DOCSLIB.ORG

The Option Trader Handbook Strategies and Trade Adjustments

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Option Trader Handbook Strategies and Trade Adjustments The Option Trader Handbook Strategies and Trade Adjustments Second Edition GEORGE VI. JABBOIiR, PhD PHILIP H. BUDWICK, MsF WILEY John Wiley & Sons, Inc. Contents Preface to the First Edition xlli Preface to the Second Edition xvli CHAPTER 1 Trade and Risk Management 1 Introduction 1 The Philosophy of Risk 2 Truth About Reward 5 Risk Management 6 Risk 6 Reward 9 Breakeven Points , 11 Trade Management 11 Trading Theme 11 The Theme of Your Portfolio 14 Diversification and Flexibility 15 Trading as a Business 16 Start-Up Phase 16 Growth Phase 19 Mature Phase 20 Just Business, Nothing Personal 21 SCORE—The Formula for Trading Success 21 Select the Investment 22 Choose the Best Strategy 23 Open the Trade with a Plan v, 24 Remember Your Plan and Stick to It 26 Exit Your Trade 26 Vl CONTENTS CHAPTER 2 Tools of the Trader 29 Introduction 29 Option Value 30 Option Pricing 31 Stock Price 31 Strike Price 32 Time to Expiration 32 Volatility 33 Dividends 33 Interest Rates 33 Option Greeks and Risk Management 34 Time Decay 34 Trading Lessons Learned from Time Decay (Theta). 41 Delta/Gamma 43 Deep-in-the-Money Options 46 Implied Volatility 49 Early Assignment 63 Synthetic Positions 65 Synthetic Stock 66 Long Stock 66 Short Stock 67 Synthetic Call 68 Synthetic Put 70 Basic Strategies 71 Long Call , 71 Short Call . - 72 Long Put .' 73 Short Put 74 Basic Spreads and Combinations 75 Bull Call Spread 75 Bull Put Spread 76 Bear Call Spread 77 Bear Put Spread 78 Long Straddle 78 Long Strangle 79 Short Straddle 80 Short Strangle 81 Advanced Spreads 82 Call Ratio Spread 82 Put Ratio Spread 83 Contents vli Call Ratio Backspread 84 Put Ratio Backspread 85 Long Butterflies 86 Short Butterflies 87 Long Calendar Spreads 88 Short Calendar Spreads 89 The Greeks and Spread Trades 90 Delta/Gamma 91 Vega • 92 Other Greeks and Spreads 93 Valuable Derivative Traders Program 93 Step 1: VEGA and Implied Volatility (IV) 94 Step 2: Delta and Strike Selection 96 Step 3: Theta and How Much Time to Expiration 97 Putting the Program to Work 99 Introduction to Trade Adjustments 100 CHAPTER 3 Long Stock 105 Introduction 105 Protective Put 106 Stock Moves Higher 109 Stock Moves Lower 111 Bear Put Spread ^ 114 Rolling from a Protective Put into a Bear Put Spread 116 Rolling from a Bear Put Spread into a Protective Put 118 Call Replacement 120 Stock Moves Higher 121 Stock Moves Lower 122 Call Replacement versus Protective Put 123 Sell Covered Calls 123 Stock Moves Higher 125 Strike Selection 127 In the Money Calls 128 Time to Expiration , 131 Scaling-Out Strategy 1 32 Collars 134 Opening Position—Regular Collar 1 34 Stock Moves Higher—Profit Collar 1 37 CONTENTS Ratio Write 139 Opening Position 140 Stock Moves Higher—Regular Ratio Write 143 Stock Moves Higher—Variable Strike Ratio Write 149 Stock Moves Lower—Ratio Write/Variable Strike Ratio Write 1 53 Short Straddle/Short Strangle 156 Opening Position—Short Straddle 1 56 Opening Position—Short Strangle 160 Stock Moves Higher—Short Straddle 163 Stock Moves Higher—Short Strangle 168 Stock Moves Lower—Short Straddle/Stock Repair 1 72 Stock Moves Lower—Short Strangle 1 76 Call Ratio Spread 179 Opening Position 182 Stock Moves Higher 186 Stock Moves Lower—Stock Repair Strategy 191 Call Calendar Spread 193 Opening Position 195 Stock Moves Higher ' "• 196 CHAPTER 4 Short Stock 201 Introduction 201 Protective Call—Insurance 203 Opening Position—Protective Call 203 Opening Position—Protective Call Spread 208 Short Stock + Protective Call = Long Put 210 Stock Moves Lower—Protective Call 212 Stock Moves Lower—Protective Call Spread 21 5 Rolling between Protective Calls and Protective Call Spreads 219 Stock Moves Higher 221 Put Replacement 223 Stock Moves Lower 224 Stock Moves Higher 226 Put Replacement versus Protective Call 227 Covered Puts 228 Stock Moves Lower 229 Short Collars 234 Opening Position—Regular Collar 235 Stock Moves Lower—Profit Collar 237 Contents ix Put Ratio Write 239 Opening Position 240 Stock Moves Lower—Regular Ratio Write 243 Stock Moves Lower—Variable Strike Ratio Write 248 Put Ratio Spread 250 Opening Position 250 Stock Moves Lower 253 Stock Moves Higher—Short Repair Strategy 256 CHAPTER 5 Calls and Puts 259 Introduction 259 Long Call 260 Protective Put—Stock Moves Higher 260 Protective Put—Stock Moves Lower 262 Call Replacement 264" Rolling into a Bull Call Spread—Stock Moves Higher 267 Rolling into a Bull Call Spread—Stock Moves Lower/Call Repair Strategy 269 Rolling into a Bear Call Spread 271 Short Stock 272 Rolling into a Synthetic Straddle 274 Rolling into a Calendar Spread 276 Rolling into a Ratio Spread 278 Stock Moves Lower—Call Repair Strategy 281 Short Call 285 Long Put 288 Protective Call 288 -Underlying Stock Moves Lower 288 Underlying Stock Moves Higher 290 Put Replacement Therapy . 292 Rolling into a Bear Put Spread 294 Underlying Stock Moves Lower 294 Underlying Stock Moves Higher—Put Repair Strategy 295 Rolling into a Bull Put Spread 297 Long Stock/Synthetic Straddle 298 Put Calendar Spread 302 Put Ratio Spread 305 Underlying Stock Moves Lower < 305 Underlying Stock Moves Higher—Put Repair Strategy 308 Short Put 311 X CONTENTS CHAPTER 6 Spreads 317 Introduction 317 Bull Call Spreads/Bear Put Spreads 317 Protective Puts/Protective Calls 318 Bull Call Spread—Protective Put 318 Bull Call Spread—Protective Put Spread 320 Bear Put Spread—Protective Call 321 Bear Put Spread—Protective Call Spread 322 Convert to Ratio Spreads 323 Bull Call Spread—Stock Moves Higher 323 Bull Call Spread—Stock Moves Lower/Repair Strategy 326 Bear Put Spread—Stock Moves Lower 330 Bear Put Spread—Stock Moves Higher/Repair Strategy 332 Convert to Butterflies 336 Bull Call Spread 337 Bear Put Spread 338 Bear Call Spreads/Bull Put Spreads 340 Calendar Spreads 340 Call Calendar Spread 341 v Stock Moves Higher—Rolling into a Bull Call Spread 341 Stock Moves Higher—Rolling into a Diagonal Ratio Spread 342 Stock Moves Lower—Rolling into a Lower Strike Bull Call Spread 343 Stock Moves Lower—Convert to a Calendar Strangle 344 Put Calendar Spread 345 Stock Moves Lower—Rolling into a Bear Put Spread 345 Stock Moves' Lower—Rolling into a Diagonal Ratio Spread 345 Stock Moves Higher—Rolling into a Higher Strike Bear Put Spread 347 Stock Moves Higher—Rolling into a Calendar Strangle 348 Butterfly Spreads 348 Long Butterfly to Long Condor 348 CHAPTER 7 Combinations 353 Introduction 353 Long Straddle 353 Straps/Strips 354 Modified Straps/Strips 357 Calendar Straddle 359 Rolling a Long Straddle into an Iron Butterfly 361 Diagonal Iron Butterfly 363 Contents xl . Partial Iron Butterfly 363 Long Call/Long Put Adjustments 365 Long Strangle 365 Diagonal Iron Butterfly 365 Calendar Strangle 367 Long Call/Long Put Adjustments 367 Short Straddle/Short Strangle 368 Short Straddle 368 Rolling Short Straddle into Iron Butterfly 371. Short Strangle 373 Index 37S.
Load more

Recommended publications
  • Machine Learning Based Intraday Calibration of End of Day Implied Volatility Surfaces
    DEGREE PROJECT IN MATHEMATICS, SECOND CYCLE, 30 CREDITS STOCKHOLM, SWEDEN 2020 Machine Learning Based Intraday Calibration of End of Day Implied Volatility Surfaces CHRISTOPHER HERRON ANDRÉ ZACHRISSON KTH ROYAL INSTITUTE OF TECHNOLOGY SCHOOL OF ENGINEERING SCIENCES Machine Learning Based Intraday Calibration of End of Day Implied Volatility Surfaces CHRISTOPHER HERRON ANDRÉ ZACHRISSON Degree Projects in Mathematical Statistics (30 ECTS credits) Master's Programme in Applied and Computational Mathematics (120 credits) KTH Royal Institute of Technology year 2020 Supervisor at Nasdaq Technology AB: Sebastian Lindberg Supervisor at KTH: Fredrik Viklund Examiner at KTH: Fredrik Viklund TRITA-SCI-GRU 2020:081 MAT-E 2020:044 Royal Institute of Technology School of Engineering Sciences KTH SCI SE-100 44 Stockholm, Sweden URL: www.kth.se/sci Abstract The implied volatility surface plays an important role for Front office and Risk Manage- ment functions at Nasdaq and other financial institutions which require mark-to-market of derivative books intraday in order to properly value their instruments and measure risk in trading activities. Based on the aforementioned business needs, being able to calibrate an end of day implied volatility surface based on new market information is a sought after trait. In this thesis a statistical learning approach is used to calibrate the implied volatility surface intraday. This is done by using OMXS30-2019 implied volatil- ity surface data in combination with market information from close to at the money options and feeding it into 3 Machine Learning models. The models, including Feed For- ward Neural Network, Recurrent Neural Network and Gaussian Process, were compared based on optimal input and data preprocessing steps.
    [Show full text]
  • Tracking and Trading Volatility 155
    ffirs.qxd 9/12/06 2:37 PM Page i The Index Trading Course Workbook www.rasabourse.com ffirs.qxd 9/12/06 2:37 PM Page ii Founded in 1807, John Wiley & Sons is the oldest independent publishing company in the United States. With offices in North America, Europe, Aus- tralia, and Asia, Wiley is globally committed to developing and marketing print and electronic products and services for our customers’ professional and personal knowledge and understanding. The Wiley Trading series features books by traders who have survived the market’s ever changing temperament and have prospered—some by reinventing systems, others by getting back to basics. Whether a novice trader, professional, or somewhere in-between, these books will provide the advice and strategies needed to prosper today and well into the future. For a list of available titles, visit our web site at www.WileyFinance.com. www.rasabourse.com ffirs.qxd 9/12/06 2:37 PM Page iii The Index Trading Course Workbook Step-by-Step Exercises and Tests to Help You Master The Index Trading Course GEORGE A. FONTANILLS TOM GENTILE John Wiley & Sons, Inc. www.rasabourse.com ffirs.qxd 9/12/06 2:37 PM Page iv Copyright © 2006 by George A. Fontanills, Tom Gentile, and Richard Cawood. All rights reserved. Published by John Wiley & Sons, Inc., Hoboken, New Jersey. Published simultaneously in Canada. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, scanning, or otherwise, except as permitted under Section 107 or 108 of the 1976 United States Copyright Act, without either the prior written permission of the Publisher, or authorization through payment of the appropriate per-copy fee to the Copyright Clearance Center, Inc., 222 Rosewood Drive, Danvers, MA 01923, (978) 750-8400, fax (978) 646-8600, or on the web at www.copyright.com.
    [Show full text]
  • University of Illinois at Urbana-Champaign Department of Mathematics
    University of Illinois at Urbana-Champaign Department of Mathematics ASRM 410 Investments and Financial Markets Fall 2018 Chapter 5 Option Greeks and Risk Management by Alfred Chong Learning Objectives: 5.1 Option Greeks: Black-Scholes valuation formula at time t, observed values, model inputs, option characteristics, option Greeks, partial derivatives, sensitivity, change infinitesimally, Delta, Gamma, theta, Vega, rho, Psi, option Greek of portfolio, absolute change, option elasticity, percentage change, option elasticity of portfolio. 5.2 Applications of Option Greeks: risk management via hedging, immunization, adverse market changes, delta-neutrality, delta-hedging, local, re-balance, from- time-to-time, holding profit, delta-hedging, first order, prudent, delta-gamma- hedging, gamma-neutrality, option value approximation, observed values change inevitably, Taylor series expansion, second order approximation, delta-gamma- theta approximation, delta approximation, delta-gamma approximation. Further Exercises: SOA Advanced Derivatives Samples Question 9. 1 5.1 Option Greeks 5.1.1 Consider a continuous-time setting t ≥ 0. Assume that the Black-Scholes framework holds as in 4.2.2{4.2.4. 5.1.2 The time-0 Black-Scholes European call and put option valuation formula in 4.2.9 and 4.2.10 can be generalized to those at time t: −δ(T −t) −r(T −t) C (t; S; δ; r; σ; K; T ) = Se N (d1) − Ke N (d2) P = Ft;T N (d1) − PVt;T (K) N (d2); −r(T −t) −δ(T −t) P (t; S; δ; r; σ; K; T ) = Ke N (−d2) − Se N (−d1) P = PVt;T (K) N (−d2) − Ft;T N (−d1) ; where d1 and d2 are given by S 1 2 ln K + r − δ + 2 σ (T − t) d1 = p ; σ T − t S 1 2 p ln K + r − δ − 2 σ (T − t) d2 = p = d1 − σ T − t: σ T − t 5.1.3 The option value V is a function of observed values, t and S, model inputs, δ, r, and σ, as well as option characteristics, K and T .
    [Show full text]
  • Are Defensive Stocks Expensive? a Closer Look at Value Spreads
    Are Defensive Stocks Expensive? A Closer Look at Value Spreads Antti Ilmanen, Ph.D. November 2015 Principal For several years, many investors have been concerned about the apparent rich valuation of Lars N. Nielsen defensive stocks. We analyze the prices of these Principal stocks using value spreads and find that they are not particularly expensive today. Swati Chandra, CFA Vice President Moreover, valuations may have limited efficacy in predicting strategy returns. This piece lends insight into possible reasons by focusing on the contemporaneous relation (i.e., how changes in value spreads are related to returns over the same period). We highlight a puzzling case where a defensive long/short strategy performed well during a recent two- year period when its value spread normalized from abnormally rich levels. For most asset classes, cheapening valuations coincide with poor performance. However, this relationship turns out to be weaker for long/short factor portfolios where several mechanisms can loosen the presumed strong link between value spread changes and strategy returns. Such wedges include changing fundamentals, evolving positions, carry and beta mismatches. Overall, investors should be cognizant of the tenuous link between value spreads and returns. We thank Gregor Andrade, Cliff Asness, Jordan Brooks, Andrea Frazzini, Jacques Friedman, Jeremy Getson, Ronen Israel, Sarah Jiang, David Kabiller, Michael Katz, AQR Capital Management, LLC Hoon Kim, John Liew, Thomas Maloney, Lasse Pedersen, Lukasz Pomorski, Scott Two Greenwich Plaza Richardson, Rodney Sullivan, Ashwin Thapar and David Zhang for helpful discussions Greenwich, CT 06830 and comments. p: +1.203.742.3600 f: +1.203.742.3100 w: aqr.com Are Defensive Stocks Expensive? A Closer Look at Value Spreads 1 Introduction puzzling result — buying a rich investment, seeing it cheapen, and yet making money — in Are defensive stocks expensive? Yes, mildly, more detail below.
    [Show full text]
  • Evidence from SME Bond Markets
    Temi di discussione (Working Papers) Asymmetric information in corporate lending: evidence from SME bond markets by Alessandra Iannamorelli, Stefano Nobili, Antonio Scalia and Luana Zaccaria September 2020 September Number 1292 Temi di discussione (Working Papers) Asymmetric information in corporate lending: evidence from SME bond markets by Alessandra Iannamorelli, Stefano Nobili, Antonio Scalia and Luana Zaccaria Number 1292 - September 2020 The papers published in the Temi di discussione series describe preliminary results and are made available to the public to encourage discussion and elicit comments. The views expressed in the articles are those of the authors and do not involve the responsibility of the Bank. Editorial Board: Federico Cingano, Marianna Riggi, Monica Andini, Audinga Baltrunaite, Marco Bottone, Davide Delle Monache, Sara Formai, Francesco Franceschi, Salvatore Lo Bello, Juho Taneli Makinen, Luca Metelli, Mario Pietrunti, Marco Savegnago. Editorial Assistants: Alessandra Giammarco, Roberto Marano. ISSN 1594-7939 (print) ISSN 2281-3950 (online) Printed by the Printing and Publishing Division of the Bank of Italy ASYMMETRIC INFORMATION IN CORPORATE LENDING: EVIDENCE FROM SME BOND MARKETS by Alessandra Iannamorelli†, Stefano Nobili†, Antonio Scalia† and Luana Zaccaria‡ Abstract Using a comprehensive dataset of Italian SMEs, we find that differences between private and public information on creditworthiness affect firms’ decisions to issue debt securities. Surprisingly, our evidence supports positive (rather than adverse) selection. Holding public information constant, firms with better private fundamentals are more likely to access bond markets. Additionally, credit conditions improve for issuers following the bond placement, compared with a matched sample of non-issuers. These results are consistent with a model where banks offer more flexibility than markets during financial distress and firms may use market lending to signal credit quality to outside stakeholders.
    [Show full text]
  • 307439 Ferdig Master Thesis
    Master's Thesis Using Derivatives And Structured Products To Enhance Investment Performance In A Low-Yielding Environment - COPENHAGEN BUSINESS SCHOOL - MSc Finance And Investments Maria Gjelsvik Berg P˚al-AndreasIversen Supervisor: Søren Plesner Date Of Submission: 28.04.2017 Characters (Ink. Space): 189.349 Pages: 114 ABSTRACT This paper provides an investigation of retail investors' possibility to enhance their investment performance in a low-yielding environment by using derivatives. The current low-yielding financial market makes safe investments in traditional vehicles, such as money market funds and safe bonds, close to zero- or even negative-yielding. Some retail investors are therefore in need of alternative investment vehicles that can enhance their performance. By conducting Monte Carlo simulations and difference in mean testing, we test for enhancement in performance for investors using option strategies, relative to investors investing in the S&P 500 index. This paper contributes to previous papers by emphasizing the downside risk and asymmetry in return distributions to a larger extent. We find several option strategies to outperform the benchmark, implying that performance enhancement is achievable by trading derivatives. The result is however strongly dependent on the investors' ability to choose the right option strategy, both in terms of correctly anticipated market movements and the net premium received or paid to enter the strategy. 1 Contents Chapter 1 - Introduction4 Problem Statement................................6 Methodology...................................7 Limitations....................................7 Literature Review.................................8 Structure..................................... 12 Chapter 2 - Theory 14 Low-Yielding Environment............................ 14 How Are People Affected By A Low-Yield Environment?........ 16 Low-Yield Environment's Impact On The Stock Market........
    [Show full text]
  • Ice Crude Oil
    ICE CRUDE OIL Intercontinental Exchange® (ICE®) became a center for global petroleum risk management and trading with its acquisition of the International Petroleum Exchange® (IPE®) in June 2001, which is today known as ICE Futures Europe®. IPE was established in 1980 in response to the immense volatility that resulted from the oil price shocks of the 1970s. As IPE’s short-term physical markets evolved and the need to hedge emerged, the exchange offered its first contract, Gas Oil futures. In June 1988, the exchange successfully launched the Brent Crude futures contract. Today, ICE’s FSA-regulated energy futures exchange conducts nearly half the world’s trade in crude oil futures. Along with the benchmark Brent crude oil, West Texas Intermediate (WTI) crude oil and gasoil futures contracts, ICE Futures Europe also offers a full range of futures and options contracts on emissions, U.K. natural gas, U.K power and coal. THE BRENT CRUDE MARKET Brent has served as a leading global benchmark for Atlantic Oseberg-Ekofisk family of North Sea crude oils, each of which Basin crude oils in general, and low-sulfur (“sweet”) crude has a separate delivery point. Many of the crude oils traded oils in particular, since the commercialization of the U.K. and as a basis to Brent actually are traded as a basis to Dated Norwegian sectors of the North Sea in the 1970s. These crude Brent, a cargo loading within the next 10-21 days (23 days on oils include most grades produced from Nigeria and Angola, a Friday). In a circular turn, the active cash swap market for as well as U.S.
    [Show full text]
  • Yuichi Katsura
    P&TcrvvCJ Efficient ValtmVmm-and Hedging of Structured Credit Products Yuichi Katsura A thesis submitted for the degree of Doctor of Philosophy of the University of London May 2005 Centre for Quantitative Finance Imperial College London nit~ýl. ABSTRACT Structured credit derivatives such as synthetic collateralized debt obligations (CDO) have been the principal growth engine in the fixed income market over the last few years. Val- uation and risk management of structured credit products by meads of Monte Carlo sim- ulations tend to suffer from numerical instability and heavy computational time. After a brief description of single name credit derivatives that underlie structured credit deriva- tives, the factor model is introduced as the portfolio credit derivatives pricing tool. This thesis then describes the rapid pricing and hedging of portfolio credit derivatives using the analytical approximation model and semi-analytical models under several specifications of factor models. When a full correlation structure is assumed or the pricing of exotic structure credit products with non-linear pay-offs is involved, the semi-analytical tractability is lost and we have to resort to the time-consuming Monte Carlo method. As a Monte Carlo variance reduction technique we extend the importance sampling method introduced to credit risk modelling by Joshi [2004] to the general n-factor problem. The large homogeneouspool model is also applied to the method of control variates as a new variance reduction tech- niques for pricing structured credit products. The combination of both methods is examined and it turns out to be the optimal choice. We also show how sensitivities of a CDO tranche can be computed efficiently by semi-analytical and Monte Carlo framework.
    [Show full text]
  • RT Options Scanner Guide
    RT Options Scanner Introduction Our RT Options Scanner allows you to search in real-time through all publicly traded US equities and indexes options (more than 170,000 options contracts total) for trading opportunities involving strategies like: - Naked or Covered Write Protective Purchase, etc. - Any complex multi-leg option strategy – to find the “missing leg” - Calendar Spreads Search is performed against our Options Database that is updated in real-time and driven by HyperFeed’s Ticker-Plant and our Implied Volatility Calculation Engine. We offer both 20-minute delayed and real-time modes. Unlike other search engines using real-time quotes data only our system takes advantage of individual contracts Implied Volatilities calculated in real-time using our high-performance Volatility Engine. The Scanner is universal, that is, it is not confined to any special type of option strategy. Rather, it allows determining the option you need in the following terms: – Cost – Moneyness – Expiry – Liquidity – Risk The Scanner offers Basic and Advanced Search Interfaces. Basic interface can be used to find options contracts satisfying, for example, such requirements: “I need expensive Calls for Covered Call Write Strategy. They should expire soon and be slightly out of the money. Do not care much as far as liquidity, but do not like to bear high risk.” This can be done in five seconds - set the search filters to: Cost -> Dear Moneyness -> OTM Expiry -> Short term Liquidity -> Any Risk -> Moderate and press the “Search” button. It is that easy. In fact, if your request is exactly as above, you can just press the “Search” button - these values are the default filtering criteria.
    [Show full text]
  • Options Slide Deck Updated Version
    www.levelupbootcamps.com 4/4/21 Derivatives Option Strategies 4/4/21 LevelUp, LLC©2021 All rights reserved 1 1 Derivatives & Currency Management Option Strategies 4/4/21 LevelUp, LLC©2021 All rights reserved 2 2 Level Up, LLC©2021 All rights reserved 1 www.levelupbootcamps.com 4/4/21 Risk Management with Options Synthetic Positions • Synthetic Long & Short Forward Option Strategies • Synthetic Puts & Calls Multiple Option Strategies Single Option + Underlying Single Option Directionless Volatility Long U/L Risk Reduction Writing Puts • Long Straddle = LC + LP Covered Call = U/L + SC • Lower purchase cost • Short Straddle = SC + SP • Income enhancement • Fiduciary put = SP + Money Spreads • Reduce at favorable price cash to cover (ftn 13) “Small Moves Up or Down” • Target price realization The Greeks • Bull & Bear Call Spreads • Manza Case 1. Delta + & - • Bear & Bull Put Spreads Protective Put = U/L + LP 2. Gamma + • Insurance Calendar Spreads 3. Theta (time) - Collar = U/L + LP + SC Short “Its all about Theta” 4. Vega (Implied Vol) + • Risk Reversal • Long Calendar Spread Portfolio Mgt • Short Calendar Spread Short U/L Risk Reduction 1. Strategies using • Short U/L + Long Call volatility & market view • Short U/L + Short Put 2. Adjusting risk exposure 4/4/21 LevelUp, LLC©2021 All rights reserved 3 3 Single Option Strategies Refresher . just in case + + X S Long Call – LC S Short Call – SC - - X “writing” Want U/L up – bullish Want U/L down – bearish Right to buy at strike price X Obligated to sell at strike price X Max gain = ∞ when S
    [Show full text]
  • 11 Option Payoffs and Option Strategies
    11 Option Payoffs and Option Strategies Answers to Questions and Problems 1. Consider a call option with an exercise price of $80 and a cost of $5. Graph the profits and losses at expira- tion for various stock prices. 73 74 CHAPTER 11 OPTION PAYOFFS AND OPTION STRATEGIES 2. Consider a put option with an exercise price of $80 and a cost of $4. Graph the profits and losses at expiration for various stock prices. ANSWERS TO QUESTIONS AND PROBLEMS 75 3. For the call and put in questions 1 and 2, graph the profits and losses at expiration for a straddle comprising these two options. If the stock price is $80 at expiration, what will be the profit or loss? At what stock price (or prices) will the straddle have a zero profit? With a stock price at $80 at expiration, neither the call nor the put can be exercised. Both expire worthless, giving a total loss of $9. The straddle breaks even (has a zero profit) if the stock price is either $71 or $89. 4. A call option has an exercise price of $70 and is at expiration. The option costs $4, and the underlying stock trades for $75. Assuming a perfect market, how would you respond if the call is an American option? State exactly how you might transact. How does your answer differ if the option is European? With these prices, an arbitrage opportunity exists because the call price does not equal the maximum of zero or the stock price minus the exercise price. To exploit this mispricing, a trader should buy the call and exercise it for a total out-of-pocket cost of $74.
    [Show full text]
  • VERTICAL SPREADS: Taking Advantage of Intrinsic Option Value
    Advanced Option Trading Strategies: Lecture 1 Vertical Spreads – The simplest spread consists of buying one option and selling another to reduce the cost of the trade and participate in the directional movement of an underlying security. These trades are considered to be the easiest to implement and monitor. A vertical spread is intended to offer an improved opportunity to profit with reduced risk to the options trader. A vertical spread may be one of two basic types: (1) a debit vertical spread or (2) a credit vertical spread. Each of these two basic types can be written as either bullish or bearish positions. A debit spread is written when you expect the stock movement to occur over an intermediate or long- term period [60 to 120 days], whereas a credit spread is typically used when you want to take advantage of a short term stock price movement [60 days or less]. VERTICAL SPREADS: Taking Advantage of Intrinsic Option Value Debit Vertical Spreads Bull Call Spread During March, you decide that PFE is going to make a large up move over the next four months going into the Summer. This position is due to your research on the portfolio of drugs now in the pipeline and recent phase 3 trials that are going through FDA approval. PFE is currently trading at $27.92 [on March 12, 2013] per share, and you believe it will be at least $30 by June 21st, 2013. The following is the option chain listing on March 12th for PFE. View By Expiration: Mar 13 | Apr 13 | May 13 | Jun 13 | Sep 13 | Dec 13 | Jan 14 | Jan 15 Call Options Expire at close Friday,
    [Show full text]