporate finance projects have implicit
    real options in them. A static valuation (i.e.,
    that ignores this option value) can give
    misleading results
  • In fact, almost any security can be thought of in
    terms of options (including stocks and corporate
    bonds)

4
Terminology
  • Option Gives the owner the right to buy or sell
    an asset on or before a specified date for a
    predetermined price
  • Call the right to buy (C)
  • Put the right to sell (P)

The underlying asset (Current price Spot price,
S)
Expiry date, T
Exercise price, K or X
5
Terminology contd
  • Owner of an option
  • Buy
  • Long position
  • Seller of an option
  • Short
  • Write
  • The act of buying or selling the underlying asset
    via the option contract is exercising the option
  • European options can only be exercised at the
    expiry date, while American options can be
    exercised at any time up to and including the
    expiry date
  • (unless otherwise stated, the options we
    consider will be European options)
  • Value of the option is called premium

Has a right
Has an obligation (A contingent obligation)
6
Terminology contd
  • Option contracts are either exchange-traded or
    available on a customized basis in the
    over-the-counter market
  • Standardized exchange-traded option contracts (on
    the CBOE)
  • Usually are for 100 options (1 contract)
  • Have strike prices 2.50 apart in the range of 5
    to 25, 5 apart in the range of 25 to 200, and
    10 apart for strike prices above 200
  • Expiration months are two near term months plus
    two additional months from the Jan, Feb, or Mar
    quarterly cycle
  • The expiration date is usually the Saturday
    following the third Friday of the expiration
    month (which is the last trading day)

7
23.5 Stock Option Quotations
RBCs Nov. 08 options
  • Strike strike price
  • Exp Expiry month
  • Bid the bid price (The price at which somebody
    bids to buy)
  • Ask the ask price (The price at which somebody
    asks to sell)
  • Open int. Open interest, or number of
    outstanding contracts (one contract usually
    equals 100 options)

8
Option quotations contd
  • Options are not usually protected against cash
    dividends but are protected against stock-splits
    and stock dividends
  • Suppose in Oct. you buy 1 call option of RY with
    expiry of Jan. and a strike of 30.
  • In Nov. RY pays 50 cash dividend.
  • In Nov. RY does a 21 split. Your 1 call option
    will become 2 options with strike price halved

9
23.2-4 Value of Options
Value of a Call Option at Expiration Date (T)
Example An option on a common stock ST
market price of the common stock on the
expiration date, T. Suppose the exercise price, X
8
Payoff on the expiration date (The third Friday in June) Payoff on the expiration date (The third Friday in June) Payoff on the expiration date (The third Friday in June)
ST gt 8, let ST 9 ST 8 ST lt 8 let ST 7
Call option value
  • If ST 9 at the expiry date, exercise option,
    purchase share at 8 and then sell share for 9.
    Payoff
  • C max(ST X, 0)

10
Value of a Put Option at Expiration Date (T)
  • A put. Exercise price X 11
  • If ST 10 at the expiry date, exercise option,
    purchase share at 10 and then sell share for
    11. Payoff
  • P max(X - ST, 0)

Payoff on the expiration date (The third Friday in Sept.) Payoff on the expiration date (The third Friday in Sept.) Payoff on the expiration date (The third Friday in Sept.)
ST gt 11, let ST 12 ST 11 ST lt 11 let ST 10
Put option value
11
Moneyness
  • an in the money option is one that would lead to
    a positive cash flow if exercised immediately
  • an at the money option is one that would lead to
    a zero cash flow if exercised immediately
  • an out of the money option is one that would lead
    to a negative cash flow if exercised immediately
  • Let X denote the strike price of the option and
    St denote the current price of the underlying
    asset

12
Value components
  • Intrinsic Value the intrinsic value of an option
    is the maximum of zero and the options immediate
    exercise value
  • Time Value
  • The difference between the option premium and the
    intrinsic value of the option.

Time value
Intrinsic Value
OPTION VALUE (PREMIUM)


E.g. (1) The Nov. RY 30 Call. Price 8.20.
Spot 37.10.
(2) The Nov. RY 30 Put. Price 1.05.
13
Option payoffs contd
Profit/loss from Buying a stock, e.g., at 15
Payoff
0
Share Price
15
-15
14
  • Payoff/profit of Long Call
  • Let X 15. Whats your payoff/profit of buying
    a call at T?
  • Payoff is just the final value of the option CT,
    profit takes the option premium into account.
  • When you long an option, you buy the option at a
    cost (the option premium)

20
15 35
Share Price
15
Payoff/profit to buy a Put option, given a 15
exercise price.
5
10 15
Share Price
16
The buyer and seller always have mirror image
payoffs
Long call
Share Price
15
  • Profit-
  • When you go short in an option, you sell the
    option (and receive premium)

17
Exercise
  • Plot the payoff/profit diagrams for (1) short
    stock (suppose the sell price is 15) and (2)
    selling put (suppose X 15).

18
23.6 Combinations of Options and stocks
  • Portfolios of stocks and options.
  • Firms and individuals portfolios (asset
    holdings) may consist of different options and
    stocks on the same underlying asset. These
    positions may offset each other or compound the
    payoff possibilities.
  • You want to combine them and consider the risk of
    changes in the price of the underlying asset to
    the aggregate portfolio.

19
  • Short call Long put with same strike and expiry
    (called synthetic short sale)
  • Equivalent to
  • Long Call Short put with same strike and expiry
    (let X 55)
  • Equivalent to

20
Writing a Covered Call Long stock short call
  • X 55, and cost of stock (S0) 55. Option
    premium 5.
  • Payoff and Profit

ST 45 50 55 60
Buy 1 share -5
Short 1 call 0
Total payoff -5
Profit 0 5 5
  • Long stock position covers or protects a trader
    from the payoff on the short call that becomes
    necessary if there is a sharp increase in stock
    price.

21
Covered call contd
  • Payoff and profit (When strike purchase price)
  • Break-even point
  • Maximum profit
  • What if strike ? purchase price?

22
Protective Put Long stock long put
  • Use puts to limit downside
  • Often used with index options to provide
    portfolio insurance
  • Let X 40, S040

ST 35 40 45 50
Buy 1 share 10
Buy 1 put 0
Total payoff 10
Profit 5

23
Protective put contd
Profit You start to make when Otherwise, you
lose at most P.
24
Straddle Buy 1 call and 1 put (same X, T)
  • e.g. S0 40, C 10, P 10, X 50

ST 35 40 40 45 50 55 60 65
Buy 1 call 0 0 0 10 15
Buy 1 put 10 5 5 0 0
Total payoff 10 5 5 10 15
Profit -10 -15 -15 -10 -5
25
Profit Diagram of Long Straddle
You do not make if
26
22.7 (Arbitrage) Bounds on Call Option
  • Objective derive restrictions on option values
    which (i) any reasonable option pricing model
    must satisfy and (ii) do not depend on any
    assumptions about the statistical distribution of
    the price of the underlying asset
  • To simplify matters, we will assume that no
    dividends are paid by the underlying asset during
    the life of the option
  • Lets look at a call only
  • Fact 1 A call option with a lower exercise price
    is worth more.
  • A call option with an exercise price of zero is
    effectively the same financial security as the
    stock itself.
  • An upper bound for the call option price is the
    price of the stock.

27
Contd
  • Fact 2 The option value is at least the payoff
    if exercised immediately
  • The action of exercising gives you the underlying
    asset
  • However, if you want the asset
  • If you exercise now you pay exercise price now
  • Or better, you can exercise on the expiry day and
    pay the exercise price later.
  • Equivalently, if you exercise immediately, you
    only need to pay the present value of (Exercise
    price)
  • Lower bound of call St PV(X)
  • Fact 3 As the stock price gets large (relative
    to exercise price)
  • the probability that the option expires worthless
    vanishes
  • the value of the call approaches
  • Value of stock PV (Exercise Price) St - X

28
Bounds for Call option
ST
Call
Time value
Intrinsic value
0
ST
PV(X)
The value of a call option Ct must fall within
Max(St PV(X),0) lt Ct lt St
29
Implications of Call Bounds
  • If St 0 then Ct 0.
  • If X 0 then Ct St.
  • If T-t 8, then Ct St.
  • For an American option, it is not optimal to
    exercise a call option before its expiry date (if
    the underlying stock will not pay any dividends
    over the life of the option).
  • Note that this implies that the value of an
    American call option will be equal to that of a
    corresponding European option (same underlying
    asset, X, T).

30
Its never optimal to exercise the American call
early
  • Why?
  • If you exercise a call at any time t, you receive
    the intrinsic value (St X)
  • But the option is always worth at least the
    intrinsic value.
  • Example St 60, T - t 3 months, X 55, r
    10
  • if you exercise you receive 5 but you lose
    time value of the call.
  • The option is worth at least
  • At least a dominant strategy is to put 55 in
    bank and wait until the expiry to exercise.
  • You get interest income on the 55.
  • If you want the underlying, hold the option and
    you can buy it any time you want.

31
Call bounds example
  • What is the lower bound for the price of a
    six-month call option on a non-dividend-paying
    stock when the stock price is 80, the strike
    price is 75, and the risk-free interest rate is
    10 percent per annum?

32
Arbitrage Bounds on Put Option Values
  • For put options, we will show that
  • X Pt max(0, X St)

33
Arbitrage Bounds on Put Option Values (contd)
34
Implications of Put Option Bounds
  • If St 0 then Pt X.
  • If X 0 then Pt 0.
  • For a European put,
  • and if T-t 8, then Pt 0.
  • It may be optimal to exercise an American put
    option before its expiry date, even if the
    underlying asset does not pay dividends during
    the life of the option (consider what happens if
    S ? 0)

35
An aside Continuously compounding
  • In option pricing, people generally use
    continuously compounding instead of discrete
    compounding that is used in Chapter 8.
  • Continuous compounding assumes that compounding
    period for effective return is as short as
    possible (think of milliseconds). A dollar with
    nominal return of r over a period of T will
    become the following continuous-time proceeds

where m is the compounding frequency.
36
European options Put-Call Parity (no dividends)
Suppose you buy one share of stock, buy one put
option on the stock, and sell one call option on
the stock (same X, T). Cashflow at expiry
ST lt X
1. Buy stock
2. Buy put
3. Write call
Cashflow at expiry
  • No matter what happens, you end up with a payoff
    of X
  • Todays value of your synthetic investments must
    equal PV(cf _at_ expiry)

37
Put-call parity contd
  • Given any three of risk free bond, stock, put,
    and call, the fourth can always be created
    synthetically. (In fact, this was done before
    1977 on the CBOE to construct puts)
  • Holding stock and put today is equal to holding a
    call the PV(X) amount of riskfree bond.
  • Note that the LHS is the value of protective put.
  • You can also use the profit graph of protective
    put to prove put-call parity

38
Put call parity with dividend paying stocks
  • We can also derive parity relationships when
    there are dividends paid by the underlying asset,
    when the options are American, etc.
  • In the case of European options on a stock paying
    known dividends before the expiry date, the
    result is
  • where It is the present value (at t) of the
    dividends paid before T

39
Put-call parity example 1
  • The price of a European call which expires in six
    months and has a strike price of 30 is 2. The
    underlying stock price is 29, and there is no
    dividend payment. The term structure is flat,
    with all risk-free interest rates being 10
    percent. What is the price of a European put
    option that expires in six months and has a
    strike price of 30?

40
Put-call parity example 2
  • Several years ago, the Australian firm Bond
    Corporation sold some land that it owned near
    Rome for 110 million and as a result boosted its
    reported earnings for that year by 74 million.
    The next year it was revealed that the buyer was
    given a put option to sell the land back to Bond
    for 110 million and also that Bond had paid 20
    million for a call option to repurchase the land
    for the same price of 110 million.
  • 1. What happens if the land is worth more than
    110 million when the options expire? What if it
    is worth less than 110 million?
  • 2. Assuming that the options expire in one year,
    what is the interest rate?
  • 3. Was it misleading to record a profit from
    selling the land?

41
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42
How do we value options?
  • Why the discounted cash flow approach will not
    work?
  • Expected cash flows?
  • Opportunity cost of capital?
  • We are going to use a replicating portfolio
    method
  • Owning the option is equivalent to owning some
    number of shares and borrowing money
  • Therefore the price of the option should be the
    same as the value of this replicating portfolio.

43
The Binomial Model (Two-State Option Pricing)
  • In order to use the replicating portfolio method,
    we need to make some assumptions about how the
    underlying stock behaves
  • The simplest possible setting is one in which
    there are only two possible outcomes of stock
    price at the expiry date of 1 period (binomial)
  • Also assume
  • the underlying stock wont pay a dividend over
    the life of the option
  • interest rates are constant over the life of the
    option

44
Example I
  • Lets assume a stocks current price is 25. It
    may go up (u) or down (d) by 15 next year, with
    equal probabilities.
  • The discount rate for the stock is 10.
  • The stock has a beta of 1.
  • T-bills are yielding 5.
  • A call option on the stock is traded on the NYSE.
    The strike price of this option is 25, and the
    maturity is one year.
  • What is the option worth?

45
The method Replicate the payoffs of the option
using only the stock and loan
  • Step 1 Find the payoffs of the option in both
    good and bad states.
  • Step 2 Choose the right number of shares to
    make the difference in outcomes equal to the
    option.
  • Step 3 Replicate the payoffs by adding the
    right size loan to your shares

46
Example contd Matching cash flows
Investment strategy State 1 (future price State 2 (future price
1. buy a call  
2.
(i) Buy 0.5(delta) shares of stock
(ii) Borrow 10.119 _at_ 5 a year
Total from replicating strategystrategy 2
Value of the option
47
A generalization of option replicating
portfolios deciding delta and loan
  • Form a portfolio with ? shares of stock and B
    borrowed or invested in the risk-free bond. The
    current value of the portfolio
  • V0 S0 ? B
  • The basic idea is to pick ? and B to replicate
    the payoffs of the call option at its expiry
  • The number of shares bought, ?, is called the
    hedge ratio or option delta
  • If B lt 0, then it is borrowing if B gt 0, then it
    is lending (investing in T-bills).

48
Solve for ? and B Graph representation
t 0
t 1
  • To match the cashflows

Note rf is interest rate for the length of one
period.
49
Contd
  • Solve for ?, B
  • (1) (2),
  • and
  • In words
  • ? (Spread of possible option prices)/ (Spread
    of possible stock prices)
  • In the previous example

50
Possibly more intuitive
  • You might think of option deltas as solving
  • (Option delta) (Spread in Share price)
    Spread in option price
  • That is, the delta scales the amount of
    variation in the stock price so that the spread
    of outcomes in your replicating portfolio is the
    same as in the option.
  • (The implicit loan in options) Note that we just
    showed the call option is like a levered version
    of stock.
  • Its like buying the stock bundled with
    personal debt.
  • Levered equity higher risk or higher beta.

51
Optional Example continued Call Options are
riskier than the stock.
  • Find the options beta.
  • C S0 ? B
  • Portfolio beta. (Answer 5.25)

52
Valuing the put option
  • Method 1 Same as before.
  • Find the options delta
  • Option Delta (Spread of possible option
    prices)/(Spread of possible stock prices)
  • Then find the bank loan that equates the payoff
    of option and the payoff of (stock position
    loan)
  • Method 2
  • Since we already have the call option value, just
    use put-call parity to infer the put option value.

53
  • Exercise Suppose Example I is a put option
    instead of a call. Use the binomial model to find
    its delta, replicate the payoffs, and find the
    value of the put.

Put graph here.
P S0 ? B
Interpret ? and B for put
54
Implication of irrelevance of the underlyings
expected return in the real world
  • The option value does not directly depend on
  • Probabilities and expected returns of the
    underlying
  • Individual preferences about risk aversion
  • If there are just options traded, expected return
    from the option payoffs should be the same, which
    is the riskfree rate.
  • Indirectly, these factors do affect the option
    value, but only by determining the current stock
    price S0
  • A very useful trick that can be used to simplify
    calculations is to exploit the fact that
    investors risk aversion doesnt matter and just
    assume that they are risk-neutral
  • In this case, all assets should earn the risk
    free rate of return
  • 1) Expected returns of stock riskfree rate
  • 2) Expected option payoffs option value (1
    riskfree rate)

55
Binomial option pricing risk neutral pricing
Let S1,u u S0 and S1,d d S0
  • The key is to find risk-neutral probabilities for
    stock price movements. Let q be the
    risk-neutral probability of an up move.
  • To find q, by meaning (1) of previous slide, we
    have

56
Risk neutral pricing
  • A minor bit of algebra yields
  • By meaning (2) of previous slide, value of option
    can now be derived as
  • A big advantage of risk-neutral pricing is we can
    circumvent the dynamic hedging nuisance in
    multi-period pricing.

57
Example of the Risk-Neutral Valuation of a Call
  • Suppose a stock is worth 25 today and in one
    period will either be worth 15 more or 15 less.
    The risk-free rate is 5 for one-period. What is
    the value of an at-the-money call option with a
    maturity of one-period?
  • The binomial tree

58
Example contd
  • Step 1 Compute risk neutral probabilities
  • Step 2 Find the value of the call in the up
    state and down state
  • Step 3 Find the value of the call at time 0.

59
Exercise
  • Suppose the option is a put in Example I. Use
    risk-neutrality to value the put. (You should be
    able to do this without the help of graphs.)

60
Expanding the binomial model to allow more
possible price changes
Binomial to Black Scholes
1 step 2 steps 4 steps
(2 outcomes) (3 outcomes) (5
outcomes) etc. etc.
61
The Black-Scholes Model
  • As the number of intervals N ??, underlying
    stock price follows a random walk with a positive
    growth rate.
  • In this case, solving the option value using the
    portfolio replicating method yields the famous
    Black-Scholes equations.
  • Solving the Black-Scholes equations for the basic
    version of European call options with no
    dividends yields the Black-Scholes formula

Where
62
Inputs to Black-Scholes
  • 5 inputs
  • X Strike
  • S Spot (current stock price)
  • s annual standard deviation of underlying
    stocks return
  • r continuously compounded annual risk free
    interest rate
  • T-t Time to maturity expressed as fraction of
    year
  • N(.) is the cumulative standard normal
    distribution function, i.e.,
  • N(d1) is the probability that a variable
    distributed normally with mean zero and standard
    deviation of one will be less than or equal to d1
  • Note that we dont need expected return of the
    underlying asset to figure out the stock option
    value.

63
Black-Scholes and Binomial Methods
  1. N(d1) is delta, the number of shares held in the
    replicating portfolio
  2. The amount borrowed is

64
Some properties of Standard Normal Distribution
N(d1 3) 0.9987 There is 99.87 probability
that a drawing from a standard normal
distribution will be below 3. N(0) 0.5,
N(8)1 N(-d1) 1 - N(d1) N(d1 0) 0.5
65
Table 23.3 Cumulative Probabilities of Standard
Normal Distn
d 0.00 0.01 0.02 0.03 0.09
0.00 0.0000 0.0040 0.0080 0.0120 0.0359
0.10
0.20 0.0793 0.0910


3.00 0.4987     0.4988   0.4990
N(0.23) N(-0.23) In excel, the function is
normsdist( ).
66
Linear Interpolation
  • N (-0.0886) ?
  • From Table 23.3
  • N ( - 0.08) 0.5 0.0319 0.4681
  • N ( - 0.09) 0.5 0.0359 0.4641
  • Linear interpolation
  • Exercise
  • N(0.0886)

67
Black-Scholes Value of Put
The corresponding Black-Scholes formula for puts
is
  • Exercise Prove that the B-S call and put
    formulae satisfy the put-call parity.

68
Example
Call option. Inputs T-t 0.25 (time to expiry 3
months), St 53, X 55, r .05, ? 0.30.
Whats the value of the call? (2.5895)
N(d2)
N(d1)
? C
69
Example contd
  • What is the value of the corresponding put
    option? (3.9063)


70
Factors determining option values
Volatility is probably the most important
consideration in options, since option value is
very sensitive to volatility.
71
The Black-Scholes Model with Dividends (European
options)
  • Options are protected against stock splits but
    not cash dividends.
  • Two possible adjustment to B-S value for
    dividends
  • 1. Discrete dividend payments
  • For options on a single stock, one approach is to
    assume that dividends are known up to the option
    expiry date. The underlying stock is then viewed
    as consisting of two components
  • A risk free series of dividends known up until T
  • The risky stock value
  • Effectively the spot price is lower from the
    perspective of option holder.
  • ? Replace in the B-S formula S with the new
    after-dividend S, i.e., with S PV(Dividend).

72
Example
  • S 50, X 45, s 20, rf 6, t 3 mths,
    div. 0.50
  • (payable in 2 mths)
  • Adjust the stock price
  • S 50 0.50 e(-0.06 2/12) 49.505
  • Recalculate the BS call value using S instead of
    S throughout. (C 5.494)

Div 2
X 45
S 50
0
3
2
73
  • 2. Continuous Dividend Yield
  • In some cases it is reasonable to assume that
    dividends are paid continuously as a known
    percentage of the value of the underlying asset.
  • Examples include stock indexes, foreign
    currencies and futures contracts
  • If an asset pays a continuous dividend yield q,
    we would do the similar adjustment.
  • Adjust back dividend to St
  • ? Replace St with

74
Example
  • S 50, X 45, s 20, rf 6, t 3 mths, q
    4
  • Adjust the stock price
  • S 50 e(-0.04 3/12) 49.502
  • Recalculate the BS call value using S instead
    of S throughout. ( C 5.491)

75
Review Questions
  • 1. Two stocks have identical firm-specific risks
    but different betas. All else being equal, a put
    option on the high-beta stock is worth more than
    one on the low-beta stock.

76
  • 2. Value of portfolio of options and option on
    portfolios
  • Suppose you have two stocks (stocks 1 and 2) in a
    portfolio. The return correlation of the two
    stocks is 0.5. Currently, stocks 1 and 2 are both
    trading at 20, and both stocks have same
    volatility. The weight of stock 1 in the
    portfolio is 0.5, and the weight of stock 2 is
    also 0.5.
  • There are three call options, written on stock 1,
    stock 2 and the portfolio respectively, all with
    same X and T.
  • Which option is the most expensive?
  • Which option is the least expensive?

77
  • Assigned problems 23.3, 5-7, 10, 13, 14, 17,
    19, 21, 24, 25, 26, 29, 32, 33

78
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