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MGT 821/ECON 873 Financial Derivatives Lecture 2 Futures and Forwards

MGT 821/ECON 873 Financial Derivatives Lecture 2 Futures and Forwards. Alternative ways to buy a stock. Process has three components Fixing the price Buyer making payment to the seller The seller transferring ownership of the share to the seller Alternative ways Outright purchase

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MGT 821/ECON 873 Financial Derivatives Lecture 2 Futures and Forwards

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  1. MGT 821/ECON 873Financial DerivativesLecture 2Futures and Forwards

  2. Alternative ways to buy a stock • Process has three components • Fixing the price • Buyer making payment to the seller • The seller transferring ownership of the share to the seller • Alternative ways • Outright purchase • Fully leveraged purchase • Prepaid forward contract • Forward contract W. Suo

  3. Futures • Futures - similar to forward but feature formalized and standardized characteristics • Agreement to buy or sell an asset for a certain price at a certain time • Whereas a forward contract is traded OTC a futures contract is traded on an exchange • Key difference in futures • Exchange traded • Specifications need to be defined: • What can be delivered, • Where it can be delivered, • When it can be delivered • Settled daily

  4. Key Terms for Futures Contracts • Futures price - agreed-upon price at maturity • Long position - agree to purchase • Short position - agree to sell • Profits on positions at maturity Long = spot minus original futures price Short = original futures price minus spot

  5. Types of Contracts • Agricultural commodities • Metals and minerals (including energy contracts) • Foreign currencies • Financial futures Interest rate futures Stock index futures

  6. Examples of Futures Contracts • Agreement to: • buy 100 oz. of gold @ US$600/oz. in December (COMEX) • sell £62,500 @ 1.5000 US$/£ in March (CME) • sell 1,000 bbl. of oil @ US$110/bbl. in April (NYMEX)

  7. Trading Mechanics • Clearinghouse - acts as a party to all buyers and sellers. • Obligated to deliver or supply delivery • Closing out positions • Reversing the trade • Take or make delivery • Most trades are reversed and do not involve actual delivery

  8. Margin and Trading Arrangements • Initial Margin - funds deposited to provide capital to absorb losses • Marking to Market - each day the profits or losses from the new futures price are reflected in the account. • Maintenance or variation margin - an established value below which a trader’s margin may not fall.

  9. Margin and Trading Arrangements • Margin call - when the maintenance margin is reached, broker will ask for additional margin funds • See http://www.interactivebrokers.com/en/trading/marginRequirements/margin_amer.php?ib_entity=ca • Convergence of Price - as maturity approaches the spot and futures price converge • Delivery - Actual commodity of a certain grade with a delivery location or for some contracts cash settlement

  10. Example of a Futures Trade • On June 5, An investor takes a long position in 2 December gold futures contracts on COMEX division of the New York Mercantile Exchange (NYMEX) • contract size is 100 oz. • futures price is US$600 /ounce • margin requirement is US$2000/contract (US$4,000 in total) • maintenance margin is US$1,500/contract (US$3,000 in total)

  11. 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 • 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 W. Suo

  12. Convergence of Futures to Spot Futures Price Spot Price Futures Price Spot Price Time Time (a) (b) W. Suo

  13. Forward Contracts vs Futures Contracts 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 cash Contract usually closed out settlement usually occurs prior to maturity W. Suo

  14. Forward and Futures Prices • Short Selling • 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 • 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 W. Suo

  15. 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) • One can short sell investment assets, but not consumptions assets W. Suo

  16. Notation W. Suo

  17. Forward Prices • For any investment asset that provides no income and has no storage costs F0 = S0erT • What if it doesn’t hold? • When an investment asset provides a known dollar income F0= (S0– I )erT where I is the present value of the income W. Suo

  18. When an Investment Asset Provides a Known Yield F0 = S0e(r–q )T where q is the average yield during the life of the contract (expressed with continuous compounding) W. Suo

  19. Valuing a Forward Contract • Suppose that K is delivery price in a forward contract F0is 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 W. Suo

  20. 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 W. Suo

  21. Stock Index • Can be viewed as an investment asset paying a dividend yield • The futures price and spot price relationship is therefore F0 = S0e(r–q )T where q is the dividend yield on the portfolio represented by the index • What about foreign stock index? W. Suo

  22. Futures and Forwards on Currencies • 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 rfis the foreign risk-free interest rate W. Suo

  23. Futures on Consumption Assets F0S0e(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. W. Suo

  24. The Cost of Carry • 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 W. Suo

  25. Hedging Strategies Using Futures • 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 W. Suo

  26. 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 W. Suo

  27. Long Hedge • Suppose that F1: Initial Futures Price F2: Final Futures Price S2: 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 W. Suo

  28. Short Hedge • Suppose that F1: Initial Futures Price F2: Final Futures Price S2: 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 W. Suo

  29. 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 W. Suo

  30. Optimal Hedge Ratio Proportion of the exposure that should optimally be hedged is where sSis the standard deviation of dS, the change in the spot price during the hedging period, sF is the standard deviation of dF, the change in the futures price during the hedging period r is the coefficient of correlation between dS and dF. W. Suo

  31. Hedging Using Index Futures • To hedge the risk in a portfolio the number of contracts that should be shorted is • where P is the value of the portfolio, b is its beta, and A is the value of the assets underlying one futures contract W. Suo

  32. 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 outperform the market.) W. Suo

  33. Example S&P 500 is 1,000 S&P 500 futures price is 1,010 Value of Portfolio is $5.05 million Beta of portfolio is 1.5 What position in futures contracts on the S&P 500 is necessary to hedge the portfolio? • F=250*1,010=252,500, and thus 1.5*5,050,000/252,000=30 Contracts are needed to short W. Suo

  34. 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? W. Suo

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