[SOLVED] MQF 22:839:571, Financial Modeling I, Spring 2022 Assignment III

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Rutgers Business SchoolNewark & MQF 22:839:571, Financial Modeling I, Spring 2022 Assignment III
Assigned: 9/9/22, Due 3/23/22
Download monthly returns observations from CRSP for the SP500 value-weighted average index, the Nasdaq equally-weighted average index, 10 randomly-selected firms and the risk-free rate (3-month T-bill) for the past 10 years (2012.1-2021.12). To make your job easier, make sure that each stock has continuous observations for the 10 years. Also, try to select firms from different industries.
1. Assume that stock returns are serially uncorrelated. Construct the portfolio frontier in the mean-standard deviation space and in the mean-variance space using the 10 risky stocks only. Show graphically.

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2. Is the SP500 value-weighted portfolio efficient compared to the portfolio frontier that you constructed in question 1 above? How about the Nasdaq equally-weighted portfolio?
3. Continue to use the 10 risky stocks. Construct the minimum variance portfolio mvp and the ~~
equallyweightedportfolioewpofthe10stocks.Compute E(rmvp),mvp, E(rewp),ewp,and . Verify numerically that 2 .
mvp,ewp mvp,ewp mvp
4. Suppose that you are a portfolio manager. Your client who has $10 million to invest in the stocks is relatively aggressive. She wants her target expected monthly returns to be 0.5% higher than the equally weighted portfolio while minimizing her portfolio risk. How should you advise her to invest the $10 million in these 10 stocks to achieve her goal? You should advise her that in order to obtain a higher expected return, she will have to bear more risk. What is the minimum amount of risk that she has to bear if she just needs an expected return equal to that of the equally weighted portfolio? What is the additional risk that she has to take if she wants an additional 0.5% return per month? Do you think the return is worth the additional risk? How do you convince her?
5. You should advise your client that past return does not necessarily guarantee future success. To convince yourself, you can take the data for the first 7 years to construct your target portfolio, and then use the data for the last 3 years to do a so-called out-of-sample test. Does your clients portfolio for the last 3 years achieve the expected return of the target portfolio constructed using data from the first 7 years?
6. Add the risk-free asset to your universe of assets. Construct the portfolio frontier with the 10 stocks and the risk-free rate in the mean-standard deviation space. Superimpose the portfolio frontier constructed without the risk-free rate on that constructed with the risk-free rate. Identify the tangency portfolio. Show graphically.
7. Assume that the risk-free rate is 0.2% higher than the mean return of your minimum variance portfolio estimated in Problem 3 above, i.e., r E(r ) 0.002 . 6.

8. Randomly pick a stock in your universe (in general this stock is unlikely the minimum variance portfolio or even a frontier portfolio). Find the minimum variance portfolio that is uncorrelated with this stock. Show graphically.
9. The value at risk (VaR) is an estimate of the amount by which an investors position in a risky category could decline due to general market movements during a given period of time. We define the VaR of a long position over time horizon l with probability p as
pP[V(l)VaR] F(VaR) l
where, V(l) is the change in the value of the assets in the financial position (in dollar terms) and Fl (x) is its cumulative distribution function (cdf).
Similarly, the VaR of a short position is defined as
pP[V(l)VaR] 1P[V(l)VaR] 1F(VaR).
Assume that the returns of the equally weighted portfolio (ewp) that you constructed in problem 3, and your clients two target portfolios that you constructed in problem 4 are each serially independent and identically distributed. (Note that this is a strong assumption that does not hold in most data, but we make this assumption to greatly simplify the analysis). The VaR for a given long position for the next period can be calculated as follows:
VaR (position) + (p% critical value)
where and are the mean and standard deviation of your portfolio return. For each of the three portfolios, calculate the VaRs for the next month at the 1% probability under the following respective distributional assumptions: (i) normal distribution N (, 2 ) ; (ii) t(3) distribution with
mean and variance 2; and (iii) nonparametric bootstrap distribution with 1 million replications with replacement. From this exercise, you should see the impact on risk if the return
distribution is not normal. (Note:
1. We usually use daily data to compute VaR. But you can just use the monthly data you already have for this exercise.
2.If xt(v), isthedegreesoffreedom,then2 ,for2.)

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[SOLVED] MQF 22:839:571, Financial Modeling I, Spring 2022 Assignment III
$25