Chap021.pdf

Chapter 21 - Valuing Options

Chapter 21 Valuing Options Multiple Choice Questions

1. Discounted cash flow approach to valuation does not work in the case of options because: A. it is possible to but difficult to estimate the expected cash flows. B. the estimated cash flows have to be discounted at the opportunity cost of capital. C. finding the opportunity cost of capital is impossible as the risk of options change every time the stock price moves. D. (B) and (C) above

2. Relative to the underlying stock, a call option always has: A. a higher beta and a higher standard deviation of return B. a lower beta and a higher standard deviation of return C. a higher beta and a lower standard deviation of return D. a lower beta and a lower standard deviation of return

3. A call option has an exercise price of $100. At the final exercise date, the stock price could be either $50 or $150. Which investment would combine to give the same payoff as the stock? A. Lend PV of $50 and buy two calls B. Lend PV of $50 and sell two calls C. Borrow $50 and buy two calls D. Borrow $50 and sell two calls

4. Suppose Ralph's stock price is currently $50. In the next six months it will either fall to $30 or rise to $80. What is the option delta of a call option with an exercise price of $50? A. 0.375 B. 0.500 C. 0.600 D. 0.75

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5. A put option on the ABC stock, with an exercise price of $60, is selling for $4.00 and the stock price is also $60. The put option has a delta of 0.5. If within a short period of time the stock price increases to $61, what would be the change in the price of the put option? A. increases by $0.50 B. decreases by $0.50 C. increases by $1.00 D. decreases by $1.00

6. A call option on the ABCD stock, with an exercise price of $50, is selling for $5.00 and the stock price is also $50. The call option has a delta of 0.3. If within a short period of time the stock price increases to $52, what would be the change in the price of the call option? A. increases by $0.60 B. decreases by $0.60 C. increases by $2.00 D. decreases by $2.00

7. An equity option's theoretical delta reflects the sensitivity of its market price to changes in: A. the volatility of the underlying stock price B. the dividends paid to the underlying stockholders C. the underlying stock price D. the time to expiration

8. Suppose ABCD's stock price is currently $50. In the next six months it will either fall to $40 or rise to $60. What is the current value of a six-month call option with an exercise price of $50? The six-month risk-free interest rate is 2% (periodic rate). A. $5.39 B. $15.00 C. $8.25 D. $8.09

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9. Suppose ABCD's stock price is currently $50. In the next six months it will either fall to $40 or rise to $80. What is the current value of a six-month call option with an exercise price of $50? The six-month risk-free interest rate is 2% (periodic rate). A. $2.40 B. $15.00 C. $8.25 D. $8.09

10. Suppose ABC's stock price is currently $25. In the next six months it will either fall to $15 or rise to $40. What is the current value of a six-month call option with an exercise price of $20? The six-month risk-free interest rate is 5% (periodic rate). [Use the risk-neutral valuation method] A. $20.00 B. $8.57 C. $9.52 D. $13.10

11. Suppose ACC's stock price is currently $25. In the next six months it will either fall to $15 or rise to $40. What is the current value of a six-month call option with an exercise price of $20? The six-month risk-free interest rate is 5% (periodic rate). [Use the replicating portfolio method] A. $20.00 B. $8.57 C. $9.52 D. $13.10

Suppose Carol's stock price is currently $20. In the next six months it will either fall to $10 or rise to $40.

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12. What is the current value of a six-month call option with an exercise price of $12? The six-month risk-free interest rate (periodic rate) is 5%. [Use the risk-neutral valuation method] A. $9.78 B. $10.28 C. $16.88 D. $13.33

13. What is the current value of a six-month call option with an exercise price of $15? The six-month risk-free interest rate (periodic rate) is 5%. [Use the replicating portfolio method] A. $8.73 B. $10.28 C. $16.88 D. $13.33

14. Suppose VS's stock price is currently $20. In the next six months it will either fall to $10 or rise to $30. What is the current value of a put option with an exercise price of $15? The sixmonth risk-free interest rate is 5% (periodic rate). A. $5.00 B. $2.14 C. $0.86 D. $7.86

15. The delta of a put option is always equal to: A. The delta of an equivalent call option B. The delta of an equivalent call option with a negative sign C. The delta of an equivalent call option minus one D. None of the above

16. If the delta of a call option is 0.4 calculate the delta of an equivalent put option: A. 0.6 B. 0.4 C. -0.4 D. -0.6

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17. If the delta of a call option is 0.6, calculate the delta of an equivalent put option. A. 0.6 B. 0.4 C. -0.4 D. -0.6

18. Suppose VS's stock price is currently $20. Six-month call option on the stock with an exercise price of $15 has a value of $7.14. Calculate the price of an equivalent put option if the six-month risk-free interest rate is 5% (periodic rate). A. $1.43 B. $9.43 C. $8.00 D. $12.00

19. Suppose VS's stock price is currently $20. In the next six months it will either fall by 50% or rise by 50%. What is the current value of a put option with an exercise price of $15 and expiration of one year? The six-month risk-free interest rate is 5% (periodic rate). Use the two stage binomial method. A. $5.00 B. $2.14 C. $7.86 D. $8.23

20. Suppose Caroll's stock price is currently $20. In the each next six month periods it will either fall by 50% or rise by 100%. What is the current value of a one-year call option with an exercise price of $15? The six-month risk-free interest rate (periodic rate) is 5%. [Use the two stage binomial method] A. $8.73 B. $10.03 C. $16.88 D. $13.33

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Chapter 21 - Valuing Options

21. A stock is currently selling for $50. The stock price could go up by 10% or fall by 5% each month. The monthly interest rate is 1% (periodic rate). Calculate the price of a European call option on the stock with an exercise price of $50 and a maturity of two months. (use the two-stage binomial method) A. $5.10 B. $2.71 C. $4.78 D. $3.62

22. If e is the base of natural logarithms, and (σ) is the standard deviation of the continuously compounded annual returns on the asset, and h is the interval as a fraction of a year, then the quantity (1 + upside change) is equal to: A. e^[(σ) * SQRT(h)] B. e^[h * SQRT(σ)] C. (σ) * e^[SQRT(h)] D. none of the above.

23. If "u" equals the quantity (1 + upside change), then the quantity (1 + downside change) is equal to: A. -u B. -1/u C. 1/u D. none of the above.

24. If the standard deviation of the annual returns (σ σ ) on the asset is 40%, and the time interval is a year, then the upside change is equal to: A. 88.2% B. 8.7% C. 63.2% D. 49.18%

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25. If the standard deviation for annual returns on the asset is 40% and the interval is a year, then the downside change is equal to: A. 27.4% B. 53.6% C. 32.97% D. 38.7%

26. If the standard deviation of annual returns on the asset is 20% and the interval is half a year, then the downside change is equal to: A. 37.9% B. 19.3% C. 20.1% D. 13.2%

27. If the standard deviation of annual returns on the asset is 30% and the interval is a year, then the downside change is equal to : A. 26% B. 53.6% C. 33.0% D. 38.7%

28. The important assumptions of the Black-Scholes formula are: I) the price of the underlying asset follows a lognormal random walk. II) investors can adjust their hedge continuously and at no cost. III) the risk-free rate is known. IV) the underlying asset does not pay dividends. A. I only B. I and II only C. I, II, III and IV D. III and IV only

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29. The option delta in the case of Black-Scholes formula is: A. d1 B. N(d1) C. d2 D. N(d2)

An European call option with an exercise price of $50 has a maturity (expiration) of six months, stock price of $54 and the instantaneous variance of the stock returns is 0.64. The risk-free rate is 9.2%.

30. Calculate the value of d2 (approximately). A. +0.0656 B. -0.0656 C. +0.5656 D. -0.5656

31. Then [d1] has a value of (approximately): A. 0.3 B. 0.7 C. -0.7 D. 0.5

Cola Company has call options on its common stock traded in the market. The options have an exercise price of $45 and expire in 156 days. The current price of the Cola stock is $44.375. The risk-free rate is $7% per year and the standard deviation of the stock returns is 0.31.

32. The value of [d1] is (approximately): A. 0.0226 B. 0.175 C. -0.3157 D. 0.3157

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33. Calculate the value of d2: (approximately) A. -0.02766 B. +0.02766 C. +0.2027 D. -0.2027

34. If the value of d1 is 1.25, then the value of N(d1) is equal to: A. -0.1056 B. 1.25 C. 0.25 D. 0.8944

35. If the value of d2 is -0.5, then the value of N(d2) is: A. -0.1915 B. 0.6915 C. 0.3085 D. 0.8085

36. If the value of d is -0.75, calculate the value of N(d): A. 0.2266 B. -0.2266 C. 0.7734 D. -0.2734

37. Given the following data: Stock price = $50; Exercise price = $45; Risk-free rate = 6%; variance = 0.2 ; Expiration = 3 months. Calculate value of a European call option: [Use Black-Scholes Formula] A. $7.62 B. $7.90 C. $5.00 D. none of the above

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38. If the strike price increases then the: [Assume everything else remaining the same] A. Value of the put option increases and that of the call option decreases B. Value of the put option decreases and that of the call option increases C. Value of both the put option and the call option increases D. Value of both the put option and the call option decreases

39. If the volatility (variance) of the underlying stock increases then the: [Assume everything else remaining the same] A. Value of the put option increases and that of the call option decreases B. Value of the put option decreases and that of the call option increases C. Value of both the put option and the call option increases D. Value of both the put option and the call option decreases

40. The Black-Scholes OPM is dependent on which five parameters? A. Stock price, exercise price, risk free rate, beta, and time to maturity B. Stock price, risk free rate, beta, time to maturity, and variance C. Stock price, risk free rate, probability, variance and exercise price D. Stock price, exercise price, risk free rate, variance and time to maturity

41. The value of N(d) in the Black-Scholes model can take any value between: A. -1 and +1 B. 0 and +1 C. -1 and 0 D. None of the above

42. N(d1) in the Black-Scholes model represents I) call option delta II) hedge ratio III) probability A. I only B. II only C. III only D. I, II, and III

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43. The term [N(d2) * PV(EX)] in the Black-Scholes model represents: A. call option delta B. bank loan C. put option delta D. none of the above

44. Which of the following statements about implied volatility is true? A. VIX is the implied volatility on the Standard and Poor's index and VXN is the implied volatility on the New York Stock Exchange Index B. VIX is the implied volatility on the Standard and Poor's index and VXN is the implied volatility on the NASDAQ index C. VIX is the implied volatility on the NASDAQ index and VXN is the implied volatility on the Standard and Poor's index D. VIX is the implied volatility on the New York Stock Exchange index and VXN is the implied volatility on the Standard and Poor's index

45. Which of the following statements regarding American puts is/are true? A. An American put can be exercised any time before expiration B. An American put is always more valuable than an equivalent European put C. Multi-period binomial model can be used to value an American put D. All of the above

46. A stock is currently selling for $50. The stock price could go up by 10% or fall by 5% each month. The monthly interest rate is 1% (periodic rate). Calculate the price of an American put option on the stock with an exercise price of $55 and a maturity of two months. (Use the two-stage binomial method) A. $5.10 B. $3.96 C. $4.78 D. None of the above

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Chapter 21 - Valuing Options

47. Suppose the exchange rate between US dollars and British pound is US$1.50 = BP1.00. If the interest rate is 6% per year what is the adjusted price of the British pound when valuing a foreign currency option with an expiration of one year? (Approximately) A. $1.905 B. $1.4151 C. $0.7067 D. None of the above

48. In the case of Asian option: A. the option is exercisable on discrete dates before maturity. B. the option holder chooses as the exercise price any of the asset prices that occurred before the final date. C. the option payoff is zero if the asset price is on the wrong side of the exercise price and otherwise is a fixed sum. D. the exercise price is equal to the average of the asset's price during the life of the option.

49. In the case of look back option: A. the option holder must decide before maturity whether the option is a call or a put. B. the option holder chooses as the exercise price any of the asset prices that occurred before the final date. C. the option payoff is zero if the asset price is on the wrong side of the exercise price and otherwise is a fixed sum. D. the exercise price is equal to the average of the asset's price during the life of the option.

50. Using the binomial model, what is the value of a three month option given the following data and assuming there are no time periods other than three months? The exercise price is $40; stock price is $46; the upside price is $48; the downside price is $34; the 3 month interest rate is 2%. The upside and down side have equal probabilities. A. $3.92 B. $4.00 C. $5.88 D. $6.00

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51. Why does the Black Scholes call formula use the present value of the exercise price and not merely the exercise price in the formula? A. All finance must use the time value of money B. Call options are rarely exercised early C. You cannot exercise an option early D. Because the put option uses the future value

True / False Questions

52. It is possible to replicate an investment in a call option by a levered investment in the underlying asset. True False

53. Option delta for a put option is always positive. True False

54. Delta of a put option is equal to the delta of an equivalent call option minus one. True False

55. For an European option: Value of put = (Value of call)-share price + PV (exercise price). True False

56. The binomial model is a discrete time model. True False

57. As you increase the time interval in a binomial model the result will approach the BlackScholes model. True False

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58. 1 + upside change = u = e^(σ)(Öh). True False

59. The Black-Scholes model is a discrete time model. True False

60. N(d1) and N(d2) are probabilities and therefore take values between 0 and 1. True False

61. Multi-period binomial model can be used to evaluate an American put option. True False

62. The smaller the time periods used in the binomial model the closer it will come to approximating the Black-Scholes model price. True False

63. A knock-in barrier option might be used if the investor is looking to reduce the cost of buying a call option. True False

Short Answer Questions

64. Briefly explain why discounted cash flow method (DCF) does not work for valuing options.

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65. Briefly explain why an option is always riskier than the underlying stock.

66. Briefly explain risk-neutral valuation in the context of option valuation.

67. Briefly explain what is meant by risk-neutral probability.

68. Briefly explain the term "option delta."

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69. Give an example of an option equivalent investment using common stock and borrowing.

70. Briefly explain put-call parity.

71. Briefly explain how to choose the up and down values for the binomial method.

72. Explain what implied volatility, as measured by the VIX, may mean to the overall stock market.

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Chapter 21 - Valuing Options

Chapter 21 Valuing Options Answer Key

Multiple Choice Questions

1. Discounted cash flow approach to valuation does not work in the case of options because: A. it is possible to but difficult to estimate the expected cash flows. B. the estimated cash flows have to be discounted at the opportunity cost of capital. C. finding the opportunity cost of capital is impossible as the risk of options change every time the stock price moves. D. (B) and (C) above

Type: Medium

2. Relative to the underlying stock, a call option always has: A. a higher beta and a higher standard deviation of return B. a lower beta and a higher standard deviation of return C. a higher beta and a lower standard deviation of return D. a lower beta and a lower standard deviation of return

Type: Difficult

3. A call option has an exercise price of $100. At the final exercise date, the stock price could be either $50 or $150. Which investment would combine to give the same payoff as the stock? A. Lend PV of $50 and buy two calls B. Lend PV of $50 and sell two calls C. Borrow $50 and buy two calls D. Borrow $50 and sell two calls Value of two calls 2 (150 - 100) = 100 or value of two calls =: 2(0) = 0 (not exercised); payoff = 100 + 50 = 150 or payoff = 0 + 50 = 50

Type: Difficult

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4. Suppose Ralph's stock price is currently $50. In the next six months it will either fall to $30 or rise to $80. What is the option delta of a call option with an exercise price of $50? A. 0.375 B. 0.500 C. 0.600 D. 0.75 Option delta = (30 - 0)/(80 - 30) = 30/50 = 0.6

Type: Medium

5. A put option on the ABC stock, with an exercise price of $60, is selling for $4.00 and the stock price is also $60. The put option has a delta of 0.5. If within a short period of time the stock price increases to $61, what would be the change in the price of the put option? A. increases by $0.50 B. decreases by $0.50 C. increases by $1.00 D. decreases by $1.00 Change in the option price = (delta) * (change in the stock price) = 0.5 * 1 = $0.50

Type: Medium

6. A call option on the ABCD stock, with an exercise price of $50, is selling for $5.00 and the stock price is also $50. The call option has a delta of 0.3. If within a short period of time the stock price increases to $52, what would be the change in the price of the call option? A. increases by $0.60 B. decreases by $0.60 C. increases by $2.00 D. decreases by $2.00 Change in the option price = (delta) * (change in the stock price) = 0.3 * 2 = $0.60

Type: Medium

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Chapter 21 - Valuing Options

7. An equity option's theoretical delta reflects the sensitivity of its market price to changes in: A. the volatility of the underlying stock price B. the dividends paid to the underlying stockholders C. the underlying stock price D. the time to expiration

Type: Medium

8. Suppose ABCD's stock price is currently $50. In the next six months it will either fall to $40 or rise to $60. What is the current value of a six-month call option with an exercise price of $50? The six-month risk-free interest rate is 2% (periodic rate). A. $5.39 B. $15.00 C. $8.25 D. $8.09 Replicating portfolio method: Call option payoff = 60 - 50 = 10 and zero; (60)(A) + (1.02)(B) = 10, (40)(A) + 1.02(B) = 0; Solving for A = 0.5 (option delta)& B = -19.6; call option price (current) = 0.5(50) - 19.61 = $5.39 Risk-neutral valuation: 50 = [x (60) + (1 - x)40]/1.02); x = 0 55; (1 - x) = 0.45; Call option value = [(0.55)(10) + (0.45)(0)]/(1.02) = $5.39

Type: Difficult

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9. Suppose ABCD's stock price is currently $50. In the next six months it will either fall to $40 or rise to $80. What is the current value of a six-month call option with an exercise price of $50? The six-month risk-free interest rate is 2% (periodic rate). A. $2.40 B. $15.00 C. $8.25 D. $8.09 Replicating portfolio method: Call option payoff = 80 - 50 = 30 and zero; (80)(A) + (1.02)(B) = 30, (40)(A) + 1.02(B) = 0; A = 0.75 (option delta)& B = -29.41; call option price (current) = 0.75(50) - 29.41 = $8.09 Risk-neutral valuation: 50 = [x (80) + (1 - x)40]/1.02); x = 0.275; (1 - x) = 0.725; Call option value = [(0.275)(30) + (0.725)(0)]/(1.02) = $8.09

Type: Difficult

10. Suppose ABC's stock price is currently $25. In the next six months it will either fall to $15 or rise to $40. What is the current value of a six-month call option with an exercise price of $20? The six-month risk-free interest rate is 5% (periodic rate). [Use the risk-neutral valuation method] A. $20.00 B. $8.57 C. $9.52 D. $13.10 Risk-Neutral Method: 25 = [x (40) + (1 - x)15]/1.05; x = 0.45 1 - x = 0.55 Call option price = [(0.45)(20) + (0.71875)(0)]/(1.05) = $8.57

Type: Difficult

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Chapter 21 - Valuing Options

11. Suppose ACC's stock price is currently $25. In the next six months it will either fall to $15 or rise to $40. What is the current value of a six-month call option with an exercise price of $20? The six-month risk-free interest rate is 5% (periodic rate). [Use the replicating portfolio method] A. $20.00 B. $8.57 C. $9.52 D. $13.10 40(A) + 1.05(B) = 20; 15(A) + 1.05(B) = 0; A = 0.8; B = -11.43 Call option price = 25(0.8) - 11.43 = $8.57

Type: Difficult

Suppose Carol's stock price is currently $20. In the next six months it will either fall to $10 or rise to $40.

12. What is the current value of a six-month call option with an exercise price of $12? The six-month risk-free interest rate (periodic rate) is 5%. [Use the risk-neutral valuation method] A. $9.78 B. $10.28 C. $16.88 D. $13.33 20 = [x (40) + (1 - x)(10)]/1.05; x = 0.367; (1 - x) = 0.633 Call option price = [(0.367)(28) + (0.633)(0)]/(1.05) = $9.78

Type: Difficult

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13. What is the current value of a six-month call option with an exercise price of $15? The six-month risk-free interest rate (periodic rate) is 5%. [Use the replicating portfolio method] A. $8.73 B. $10.28 C. $16.88 D. $13.33 40(A) + 1.05 (B) = 25; 10(A) + 1.05(B) = 0; A = 0.8333; B = -7.936 Call option price = (0.8333)(20) - 7.936 = 8.73

Type: Difficult

14. Suppose VS's stock price is currently $20. In the next six months it will either fall to $10 or rise to $30. What is the current value of a put option with an exercise price of $15? The sixmonth risk-free interest rate is 5% (periodic rate). A. $5.00 B. $2.14 C. $0.86 D. $7.86 Replicating portfolio method: 30(A) + 1.05 (B) = 0; &10 (A) + 1.05(B) = 5; A = - 0.25(option delta)&B = 7.14; Put option price = -(0.25)(20) + 7.14 = 2.14; Risk-neutral valuation: 20 = [x (30) + (1 - x)(10)]/1.05; x = 0.55 and (1 - x) = 0.45 Put option price = [(0.55)(0) + (0.45)(5)]/(1.05) = 2.14

Type: Difficult

15. The delta of a put option is always equal to: A. The delta of an equivalent call option B. The delta of an equivalent call option with a negative sign C. The delta of an equivalent call option minus one D. None of the above

Type: Difficult

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16. If the delta of a call option is 0.4 calculate the delta of an equivalent put option: A. 0.6 B. 0.4 C. -0.4 D. -0.6 0.4 - 1 = -0.6

Type: Difficult

17. If the delta of a call option is 0.6, calculate the delta of an equivalent put option. A. 0.6 B. 0.4 C. -0.4 D. -0.6 0.6 - 1 = -0.4

Type: Difficult

18. Suppose VS's stock price is currently $20. Six-month call option on the stock with an exercise price of $15 has a value of $7.14. Calculate the price of an equivalent put option if the six-month risk-free interest rate is 5% (periodic rate). A. $1.43 B. $9.43 C. $8.00 D. $12.00 Value of Put = 7.14 + 15/(1.05) - 20 = $1.43

Type: Difficult

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19. Suppose VS's stock price is currently $20. In the next six months it will either fall by 50% or rise by 50%. What is the current value of a put option with an exercise price of $15 and expiration of one year? The six-month risk-free interest rate is 5% (periodic rate). Use the two stage binomial method. A. $5.00 B. $2.14 C. $7.86 D. $8.23 Risk-neutral valuation: 20 = [x (30) + (1 - x)(10)]/1.05; x = 0.55 and (1 - x) = 0.45 Call option price = C = [(30 * 0.55)/(1.05)][0.55/1.05] = (15.714 * 0.55)/1.05 = 8.23

Type: Difficult

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Chapter 21 - Valuing Options

20. Suppose Caroll's stock price is currently $20. In the each next six month periods it will either fall by 50% or rise by 100%. What is the current value of a one-year call option with an exercise price of $15? The six-month risk-free interest rate (periodic rate) is 5%. [Use the two stage binomial method] A. $8.73 B. $10.03 C. $16.88 D. $13.33 20 = [40( x) + (10)(1 - x)]/1.05; x = 0.36667; (1 - x) = 0.6333 C1UP = [(65)(0.36667) + (5)(0.6333)]/1.05 = 25.714; C1DN = (5)(0.36667)/1.05 = 1.746 C = [25.714 * 0.36667 + 1.746 * 0.6333]/1.05 = 10.03

Type: Difficult

21. A stock is currently selling for $50. The stock price could go up by 10% or fall by 5% each month. The monthly interest rate is 1% (periodic rate). Calculate the price of a European call option on the stock with an exercise price of $50 and a maturity of two months. (use the two-stage binomial method) A. $5.10 B. $2.71 C. $4.78 D. $3.62 50 = [55( x) + 47.5(1 - x)]/(1.01) ; x = 0.4; 1 - x = 0.6 Stock prices at the end of Month -2: $60.5; 52.25; and 45.125] Payoffs at the end of month-2: [$10.5; $2.25; and zero]; [Exercise price = $50] End of one month values: [(10.5)(0.4) + 2.25(0.6)]/1.01 = 5.495 and [2.25(0.4) + 0]/1.01 = 0.891 Price of the call option = [5.495(0.4) + (0.891)(0.6)]/1.01 = 2.71

Type: Difficult

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Chapter 21 - Valuing Options

22. If e is the base of natural logarithms, and (σ) is the standard deviation of the continuously compounded annual returns on the asset, and h is the interval as a fraction of a year, then the quantity (1 + upside change) is equal to: A. e^[(σ) * SQRT(h)] B. e^[h * SQRT(σ)] C. (σ) * e^[SQRT(h)] D. none of the above.

Type: Difficult

23. If "u" equals the quantity (1 + upside change), then the quantity (1 + downside change) is equal to: A. -u B. -1/u C. 1/u D. none of the above.

Type: Medium

24. If the standard deviation of the annual returns (σ σ ) on the asset is 40%, and the time interval is a year, then the upside change is equal to: A. 88.2% B. 8.7% C. 63.2% D. 49.18% (1 + u) = e^(0.4) = 1.4918 or upside change = 49.18%

Type: Difficult

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Chapter 21 - Valuing Options

25. If the standard deviation for annual returns on the asset is 40% and the interval is a year, then the downside change is equal to: A. 27.4% B. 53.6% C. 32.97% D. 38.7% downside change = 1/(e^0.4) = 1/1.4918 = (1 + d) = 0.67032; d = -32.97% or 32.97%

Type: Difficult

26. If the standard deviation of annual returns on the asset is 20% and the interval is half a year, then the downside change is equal to: A. 37.9% B. 19.3% C. 20.1% D. 13.2% [1/e^[(0.2) * {(0.5)^(0.5)}] = 1/1.152 (1 + d) = 1/1.152 = 868 or d = -0.132 downside change = 13.2%

Type: Difficult

27. If the standard deviation of annual returns on the asset is 30% and the interval is a year, then the downside change is equal to : A. 26% B. 53.6% C. 33.0% D. 38.7% (1 + d) =[1/e^(0.3)] = 1/1.3498 or (1 + d) = 1/1.3498 = 0.74 or downside change = 26%

Type: Difficult

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28. The important assumptions of the Black-Scholes formula are: I) the price of the underlying asset follows a lognormal random walk. II) investors can adjust their hedge continuously and at no cost. III) the risk-free rate is known. IV) the underlying asset does not pay dividends. A. I only B. I and II only C. I, II, III and IV D. III and IV only

Type: Difficult

29. The option delta in the case of Black-Scholes formula is: A. d1 B. N(d1) C. d2 D. N(d2)

Type: Medium

An European call option with an exercise price of $50 has a maturity (expiration) of six months, stock price of $54 and the instantaneous variance of the stock returns is 0.64. The risk-free rate is 9.2%.

30. Calculate the value of d2 (approximately). A. +0.0656 B. -0.0656 C. +0.5656 D. -0.5656 d1 = [ln(54/47.847)]/(0.8 * (0.5^0.5)) + (0.8 * (0.5^0.5))/2 = 0.5; d2 = 0.5 - 0.8(0.5^0.5) = -0.0656

Type: Medium

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31. Then [d1] has a value of (approximately): A. 0.3 B. 0.7 C. -0.7 D. 0.5 d1 = [ln(54/47.847)]/(0.8 * (0.5^0.5)) + (0.8 * (0.5^0.5))/2 = 0.5

Type: Difficult

Cola Company has call options on its common stock traded in the market. The options have an exercise price of $45 and expire in 156 days. The current price of the Cola stock is $44.375. The risk-free rate is $7% per year and the standard deviation of the stock returns is 0.31.

32. The value of [d1] is (approximately): A. 0.0226 B. 0.175 C. -0.3157 D. 0.3157 d1 = [ln(44.375/43.7174)]/(0.31 * (156/365)^0.5) + (0.31 * (156/365)^0.5)/2 = 0.175

Type: Difficult

33. Calculate the value of d2: (approximately) A. -0.02766 B. +0.02766 C. +0.2027 D. -0.2027 d2 = d1 - [(σ)(SQRT(t)]; d2 = 0.175 - (0.31)[(156/365)^0.5] = -0.02766

Type: Medium

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34. If the value of d1 is 1.25, then the value of N(d1) is equal to: A. -0.1056 B. 1.25 C. 0.25 D. 0.8944 Use the Cumulative Probabilities of the Standard Normal Distribution Table Excel Spreadsheet: NORMSDIST(1.25) = 0.8944

Type: Medium

35. If the value of d2 is -0.5, then the value of N(d2) is: A. -0.1915 B. 0.6915 C. 0.3085 D. 0.8085 Use the Cumulative Probabilities of the Standard Normal Distribution Table NORMSDIST(-0.5) = 0.3085

Type: Medium

36. If the value of d is -0.75, calculate the value of N(d): A. 0.2266 B. -0.2266 C. 0.7734 D. -0.2734 Use the Cumulative Probabilities of the Standard Normal Distribution Table NORMSDIST(-0.75) = 0.2266

Type: Medium

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37. Given the following data: Stock price = $50; Exercise price = $45; Risk-free rate = 6%; variance = 0.2 ; Expiration = 3 months. Calculate value of a European call option: [Use Black-Scholes Formula] A. $7.62 B. $7.90 C. $5.00 D. none of the above d1 = 0.65; d2 = 0.4264; N(d1) = 0.742; N(d2 ) = 0.6651; Call option value = 50(0.742) - e^(-0.06)(0.25)[45][0.6651] = $7.62

Type: Difficult

38. If the strike price increases then the: [Assume everything else remaining the same] A. Value of the put option increases and that of the call option decreases B. Value of the put option decreases and that of the call option increases C. Value of both the put option and the call option increases D. Value of both the put option and the call option decreases

Type: Medium

39. If the volatility (variance) of the underlying stock increases then the: [Assume everything else remaining the same] A. Value of the put option increases and that of the call option decreases B. Value of the put option decreases and that of the call option increases C. Value of both the put option and the call option increases D. Value of both the put option and the call option decreases

Type: Medium

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40. The Black-Scholes OPM is dependent on which five parameters? A. Stock price, exercise price, risk free rate, beta, and time to maturity B. Stock price, risk free rate, beta, time to maturity, and variance C. Stock price, risk free rate, probability, variance and exercise price D. Stock price, exercise price, risk free rate, variance and time to maturity

Type: Difficult

41. The value of N(d) in the Black-Scholes model can take any value between: A. -1 and +1 B. 0 and +1 C. -1 and 0 D. None of the above

Type: Medium

42. N(d1) in the Black-Scholes model represents I) call option delta II) hedge ratio III) probability A. I only B. II only C. III only D. I, II, and III

Type: Medium

43. The term [N(d2) * PV(EX)] in the Black-Scholes model represents: A. call option delta B. bank loan C. put option delta D. none of the above

Type: Medium

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44. Which of the following statements about implied volatility is true? A. VIX is the implied volatility on the Standard and Poor's index and VXN is the implied volatility on the New York Stock Exchange Index B. VIX is the implied volatility on the Standard and Poor's index and VXN is the implied volatility on the NASDAQ index C. VIX is the implied volatility on the NASDAQ index and VXN is the implied volatility on the Standard and Poor's index D. VIX is the implied volatility on the New York Stock Exchange index and VXN is the implied volatility on the Standard and Poor's index

Type: Medium

45. Which of the following statements regarding American puts is/are true? A. An American put can be exercised any time before expiration B. An American put is always more valuable than an equivalent European put C. Multi-period binomial model can be used to value an American put D. All of the above

Type: Medium

46. A stock is currently selling for $50. The stock price could go up by 10% or fall by 5% each month. The monthly interest rate is 1% (periodic rate). Calculate the price of an American put option on the stock with an exercise price of $55 and a maturity of two months. (Use the two-stage binomial method) A. $5.10 B. $3.96 C. $4.78 D. None of the above p = 1 - (-5)/(10 - (-5)) = 0.40 1-p = 0.6 End of one month values: [(0)(0.4) + (2.75)(.6)]/1.01 = 1.6337 or zero and [(2.75)(.4) + (9.875)(0.6)]/1.01 = $6.9555 or $7.5 if exercised; P = [0.4(1.6337) + (7.5)(0.6)]/1.01 = $5.10

Type: Difficult

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47. Suppose the exchange rate between US dollars and British pound is US$1.50 = BP1.00. If the interest rate is 6% per year what is the adjusted price of the British pound when valuing a foreign currency option with an expiration of one year? (Approximately) A. $1.905 B. $1.4151 C. $0.7067 D. None of the above Adjusted price = 1.5/1.06 = 1.4151

Type: Difficult

48. In the case of Asian option: A. the option is exercisable on discrete dates before maturity. B. the option holder chooses as the exercise price any of the asset prices that occurred before the final date. C. the option payoff is zero if the asset price is on the wrong side of the exercise price and otherwise is a fixed sum. D. the exercise price is equal to the average of the asset's price during the life of the option.

Type: Difficult

49. In the case of look back option: A. the option holder must decide before maturity whether the option is a call or a put. B. the option holder chooses as the exercise price any of the asset prices that occurred before the final date. C. the option payoff is zero if the asset price is on the wrong side of the exercise price and otherwise is a fixed sum. D. the exercise price is equal to the average of the asset's price during the life of the option.

Type: Difficult

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Chapter 21 - Valuing Options

50. Using the binomial model, what is the value of a three month option given the following data and assuming there are no time periods other than three months? The exercise price is $40; stock price is $46; the upside price is $48; the downside price is $34; the 3 month interest rate is 2%. The upside and down side have equal probabilities. A. $3.92 B. $4.00 C. $5.88 D. $6.00 The binomial price is never less than the intrinsic value. The derived binomial price is 3.92, but the intrinsic value is 6. Thus, the answer is 6.

Type: Difficult

51. Why does the Black Scholes call formula use the present value of the exercise price and not merely the exercise price in the formula? A. All finance must use the time value of money B. Call options are rarely exercised early C. You cannot exercise an option early D. Because the put option uses the future value

Type: Difficult

True / False Questions

52. It is possible to replicate an investment in a call option by a levered investment in the underlying asset. TRUE

Type: Medium

53. Option delta for a put option is always positive. FALSE

Type: Medium

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Chapter 21 - Valuing Options

54. Delta of a put option is equal to the delta of an equivalent call option minus one. TRUE

Type: Medium

55. For an European option: Value of put = (Value of call)-share price + PV (exercise price). TRUE

Type: Medium

56. The binomial model is a discrete time model. TRUE

Type: Medium

57. As you increase the time interval in a binomial model the result will approach the BlackScholes model. FALSE

Type: Medium

58. 1 + upside change = u = e^(σ)(Öh). TRUE

Type: Medium

59. The Black-Scholes model is a discrete time model. FALSE

Type: Medium

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Chapter 21 - Valuing Options

60. N(d1) and N(d2) are probabilities and therefore take values between 0 and 1. TRUE

Type: Medium

61. Multi-period binomial model can be used to evaluate an American put option. TRUE

Type: Medium

62. The smaller the time periods used in the binomial model the closer it will come to approximating the Black-Scholes model price. TRUE

Type: Medium

63. A knock-in barrier option might be used if the investor is looking to reduce the cost of buying a call option. TRUE

Type: Medium

Short Answer Questions

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Chapter 21 - Valuing Options

64. Briefly explain why discounted cash flow method (DCF) does not work for valuing options. Discounted cash flow method has two steps. First, estimating cash flows; second, discounting these cash flows using an appropriate opportunity cost of capital. In case of options, the first part is quite difficult. But the second step is almost impossible as the risk of an option changes with changes in stock price. Also, the risk changes over time even without a change in the stock price.

Type: Difficult

65. Briefly explain why an option is always riskier than the underlying stock. An investment in option can be replicated by borrowing a fraction of the cost of the stock at the risk-free rate and investing in the stock. Therefore, investing in an option is always riskier than investing only in the stock. The beta and the standard deviation of returns of an option is always higher than that of investing in the underlying stock.

Type: Difficult

66. Briefly explain risk-neutral valuation in the context of option valuation. The valuation method that uses risk-neutral probabilities to evaluate the current price of an option is known as risk-neutral valuation. The risk-neutral upside probability is calculated as: p = [risk-free rate - downside change]/[upside change - downside change]

Type: Difficult

67. Briefly explain what is meant by risk-neutral probability. Risk-neutral probability provides certainty equivalent expected payoffs. It assumes that the investor does not need a higher rate of return to invest in a risky asset. The present value of the payoffs is obtained by discounting at the risk-free rate of return.

Type: Difficult

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Chapter 21 - Valuing Options

68. Briefly explain the term "option delta." Option delta is the ratio of spread of possible option prices to spread of possible share prices. This is also the hedge ratio.

Type: Medium

69. Give an example of an option equivalent investment using common stock and borrowing. The current price of a stock is $40. Stock price, one period from today, could be either $50 or $30. The exercise price is also $40. The risk-free rate per period is 2%. The option payoff is $10 in the up state and is zero in the down state. By borrowing $14.74 today and buying 0.5 of a share of stock, one can replicate the payoffs from the option. The payoff in the upstate is, the value of the stock $25 minus the payoff amount of the loan $15, equal to $10. The payoff in the downstate is, the value of the stock is $15 minus the payoff amount of $15, equal to zero. This is called a replicating portfolio.

Type: Difficult

70. Briefly explain put-call parity. The relationship between the value of a European option and the value of our equivalent put option is called put-call parity. If this does not hold, then investors have arbitrage opportunity.

Type: Medium

71. Briefly explain how to choose the up and down values for the binomial method. [1 + upside change] = eσ (SQRT (h)) and [1 + downside change] = 1/[1 + upside change] Where: σ = standard deviation of the annual returns of the underlying stock. h = time to expiration expressed in years.

Type: Medium

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Chapter 21 - Valuing Options

72. Explain what implied volatility, as measured by the VIX, may mean to the overall stock market. The VIX measures the standard deviation imputed by all the participants in the stock market. Standard deviation is the measurement of risk in securities. If the VIX is very high, investors feel the risk of the stock market is high. When risk is high so are risk premiums. This leads to higher expected returns and lower asset prices.

Type: Difficult

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