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Transcript of Complete English Presentation
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.1
Introduction
Chapter 1
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.2
The Nature of Derivatives
A derivative is an instrument whose value depends on the values of other more basic underlying variables
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.3
Examples of Derivatives
• Futures Contracts • Forward Contracts• Swaps• Options
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.4
Ways Derivatives are Used• To hedge risks• To speculate (take a view on the
future direction of the market)• To lock in an arbitrage profit• To change the nature of a liability• To change the nature of an investment
without incurring the costs of selling one portfolio and buying another
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.5
Futures Contracts• A futures contract is an agreement to
buy or sell an asset at a certain time in the future for a certain price
• By contrast in a spot contract there is an agreement to buy or sell the asset immediately (or within a very short period of time)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.6
Exchanges Trading Futures
• Chicago Board of Trade• Chicago Mercantile Exchange• LIFFE (London)• Eurex (Europe)• BM&F (Sao Paulo, Brazil)• TIFFE (Tokyo)• and many more (see list at end of book)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.7
Futures Price
• The futures prices for a particular contract is the price at which you agree to buy or sell
• It is determined by supply and demand in the same way as a spot price
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.8
Electronic Trading
• Traditionally futures contracts have been traded using the open outcry system where traders physically meet on the floor of the exchange
• Increasingly this is being replaced by electronic trading where a computer matches buyers and sellers
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.9
Examples of Futures Contracts• Agreement to:
– buy 100 oz. of gold @ US$400/oz. in December (COMEX)
– sell £62,500 @ 1.5000 US$/£ in March (CME)
– sell 1,000 bbl. of oil @ US$20/bbl. in April (NYMEX)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.10
Terminology• The party that has agreed
to buy has a long position• The party that has agreed
to sell has a short position
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.11Example
• January: an investor enters into a long futures contract on COMEX to buy 100 oz of gold @ $300 in April
• April: the price of gold $315 per oz
What is the investor’s profit?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.12
Over-the Counter Markets
• The over-the counter market is an important alternative to exchanges
• It is a telephone and computer-linked network of dealers who do not physically meet
• Trades are usually between financial institutions, corporate treasurers, and fund managers
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.13
Forward Contracts
• Forward contract are similar to futures except that they trade in the over-the-counter market
• Forward contracts are popular on currencies and interest rates
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.14
Foreign Exchange Quotes for GBP (See page 4)
Bid OfferSpot 1.5118 1.5122
1-month forward 1.5127 1.5132
3-month forward 1.5144 1.5149
6-month forward 1.5172 1.5178
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.15
Options
• A call option is an option to buy a certain asset by a certain date for a certain price (the strike price)
• A put option is an option to sell a certain asset by a certain date for a certain price (the strike price)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.16
American vs European Options
• An American options can be exercised at any time during its life
• A European option can be exercised only at maturity
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.17
Cisco Options (May 8, 2000; Stock Price=62.75); See page 5
Strike Price
July Call
Oct Call
July Put
Oct Put
50 16.87 18.87 2.69 4.62
65 7.00 10.87 8.25 10.62
80 2.00 5.00 17.50 19.50
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.18
Exchanges Trading Options
• Chicago Board Options Exchange• American Stock Exchange• Philadelphia Stock Exchange• Pacific Exchange• LIFFE (London)• Eurex (Europe)• and many more (see list at end of book)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.19
Options vs Futures/Forwards
• A futures/forward contract gives the holder the obligation to buy or sell at a certain price
• An option gives the holder the right to buy or sell at a certain price
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.20
Types of Traders• Hedgers
• Speculators
• Arbitrageurs
Some of the large trading losses in derivatives occurred because individuals who had a mandate to hedge risks switched to being speculators (See Chapter 21)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.21
Hedging Examples (pages 7-9)
• A US company will pay £10 million for imports from Britain in 3 months and decides to hedge using a long position in a forward contract
• An investor owns 1,000 Microsoft shares currently worth $73 per share. A two-month put with a strike price of $63 costs $2.50. The investor decides to hedge by buying 10 contracts
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.22
Speculation Example (pages 10-11)
• An investor with $4,000 to invest feels that Amazon.com’s stock price will increase over the next 2 months. The current stock price is $40 and the price of a 2-month call option with a strike of 45 is $2
• What are the alternative strategies?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.23
Arbitrage Example (pages 12-13)
• A stock price is quoted as £100 in London and $172 in New York
• The current exchange rate is 1.7500• What is the arbitrage opportunity?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.24
1. Gold: An Arbitrage Opportunity?
• Suppose that:– The spot price of gold is US$390– The quoted 1-year futures price of gold
is US$425– The 1-year US$ interest rate is 5% per
annum• Is there an arbitrage opportunity?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.25
2. Gold: Another Arbitrage Opportunity?
• Suppose that:– The spot price of gold is US$390– The quoted 1-year futures price
of gold is US$390– The 1-year US$ interest rate is
5% per annum• Is there an arbitrage opportunity?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.26
The Futures Price of GoldIf the spot price of gold is S & the futures price is for a contract deliverable in T years is F, then
F = S (1+r )T
where r is the 1-year (domestic currency) risk-free rate of interest.In our examples, S=390, T=1, and r=0.05 so that
F = 390(1+0.05) = 409.50
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.27
1. Oil: An Arbitrage Opportunity?
Suppose that:– The spot price of oil is US$19– The quoted 1-year futures price of
oil is US$25– The 1-year US$ interest rate is 5%
per annum– The storage costs of oil are 2% per
annum• Is there an arbitrage opportunity?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
1.28
2. Oil: Another Arbitrage Opportunity?
• Suppose that:– The spot price of oil is US$19– The quoted 1-year futures price of
oil is US$16– The 1-year US$ interest rate is 5%
per annum– The storage costs of oil are 2% per
annum• Is there an arbitrage opportunity?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.1
Mechanics of Futures and Forward Markets
Chapter 2
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.2
Futures Contracts
• Available on a wide range of underlyings• Exchange traded• Specifications need to be defined:
– What can be delivered,– Where it can be delivered, & – When it can be delivered
• Settled daily
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.3
Margins
• A margin is cash or marketable securities deposited by an investor with his or her broker
• The balance in the margin account is adjusted to reflect daily settlement
• Margins minimize the possibility of a loss through a default on a contract
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.4
Example of a Futures Trade
• An investor takes a long position in 2 December gold futures contracts on June 5– contract size is 100 oz.– futures price is US$400– margin requirement is US$2,000/contract
(US$4,000 in total)– maintenance margin is US$1,500/contract
(US$3,000 in total)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.5
A Possible OutcomeTable 2.1, Page 21
DailyFutures GainPrice (Loss)
Day (US$) (US$)
Cumulative MarginGain Account Margin
(Loss) Balance Call(US$) (US$) (US$)
400.00 4,000
5-Jun 397.00 (600) (600) 3,400 0. . . . . .. . . . . .. . . . . .
13-Jun 393.30 (420) (1,340) 2,660 1,340. . . . . .. . . . .. . . . . .
19-Jun 387.00 (1,140) (2,600) 2,740 1,260. . . . . .. . . . . .. . . . . .
26-Jun 392.30 260 (1,540) 5,060 0
+
= 4,0003,000
+
= 4,000
<
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.6
Other Key Points About Futures
• They are settled daily• Closing out a futures position
involves entering into an offsetting trade
• Most contracts are closed out before maturity
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.7
Delivery
• If a contract is not closed out before maturity, it usually settled by delivering the assets underlying the contract. When there are alternatives about what is delivered, where it is delivered, and when it is delivered, the party with the short position chooses.
• A few contracts (for example, those on stock indices and Eurodollars) are settled in cash
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.8
Some Terminology
• Open interest: the total number of contracts outstanding – equal to number of long positions or
number of short positions• Settlement price: the price just before the
final bell each day – used for the daily settlement process
• Volume of trading: the number of trades in 1 day
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.9
Convergence of Futures to Spot (Figure 2.1, page 20)
FuturesPrice
Spot Price FuturesPrice
Spot Price
Time Time
(a) (b)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.10
Questions
• When a new trade is completed what are the possible effects on the open interest?
• Can the volume of trading in a day be greater than the open interest?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.11
Regulation of Futures• Regulation is designed to
protect the public interest• Regulators try to prevent
questionable trading practices by either individuals on the floor of the exchange or outside groups
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.12
Accounting & Tax• If a contract is used for
– Hedging: it is logical to recognize profits (losses) at the same time as on the item being hedged
– Speculation: it is logical to recognize profits (losses) on a mark to market basis
• Roughly speaking, this is what the treatment of futures in the U.S.and many other countries attempts to achieve
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.13
Forward Contracts• A forward contract is an
agreement to buy or sell an asset at a certain time in the future for a certain price
• There is no daily settlement. At the end of the life of the contract one party buys the asset for the agreed price from the other party
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.14
How a Forward Contract Works
• The contract is an over-the-counter (OTC) agreement between 2 companies
• No money changes hands when first negotiated & the contract is settled at maturity
• The initial value of the contract is zero
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.15
The Forward Price
• The forward price for a contract is the delivery price that would be applicable to the contract if were negotiated today (i.e., it is the delivery price that would make the contract worth exactly zero)
• The forward price may be different for contracts of different maturities
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.16Example Table 2.5, Page 36
• Investor A enters into a long forward contract to buy £1,000,000 @ 1.8381 US$/£ in 90 days
• Investor B enters into a long futures contract to buy £1,000,000 @ 1.8381 US$/£ in 90 days
• The exchange rate is 1.8600 US$/£ in 90 days• Investor A makes a profit of $21,900 on day 90• Investor B makes a profit of $21,900 over the
90 day period
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.17
Profit from aLong Forward Position
Profit
Price of Underlyingat Maturity
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.18
Profit from a Short Forward Position
Profit
Price of Underlyingat Maturity
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.19
Forward Contracts vs Futures Contracts
TABLE 2.4 (p. 34)
FORWARDS FUTURES
Private contract between 2 parties Exchange traded
Non-standard contract Standard contract
Usually 1 specified delivery date Range of delivery dates
Settled at maturity Settled daily
Delivery or final cashsettlement usually occurs
Contract usually closed outprior to maturity
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
2.20
Foreign Exchange Quotes• Futures exchange rates are quoted as the
number of USD per unit of the foreign currency• Forward exchange rates are quoted in the same
way as spot exchange rates. This means that GBP, EUR, AUD, and NZD are USD per unit of foreign currency. Other currencies (e.g., CAD and JPY) are quoted as units of the foreign currency per USD.
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.1
Determination of Forward and
Futures Prices
Chapter 3
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.2
Consumption vs Investment Assets
• Investment assets are assets held by significant numbers of people purely for investment purposes (Examples: gold, silver)
• Consumption assets are assets held primarily for consumption (Examples: copper, oil)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.3
Short Selling (Page 40-42)
• Short selling involves selling securities you do not own
• Your broker borrows the securities from another client and sells them in the market in the usual way
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.4
Short Selling(continued)
• At some stage you must buy the securities back so they can be replaced in the account of the client
• You must pay dividends and other benefits the owner of the securities receives
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.5
Measuring Interest Rates
• The compounding frequency used for an interest rate is the unit of measurement
• The difference between quarterly and annual compounding is analogous to the difference between miles and kilometers
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.6
Continuous Compounding(Page 43)
• In the limit as we compound more and more frequently we obtain continuously compounded interest rates
• $100 grows to $100eRT when invested at a continuously compounded rate R for time T
• $100 received at time T discounts to $100e-RT
at time zero when the continuously compounded discount rate is R
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.7
Conversion Formulas(Page 43)
DefineRc : continuously compounded rateRm: same rate with compounding m times
per year
( )R m
Rm
R m e
cm
mR mc
= +⎛⎝⎜
⎞⎠⎟
= −
ln
/
1
1
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.8
Notation
S0: Spot price today
F0: Futures or forward price today
T: Time until delivery date
r: Risk-free interest rate for maturity T
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.9
Gold Example (From Slide 1.26)
• For gold
F0 = S0(1 + r )T
(assuming no storage costs)• If r is compounded continuously instead
of annually
F0 = S0erT
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.10
Extension of the Gold Example(Page 46, equation 3.5)
• For any investment asset that provides no income and has no storage costs
F0 = S0erT
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.11When an Investment Asset Provides a Known Dollar
Income (page 49, equation 3.6)
F0 = (S0 – I )erT
where I is the present value of the income
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.12
When an Investment Asset Provides a Known Yield
(Page 51, equation 3.7)
F0 = S0 e(r–q )T
where q is the average yield during the life of the contract (expressed with continuous compounding)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.13
Valuing a Forward ContractPage 51
• Suppose that K is delivery price in a forward contract & F0 is forward price that would apply to the contract today
• The value of a long forward contract, ƒ, is ƒ = (F0 – K )e–rT
• Similarly, the value of a short forward contract is
(K – F0 )e–rT
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3.14
Forward vs Futures Prices• Forward and futures prices are usually assumed
to be the same. When interest rates are uncertain they are, in theory, slightly different:
• A strong positive correlation between interest rates and the asset price implies the futures price is slightly higher than the forward price
• A strong negative correlation implies the reverse
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.15
Stock Index (Page 55)
• Can be viewed as an investment asset paying a dividend yield
• The futures price and spot price relationship is therefore
F0 = S0 e(r–q )T
where q is the dividend yield on the portfolio represented by the index
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.16
Stock Index(continued)
• For the formula to be true it is important that the index represent an investment asset
• In other words, changes in the index must correspond to changes in the value of a tradable portfolio
• The Nikkei index viewed as a dollar number does not represent an investment asset
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.17
Index Arbitrage
• When F0>S0e(r-q)T an arbitrageur buys the stocks underlying the index and sells futures
• When F0<S0e(r-q)T an arbitrageur buys futures and shorts or sells the stocks underlying the index
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.18
Index Arbitrage(continued)
• Index arbitrage involves simultaneous trades in futures and many different stocks
• Very often a computer is used to generate the trades
• Occasionally (e.g., on Black Monday) simultaneous trades are not possible and the theoretical no-arbitrage relationship between F0 and S0 does not hold
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3.19
Futures and Forwards on Currencies (Page 57-59)
• A foreign currency is analogous to a security providing a dividend yield
• The continuous dividend yield is the foreign risk-free interest rate
• It follows that if rf is the foreign risk-free interest rate
F S e r r Tf0 0= −( )
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.20
Futures on Consumption Assets(Page 62)
F0 ≤ S0 e(r+u )T
where u is the storage cost per unit time as a percent of the asset value.Alternatively,
F0 ≤ (S0+U )erT
where U is the present value of the storage costs.
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.21
The Cost of Carry (Page 63)
• The cost of carry, c, is the storage cost plus the interest costs less the income earned
• For an investment asset F0 = S0ecT
• For a consumption asset F0 ≤ S0ecT
• The convenience yield on the consumption asset, y, is defined so that F0 = S0 e(c–y )T
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.22
Futures Prices & Expected Future Spot Prices (Page 64)
• Suppose k is the expected return required by investors on an asset
• We can invest F0e–r T now to get STback at maturity of the futures contract
• This shows that
F0 = E (ST )e(r–k )T
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
3.23Futures Prices & Future Spot
Prices (continued) • If the asset has
– no systematic risk, thenk = r and F0 is an unbiased estimate of ST
– positive systematic risk, thenk > r and F0 < E (ST )
– negative systematic risk, thenk < r and F0 > E (ST )
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.1
Hedging Strategies Using Futures
Chapter 4
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4.2
Long & Short Hedges
• A long futures hedge is appropriate when you know you will purchase an asset in the future and want to lock in the price
• A short futures hedge is appropriate when you know you will sell an asset in the future & want to lock in the price
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.3
Arguments in Favor of Hedging
• Companies should focus on the main business they are in and take steps to minimize risks arising from interest rates, exchange rates, and other market variables
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.4
Arguments against Hedging
• Shareholders are usually well diversified and can make their own hedging decisions
• It may increase risk to hedge when competitors do not
• Explaining a situation where there is a loss on the hedge and a gain on the underlying can be difficult
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.5
Convergence of Futures to Spot
FuturesPrice
Spot Price FuturesPrice
Spot Price
Time Time
(a) (b)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.6
Basis Risk
• Basis is the difference between spot & futures
• Basis risk arises because of the uncertainty about the basis when the hedge is closed out
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.7
Long Hedge • Suppose that
F1 : Initial Futures PriceF2 : Final Futures PriceS2 : Final Asset Price
• You hedge the future purchase of an asset by entering into a long futures contract
• Cost of Asset=S2 –(F2 – F1) = F1 + Basis
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.8
Short Hedge
• Suppose thatF1 : Initial Futures PriceF2 : Final Futures PriceS2 : Final Asset Price
• You hedge the future sale of an asset by entering into a short futures contract
• Price Realized=S2+ (F1 –F2) = F1 + Basis
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.9
Choice of Contract
• Choose a delivery month that is as close as possible to, but later than, the end of the life of the hedge
• When there is no futures contract on the asset being hedged, choose the contract whose futures price is most highly correlated with the asset price. There are then 2 components to basis
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.10
Optimal Hedge RatioProportion of the exposure that should optimally be hedged is
where σS is the standard deviation of δS, the change in the spot price during the hedging period, σF is the standard deviation of δF, the change in the futures price during the hedging periodρ is the coefficient of correlation between δS and δF.
h S
F
= ρσσ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.11
Hedging Using Index Futures(Page 87)
• To hedge the risk in a portfolio the number of contracts that should be shorted is
• where P is the value of the portfolio, β is its beta, and A is the value of the assets underlying one futures contract
βPA
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.12
Reasons for Hedging an Equity Portfolio
• Desire to be out of the market for a short period of time. (Hedging may be cheaper than selling the portfolio and buying it back.)
• Desire to hedge systematic risk (Appropriate when you feel that you have picked stocks that will outpeformthe market.)
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4.13
Example
Value of S&P 500 is 1,000Value of Portfolio is $5 millionBeta of portfolio is 1.5
What position in futures contracts on the S&P 500 is necessary to hedge the portfolio?
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
4.14
Changing Beta
• What position is necessary to reduce the beta of the portfolio to 0.75?
• What position is necessary to increase the beta of the portfolio to 2.0?
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4.15
Rolling The Hedge Forward
• We can use a series of futures contracts to increase the life of a hedge
• Each time we switch from 1 futures contract to another we incur a type of basis risk
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.1
Interest Rate Markets
Chapter 5
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.2
Types of Rates
• Treasury rates• LIBOR rates• Repo rates
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.3
Zero Rates
A zero rate (or spot rate), for maturity Tis the rate of interest earned on an investment that provides a payoff only at time T
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5.4
Example (Table 5.1, page 101)
M aturity(years)
Zero R ate(% cont com p)
0.5 5.0
1.0 5.8
1.5 6.4
2.0 6.8
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.5
Bond Pricing
• To calculate the cash price of a bond we discount each cash flow at the appropriate zero rate
• In our example, the theoretical price of a two-year bond providing a 6% coupon semiannually is
3 3 3103 98 39
0 05 0 5 0 058 1 0 0 064 1 5
0 068 2 0
e e ee
− × − × − ×
− ×
+ +
+ =
. . . . . .
. . .
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5.6
Bond Yield• The bond yield is the discount rate that
makes the present value of the cash flows on the bond equal to the market price of the bond
• Suppose that the market price of the bond in our example equals its theoretical price of 98.39
• The bond yield is given by solving
to get y=0.0676 or 6.76%.3 3 3 103 98 390 5 1 0 1 5 2 0e e e ey y y y− × − × − × − ×+ + + =. . . . .
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.7
Par Yield• The par yield for a certain maturity is the
coupon rate that causes the bond price to equal its face value.
• In our example we solve
g)compoundin s.a.(with 876get to
1002
100
2220.2068.0
5.1064.00.1058.05.005.0
.c=
ec
ececec
=⎟⎠⎞
⎜⎝⎛ ++
++
×−
×−×−×−
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5.8
Par Yield continued
In general if m is the number of coupon payments per year, P is the present value of $1 received at maturity and A is the present value of an annuity of $1 on each coupon date
cP m
A=
−( )100 100
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5.9
Sample Data (Table 5.2, page 102)
BondPrincipal(dollars)
Time toMaturity(years)
AnnualCoupon(dollars)
BondPrice
(dollars)
100
100
100
100
100
0.25
0.50
1.00
1.50
2.00
0
0
0
8
12
97.5
94.9
90.0
96.0
101.6
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.10
The Bootstrap Method
• An amount 2.5 can be earned on 97.5 during 3 months.
• The 3-month rate is 4 times 2.5/97.5 or 10.256% with quarterly compounding
• This is 10.127% with continuous compounding
• Similarly the 6 month and 1 year rates are 10.469% and 10.536% with continuous compounding
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5.11
The Bootstrap Method continued
• To calculate the 1.5 year rate we solve
to get R = 0.10681 or 10.681%
• Similarly the two-year rate is 10.808%
9610444 5.10.110536.05.010469.0 =++ ×−×−×− Reee
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5.12
Zero Curve Calculated from the Data (Figure 5.1, page 104)
9
10
11
12
0 0.5 1 1.5 2 2.5
Zero Rate (%)
Maturity (yrs)
10.127
10.469 10.53610.681 10.808
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5.13
Forward Rates
The forward rate is the future zero rate implied by today’s term structure of interest rates
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.14Calculation of Forward Rates
Table 5.4, page 104
Zero Rate for Forward Ratean n -year Investment for n th Year
Year (n ) (% per annum) (% per annum)
1 10.02 10.5 11.03 10.8 11.44 11.0 11.65 11.1 11.5
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.15
Formula for Forward Rates
• Suppose that the zero rates for time periods T1 and T2 are R1 and R2 with both rates continuously compounded.
• The forward rate for the period between times T1 and T2 is
R T R TT T
2 2 1 1
2 1
−−
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.16
Upward vs Downward SlopingYield Curve
• For an upward sloping yield curve:Fwd Rate > Zero Rate > Par Yield
• For a downward sloping yield curvePar Yield > Zero Rate > Fwd Rate
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5.17
Forward Rate Agreement
• A forward rate agreement (FRA) is an agreement that a certain rate will apply to a certain principal during a certain future time period
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5.18
Forward Rate Agreementcontinued (Page 106)
• An FRA is equivalent to an agreement where interest at a predetermined rate, RK is exchanged for interest at the market rate
• An FRA can be valued by assuming that the forward interest rate is certain to be realized
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.19
Theories of the Term StructurePages 107-108
• Expectations Theory: forward rates equal expected future zero rates
• Market Segmentation: short, medium and long rates determined independently of each other
• Liquidity Preference Theory: forward rates higher than expected future zero rates
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.20
Day Count Conventions in the U.S. (Page 108)
Treasury Bonds:Corporate Bonds:
Money Market Instruments:
Actual/Actual (in period)30/360Actual/360
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5.21
Treasury Bond Price Quotesin the U.S
Cash price = Quoted price + Accrued Interest
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5.22
Treasury Bill Quote in the U.S.
If Y is the cash price of a Treasury bill that has n days to maturity the quoted price is
360100
nY( )−
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5.23
Treasury Bond FuturesPage 110
Cash price received by party with short position = Quoted futures price × Conversion factor + Accrued interest
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5.24
Conversion Factor
The conversion factor for a bond is approximately equal to the value of the bond on the assumption that the yield curve is flat at 6% with semiannual compounding
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5.25
CBOTT-Bonds & T-Notes
Factors that affect the futures price:– Delivery can be made any time
during the delivery month– Any of a range of
eligible bonds can be delivered– The wild card play
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.26
Eurodollar Futures (Page 116)
• If Z is the quoted price of a Eurodollar futures contract, the value of one contract is 10,000[100-0.25(100-Z)]
• A change of one basis point or 0.01 in a Eurodollar futures quote corresponds to a contract price change of $25
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5.27
Eurodollar Futures continued
• A Eurodollar futures contract is settled in cash
• When it expires (on the third Wednesday of the delivery month) Z is set equal to 100 minus the 90 day Eurodollar interest rate (actual/360) and all contracts are closed out
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.28
Forward Rates and Eurodollar Futures (Page 117)
• Eurodollar futures contracts last out to 10 years
• For Eurodollar futures lasting beyond two years we cannot assume that the forward rate equals the futures rate
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.29Forward Rates and Eurodollar
Futures continued A " convexity adjustment" often made is
Forward rate = Futures rate
where is the time to maturity of the futures contract, is the maturity of the rate underlying the futures contract(90 days later than ) and is thestandard deviation of the short rate changesper year (typically is about
−12
0 012
21 2
1
2
1
σ
σ
σ
t t
tt
t
. )
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.30
Duration • Duration of a bond that provides cash flow c i at time t i is
where B is its price and y is its yield (continuously compounded)
• This leads to
t c eBi
i
ni
yt i
=
−
∑⎡
⎣⎢
⎤
⎦⎥
1
yDBδ−=
δB
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
5.31
Duration Continued• When the yield y is expressed with
compounding m times per year
• The expression
is referred to as the “modified duration”
myyBDB
+δ
−=δ1
Dy m1 +
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5.32
Duration Matching
• This involves hedging against interest rate risk by matching the durations of assets and liabilities
• It provides protection against small parallel shifts in the zero curve
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.1
Swaps
Chapter 6
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6.2
Nature of Swaps
A swap is an agreement to exchange cash flows at specified future times according to certain specified rules
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6.3
An Example of a “Plain Vanilla” Interest Rate Swap
• An agreement by Microsoft to receive 6-month LIBOR & pay a fixed rate of 5% per annum every 6 months for 3 years on a notional principal of $100 million
• Next slide illustrates cash flows
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.4Cash Flows to Microsoft
(See Table 6.1, page 135)
---------Millions of Dollars---------LIBOR FLOATING FIXED Net
Date Rate Cash Flow Cash Flow Cash FlowMar.5, 2001 4.2%
Sept. 5, 2001 4.8% +2.10 –2.50 –0.40Mar.5, 2002 5.3% +2.40 –2.50 –0.10
Sept. 5, 2002 5.5% +2.65 –2.50 +0.15Mar.5, 2003 5.6% +2.75 –2.50 +0.25
Sept. 5, 2003 5.9% +2.80 –2.50 +0.30Mar.5, 2004 6.4% +2.95 –2.50 +0.45
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.5
Typical Uses of anInterest Rate Swap
• Converting an investment from – fixed rate to
floating rate– floating rate to
fixed rate
• Converting a liability from– fixed rate to
floating rate – floating rate to
fixed rate
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.6Intel and Microsoft (MS) Transform a Liability
(Figure 6.2, page 136)
5%
Intel MSLIBOR+0.1%
5.2%
LIBOR
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.7Financial Institution is
Involved(Figure 6.4, page 137)
4.985% 5.015%
F.I.5.2%
Intel
LIBORLIBOR+0.1%
MS
LIBOR
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.8Intel and Microsoft (MS)
Transform an Asset(Figure 6.3, page 137)
5%
Intel MSLIBOR-0.25%
4.7%
LIBOR
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.9Financial Institution is
Involved(See Figure 6.5, page 138)
4.985% 5.015%
Intel F.I.4.7%
MS
LIBOR
LIBOR-0.25%
LIBOR
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.10
The Comparative Advantage Argument (Table 6.4, page 140)
• AAACorp wants to borrow floating
• BBBCorp wants to borrow fixed
Fixed Floating
AAACorp 10.00% 6-month LIBOR + 0.30%
BBBCorp 11.20% 6-month LIBOR + 1.00%
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.11
The Swap (Figure 6.6, page 140)
9.95%
AAA BBBLIBOR+1%
10%
LIBOR
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.12
The Swap when a Financial Institution is Involved
(Figure 6.7, page 141)
AAA F.I. BBB
LIBOR
9.93%
LIBOR
LIBOR+1%
9.97%10%
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.13
Criticism of the Comparative Advantage Argument
• The 10.0% and 11.2% rates available to AAACorp and BBBCorp in fixed rate markets are 5-year rates
• The LIBOR+0.3% and LIBOR+1% rates available in the floating rate market are six-month rates
• BBBCorp’s fixed rate depends on the spread above LIBOR it borrows at in the future
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.14
Valuation of an Interest Rate Swap
• Interest rate swaps can be valued as the difference between the value of a fixed-rate bond and the value of a floating-rate bond
• Alternatively, they can be valued as a portfolio of forward rate agreements (FRAs)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.15
Valuation in Terms of Bonds
• The fixed rate bond is valued in the usual way
• The floating rate bond is valued by noting that it is worth par immediately after the next payment date
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.16
Valuation in Terms of FRAs
• Each exchange of payments in an interest rate swap is an FRA
• The FRAs can be valued on the assumption that today’s forward rates are realized
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.17
An Example of a Currency Swap
An agreement to pay 11% on a sterling principal of £10,000,000 & receive 8% on a US$ principal of $15,000,000 every year for 5 years
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.18
Exchange of Principal
• In an interest rate swap the principal is not exchanged
• In a currency swap the principal is exchanged at the beginning and the end of the swap
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.19
The Cash Flows (Table 6.7, page 149)
Year
Dollars Pounds$
------millions------2001 –15.00 +10.002002 +1.20 –1.102003 +1.20 –1.102004 +1.20 –1.102005 +1.20 –1.102006 +16.20 -11.10
£
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.20
Typical Uses of a Currency Swap
• Conversion from a liability in one currency to a liability in another currency
• Conversion from an investment in one currency to an investment in another currency
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
6.21
Comparative Advantage Arguments for Currency Swaps
(Table 6.9, page 150)General Motors wants to borrow AUDQantas wants to borrow USD
USD AUD
General Motors 5.0% 12.6%Qantas 7.0% 13.0%
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6.22
Valuation of Currency Swaps
Like interest rate swaps, currency swaps can be valued either as the difference between 2 bonds or as a portfolio of forward contracts
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6.23
Swaps & Forwards• A swap can be regarded as a
convenient way of packaging forward contracts
• The “plain vanilla” interest rate swap in our example consisted of 6 FRAs
• The “fixed for fixed” currency swap in our example consisted of a cash transaction & 5 forward contracts
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6.24
Swaps & Forwards(continued)
• The value of the swap is the sum of the values of the forward contracts underlying the swap
• Swaps are normally “at the money” initially– This means that it costs nothing to enter
into a swap– It does not mean that each forward
contract underlying a swap is “at the money” initially
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6.25
Credit Risk
• A swap is worth zero to a company initially
• At a future time its value is liable to be either positive or negative
• The company has credit risk exposure only when its value is positive
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.1
Mechanics of Options Markets
Chapter 7
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7.2
Types of Options
• A call is an option to buy• A put is an option to sell• A European option can be exercised
only at the end of its life• An American option can be exercised at
any time
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7.3
Option Positions
• Long call• Long put• Short call• Short put
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.4
Long Call on Microsoft (Figure 7.1, Page 161)
Profit from buying a Microsoft European call option: option price = $5, strike price = $100, option life = 2 months
30
20
10
0-5
70 80 90 100
110 120 130
Profit ($)
Terminalstock price ($)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.5
Short Call on Microsoft (Figure 7.3, page 163)
Profit from writing a Microsoft European call option: option price = $5, strike price = $100
-30
-20
-10
05
70 80 90 100
110 120 130
Profit ($)
Terminalstock price ($)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.6
Long Put on Oracle (Figure 7.2, page 162)
Profit from buying an Oracle European put option: option price = $7, strike price = $70
30
20
10
0-7
70605040 80 90 100
Profit ($)
Terminalstock price ($)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.7
Short Put on Oracle (Figure 7.4, page 164)
Profit from writing an Oracle European put option: option price = $7, strike price = $70
-30
-20
-10
70
70
605040
80 90 100
Profit ($)Terminal
stock price ($)
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.8Payoffs from Options
What is the Option Position in Each Case?X = Strike price, ST = Price of asset at maturity
Payoff Payoff
ST STXX
Payoff Payoff
ST STXX
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.9Assets Underlying
Exchange-Traded OptionsPage 165-166
• Stocks• Foreign Currency• Stock Indices• Futures
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7.10
Specification ofExchange-Traded Options
• Expiration date• Strike price• European or American• Call or Put (option class)
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7.11
Terminology
Moneyness :–At-the-money option–In-the-money option–Out-of-the-money option
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7.12
Terminology(continued)
• Option class• Option series• Intrinsic value• Time value
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.13
Dividends & Stock Splits (Page 168-169)
• Suppose you own N options with a strike price of X :– No adjustments are made to the option
terms for cash dividends– When there is an n-for-m stock split,
• the strike price is reduced to mX/n• the no. of options is increased to nN/m
– Stock dividends are handled in a manner similar to stock splits
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7.14
Dividends & Stock Splits(continued)
• Consider a call option to buy 100 shares for $20/share
• How should terms be adjusted:– for a 2-for-1 stock split?– for a 5% stock dividend?
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7.15
Market Makers
• Most exchanges use market makers to facilitate options trading
• A market maker quotes both bid and ask prices when requested
• The market maker does not know whether the individual requesting the quotes wants to buy or sell
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.16
Margins (Page 173-174)
• Margins are required when options are sold• When a naked option is written the margin is the
greater of:1 A total of 100% of the proceeds of the sale plus
20% of the underlying share price less the amount (if any) by which the option is out of the money
2 A total of 100% of the proceeds of the sale plus 10% of the underlying share price
• For other trading strategies there are special rules
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.17
Warrants
• Warrants are options that are issued (or written) by a corporation or a financial institution
• The number of warrants outstanding is determined by the size of the original issue & changes only when they are exercised or when they expire
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.18
Warrants(continued)
• Warrants are traded in the same way as stocks
• The issuer settles up with the holder when a warrant is exercised
• When call warrants are issued by a corporation on its own stock, exercise will lead to new treasury stock being issued
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.19
Executive Stock Options
• Option issued by a company to executives
• When the option is exercised the company issues more stock
• Usually at-the-money when issued
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.20
Executive Stock Options continued
• They become vested after a period ottime
• They cannot be sold• They often last for as long as 10 or 15
years
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7.21
Convertible Bonds
• Convertible bonds are regular bonds that can be exchanged for equity at certain times in the future according to a predetermined exchange ratio
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
7.22
Convertible Bonds(continued)
• Very often a convertible is callable• The call provision is a way in which
the issuer can force conversion at a time earlier than the holder might otherwise choose
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.1
Properties ofStock Option Prices
Chapter 8
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.2
Notation• 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
• c : European call option price
• p : European put option price
• S0 : Stock price today• X : Strike price• T : Life of option • σ: Volatility of stock
price
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.3Effect of Variables on Option
Pricing (Table 8.1, page 183)
c p C PVariableS0XTσrD
+ + –+
? ? + ++ + + ++ – + –
–– – +
– + – +
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8.4
American vs European Options
An American option is worth at least as much as the corresponding European option
C ≥ cP ≥ p
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8.5Calls: An Arbitrage
Opportunity?
• Suppose that c = 3 S0 = 20 T = 1 r = 10% X = 18 D = 0
• Is there an arbitrage opportunity?
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8.6
Lower Bound for European Call Option Prices; No Dividends
(Equation 8.1, page 188)
c ≥ S0 –Xe -rT
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.7Puts: An Arbitrage
Opportunity?• Suppose that
p = 1 S0 = 37 T = 0.5 r =5% X = 40 D = 0
• Is there an arbitrage opportunity?
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8.8Lower Bound for European
Put Prices; No Dividends (Equation 8.2, page 189)
p ≥ Xe -rT–S0
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.9
Put-Call Parity; No Dividends (Equation 8.3, page 191)
• 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 , X ) at the maturity of the options
• They must therefore be worth the same today– This means that
c + Xe -rT = p + S0
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8.10
Arbitrage Opportunities• Suppose that
c = 3 S0 = 31 T = 0.25 r = 10% X =30 D = 0
• What are the arbitrage possibilities when
p = 2.25 ?p = 1 ?
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8.11
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
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8.12
An Extreme Situation• For an American call option:S0 = 100; T = 0.25; X = 60; D = 0
Should you exercise immediately?• What should you do if
1 You want to hold the stock for the next 3 months?
2 You do not feel that the stock is worth holding for the next 3 months?
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8.13Reasons For Not Exercising a
Call Early(No Dividends)
• No income is sacrificed• We delay paying the strike price• Holding the call provides
insurance against stock price falling below strike price
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8.14
Should Puts Be Exercised Early ?
Are there any advantages to exercising an American put whenS0 = 60; T = 0.25; r=10%X = 100; D = 0
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8.15The Impact of Dividends on
Lower Bounds to Option Prices(Equations 8.5 and 8.6, page 196)
rTXeDSc −−−≥ 0
0SXeDp rT −+≥ −
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
8.16
Extensions of Put-Call Parity
• American options; D = 0S0 - X < C - P < S0 - Xe -rT
Equation 8.4 p. 193• European options; D > 0c + D + Xe -rT = p + S0
Equation 8.7 p. 197• American options; D > 0S0 - D - X < C - P < S0 - Xe -rT
Equation 8.8 p. 197
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9.1
Trading Strategies Involving Options
Chapter 9
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9.2
Three Alternative Strategies
• Take a position in the option and the underlying
• Take a position in 2 or more options of the same type (A spread)
• Combination: Take a position in a mixture of calls & puts (A combination)
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9.3Positions in an Option & the Underlying (Figure 9.1, page 203)
Profit
X
Profit
ST
XST
(a)Profit
STX
(b)
(d)
Profit
XST
(c)
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9.4
Bull Spread Using Calls(Figure 9.2, page 204)
X1 X2
Profit
ST
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
9.5
Bull Spread Using PutsFigure 9.3, page 206
X1 X2
Profit
ST
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
9.6
Bear Spread Using CallsFigure 9.4, page 206
X1 X2
Profit
ST
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
9.7
Bear Spread Using PutsFigure 9.5, page 207
X1 X2
Profit
ST
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9.8
Butterfly Spread Using CallsFigure 9.6, page 208
X1 X3
Profit
STX2
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9.9
Butterfly Spread Using PutsFigure 9.7, page 209
X1 X3
Profit
STX2
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9.10
Calendar Spread Using CallsFigure 9.8, page 210
Profit
ST
X
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9.11
Calendar Spread Using PutsFigure 9.9, page 211
Profit
ST
X
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9.12
A Straddle CombinationFigure 9.10, page 212
Profit
STX
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9.13
Strip & StrapFigure 9.11, page 213
Profit
X ST
Profit
X ST
Strip Strap
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9.14
A Strangle CombinationFigure 9.12, page 214
X1 X2
Profit
ST
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.1
Introduction toBinomial Trees
Chapter 10
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10.2
A Simple Binomial Model
• A stock price is currently $20• In three months it will be either $22 or
$18Stock Price = $22
Stock price = $20
Stock Price = $18
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10.3
A Call Option (Figure 10.1, page 219)
A 3-month call option on the stock has a strike price of 21.
Stock Price = $22Option Price = $1
Stock price = $20Option Price=?
Stock Price = $18Option Price = $0
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.4
Setting Up a Riskless Portfolio
• Consider the Portfolio: long ∆ sharesshort 1 call option
• Portfolio is riskless when 22∆ – 1 = 18∆ or ∆ = 0.25
22∆ – 1
18∆
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10.5
Valuing the Portfolio(Risk-Free Rate is 12%)
• The riskless portfolio is: long 0.25 sharesshort 1 call option
• The value of the portfolio in 3 months is 22×0.25 – 1 = 4.50
• The value of the portfolio today is 4.5e – 0.12×0.25 = 4.3670
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10.6
Valuing the Option• The portfolio that is
long 0.25 sharesshort 1 option
is worth 4.367• The value of the shares is
5.000 (= 0.25×20 )• The value of the option is therefore
0.633 (= 5.000 – 4.367 )
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10.7
Generalization (Figure 10.2, page 220)
• A derivative lasts for time T and is dependent on a stock
Suƒu
Sdƒd
Sƒ
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10.8
Generalization(continued)
• Consider the portfolio that is long ∆ shares and short 1 derivative
• The portfolio is riskless when Su∆ – ƒu = Sd ∆ – ƒd or
∆ =−−
ƒ u dfS u S d
Su∆ – ƒu
Sd∆ – ƒd
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.9
Generalization(continued)
• Value of the portfolio at time T is Su ∆ – ƒu
• Value of the portfolio today is (Su ∆ – ƒu )e–rT
• Another expression for the portfolio value today is S ∆ – f
• Hence ƒ = S ∆ – (Su ∆ – ƒu )e–rT
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10.10
Generalization(continued)
• Substituting for ∆ we obtainƒ = [ p ƒu + (1 – p )ƒd ]e–rT
where
p e du d
r T
=−
−
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10.11Risk-Neutral Valuation
• ƒ = [ p ƒu + (1 – p )ƒd ]e-rT
• The variables p and (1 – p ) can be interpreted as the risk-neutral probabilities of up and down movements
• The value of a derivative is its expected payoff in a risk-neutral world discounted at the risk-free rate
Suƒu
Sdƒd
Sƒ
p
(1 – p )
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10.12
Irrelevance of Stock’s Expected Return
When we are valuing an option in terms of the underlying stock the expected return on the stock is irrelevant
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10.13
Original Example Revisited
• Since p is a risk-neutral probability20e0.12 ×0.25 = 22p + 18(1 – p ); p = 0.6523
• Alternatively, we can use the formula
6523.09.01.1
9.00.250.12
=−
−=
−−
=×e
dudep
rT
Su = 22ƒu = 1
Sd = 18ƒd = 0
Sƒ
p
(1 – p )
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10.14
Valuing the Option
The value of the option is e–0.12×0.25 [0.6523×1 + 0.3477×0]
= 0.633
Su = 22ƒu = 1
Sd = 18ƒd = 0
Sƒ
0.6523
0.3477
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.15A Two-Step ExampleFigure 10.3, page 223
• Each time step is 3 months
20
22
18
24.2
19.8
16.2
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10.16Valuing a Call OptionFigure 10.4, page 224
• Value at node B = e–0.12×0.25(0.6523×3.2 + 0.3477×0) = 2.0257
• Value at node A = e–0.12×0.25(0.6523×2.0257 + 0.3477×0)= 1.2823
201.2823
22
18
24.23.2
19.80.0
16.20.0
2.0257
0.0
A
B
C
D
E
F
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.17
A Put Option Example; X=52Figure 10.7, page 226
504.1923
60
40
720
484
3220
1.4147
9.4636
A
B
C
D
E
F
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
10.18What Happens When an
Option is American (Figure 10.8, page 227)
505.0894
60
40
720
484
3220
1.4147
12.0
A
B
C
D
E
F
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10.19
Delta
• Delta (∆) is the ratio of the change in the price of a stock option to the change in the price of the underlying stock
• The value of ∆ varies from node to node
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10.20
Choosing u and d
One way of matching the volatility is to set
where σ is the volatility and ∆t is the length of the time step. This is the approach used by Cox, Ross, and Rubinstein
u e
d e
t
t
=
= −
σ
σ
∆
∆
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11.1
Valuing Stock Options: The Black-
Scholes Model
Chapter 11
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11.2
The Black-Scholes Random Walk Assumption
• Consider a stock whose price is S• In a short period of time of length δt the
change in the stock price is assumed to be normal with mean µSδt and standard deviation
• µ is expected return and σ is volatilitytS δσ
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11.3
The Lognormal Property• These assumptions imply ln ST is normally
distributed with mean:
and standard deviation:
• Because the logarithm of ST is normal, ST is lognormally distributed
TS )2/(ln 20 σ−µ+
σ T
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11.4
The Lognormal Propertycontinued
[ ]
[ ]TTSS
TTSS
T
T
σσ−µφ=
σσ−µ+φ≈
,)2(ln
or,)2(lnln
2
0
20
where φ [m,s] is a normal distribution with mean m and standard deviation s
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
11.5
The Lognormal Distribution
E S S e
S S e eT
T
TT T
( )
( ) ( )
=
= −0
02 2 2
1
var
µ
µ σ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
11.6
The Expected Return
• The expected value of the stock price is S0eµT
• The expected return on the stock with continuous compounding is µ – σ2/2
• The arithmetic mean of the returns over short periods of length δt is µ
• The geometric mean of these returns is µ – σ2/2
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
11.7
The Volatility• The volatility is the standard deviation of the
continuously compounded rate of return in 1 year
• The standard deviation of the return in time δt is
• If a stock price is $50 and its volatility is 25% per year what is the standard deviation of the price change in one day?
tδσ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
11.8Estimating Volatility from
Historical Data (page 238-9)
1. Take observations S0, S1, . . . , Sn at intervals of τ years
2. Define the continuously compounded return as:
3. Calculate the standard deviation, s , of the ui ´s
4. The historical volatility estimate is:
uS
Sii
i=
⎛⎝⎜
⎞⎠⎟
−
ln1
τ=σ
sˆ
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11.9
The Concepts Underlying Black-Scholes
• The option price and the stock price depend on the same underlying source of uncertainty
• We can form a portfolio consisting of the stock and the option which eliminates this source of uncertainty
• The portfolio is instantaneously risklessand must instantaneously earn the risk-free rate
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11.10
The Black-Scholes Formulas(See page 241)
c S N d X e N dp X e N d S N d
d S X r TT
d S X r TT
d T
rT
rT
= −
= − − −
=+ +
=+ −
= −
−
−
0 1 2
2 0 1
10
20
1
2 2
2 2
where
( ) ( )( ) ( )
ln( / ) ( / )
ln( / ) ( / )
σσ
σσ
σ
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11.11
The N(x) Function
• N(x) is the probability that a normally distributed variable with a mean of zero and a standard deviation of 1 is less than x
• See tables at the end of the book
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11.12Properties of Black-Scholes
Formula
• As S0 becomes very large c tends to S – Xe-rT and p tends to zero
• As S0 becomes very small c tends to zero and p tends to Xe-rT – S
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11.13
Risk-Neutral Valuation• The variable µ does not appear in the Black-
Scholes equation• The equation is independent of all variables
affected by risk preference• This is consistent with the risk-neutral
valuation principle
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11.14
Applying Risk-Neutral Valuation
1. Assume that the expected return from an asset is the risk-free rate
2. Calculate the expected payoff from the derivative
3. Discount at the risk-free rate
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11.15
Valuing a Forward Contract with Risk-Neutral Valuation
• Payoff is ST – K• Expected payoff in a risk-neutral world
is SerT – K• Present value of expected payoff is
e-rT[SerT – K]=S – Ke-rT
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11.16
Implied Volatility
• The implied volatility of an option is the volatility for which the Black-Scholesprice equals the market price
• The is a one-to-one correspondence between prices and implied volatilities
• Traders and brokers often quote implied volatilities rather than dollar prices
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11.17
Nature of Volatility
• Volatility is usually much greater when the market is open (i.e. the asset is trading) than when it is closed
• For this reason time is usually measured in “trading days” not calendar days when options are valued
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11.18
Dividends• European options on dividend-paying
stocks are valued by substituting the stock price less the present value of dividends into the Black-Scholesformula
• Only dividends with ex-dividend dates during life of option should be included
• The “dividend” should be the expected reduction in the stock price expected
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11.19
American Calls
• An American call on a non-dividend-paying stock should never be exercised early
• An American call on a dividend-paying stock should only ever be exercised immediately prior to an ex-dividend date
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11.20
Black’s Approach to Dealing withDividends in American Call Options
Set the American price equal to the maximum of two European prices:1. The 1st European price is for an option maturing at the same time as the American option2. The 2nd European price is for an option maturing just before the final ex-dividend date
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.1
Options onStock Indices and
Currencies
Chapter 12
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12.2European Options on Stocks
Paying Dividend YieldsWe get the same probability distribution for the stock price at time T in each of the following cases:1. The stock starts at price S0 and provides a dividend yield = q2. The stock starts at price S0e–q T
and provides no income
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12.3European Options on Stocks
Paying Dividend Yieldcontinued
We can value European options by reducing the stock price to S0e–q T and then behaving as though there is no dividend
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.4
Extension of Chapter 8 Results(Equations 12.1 to 12.3)
c S e XeqT rT≥ −− −0
Lower Bound for calls:
Lower Bound for puts
p Xe S erT qT≥ −− −0
Put Call Parity
c Xe p S erT qT+ = +− −0
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.5
Extension of Chapter 11 Results (Equations 12.4 and 12.5)
c S e N d Xe N dp Xe N d S e N d
d S X r q TT
d S X r q TT
qT rT
rT qT
= −
= − − −
=+ − +
=+ − −
− −
− −
0 1 2
2 0 1
10
20
2 2
2 2
( ) ( )( ) ( )
ln( / ) ( / )
ln( / ) ( / )
where
σσ
σσ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.6
The Binomial Model
S0uƒu
S0dƒd
S0ƒ
p
(1 – p )
f=e-rT[pfu+(1– p)fd ]
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.7
The Binomial Modelcontinued
• In a risk-neutral world the stock price grows at r-q rather than at r when there is a dividend yield at rate q
• The probability, p, of an up movement must therefore satisfy
pS0u+(1 – p)S0d=S0e (r-q)T
so that
p e du d
r q T
=−
−
−( )
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.8
Index Options• The most popular underlying indices in the
U.S. are– The Dow Jones Index times 0.01 (DJX)– The Nasdaq 100 Index (NDX)– The Russell 2000 Index (RUT)– The S&P 100 Index (OEX)– The S&P 500 Index (SPX)
• Contracts are on 100 times index; they are settled in cash; OEX is American and the rest are European.
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12.9
LEAPS
• Leaps are options on stock indices that last up to 3 years
• They have December expiration dates• They are on 10 times the index• Leaps also trade on some individual
stocks
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.10
Index Option Example
• Consider a call option on an index with a strike price of 560
• Suppose 1 contract is exercised when the index level is 580
• What is the payoff?
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12.11
Using Index Options for Portfolio Insurance
• Suppose the value of the index is S0 and the strike price is X
• If a portfolio has a β of 1.0, the portfolio insurance is obtained by buying 1 put option contract on the index for each 100S0 dollars held
• If the β is not 1.0, the portfolio manager buys β put options for each 100S0 dollars held
• In both cases, X is chosen to give the appropriate insurance level
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12.12
Example 1 (Table 12.2, page 262)
• Portfolio has a beta of 1.0• It is currently worth $500,000• The index currently stands at 1000• What trade is necessary to provide
insurance against the portfolio value falling below $450,000?
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12.13
Example 2 (Table 12.5, page 264)
• Portfolio has a beta of 2.0• It is currently worth $500,000 and index
stands at 1000• The risk-free rate is 12% per annum• The dividend yield on both the portfolio
and the index is 4%• How many put option contracts should
be purchased for portfolio insurance?
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12.14
Calculating Relation Between Index Level and Portfolio Value in 3 months
• If index rises to 1040, it provides a 40/1000 or 4% return in 3 months
• Total return (incl. dividends)=5%• Excess return over risk-free rate=2%• Excess return for portfolio=4%• Increase in Portfolio Value=4+3–1=6%• Portfolio value=$530,000
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.15Determining the Strike Price
(Table 12.4, page 263)
Value of Index in 3months
Expected Portfolio Valuein 3 months ($)
1,080 570,0001,040 530,0001,000 490,000 960 450,000 920 410,000 880 370,000
An option with a strike price of 960 will provide protection against a 10% decline in the portfolio value
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.16
Valuing European Index Options
We can use the formula for an option on a stock paying a continuous dividend yieldSet S0 = current index levelSet q = average dividend yield expected during the life of the option
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12.17
Currency Options• Currency options trade on the Philadelphia
Exchange (PHLX)• There also exists an active over-the-counter
(OTC) market• Currency options are used by corporations
to buy insurance when they have an FX exposure
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12.18
The Foreign Interest Rate
• We denote the foreign interest rate by rf
• When a U.S. company buys one unit of the foreign currency it has an investment of S0 dollars
• The return from investing at the foreign rate is rf S0 dollars
• This shows that the foreign currency provides a “dividend yield” at rate rf
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.19
Valuing European Currency Options
• A foreign currency is an asset that provides a continuous “dividend yield” equal to rf
• We can use the formula for an option on a stock paying a continuous dividend yield :
Set S0 = current exchange rateSet q = rƒ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.20Formulas for European
Currency Options (Equations 12.9 and 12.10, page 266)
c S e N d Xe N d
p Xe N d S e N d
dS X r r f T
T
dS X r r f T
T
r T rT
rT r T
f
f
= −
= − − −
=+ − +
=+ − −
− −
− −
0 1 2
2 0 1
1
0
2
0
2 2
2 2
( ) ( )
( ) ( )
ln( / ) ( / )
ln( / ) ( / )
where
σ
σ
σ
σ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
12.21
Alternative Formulas(Equations 12.11 and 12.12, page 267)
F S e r r Tf0 0= −( )
Using
c e F N d XN dp e XN d F N d
d F X TT
d d T
rT
rT
= −
= − − −
=+
= −
−
−
[ ( ) ( )][ ( ) ( )]
ln( / ) /
0 1 2
2 0 1
10
2
2 1
2σσ
σ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.1
Futures Options
Chapter 13
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13.2Mechanics of Call Futures
Options
When a call futures option is exercised the holder acquires
1. A long position in the futures 2. A cash amount equal to the excess of
the futures price over the strike price
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13.3
Mechanics of Put Futures Option
When a put futures option is exercised the holder acquires
1. A short position in the futures 2. A cash amount equal to the excess of
the strike price over the futures price
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13.4
The Payoffs
If the futures position is closed out immediately:Payoff from call = F0 – XPayoff from put = X – F0
where F0 is futures price at time of exercise
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13.5
Potential Advantages of FuturesOptions over Spot Options
• Futures contract may be easier to trade than underlying asset
• Exercise of the option does not lead to delivery of the underlying asset
• Futures options and futures usually trade in adjacent pits at exchange
• Futures options may entail lower transactions costs
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13.6
Put-Call Parity for Futures Options (Equation 13.1, page 277)
Consider the following two portfolios:1. European call plus Xe-rT of cash2. European put plus long futures plus
cash equal to F0e-rT
They must be worth the same at time Tso that
c+Xe-rT=p+F0 e-rT
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13.7
Other Relations
Fe-rT – X < C – P < F – Xe-rT
c > (F – X)e-rT
p > (F – X)e-rT
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13.8
Binomial Tree Example
A 1-month call option on futures has a strike price of 29.
Futures Price = $33Option Price = $4
Futures price = $30Option Price=?
Futures Price = $28Option Price = $0
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.9
Setting Up a Riskless Portfolio
• Consider the Portfolio: long ∆ futuresshort 1 call option
• Portfolio is riskless when 3∆ – 4 = –2∆ or ∆= 0.8
3∆ – 4
-2∆
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13.10
Valuing the Portfolio( Risk-Free Rate is 6% )
• The riskless portfolio is: long 0.8 futuresshort 1 call option
• The value of the portfolio in 1 month is –1.6
• The value of the portfolio today is –1.6e – 0.06/12 = –1.592
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13.11
Valuing the Option
• The portfolio that is long 0.8 futuresshort 1 option
is worth –1.592• The value of the futures is zero• The value of the option must
therefore be 1.592
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13.12
Generalization of Binomial Tree Example (Figure 13.2, page 279)
• A derivative lasts for time T and is dependent on a futures
F0uƒu
F0dƒd
F0ƒ
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13.13
Generalization(continued)
• Consider the portfolio that is long ∆ futures and short 1 derivative
• The portfolio is riskless when
∆ =−−
ƒ u dfF u F d0 0
F0u ∆ − F0 ∆ – ƒu
F0d ∆− F0∆ – ƒd
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13.14
Generalization(continued)
• Value of the portfolio at time T is F0u ∆ –F0∆ – ƒu
• Value of portfolio today is – ƒ• Hence
ƒ = – [F0u ∆ –F0∆ – ƒu]e-rT
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.15
Generalization(continued)
• Substituting for ∆ we obtainƒ = [ p ƒu + (1 – p )ƒd ]e–rT
where
dudp
−−
=1
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13.16
Valuing European Futures Options
• We can use the formula for an option on a stock paying a continuous dividend yield
Set S0 = current futures price (F0)Set q = domestic risk-free rate (r )
• Setting q = r ensures that the expected growth of F in a risk-neutral world is zero
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13.17
Growth Rates For Futures Prices
• A futures contract requires no initial investment
• In a risk-neutral world the expected return should be zero
• The expected growth rate of the futures price is therefore zero
• The futures price can therefore be treated like a stock paying a dividend yield of r
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.18Black’s Model (Equations 13.7 and 13.8, page 280)
• The formulas for European options on futures are known as Black’s model
[ ][ ]
c e F N d X N d
p e X N d F N d
d F X TT
d F X TT
d T
rT
rT
= −
= − − −
=+
=−
= −
−
−
0 1 2
2 0 1
10
20
1
2 2
2 2
where
( ) ( )
( ) ( )
ln( / ) /
ln( / ) /
σσ
σσ
σ
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.19
Futures Option Prices vs Spot Option Prices
• If futures prices are higher than spot prices (normal market), an American call on futures is worth more than a similar American call on spot. An American put on futures is worth less than a similar American put on spot
• When futures prices are lower than spot prices (inverted market) the reverse is true
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
13.20
Put-Call Parity ResultsIndices:
e e Foreign exchange:
e e Futures:
e e
c X p S
c X p S
c X p F
rT qT
rT r T
rT rT
f
+ = +
+ = +
+ = +
− −
− −
− −
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13.21
Summary of Key Results from Chapter 12 and 13
• We can treat stock indices, currencies, & futures like a stock paying a continuous dividend yield of q– For stock indices, q = average
dividend yield on the index over the option life
– For currencies, q = rƒ
– For futures, q = r
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
14.1
Volatility Smiles
Chapter 14
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14.2
Put-Call Parity Arguments• Put-call parity p +S0e-qT = c +X e–r T
holds regardless of the assumptions made about the stock price distribution
• It follows that the call option pricing error caused by using the wrong distribution is the same as the put option pricing error when both have the same strike price and maturity
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14.3
Implied Volatilities
• The implied volatility calculated from a European call option should be the same as that calculated from a European put option when both have the same strike price and maturity
• The same is approximately true of American options
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14.4
Volatility Smile
• A volatility smile shows the variation of the implied volatility with the strike price
• The volatility smile should be the same whether calculated from call options or put options
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14.5The Volatility Smile for
Foreign Currency Options (Figure 14.1, page 287)
ImpliedVolatility
StrikePrice
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14.6
Implied Distribution for Foreign Currency Options
• The implied distribution is as shown in Figure 14.2, page 287
• Both tails are fatter than the lognormal distribution
• It is also “more peaked than the normal distribution
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14.7
The Volatility Smile for Equity Options (Figure 14.3, page 289)
ImpliedVolatility
StrikePrice
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14.8
Implied Distribution for Equity Options
The implied distribution is as shown in Figure 14.4, page 290The right tail is fatter and the left tail is thinner than the lognormal distribution
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14.9
Other Volatility Smiles?
What is the volatility smile if• True distribution has a thin left tail and
fat right tail• True distribution has both a thin left tail
and a thin right tail
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14.10
Possible Causes of Volatility Smile
• Asset price exhibiting jumps rather than continuous change
• Volatility for asset price being stochastic(One reason for a stochastic volatility in the case of equities is the relationship between volatility and leverage)
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14.11
Volatility Term Structure
• In addition to calculating a volatility smile, traders also calculate a volatility term structure
• This shows the variation of implied volatility with the time to maturity of the option
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14.12
Volatility Term Structure
The volatility term structure tend to be downward sloping when volatility is high and upward sloping when it is low
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14.13
Example of a Volatility Matrix(Table 14.2, page 291)
S tr ik e P r ic e
0 .9 0 0 .9 5 1 .0 0 1 .0 5 1 .1 0
1 m n th 1 4 .2 1 3 .0 1 2 .0 1 3 .1 1 4 .5
3 m n th 1 4 .0 1 3 .0 1 2 .0 1 3 .1 1 4 .2
6 m n th 1 4 .1 1 3 .3 1 2 .5 1 3 .4 1 4 .3
1 y e a r 1 4 .7 1 4 .0 1 3 .5 1 4 .0 1 4 .8
2 y e a r 1 5 .0 1 4 .4 1 4 .0 1 4 .5 1 5 .1
5 y e a r 1 4 .8 1 4 .6 1 4 .4 1 4 .7 1 5 .0
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
15.1
The Greek Letters
Chapter 15
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15.2
Example (Page 299)
• A bank has sold for $300,000 a European call option on 100,000 shares of a nondividend paying stock
• S0 = 49, X = 50, r = 5%, σ = 20%, T = 20 weeks, µ = 13%
• The Black-Scholes value of the option is $240,000
• How does the bank hedge its risk?
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15.3
Naked & Covered Positions
Naked positionTake no action
Covered positionBuy 100,000 shares today
Both strategies leave the bank exposed to significant risk
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15.4
Stop-Loss StrategyThis involves:
• Buying 100,000 shares as soon as price reaches $50
• Selling 100,000 shares as soon as price falls below $50This deceptively simple hedging strategy does not work well
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15.5Delta (See Figure 15.2, page 303)
• Delta (∆) is the rate of change of the option price with respect to the underlying
Optionprice
A
BSlope = ∆
Stock price
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
15.6Delta Hedging
• This involves maintaining a delta neutral portfolio
• The delta of a European call on a stock paying dividends at rate q is N (d 1)e– qT
• The delta of a European put is e– qT [N (d 1) – 1]
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15.7
Delta Hedgingcontinued
• The hedge position must be frequently rebalanced
• Delta hedging a written option involves a “buy high, sell low” trading rule
• See Tables 15.3 (page 307) and 15.4 (page 308) for examples of delta hedging
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15.8
Using Futures for Delta Hedging
• The delta of a futures contract is e(r-q)T
times the delta of a spot contract• The position required in futures for delta
hedging is therefore e-(r-q)T times the position required in the corresponding spot contract
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15.9
Theta
• Theta (Θ) of a derivative (or portfolio of derivatives) is the rate of change of the value with respect to the passage of time
• See Figure 15.5 for the variation of Θ with respect to the stock price for a European call
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15.10
Gamma• Gamma (Γ) is the rate of change of
delta (∆) with respect to the price of the underlying asset
• See Figure 15.9 for the variation of Γwith respect to the stock price for a call or put option
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15.11Gamma Addresses Delta Hedging Errors Caused By Curvature
(Figure 15.7, page 313)
S
CStock price
S’
Callprice
C’C’’
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15.12Interpretation of Gamma
• For a delta neutral portfolio, ∆Π ≈ Θ ∆t + ½Γ∆S 2
∆Π
∆S
Positive Gamma
∆Π
∆S
Negative Gamma
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15.13
Relationship Among Delta, Gamma, and Theta
For a portfolio of derivatives on a stock paying a continuous dividend yield at rate q
Θ ∆ Γ Π+ − + =( )r q S S r12
2 2σ
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15.14
Vega
• Vega (ν) is the rate of change of the value of a derivatives portfolio with respect to volatility
• See Figure 15.11 for the variation of νwith respect to the stock price for a call or put option
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15.15
Managing Delta, Gamma, & Vega
• Delta, ∆, can be changed by taking a position in the underlying asset
• To adjust gamma, Γ, and vega, ν, it is necessary to take a position in an option or other derivative
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15.16
Rho
• Rho is the rate of change of the value of a derivative with respect to the interest rate
• For currency options there are 2 rhos
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15.17
Hedging in Practice
• Traders usually ensure that their portfolios are delta-neutral at least once a day
• Whenever the opportunity arises, they improve gamma and vega
• As portfolio becomes larger hedging becomes less expensive
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15.18
Scenario Analysis
A scenario analysis involves testing the effect on the value of a portfolio of different assumptions concerning asset prices and their volatilities
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15.19
Hedging vs Creation of an Option Synthetically
• When we are hedging we take positions that offset ∆, Γ, ν, etc.
• When we create an option synthetically we take positions that match ∆, Γ, & ν
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15.20Portfolio Insurance
• In October of 1987 many portfolio managers attempted to create a put option on a portfolio synthetically
• This involves initially selling enough of the portfolio (or of index futures) to match the ∆ of the put option
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15.21
Portfolio Insurancecontinued
• As the value of the portfolio increases, the ∆ of the put becomes less negative and some of the original portfolio is repurchased
• As the value of the portfolio decreases, the ∆ of the put becomes more negative and more of the portfolio must be sold
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15.22
Portfolio Insurancecontinued
The strategy did not work well on October 19, 1987...
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
16.1
Value at Risk
Chapter 16
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16.2
The Question Being Asked in VaR
“What loss level is such that we are X% confident it will not be exceeded in Nbusiness days?”
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16.3
VaR and Regulatory Capital
• Regulators base the capital they require banks to keep on VaR
• The market-risk capital is k times the 10-day 99% VaR where k is at least 3.0
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16.4
VaR vs. C-VaR(See Figures 16.1 and 16.2)
• VaR is the loss level that will not be exceeded with a specified probability
• C-VaR is the expected loss given that the loss is greater than the VaR level
• Although C-VaR is theoretically more appealing, it is not widely used
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16.5
Advantages of VaR
• It captures an important aspect of riskin a single number
• It is easy to understand• It asks the simple question: “How bad
can things get?”
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16.6
Historical Simulation (See Table 16.1 and 16.2)
• Create a database of the daily movements in all market variables.
• The first simulation trial assumes that the percentage changes in all market variables are as on the first day
• The second simulation trial assumes that the percentage changes in all market variables are as on the second day
• and so on
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16.7
Historical Simulation continued
• Suppose we use m days of historical data• Let vi be the value of a variable on day i• There are m-1 simulation trials• The ith trial assumes that the value of the
market variable tomorrow (i.e., on day m+1) is
1−i
im v
vv
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16.8
The Model-Building Approach
• The main alternative to historical simulation is to make assumptions about the probability distributions of return on the market variables and calculate the probability distribution of the change in the value of the portfolio analytically
• This is known as the model building approach or the variance-covariance approach
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16.9
Daily Volatilities
• In option pricing we express volatility as volatility per year
• In VaR calculations we express volatility as volatility per day
σσ
dayyear
=252
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16.10
Daily Volatility continued
• Strictly speaking we should define σdayas the standard deviation of the continuously compounded return in one day
• In practice we assume that it is the standard deviation of the proportional change in one day
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16.11
Microsoft Example
• We have a position worth $10 million in Microsoft shares
• The volatility of Microsoft is 2% per day (about 32% per year)
• We use N=10 and X=99
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16.12
Microsoft Example continued
• The standard deviation of the change in the portfolio in 1 day is $200,000
• The standard deviation of the change in 10 days is
200 000 10 456, $632,=
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16.13
Microsoft Example continued
• We assume that the expected change in the value of the portfolio is zero (This is OK for short time periods)
• We assume that the change in the value of the portfolio is normally distributed
• Since N(–2.33)=0.01, the VaR is 2 33 632 456 473 621. , $1, ,× =
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16.14
AT&T Example
• Consider a position of $5 million in AT&T
• The daily volatility of AT&T is 1% (approx 16% per year)
• The S.D per 10 days is
• The VaR is50 000 10 144, $158,=
158114 233 405, . $368,× =
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16.15
Portfolio (See Table 16.3)
• Now consider a portfolio consisting of both Microsoft and AT&T
• Suppose that the correlation between the returns is 0.3
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16.16
S.D. of Portfolio
• A standard result in statistics states that
• In this case σx = 200,000 and σY = 50,000 and ρ = 0.3. The standard deviation of the change in the portfolio value in one day is therefore 220,227
YXYXYX σρσ+σ+σ=σ + 222
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16.17
VaR for Portfolio
• The 10-day 99% VaR for the portfolio is
• The benefits of diversification are(1,473,621+368,405)–1,622,657=$219,369
• What is the incremental effect of the AT&T holding on VaR?
657,622,1$33.210220,227 =××
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16.18
The Linear Model
We assume• The daily change in the value of a
portfolio is linearly related to the daily returns from market variables
• The returns from the market variables are normally distributed
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
16.19
The General Linear Model continued (equations 16.1 and 16.2)
∆ ∆P x
i
i ii
n
P i j i j ijj
n
i
n
P i ii j
i j i j iji
n
i
P
=
=
= +
=
==
<=
∑
∑∑
∑∑
α
σ α α σ σ ρ
σ α σ α α σ σ ρ
σσ
1
2
11
2 2 2
12
where is the volatility of variable and is the portfolio's standard deviation
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16.20
Handling Interest Rates
• We do not want to define every interest rate as a different market variable
• We therefore choose as market variables interest rates with standard maturities :1-month, 3 months, 1 year, 2 years, 5 years, 7 years, 10 years, and 30 years
• Cash flows from instruments in the portfolio are mapped to the standard maturities
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16.21
When Linear Model Can be Used
• Portfolio of stocks• Portfolio of bonds• Forward contract on foreign currency• Interest-rate swap
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16.22
The Linear Model and Options
• Consider a portfolio of options dependent on a single stock price, S. Define
• and
SPδδ
=∆
SSx δ
=δ
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16.23
Linear Model and Options continued (equations 16.3 and 16.4)
• As an approximation
• Similar when there are many underlying market variables
where ∆i is the delta of the portfolio with respect to the ith asset
xSSP δ∆=δ∆=δ
∑ δ∆=δi
iii xSP
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16.24
Example
• Consider an investment in options on Microsoft and AT&T. Suppose the stock prices are 120 and 30 respectively and the deltas of the portfolio with respect to the two stock prices are 1,000 and 20,000 respectively
• As an approximation
where δx1 and δx2 are the proportional changes in the two stock prices
21 000,2030000,1120 xxP δ×+δ×=δ
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16.25
Skewness(See Figures 16.3, 16.4 , and 16.5)
The linear model fails to capture skewness in the probability distribution of the portfolio value.
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16.26
Quadratic Model
For a portfolio dependent on a single stock price
this becomes
2)(21 SSP δΓ+δ∆=δ
22 )(21 xSxSP δΓ+δ∆=δ
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16.27
Monte Carlo Simulation
The stages are as follows• Value portfolio today• Sample once from the multivariate
distributions of the δxi
• Use the δxi to determine market variables at end of one day
• Revalue the portfolio at the end of day
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16.28
Monte Carlo Simulation
• Calculate δP• Repeat many times to build up a
probability distribution for δP• VaR is the appropriate fractile of the
distribution times square root of N• For example, with 1,000 trial the 1
percentile is the 10th worst case.
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
16.29Standard Approach to
Estimating Volatility (equation 16.6)• Define σn as the volatility per day between day n-1
and day n, as estimated at end of day n-1• Define Si as the value of market variable at end of
day i• Define ui= ln(Si/Si-1)• The standard estimate of volatility from m
observations is:
∑
∑
=−
=−
=
−−
=σ
m
iin
m
iinn
um
u
uum
1
1
22
1
)(1
1
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16.30
Simplifications Usually Made(equations 16.7 and 16.8)
• Define ui as (Si–Si-1)/Si-1
• Assume that the mean value of ui is zero
• Replace m–1 by m
This gives σn n ii
m
mu2 2
1
1= −=∑
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16.31
Weighting Scheme
Instead of assigning equal weights to the observations we can set
σ α
α
n i n ii
m
ii
m
u2 21
11
=
=
−=
=
∑
∑
where
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16.32
EWMA Model (equation 16.10)
• In an exponentially weighted moving average model, the weights assigned to the u2 decline exponentially as we move back through time
• This leads toσ λσ λn n nu2
12
121= + −− −( )
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16.33
Attractions of EWMA
• Relatively little data needs to be stored• We need only remember the current
estimate of the variance rate and the most recent observation on the market variable
• Tracks volatility changes• JP Morgan use λ = 0.94 for daily
volatility forecasting
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16.34
Correlations
• Define ui=(Ui-Ui-1)/Ui-1 and vi=(Vi-Vi-1)/Vi-1
• Alsoσu,n: daily vol of U calculated on day n-1σv,n: daily vol of V calculated on day n-1covn: covariance calculated on day n-1covn = ρn σu,nσv,n
where ρn on day n-1
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16.35
Correlations continued(equation 16.12)
Using the EWMAcovn = λcovn-1+(1-λ)un-1vn-1
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16.36
RiskMetrics
• Many companies use the RiskMetricsdatabase.
• This uses λ=0.94
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16.37
Comparison of Approaches
• Model building approach assumes that market variables have a multivariate normal distribution
• Historical simulation is computationally slow and cannot easily incorporate volatility updating schemes
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16.38
Stress Testing
• This involves testing how well a portfolio performs under some of the most extreme market moves seen in the last 10 to 20 years
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16.39
Back-Testing
• Tests how well VaR estimates would have performed in the past
• We could ask the question: How often was the loss greater than the 99%/10 day VaR?
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17.1
Valuation Using Binomial Trees
Chapter 17
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17.2
Binomial Trees
• Binomial trees are frequently used to approximate the movements in the price of a stock or other asset
• In each small interval of time the stock price is assumed to move up by a proportional amount u or to move down by a proportional amount d
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17.3
Movements in Time δt(Figure 17.1)
Su
SdS
p
1 – p
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17.4
Risk-Neutral Valuation
We choose the tree parameters p , u , and d so that the tree gives correct values for the mean and standard deviation of the stock price changes in a risk-neutral world.
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17.5
1. Tree Parameters for aNondividend Paying Stock
• We choose the tree parameters p, u, and d so that the tree gives correct values for the mean & standard deviation of the stock price changes in a risk-neutral world
er δt = pu + (1– p )dσ2δt = pu 2 + (1– p )d 2 – [pu + (1– p )d ]2
• A further condition often imposed is u = 1/ d
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
17.62. Tree Parameters for a
Nondividend Paying Stock(Equations 17.4 to 17.7)
When δt is small a solution to the equations is
tr
t
t
eadudap
ed
eu
δ
δσ−
δσ
=−−
=
=
=
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17.7
The Complete Tree(Figure 17.2)
S0
S0u
S0d S0 S0
S0u 2
S0d 2
S0u 2
S0u 3 S0u 4
S0d 2
S0u
S0d
S0d 4
S0d 3
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17.8
Backwards Induction
• We know the value of the option at the final nodes
• We work back through the tree using risk-neutral valuation to calculate the value of the option at each node, testing for early exercise when appropriate
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17.9
Example: Put Option
S0 = 50; X = 50; r =10%; σ = 40%; T = 5 months = 0.4167; δt = 1 month = 0.0833
The parameters imply u = 1.1224; d = 0.8909; a = 1.0084; p = 0.5076
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17.10
Example (continued)Figure 17.3
89.070.00
79.350.00
70.70 70.700.00 0.00
62.99 62.990.64 0.00
56.12 56.12 56.122.16 1.30 0.00
50.00 50.00 50.004.49 3.77 2.66
44.55 44.55 44.556.96 6.38 5.45
39.69 39.6910.36 10.31
35.36 35.3614.64 14.64
31.5018.50
28.0721.93
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17.11
Calculation of Delta
Delta is calculated from the nodes at time ∆t
Delta =−−
= −2 16 6 96
56 12 44 550 41. .
. ..
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17.12
Calculation of Gamma
Gamma is calculated from the nodes at time 2∆t
∆ ∆
∆ ∆
1 2
2
064 37762 99 50
024 377 10 3650 39 69
064
1165003
=−−
= − =−−
= −
−=
. ..
. ; . ..
.
..Gamma= 1
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17.13
Calculation of Theta
Theta is calculated from the central nodes at times 0 and 2δt
Theta= per year
or - . per calendar day
377 4 4901667
4 3
0012
. ..
.−= −
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17.14
Calculation of Vega
• We can proceed as follows• Construct a new tree with a volatility of
41% instead of 40%. • Value of option is 4.62• Vega is
4 62 4 49 0 13. . .− =per 1% change in volatility
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17.15
Trees and Dividend Yields
• When a stock price pays continuous dividends at rate q we construct the tree in the same way but set a = e(r – q )δt
• As with Black-Scholes:– For options on stock indices, q equals the
dividend yield on the index– For options on a foreign currency, q equals
the foreign risk-free rate– For options on futures contracts q = r
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17.16
Binomial Tree for Dividend Paying Stock
• Procedure:– Draw the tree for the stock price less
the present value of the dividends– Create a new tree by adding
the present value of the dividends at each node• This ensures that the tree recombines and makes
assumptions similar to those when the Black-Scholes model is used
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17.17
Extensions of Tree Approach
• Time dependent interest rates• The control variate technique
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17.18
Alternative Binomial Tree
Instead of setting u = 1/d we can set each of the 2 probabilities to 0.5 and
ttr
ttr
ed
euδσ−δσ−
δσ+δσ−
=
=)2/(
)2/(
2
2
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17.19
Monte Carlo Simulation
• Monte Carlo simulation can be implemented by sampling paths through the tree randomly and calculating the payoff corresponding to each path
• The value of the derivative is the mean of the PV of the payoff
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18.1
Interest Rate Options
Chapter 18
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18.2
Exchange-Traded Interest Rate Options
• Treasury bond futures options (CBOT)
• Eurodollar futures options
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18.3
Embedded Bond Options
• Callable bonds: Issuer has option to buy bond back at the “call price”. The call price may be a function of time
• Puttable bonds: Holder has option to sell bond back to issuer
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18.4
Black’s Model & Its Extensions
• Black’s model is similar to the Black-Scholes model used for valuing stock options
• It assumes that the value of an interest rate, a bond price, or some other variable at a particular time Tin the future has a lognormal distribution
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18.5
Black’s Model & Its Extensions(continued)
• The mean of the probability distribution is the forward value of the variable
• The standard deviation of the probability distribution of the log of the variable is
where σ is the volatility• The expected payoff is discounted at the
T-maturity rate observed today
σ T
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18.6
Black’s Model (equations 18.1 and 18.2)
TddT
TXFd
dNFdXNep
dXNdNFecrT
rT
σ−=σ
σ+=
−−−=
−=−
−
12
20
1
102
210
;2/)/ln(
)]()([
)]()([
• X : strike price• r : zero coupon yield
for maturity T • F0 : forward value of
variable
• T : option maturity• σ : volatility
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Fundamentals of Futures and Options Markets, 4th edition © 2001 by John C. Hull
18.7The Black’s Model: Payoff Later
Than Variable Is Observed
TddT
TXFd
dNFdXNep
dXNdNFecTr
Tr
σ−=σ
σ+=
−−−=
−=−
−
12
20
1
102
210
;2/)/ln(
)]()([
)]()([**
**
• X : strike price• r * : zero coupon yield
for maturity T *• F0 : forward value of
variable
• T : time when variable is
observed• T * : time of payoff• σ : volatility
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18.8European Bond Options
• When valuing European bond options it is usual to assume that the future bond price is lognormal
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18.9
European Bond Optionscontinued
TddT
TXFd
dNFdXNep
dXNdNFec
BB
B
rT
rT
σ−=σ
σ+=
−−−=
−=−
−
12
20
1
102
210
;2/)/ln(
)]()([
)]()([
• F0 : forward bond price• X : strike price• r : interest rate for maturity T
• T : life of the option• σB : volatility of price of
underlying bond
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18.10
Yield Vols vs Price Vols
The change in forward bond price is related to the change in forward bond yield by
where D is the (modified) duration of the forward bond at option maturity
yyDy
BByD
BB δ
−≈δ
δ−≈δ or
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18.11
Yield Vols vs Price Volscontinued
• This relationship implies the following approximation
where σy is the yield volatility and σB is the price volatility
• Often σy is quoted with the understanding that this relationship will be used to calculate σB
σ σB yD y=
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18.12
Caplet
• A caplet is designed to provide insurance against LIBOR for a certain period rising above a certain level
• Suppose RX is the cap rate, L is the principal, and R is the actual LIBOR rate for the period between time t and t+δ. The caplet provides a payoff at time t+δ of
Lδ max(R-RX, 0)
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18.13
Caps
• A cap is a portfolio of caplets• Each caplet can be regarded as a call
option on a future interest rate with the payoff occurring in arrears
• When using Black’s model we assume that the interest rate underlying each caplet is lognormal
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18.14Black’s Model for Caps
(Equation 18.8)
• The value of a caplet, for period [tk, tk+1] is
-= and 2/)/ln(
where
)]()([
12
2
1
2111
kkk
kkXk
Xktr
k
tddt
tRFd
dNRdNFeL kk
σσ
σ+=
−δ ++−
• Fk : forward interest rate for (tk, tk+1)
• σk : interest rate volatility• rk : interest rate for maturity tk
• L: principal• RX : cap rate• δk=tk+1-tk
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18.15
When Applying Black’s ModelTo Caps We Must ...
• EITHER– Use forward volatilities– Volatility different for each caplet
• OR– Use flat volatilities– Volatility same for each caplet
within a particular cap but varies according to life of cap
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18.16
European Swap Options
• A European swap option gives the holder the right to enter into a swap at a certain future time
• Either it gives the holder the right to pay a prespecified fixed rate and receive LIBOR
• Or it gives the holder the right to pay LIBOR and receive a prespecified fixed rate
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18.17European Swaptions
• When valuing European swap options it is usual to assume that the swap rate is lognormal
• Consider a swaption which gives the right to pay RX on an n -year swap starting at time T . The payoff on each swap payment date is
where L is principal, m is payment frequency and R is market swap rate at time T
)0,max( XRRmL
−
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18.18European Swaptions continued(Equation 18.10)
The value of the swaption is
F0 is the forward swap rate; σ is the swap rate volatility; ti is the time from today until the i thswap payment; and
LA F N d R N dX[ ( ) ( )]0 1 2−
∑=
−=nm
i
tr iiem
A
1
1
where d F R TT
d d TX1
02
2 12
=+
= −ln( / ) / ;σ
σσ
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18.19
Relationship Between Swaptionsand Bond Options
• An interest rate swap can be regarded as the exchange of a fixed-rate bond for a floating-rate bond
• A swaption or swap option is therefore an option to exchange a fixed-rate bond for a floating-rate bond
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18.20
Relationship Between Swaptionsand Bond Options (continued)
• At the start of the swap the floating-rate bond is worth par so that the swaption can be viewed as an option to exchange a fixed-rate bond for par
• An option on a swap where fixed is paid & floating is received is a put option on the bond with a strike price of par
• When floating is paid & fixed is received, it is a call option on the bond with a strike price of par
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18.21
Term Structure Models
• American-style options and other more complicated interest-rate derivatives must be valued using an interest rate model
• This is a model of how the zero curve moves through time
• Short term interest rate exhibit mean reversion
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19.1
Exotic Options and Other Nonstandard
Products
Chapter 19
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19.2
Types of Exotic Options
• Packages• Nonstandard American options• Forward start options• Compound options• Chooser options• Barrier options• Binary options
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19.3
Types of Exotic Options continued
• Lookback options• Shout options• Asian options• Options to exchange one asset for
another• Options involving several assets
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19.4
Types of Mortgage-Backed Securities (MBSs)
• Pass-Through• Collateralized Mortgage
Obligation (CMO)• Interest Only (IO)• Principal Only (PO)
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19.5
Nonstandard Swaps
• Variations on vanilla deals• Compounding swaps• Currency swaps• LIBOR-in Arrears swaps• CMS and CMT swaps• Differential swaps
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19.6
Nonstandard Swaps continued
• Equity swaps• Accrual swaps• Cancelable swaps• Index amortizing swaps• Commodity swaps• Volatility swaps• Bizarre deals (e.g. BT and P&G)
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19.7
Convexity Adjustments
• Some swaps (e.g. compounding swaps and currency swaps) can be valued by assuming that forward interest rates are realized
• Other swaps (e.g. LIBOR-in-arrears swaps, CMS and CMT swaps, and differential swaps) require convexity adjustments to be made to forward rates
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20.1
Credit, Weather, Energy, and Insurance
Derivatives
Chapter 20
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20.2
Credit Derivatives
Main types:• Credit default swaps• Total return swaps• Credit spread options
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20.3
Credit Default Swaps• Provides protection against default by a
particular company• Company is “reference entity”• Default is a “credit event”• The buyer makes periodic payments (akin to
insurance premiums) and in return obtains the right to sell a certain amount of a particular bond issued by the reference entity for its face value
• Can be cash settled or settled by delivery of bonds
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20.4
Total Return Swaps
• Involves the total return on a a portfolio of credit sensitive assets being swapped for LIBOR
• Enables banks with heavy loan concentrations to diversify their credit risks
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20.5
Credit Spread Options
• This is an option that provides a payoff when the spread between the yields on two assets exceeds some prespecifiedlevel
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20.6
Weather Derivatives: Definitions
• Heating degree days (HDD): For each day this is max(0, 65 – A) where A is the average of the highest and lowest temperature in ºF.
• Cooling Degree Days (CDD): For each day this is max(0, A – 65)
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20.7
Weather Derivatives: Products
• A typical product is a forward contract or an option on the cumulative CDD or HDD during a month
• Weather derivatives are often used by energy companies to hedge the volume of energy required for heating or cooling during a particular month
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20.8
Energy Derivatives
Main energy sources:• Oil• Gas• Electricity
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20.9
Oil Derivatives
• Virtually all derivatives available on stocks and stock indices are also available in the OTC market with oil as the underlying asset
• Futures and futures options traded on the New York Mercantile Exchange (NYMEX) and the International Petroleum Exchange (IPE) are also popular
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20.10
Natural Gas Derivatives
• A typical OTC contract is for the delivery of a specified amount of natural gas at a roughly uniform rate to specified location during a month.
• NYMEX and IPE trade contracts that require delivery of 10,000 million British thermal units of natural gas to a specified location
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20.11
Electricity Derivatives
• Electricity is an unusual commodity in that it cannot be stored
• The U.S is divided into about 140 control areas and a market for electricity is created by trading between control areas.
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20.12
Electricity Derivatives continued
• A typical contract allows one side to receive a specified number of megawatt hours for a specified price at a specified location during a particular month
• Types of contracts:5x8, 5x16, 7x24, daily or monthly exercise, swing options
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20.13
How an Energy Producer Hedges Risks
• Estimate a relationship of the formY=a+bP+cT+ε
where Y is the monthly profit, P is the average energy prices, T is temperature, and ε is an error term
• Take a position of –b in energy forwards and –c in weather forwards.
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20.14
Insurance Derivatives
• CAT bonds are an alternative to traditional reinsurance
• This is a bond issued by a subsidiary of an insurance company that pays a higher-than-normal interest rate.
• If claims of a certain type are above a certain level the interest and possibly the principal on the bond are used to meet claims
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21.1
Derivatives Mishaps and What We Can Learn from Them
Chapter 21
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21.2
Big Losses by Financial Institutions
• Barings ($1 billion)• Chemical Bank ($33 million)• Daiwa ($1 billion)• Kidder Peabody ($350 million)• LTCM ($4 billion)• Midland Bank ($500 million)• National Bank ($130 million)• Sumitomo ($2 billion)
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21.3
Big Losses by Non-Financial Corporations
• Allied Lyons ($150 million)• Gibsons Greetings ($20 million)• Hammersmith and Fulham ($600 million)• Metallgesellschaft ($1.8 billion)• Orange County ($2 billion)• Procter and Gamble ($90 million)• Shell ($1 billion)
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21.4
Lessons for All Users of Derivatives
• Risk must be quantified and risk limits set• Exceeding risk limits not acceptable even
when profits result• Do not assume assume that a trader with a
good track record will always be right• Be diversified• Scenario analysis and stress testing is
important
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21.5Lessons for Financial Institutions
• Do not give too much independence to star traders
• Separate the front middle and back office• Models can be wrong• Be conservative in recognizing inception
profits• Do not sell clients inappropriate products• Liquidity risk is important• There are dangers when many are following
the same strategy
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21.6
Lessons for Non-Financial Corporations
• It is important to fully understand the products you trade
• Beware of hedgers becoming speculators
• It can be dangerous to make the Treasurer’s department a profit center