Chapter 20 The volatility of SBN company is 1.5% per day and the size of the pos

Question

Chapter 20

The volatility of SBN company is 1.5% per day and the size of the position is $6 million. Assuming that the change is normally distributed, find a one-day 97% VaR and 10-day 90% VaR.

Consider a portfolio consisting of $4 million invested in Stock Fund and $6 million in Bond Fund. The daily volatility of Stock Fund is 1% and the daily volatility of Bond Fund is 2%. The correlation coefficient between two funds is -0.4 and they are normally distributed.

a) Find the 10-day 99% VaR.

b) Find the diversification benefit.

Chapter 24

Explain weather derivatives and energy derivatives.

Suppose that you buy a weather call option with strike price = 200 based on HDD because you are concerned about unexpectedly cool weather in summer. The payment rate on the option contract is $1,000 and the payment cap is $200,000.

a) If the cumulative HDD = 320, what is your payoff?

b) If the cumulative HDD = 450, what is your payoff?

Standard deviation was not given by teacher.

Explanation / Answer

a.

VaR for 97% Confidence level (Please refer Z values from normal distribution table)

10-day VaR for SBN = Portfolio value x Standard deviation daily x Z-score for 97% confidence level x Days^0.5

10-day VaR for SBN = $6000000 x 1.5% x 1.880793608 x 10^0.5

10-day VaR for SBN = $535,283.24

.

VaR for 90% Confidence level

10-day VaR for SBN = Portfolio value x Standard deviation daily x Z-score for 90% confidence level x Days^0.5

10-day VaR for SBN = $6000000 x 1.5% x 1.281551566 x 10^0.5

10-day VaR for SBN = $364,735.97

.

b.

Standard Deviation of portfolio when Corr = -40%                                                                                                  

Standard deviation of stock = SdA = 1% ; Standard deviation of bond = SdB = 2%;

Weight of stock = wA = 40% ; Weight of bond = wB = 60%                          

Applying below standard deviation of portfolio formula:                                                                                                                  

Standard Deviation of portfolio = (wA^2*sdA^2+wB^2*sdB^2+2*Corr*wA*sdA*wB*sdB)^0.5                                                                                                                           

Standard Deviation of portfolio = (40%^2*1%^2+60%^2*2%^2+2*-40%*40%*1%*60%*2%)^0.5        

Standard Deviation of portfolio = 1.102724%                                   

.

10-day VaR of portfolio at 99% confidence level = Portfolio value x Standard deviation daily x Z-score for 99% confidence level x Days^0.5

10-day VaR of portfolio at 99% confidence level = 10,000,000 x 1.102724% x 2.326347874 x 10^0.5

10-day VaR of portfolio at 99% confidence level = $811,225.30

.

…………….

Diversification benefit = VaR of stock + VaR of Bond – VaR of Portfolio

Individual VaR:

VaR of stock = Stock value x Standard deviation daily x Z-score for 99% confidence level x Days^0.5

VaR of stock = 4000000 x 1% x 2.326347874 x 10^0.5

= $294,262.32

.

VaR of Bond = Bond value x Standard deviation daily x Z-score for 99% confidence level x Days^0.5

VaR of Bond = 6000000 x 2% x 2.326347874 x 10^0.5

VaR of Bond = $882,786.95

.

Question is not clear on diversification benefit ...Hence I am adding each portfolio other wise same can be worked out taking 100% investment in stock or 100% in bond. Please advise if such thing has to be done here.

Otherwise below is appropriate:

Diversification benefit = $294,262.32 + $882,786.95 - $811,225.30

Diversification benefit = $365,823.97

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