Option Valuation Chapter 21 Test Bank Docx - Investments 12e | Test Bank with Answer Key by Zvi Bodie by Zvi Bodie. DOCX document preview.
Student name:__________
MULTIPLE CHOICE - Choose the one alternative that best completes the statement or answers the question.
1) Before expiration, the time value of an in-the-money call option is always
A) equal to zero.
B) positive.
C) negative.
D) equal to the stock price minus the exercise price.
E) None of the options are correct.
2) Before expiration, the time value of an in-the-money put option is always
A) equal to zero.
B) negative.
C) positive.
D) equal to the stock price minus the exercise price.
E) None of the options are correct.
3) Before expiration, the time value of an at-the-money call option is usually
A) positive.
B) equal to zero.
C) negative.
D) equal to the stock price minus the exercise price.
E) None of the options are correct.
4) Before expiration, the time value of an at-the-money put option is always
A) equal to zero.
B) equal to the stock price minus the exercise price.
C) negative.
D) positive.
E) None of the options are correct.
5) At expiration, the time value of an in-the-money call option is always
A) equal to zero.
B) positive.
C) negative.
D) equal to the stock price minus the exercise price.
E) None of the options are correct.
6) At expiration, the time value of an in-the-money put option is always
A) equal to zero.
B) negative.
C) positive.
D) equal to the stock price minus the exercise price.
E) None of the options are correct.
7) At expiration, the time value of an at-the-money call option is always
A) positive.
B) equal to zero.
C) negative.
D) equal to the stock price minus the exercise price.
8) At expiration, the time value of an at-the-money put option is always
A) equal to zero.
B) equal to the stock price minus the exercise price.
C) negative.
D) positive.
9) A call option has an intrinsic value of zero if the option is
A) at the money.
B) out of the money.
C) in the money.
D) at the money and in the money.
E) at the money or out of the money.
10) A put option has an intrinsic value of zero if the option is
A) at the money.
B) out of the money.
C) in the money.
D) at the money and in the money.
E) at the money or out of the money.
11) Prior to expiration,
A) the intrinsic value of a call option is greater than its actual value.
B) the intrinsic value of a call option is always positive.
C) the actual value of a call option is greater than the intrinsic value.
D) the intrinsic value of a call option is always greater than its time value.
12) Prior to expiration,
A) the intrinsic value of a put option is greater than its actual value.
B) the intrinsic value of a put option is always positive.
C) the actual value of a put option is greater than the intrinsic value.
D) the intrinsic value of a put option is always greater than its time value.
13) If the stock price increases, the price of a put option on that stock __________, and that of a call option __________.
A) decreases; increases
B) decreases; decreases
C) increases; decreases
D) increases; increases
E) does not change; does not change
14) If the stock price decreases, the price of a put option on that stock __________, and that of a call option __________.
A) decreases; increases
B) decreases; decreases
C) increases; decreases
D) increases; increases
E) does not change; does not change
15) Other things equal, the price of a stock call option is positively correlated with the following factors except
A) the stock price.
B) the time to expiration.
C) the stock volatility.
D) the exercise price.
16) Other things equal, the price of a stock call option is positively correlated with which of the following factors?
A) The stock price
B) The time to expiration
C) The stock volatility
D) The exercise price
E) The stock price, time to expiration, and stock volatility
17) Other things equal, the price of a stock call option is negatively correlated with which of the following factors?
A) The stock price
B) The time to expiration
C) The stock volatility
D) The exercise price
E) The stock price, time to expiration, and stock volatility
18) Other things equal, the price of a stock put option is positively correlated with the following factors except
A) the stock price.
B) the time to expiration.
C) the stock volatility.
D) the exercise price.
19) Other things equal, the price of a stock put option is positively correlated with which of the following factors?
A) The stock price
B) The time to expiration
C) The stock volatility
D) The exercise price
E) The time to expiration, stock volatility, and exercise price
20) Other things equal, the price of a stock put option is negatively correlated with which of the following factors?
A) The stock price
B) The time to expiration
C) The stock volatility
D) The exercise price
E) The time to expiration, stock volatility, and exercise price
21) The price of a stock put option is __________ correlated with the stock price and __________ correlated with the strike price.
A) positively; positively
B) negatively; positively
C) negatively; negatively
D) positively; negatively
E) not; not
22) The price of a stock call option is __________ correlated with the stock price and __________ correlated with the strike price.
A) positively; positively
B) negatively; positively
C) negatively; negatively
D) positively; negatively
E) not; not
23) All the inputs in the Black-Scholes option pricing model are directly observable except
A) the price of the underlying security.
B) the risk-free rate of interest.
C) the time to expiration.
D) the variance of returns of the underlying asset return.
24) Which of the inputs in the Black-Scholes option pricing model are directly observable?
A) The price of the underlying security
B) The risk-free rate of interest
C) The time to expiration
D) The variance of returns of the underlying asset return
E) The price of the underlying security, risk-free rate of interest, and time to expiration
25) Delta is defined as
A) the change in the value of an option for a dollar change in the price of the underlying asset.
B) the change in the value of the underlying asset for a dollar change in the call price.
C) the percentage change in the value of an option for a 1% change in the value of the underlying asset.
D) the change in the volatility of the underlying stock price.
E) None of the options are correct.
26) A hedge ratio of 0.70 implies that a hedged portfolio should consist of
A) long 0.70 calls for each short stock.
B) short 0.70 calls for each long stock.
C) long 0.70 shares for each short call.
D) long 0.70 shares for each long call.
E) None of the options are correct.
27) A hedge ratio of 0.85 implies that a hedged portfolio should consist of
A) long 0.85 calls for each short stock.
B) short 0.85 calls for each long stock.
C) long 0.85 shares for each short call.
D) long 0.85 shares for each long call.
E) None of the options are correct.
28) A hedge ratio for a call option is ________, and a hedge ratio for a put option is ______.
A) negative; positive
B) negative; negative
C) positive; negative
D) positive; positive
E) zero; zero
29) A hedge ratio for a call is always
A) equal to one.
B) greater than one.
C) between zero and one.
D) between negative one and zero.
E) of no restricted value.
30) A hedge ratio for a put is always
A) equal to one.
B) greater than one.
C) between zero and one.
D) between negative one and zero.
E) of no restricted value.
31) The dollar change in the value of a stock call option is always
A) lower than the dollar change in the value of the stock.
B) higher than the dollar change in the value of the stock.
C) negatively correlated with the change in the value of the stock.
D) higher than the dollar change in the value of the stock and negatively correlated with the change in the value of the stock.
E) lower than the dollar change in the value of the stock and negatively correlated with the change in the value of the stock.
32) The percentage change in the stock call-option price divided by the percentage change in the stock price is called
A) the elasticity of the option.
B) the delta of the option.
C) the theta of the option.
D) the gamma of the option.
33) The elasticity of an option is
A) the volatility level for the stock that the option price implies.
B) the continued updating of the hedge ratio as time passes.
C) the percentage change in the stock call-option price divided by the percentage change in the stock price.
D) the sensitivity of the delta to the stock price.
34) The elasticity of a stock call option is always
A) greater than one.
B) smaller than one.
C) negative.
D) infinite.
E) None of the options are correct.
35) The elasticity of a stock put option is always
A) positive.
B) smaller than one.
C) negative.
D) infinite.
36) The gamma of an option is
A) the volatility level for the stock that the option price implies.
B) the continued updating of the hedge ratio as time passes.
C) the percentage change in the stock call-option price divided by the percentage change in the stock price.
D) the sensitivity of the delta to the stock price.
37) Delta neutral
A) is the volatility level for the stock that the option price implies.
B) is the continued updating of the hedge ratio as time passes.
C) is the percentage change in the stock call-option price divided by the percentage change in the stock price.
D) means the portfolio has no tendency to change value as the underlying portfolio value changes.
38) Dynamic hedging is
A) the volatility level for the stock that the option price implies.
B) the continued updating of the hedge ratio as time passes.
C) the percentage change in the stock call-option price divided by the percentage change in the stock price.
D) the sensitivity of the delta to the stock price.
39) Volatility risk is
A) the volatility level for the stock that the option price implies.
B) the risk incurred from unpredictable changes in volatility.
C) the percentage change in the stock call-option price divided by the percentage change in the stock price.
D) the sensitivity of the delta to the stock price.
40) Portfolio A consists of 150 shares of stock and 300 calls on that stock. Portfolio B consists of 575 shares of stock. The call delta is 0.7. Which portfolio has a higher dollar exposure to a change in stock price?
A) Portfolio B
B) Portfolio A
C) The two portfolios have the same exposure.
D) Portfolio A if the stock price increases and portfolio B if it decreases
E) Portfolio B if the stock price increases and portfolio A if it decreases
41) Portfolio A consists of 500 shares of stock and 500 calls on that stock. Portfolio B consists of 800 shares of stock. The call delta is 0.6. Which portfolio has a higher dollar exposure to a change in stock price?
A) Portfolio B
B) Portfolio A
C) The two portfolios have the same exposure.
D) Portfolio A if the stock price increases and portfolio B if it decreases
E) Portfolio B if the stock price increases and portfolio A if it decreases
42) Portfolio A consists of 400 shares of stock and 400 calls on that stock. Portfolio B consists of 500 shares of stock. The call delta is 0.5. Which portfolio has a higher dollar exposure to a change in stock price?
A) Portfolio B
B) Portfolio A
C) The two portfolios have the same exposure.
D) Portfolio A if the stock price increases and portfolio B if it decreases
E) Portfolio B if the stock price increases and portfolio A if it decreases
43) Portfolio A consists of 600 shares of stock and 300 calls on that stock. Portfolio B consists of 685 shares of stock. The call delta is 0.3. Which portfolio has a higher dollar exposure to a change in stock price?
A) Portfolio B
B) Portfolio A
C) The two portfolios have the same exposure.
D) Portfolio A if the stock price increases, and portfolio B if it decreases
E) Portfolio B if the stock price increases, and portfolio A if it decreases
44) A portfolio consists of 100 shares of stock and 1500 calls on that stock. If the hedge ratio for the call is 0.7, what would be the dollar change in the value of the portfolio in response to a $1 decline in the stock price?
A) +$700
B) +$500
C) −$1,150
D) −$520
45) A portfolio consists of 800 shares of stock and 100 calls on that stock. If the hedge ratio for the call is 0.5, what would be the dollar change in the value of the portfolio in response to a $1 decline in the stock price?
A) +$700
B) −$850
C) −$580
D) −$520
46) A portfolio consists of 225 shares of stock and 300 calls on that stock. If the hedge ratio for the call is 0.4, what would be the dollar change in the value of the portfolio in response to a $1 decline in the stock price?
A) −$345
B) +$500
C) −$580
D) −$520
47) A portfolio consists of 400 shares of stock and 200 calls on that stock. If the hedge ratio for the call is 0.6, what would be the dollar change in the value of the portfolio in response to a $1 decline in the stock price?
A) +$700
B) +$500
C) −$580
D) −$520
48) If the hedge ratio for a stock call is 0.30, the hedge ratio for a put with the same expiration date and exercise price as the call would be
A) 0.70.
B) 0.30.
C) −0.70.
D) −0.30.
E) −0.17.
49) If the hedge ratio for a stock call is 0.50, the hedge ratio for a put with the same expiration date and exercise price as the call would be
A) 0.30.
B) 0.50.
C) −0.60.
D) −0.50.
E) −0.17.
50) If the hedge ratio for a stock call is 0.60, the hedge ratio for a put with the same expiration date and exercise price as the call would be
A) 0.60.
B) 0.40.
C) −0.60.
D) −0.40.
E) −0.17.
51) If the hedge ratio for a stock call is 0.70, the hedge ratio for a put with the same expiration date and exercise price as the call would be
A) 0.70.
B) 0.30.
C) −0.70.
D) −0.30.
E) −0.17.
52) A put option is currently selling for $6 with an exercise price of $50. If the hedge ratio for the put is −0.30, and the stock is currently selling for $46, what is the elasticity of the put?
A) 2.76
B) 2.30
C) −7.67
D) −2.76
E) −2.30
53) A put option on the S&P 500 Index will best protect a portfolio
A) of 100 shares of IBM stock.
B) of 50 bonds.
C) that corresponds to the S&P 500.
D) of 50 shares of AT&T and 50 shares of Xerox stocks.
E) that replicates the Dow.
54) Higher dividend-payout policies have a __________ impact on the value of the call and a __________ impact on the value of the put compared to lower dividend-payout policies.
A) negative; negative
B) positive; positive
C) positive; negative
D) negative; positive
E) zero; zero
55) Lower dividend-payout policies have a __________ impact on the value of the call and a __________ impact on the value of the put compared to higher dividend-payout policies.
A) negative; negative
B) positive; positive
C) positive; negative
D) negative; positive
E) zero; zero
56) A $1 decrease in a call option's exercise price would result in a(n) __________ in the call option's value of __________ one dollar.
A) increase; more than
B) decrease; more than
C) decrease; less than
D) increase; less than
E) increase; exactly
57) Which one of the following variables influences the value of call options?I) Level of interest ratesII) Time to expiration of the optionIII) Dividend yield of underlying stockIV) Stock price volatility
A) I and IV only
B) II and III only
C) I, II, and IV only
D) I, II, III, and IV
E) I, II, and III only
58) Which one of the following variables influences the value of put options?I) Level of interest ratesII) Time to expiration of the optionIII) Dividend yield of underlying stockIV) Stock price volatility
A) I and IV only
B) II and III only
C) I, II, and IV only
D) I, II, III, and IV
E) I, II, and III only
59) An American call-option buyer on a nondividend-paying stock will
A) always exercise the call as soon as it is in the money.
B) only exercise the call when the stock price exceeds the previous high.
C) never exercise the call early.
D) buy an offsetting put whenever the stock price drops below the strike price.
E) None of the options are correct.
60) Relative to European puts, otherwise identical American put options
A) are less valuable.
B) are more valuable.
C) are equal in value.
D) will always be exercised earlier.
E) None of the options are correct.
61) Use the two-state put-option value in this problem. SO = $100; X = $120; the two possibilities for ST are $150 and $80. The range of P across the two states is _____, and the hedge ratio is _______.
A) $0 and $40; −4/7
B) $0 and $50; +4/7
C) $0 and $40; +4/7
D) $0 and $50; −4/7
E) $20 and $40; +1/2
62) Empirical tests of the Black-Scholes option pricing model
A) show that the model generates values fairly close to the prices at which options trade.
B) show that the model tends to overvalue deep in-the-money calls and undervalue deep out-of-the-money calls.
C) indicate that the mispricing that does occur is due to the possible early exercise of American options on dividend-paying stocks.
D) show that the model generates values fairly close to the prices at which options trade and indicate that the mispricing that does occur is due to the possible early exercise of American options on dividend-paying stocks.
E) All of the options are correct.
63) Options sellers who are delta-hedging would most likely
A) sell when markets are falling.
B) buy when markets are rising.
C) sell when markets are falling and buy when markets are rising.
D) sell whether markets are falling or rising.
E) buy whether markets are falling or rising.
64) An American-style call option with six months to maturity has a strike price of $35. The underlying stock now sells for $44. The call premium is $14.
What is the intrinsic value of the call?
A) $14
B) $9
C) $0
D) $23
65) An American-style call option with six months to maturity has a strike price of $35. The underlying stock now sells for $43. The call premium is $14.
What is the time value of the call?
A) $8
B) $14
C) $0
D) $6
E) Cannot be determined without more information
66) The hedge ratio of an at-the-money call option on KO is 0.2. The hedge ratio of an at-the-money put option is −0.3. What is the hedge ratio of an at-the-money straddle position on KO?
A) 0.1
B) −0.3
C) −0.1
D) 0.2
67) An American-style call option with six months to maturity has a strike price of $35. The underlying stock now sells for $43. The call premium is $12. If the company unexpectedly announces it will pay its first-ever dividend three months from today, you would expect that
A) the call price would increase.
B) the call price would decrease.
C) the call price would not change.
D) the put price would decrease.
E) the put price would not change.
68) The intrinsic value of an out-of-the-money call option is equal to
A) the call premium.
B) zero.
C) the stock price minus the exercise price.
D) the striking price.
69) Since deltas change as stock values change, portfolio hedge ratios must be constantly updated in active markets. This process is referred to as
A) portfolio insurance.
B) rebalancing.
C) option elasticity.
D) gamma hedging.
E) dynamic hedging.
70) In volatile markets, dynamic hedging may be difficult to implement because
A) prices move too quickly for effective rebalancing.
B) as volatility increases, historical deltas are too low.
C) price quotes may be delayed so that correct hedge ratios cannot be computed.
D) volatile markets may cause trading halts.
E) All of the options are correct.
71) Rubinstein (1994) observed that the performance of the Black-Scholes model had deteriorated in recent years, and he attributed this to
A) investor fears of another market crash.
B) higher-than-normal dividend payouts.
C) early exercise of American call options.
D) decreases in transaction costs.
E) None of the options are correct.
72) The time value of a call option isI) the difference between the option's price and the value it would have if it were expiring immediately.II) the same as the present value of the option's expected future cash flows.III) the difference between the option's price and its expected future value.IV) different from the usual time value of money concept.
A) I
B) I and II
C) II and III
D) II
E) I and IV
73) The time value of a put option isI) the difference between the option's price and the value it would have if it were expiring immediately.II) the same as the present value of the option's expected future cash flows.III) the difference between the option's price and its expected future value.IV) different from the usual time value of money concept.
A) I
B) I and II
C) II and III
D) II
E) I and IV
74) The intrinsic value of an at-the-money call option is equal to
A) the call premium.
B) zero.
C) the stock price plus the exercise price.
D) the striking price.
E) None of the options are correct.
75) As the underlying stock's price increased, the call option valuation function's slope approaches
A) zero.
B) one.
C) two times the value of the stock.
D) one-half the value of the stock.
E) infinity.
76) The intrinsic value of an in-of-the-money call option is equal to
A) the call premium.
B) zero.
C) the stock price minus the exercise price.
D) the striking price.
E) None of the options are correct.
77) The Black-Scholes formula assumes thatI) the risk-free interest rate is constant over the life of the option.II) the stock price volatility is constant over the life of the option.III) the expected rate of return on the stock is constant over the life of the option.IV) there will be no sudden extreme jumps in stock prices.
A) I and II
B) I and III
C) II and III
D) I, II, and IV
E) I, II, III, and IV
78) The intrinsic value of an in-the-money put option is equal to
A) the stock price minus the exercise price.
B) the put premium.
C) zero.
D) the exercise price minus the stock price.
E) None of the options are correct.
79) The hedge ratio of an option is also called the option's
A) alpha.
B) beta.
C) sigma.
D) delta.
E) rho.
80) The intrinsic value of an at-the-money put option is equal to
A) the stock price minus the exercise price.
B) the put premium.
C) zero.
D) the exercise price minus the stock price.
E) None of the options are correct.
81) An American-style call option with six months to maturity has a strike price of $44. The underlying stock now sells for $50. The call premium is $14.
What is the intrinsic value of the call?
A) $12
B) $10
C) $6
D) $23
82) An American-style call option with six months to maturity has a strike price of $44. The underlying stock now sells for $54. The call premium is $14.
What is the time value of the call?
A) $8
B) $12
C) $6
D) $4
E) Cannot be determined without more information
83) An American-style call option with six months to maturity has a strike price of $42. The underlying stock now sells for $50. The call premium is $14.
If the company unexpectedly announces it will pay its first-ever dividend four months from today, you would expect that
A) the call price would increase.
B) the call price would decrease.
C) the call price would not change.
D) the put price would decrease.
E) the put price would not change.
84) The intrinsic value of an out-of-the-money put option is equal to
A) the stock price minus the exercise price.
B) the put premium.
C) zero.
D) the exercise price minus the stock price.
85) Vega is defined as
A) the change in the value of an option for a dollar change in the price of the underlying asset.
B) the change in the value of the underlying asset for a dollar change in the call price.
C) the percentage change in the value of an option for a 1% change in the value of the underlying asset.
D) the change in the volatility of the underlying stock price.
E) the sensitivity of an option's price to changes in volatility.
86) The price of a stock is currently $50. Over the course of the next year, the price is anticipated to rise to $55 or decline to $46. If both outcomes are equally likely and the risk free interest rate is 3%, what is the price of a one year call option with an exercise price of $50 using the binomial model?
A) $2.43
B) $2.50
C) $2.66
D) $2.70
87) The price of a stock is currently $37. Over the course of the next year, the price is anticipated to rise to $40 or decline to $36. If the upside has a 65% probability of occurring and the risk free interest rate is 3%, what is the price of a one year call option with an exercise price of $35 using the binomial model?
A) $1.43
B) $1.50
C) $1.26
D) $2.70
88) The price of a stock is currently $38. Over the course of the next year, the price is anticipated to rise to $41 or decline to $36. If the upside has a 65% probability of occurring and the risk free interest rate is 3%, what is the price of a six month call option with an exercise price of $35 using the binomial model?
A) $3.89
B) $4.18
C) $4.25
D) $4.70
89) A call option was purchased last month for $2.50 with an exercise price of $45. The option is exercised when the market price of the stock is $48. What is the net profit or loss to the investor?
A) $3.00
B) $2.50
C) $0.50
D) $0.60
90) A put option was purchased two months ago for $3.70 with an exercise price of $50. The option is exercised when the market price of the stock is $48. What is the net profit or loss to the investor?
A) $3.00
B) $2.70
C) −$1.70
D) −$2.00
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Investments 12e | Test Bank with Answer Key by Zvi Bodie
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