The current price of a non-dividend-paying stock is $160. Over the next year it is expected to rise to $176 or fall to $154. Assume the risk free rate is 5% per year. An investor buys a European call option with a strike price of $162 per share. Assume that the option is written on 100 shares of stock. What stock position should the investor take today so that she would hold a riskless portfolio if it was combined with the long call option position?
Delta of Call=(MAX(176-162,0)-MAX(154-162,0))/(176-154)=0.63636364
Short Delta*100=0.63636364*100=64 shares
The current price of a non-dividend-paying stock is $160. Over the next year it is expected...
Q8-Part I (6 marks) The current price of a non-dividend-paying stock is $42. Over the next year it is expected to rise to-$44. or fall to $39. An investor buys put options with a strike price of $43. To hedge the position, should (and by how many) the investor buy or sell the underlying share (s) for each put option purchased? (6 marks) 08-Part II (9 marks) The current price of a non-dividend paying stock is $49. Use a two-step...
The price of a share of stock is currently $50. The stock does not pay any dividend. At the end of three months it will be either $60 or $40. The risk-free interest rate is 5% per year. An investor buys a European put option with a strike price of $50 per share. Assume that the option is written on 100 shares of stock. What stock position should the investor take today so that she would hold a riskless portfolio...
The current price of a non-dividend-paying stock is $30. Over the next six months it is expected to rise to $36 or fall to $26. Assume that the risk-free rate is 10%. What, to the nearest cent, is the value of a 6-month European call option on the stock with a strike price of $33?
The current price of a non-dividend-paying stock is $100. Over the next year the stock is expected either to rise to $110 or to fall to $90. An investor buys two put options with a strike price of $105. Which of the following is necessary to delta-hedge the position? A. Buy 0.5 shares of the stock. B. Sell 0.5 shares of the stock. C. Buy 0.25 shares of the stock. D. Sell 0.25 shares of the stock. E. None of...
The current price of a non-dividend-paying stock is $30. Over the next six months it is expected to rise to $36 or fall to $28. Assume the risk-free rate is 10%. What, to the nearest cent, is the price of a European put option with a strike price of $33?
A non-paying dividend stock price is currently 40 US$. Over each of the next two three-month periods it is expected to go either up by 10% or down by 10%. The riskless interest rate is 12% per annum with continuous compounding. What is the value of a six-month European put option with a strike price of 42 US$? Given the information above find the relevant call and put price of that European non-paying dividend stock option using the Black-Scholes formula
The price of a non-dividend paying stock is $15 and the price of a six-month European call option on the stock with a strike price of $22 is $2. The risk-free rate is 5% per annum. What is the price of a six-month European put option with a strike price of $22?
The price of a European call option on a non-dividend-paying stock with a strike price of $50 is $6. The stock price is $51, the continuously compounded risk-free rate (all maturities) is 6% and the time to maturity is one year. What is the price of a one-year European put option on the stock with a strike price of $50? $2.09 $7.52 $3.58 $9.91
Problem 1. 1. Calculate the price of a six-month European put option on a non-dividend-paying stock with an exercise price of $90 when the current stock price is $100, the annualized riskless rate of interest is 3%, and the volatility is 40% per year. 2. Calculate the price of a six-month European call option with an exercise price on this same stock a non-dividend-paying stock with an exercise price of $90. Problem 2. Re-calculate the put and call option prices...
The current price of a non-dividend-paying stock is 30. The volatility of the stock is 0.3 per annum. The risk free rate is 0.05 for all maturities. Using the Cox-Ross-Rubinstein binomial tree model with two time steps to do the valuation, what is the value of a European call option with a strike price of 32 that expires in 6 months?