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Financial Options & Option Valuation REVISITED. Week 7 IMBA 2017 ACF FALL 1. RECAP KLP ’ s FINC 5880. Week 1: Intrinsic Valuation Week 2: Capital Budgeting (Disney Brasilia Case) Week 3: Capital Structure (Disney Case) Week 4: Business Analysis (integrating your knowledge)
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Financial Options & Option Valuation REVISITED Week 7 IMBA 2017 ACF FALL 1
RECAP KLP’s FINC 5880 Week 1: Intrinsic Valuation Week 2: Capital Budgeting (Disney Brasilia Case) Week 3: Capital Structure (Disney Case) Week 4: Business Analysis (integrating your knowledge) Week 5: Mid Test & Leasing… Week 6: Financial Options and Option Valuation Week 7: BS model and more on options Week 8: REVIEW & GUIDANCE FINAL EXAM
USD decline against CNY…CNY rises against USD…In just 6 months time…
Today’s Agenda (16 September) Financial Options DEMO for homework session 6 (Apple INC.) Break Financial Options & Option Valuation: Black Scholes (EXCEL) With some class assignments…to hand in Session 8: Subject Overview & Final Exam guidance
Apple & butterfly option 11 sept. Expectations about the new product announcements September 2017 have been strengthening the stock price…
Spot price Apple Inc. $ 158.63 • Reasoning: prices have been building up to the current level over the past 6 months… • If the announcement include revolutionary news this will give the stock price a further boost to above $ 160 • If there is no unexpected news about iPhone 8, the new Apple watch etc. then the stock price will decline to under $ 155 • Expecting this to be the most likely range in the short term (October 2017) we choose; Call X=155, Call X=160 and 2 Calls in between 157.50
Short or Long? • We short the butterfly: • Thus buy 1 call X=$155 • Sell 2 calls X= $157.50 • Buy 1 call X=$ 160 • According to attached table: • We GET : $ 7.90+$4.98 - $12.80 (bought)=$ 0.08… • We are now ready to make the table like we did in class last Saturday…
Butterfly…. You conclude this does not look good…
How about a Long Butterfly? This looks ok?
Let’s test the premiums • The Call 27 Oct X=$155 was $ 7.90 • What would the Binomial model calculate? • What would the BS Model calculate?
Binomial Model • Su= $175 Sd=$135 • So=$158 • Rf=3% per year (for this period 0.5%) • Time 48 days= 0.13 year • X=$155 Hedge ratio: $20/$40=1/2 • C= ($158-$134.33)/2= $ 11.84 • (we neglected dividends)
Comparing premiums…11-12 sept It is absolutely logical that if the stock price increases from $158.63 to $161.50 that Call options with same X and t are more expensive… You could close your position and thus…you lost money because your butterfly was hoping for a smaller change…so you’d better stick to it as you still have time until 27 Oct to make money on it…
Compare with 11 and 12 sept. Your long butterfly: (did you make money?) X=$155 you make $3.20 but paid $7.90 (loss $4.70) X=$157.50 you loose $0.70 (twice) but received $12.80 (profit $11.40) X=$160 you loose the premium $4.98 TOTAL: -$4.70+$11.40-$4.98= $ 1.72 profit (your investment was almost zero)…
Of course you already knew that at So=$158.20 your profit would be $1.72…
What determines option value? • Stock Price (S) • Exercise Price (Strike Price) (X) • Volatility (σ) • Time to expiration (T) • Interest rates (Rf) • Dividend Payouts (D)
Binomial model • Key to this analysis is the creation of a perfect hedge… • The hedge ratio for a two state option like this is: • H= (Cu-Cd)/(Su-Sd)=($75-$0)/($200-$50)=0.5 • Portfolio with 0.5 shares and 1 written option (strike $125) will have a pay off of $25 with certainty…. • So now solve: • Hedged portfolio value=present value certain pay off • 0.5shares-1call (written)=$ 23.15 • With the value of 1 share = $100 • $50-1call=$23.15 so 1 call=$26.85
What if the option is overpriced? Say $30 instead of $ 26.85 • Then you can make arbitrage profits: • Risk free $6.80…no matter what happens to share price!
Class assignment: What if the option is under-priced? Say $25 instead of $ 26.85 (5 min) • Then you can make arbitrage profits: • Risk free …no matter what happens to share price!
Answer… • Then you can make arbitrage profits: • Risk free $4 no matter what happens to share price! • The PV of $4=$3.70 • Or $ 1.85 per option (exactly the amount by which the option was under priced!: $26.85-$25=$1.85)
Now we can play around… Assume more price volatility in the underlying asset Change X Change So Change Rf And if we change them one by one we will see the impact on C value • Let’s use the Binomial model to show you the effects on C…
Increased Volatility in the Price of the Stock(Let’s assume Su= $225 and Sd=$25) Recall Volatility was: Su=$200 and Sd=$50 All other data are the same…(c.p.) Hedge ratio: (Cu-Cd)/(Su-Sd)=$100/$200 Buy 1 Stock and sell 2 Calls… -$100+2C+$25/1.08=0 C= $ 38.43 (versus $ 26.85 at old volatility) It is logical that this Call is more expensive…
Change Strike X to $100 (was $ 125) Hedge ratio changes to 2/3 Buy 2 stocks sell 3 calls… -$200+3C+$100/1.08=0 C= $ 35.80 (versus $ 26.85 at X=$125) This Call should be more expensive… (it is not in the money at So=$100) You can further try out what will happen at Rf=10% or So=$95…
Black-Scholes Option Valuation • Assuming that the risk free rate stays the same over the life of the option • Assuming that the volatility of the underlying asset stays the same over the life of the option σ • Assuming Option held to maturity…(European style option)
Without doing the math… • Black-Scholes: value call= • Current stock price*probability – present value of strike price*probability • Note that if dividend=0 that: • Co=So-Xe-rt*N(d2)=The adjusted intrinsic value= So-PV(X)
Class assignment: Black Scholes (10 min) • Assume the BS option model: • Call= Se-dt(N(d1))-Xe-rt(N(d2)) • d1=(ln(S/X)+(r-d+σ2/2)t)/ (σ√t) • d2=d1- σ√t • If you use EXCEL for N(d1) and N(d2) use NORMSDIST function! • stock price (S) $100 • Strike price (X) $95 • Rf ( r)=10% • Dividend yield (d)=0 • Time to expiration (t)= 1 quarter of a year • Standard deviation =0.50 • A)Calculate the theoretical value of a call option with strike price $95 maturity 0.25 year… • B) if the volatility increases to 0.60 what happens to the value of the call? (calculate it)
answer • A) Calculate: d1= ln(100/95)+(0.10-0+0.5^2/2)0.25/(0.5*(0.25^0.5))=0.43 • Calculate d2= 0.43-0.5*(0.25^0.5)=0.18 • From the normal distribution find: • N(0.43)=0.6664 (interpolate) • N(0.18)=0.5714 • Co=$100*0.6664-$95*e -.10*0.25 *0.5714=$13.70 • B) If the volatility is 0.6 then : • D1= ln(100/95)+(0.10+0.36/2)0.25/(0.6*(0.25^0.5))=0.4043 • D2= 0.4043-0.6(0.25^0.5)=0.1043 • N(d1)=0.6570 • N(d2)=0.5415 • Co=$100*0.6570-$ 95*e -.10*0.25 *0.5415=$15.53 • Higher volatility results in higher call premium!
Homework assignment: Black & Scholes • Calculate the theoretical value of a call option for your company using BS • Now compare the market value of that option • How big is the difference? • How can that difference be explained?
Implied Volatility… • If we assume the market value is correct we set the BS calculation equal to the market price leaving open the volatility • The volatility included in today’s market price for the option is the so called implied volatility • Excel can help us to find the volatility (sigma)
Homework assignment: Implied Volatility • Consider one option series of your company in which there is enough volume trading • Use the BS model to calculate the implied volatility (leave sigma open and calculate back) • Set the price of the option at the current market level
Implied Volatility Index - VIX Investor fear gauge…
The put-call parity… • Relates prices of put and call options according to: • P=C-So + PV(X) + PV(dividends) • X= strike price of both call and put option • PV(X)= present value of the claim to X dollars to be paid at expiration of the options • Buy a call and write a put with same strike price…then set the Present Value of the pay off equal to C-P…
The put-call parity • Assume: • S= Selling Price • P= Price of Put Option • C= Price of Call Option • X= strike price • R= risk less rate • T= Time then X*e^-rt= NPV of realizable risk less share price (P and C converge) • S+P-C= X*e^-rt • So P= C +(X*e^-rt - S) is the relationship between the price of the Put and the price of the Call
Class Assignment:Testing Put-Call Parity • Consider the following data for a stock: • Stock price: $110 • Call price (t=0.5 X=$105): $14 • Put price (t=0.5 X=$105) : $5 • Risk free rate 5% (continuously compounded rate) • 1) Are these prices for the options violating the parity rule? Calculate! • 2) If violated how could you create an arbitrage opportunity out of this?
Answer: • 1) Parity if: C-P=S-Xe-rT • So $14-$5= $110-$105*e -0.5*5 • So $9= $ 7.59….this is a violation of parity • 2) Arbitrage: Buy the cheap position ($7.59) and sell the expensive position ($9) i.e. borrow the PV of the exercise price X, Buy the stock, sell call and buy put: • Buy the cheap position: • Borrow PV of X= Xe-rT= +$ 102.41 (cash in) • Buy stock - $110 (cash out) • Sell the expensive position: • Sell Call: +$14 (cash in) • Buy Put: -$5 (cash out) • Total $1.41 • If S<$105 the pay offs are S-$105-$ 0+($105-S)= $ 0 • If S>$105 the pay offs are S-$105-(S-$105)-$0=$ 0
Class assignment (hand in) • Consider AAPL after the iPhone X announcement:
Required: 1) Calculate the theoretical value of the Call Option X=$155 listed at market price $8.70 Assume: So=$ 161, X=$155, Rf=3% per year, Su=$200 and Sd=$120 2) Use the put call parity to calculate the P(ut) value with X=$155 for expiration 27 Oct. 2017 3) Use the BS model to calculate C and P and compare the above values: what is your conclusion? Note the dividend yield on AAPL stock is 1.56% (DPS/stock price) Market values : C= $8.70 and P= $2.68
