Jennifer just had her 4th birthday and her parents have decided to save money to pay for

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Jennifer just had her 4th birthday and her parents have decided to save money to pay for her college education. They will invest $27,000 right now, and $10,000 each year on her future birthdays for the next 13 years (i.e. $10,000 when she turns 5, 6, 7, ... 16, 17). They are bullish on America and have a 70% Stock / 30% Bond Asset Allocation strategy. (i.e. 70% of each investment is in a tax exempt Stock Fund and 30% is in a tax exempt Bond Fund.) The principal and returns of each fund are allowed to accumulate (i.e. are reinvested) in the same fund and no redistribution will be done before Jennifer starts college. Assume that the returns of each fund are normally distributed and are independent of each other and past years. See the table; REQUIRED - Jennifer is planning to go to college starting on her 18th birthday; hence it is important for the parents to know how much money will have accumulated in her College Fund at that time (Call this the ACCUMULATION of the College Fund).

Allocation Standard Deviation Mean Stock Fund 70% 8% 10% 4% Bond Fund 30% 4%

Jennifer is planning to go to college starting on her 18th birthday; hence it is important for the parents to know how much money will have accumulated in her College Fund at that time (Call this the ACCUMULATION of the College Fund). Construct a Monte-Carlo simulation model in EXCEL or CRYSTAL BALL (EXCEL add-on) to model the problem. Run the simulation for at least 1,000 trials to answer the following questions:
(a) What is the mean and the standard deviation of the ACCUMULATION?
(b) What is the probability that the ACCUMULATION is over $240,000? over $270,000? over $300,000?
(c) What is the ACCUMULATION if the standard deviations are both zero. (Fixed return)
(d) Can you compute a 95% confidence interval estimate of ACCUMULATION? If so, what is it? If not, why not?
(e) Can this problem be solved without using simulation? If so, how?

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Introduction to Operations Research

ISBN: 978-1259162985

10th edition

Authors: Frederick S. Hillier, Gerald J. Lieberman

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