Operations Research : Applications and Algorithms
4th Edition
ISBN: 9780534380588
Author: Wayne L. Winston
Publisher: Brooks Cole
expand_more
expand_more
format_list_bulleted
Concept explainers
Expert Solution & Answer
Chapter 13.2, Problem 1P
Explanation of Solution
a.
Given:
The utility function for asset position
Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:
If
- Risk-Reverse when
- Risk-Neutral when
- Risk Seeking when
Explanation of Solution
b.
Given:
The utility function for asset position
Now, I have an asset of $20,000.
Consider the two lotteries,
L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)
L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)
With probability 0.1, the asset becomes $10,000 (Loss of $10,000)
Determining which lottery, I prefer:
For a given lottery,
- Here,
It is given that,
Now, find the expected utility of the lottery L1,
Similarly, find the expected utility of the lottery L2,
For the two lotteries L1 and L2, use preference criteria via expected utility criteria. The criteria are as follows:
- We prefer L1 over L2 (L1p L2) if
- We prefer L2 over L1 (L2p L1) if
- The lottery L1 is indifferent to L2 (L1i L2) if
We have,
Expert Solution & Answer
Trending nowThis is a popular solution!
Students have asked these similar questions
Consider two defaultable 1-year loans with a principal of $1 million each. The probability of default on each loan is 2.5%. Assume that if one loan defaults, the other does not. Assume that in the event of default, the loan leads to a loss that can take any value between $0 and $1 million with equal probability, i.e., the probability that the loss is higher than $ ? million is 1 − ?. If a loan does not default, it yields a profit equal to $20,000. Compute the 1-year 98% Value at Risk (VaR) and Expected Shortfall (ES) of a single loan.
Please solve the following problem.
Quiz = Pass
Quiz = Fail
AI = Fail
0.1
0.2
AI = Pass
0.6
0.1
Mid = Pass
Mid = Fail
AI = Fail
0.2
0.2
AI = Pass
0.5
0.1
Suppose you have three events AI Grade, Quiz, and Mid. Here each event has two possible outcomes, either pass or fail. Additionally, given that AI Grade is observed, Quiz and Mid become independent of each other. Also, out of every 100 students, 30 students fail the AI course. Now, using the joint probability tables given, calculate P(AI Grade=Pass, Quiz=Fail, Mid=Fail).
Assume that, with probability 0.8, It’s going to snow and/or I’m going to stay at home; and with probability 0.7, when it snows, then I stay at home. What is the probability of being truth that I am going to stay at home?
Chapter 13 Solutions
Operations Research : Applications and Algorithms
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, computer-science and related others by exploring similar questions and additional content below.Similar questions
- At the beginning of each year, a firm observes its asset position (call it d) and may invest any amount x (0 <=x <=d) in a risky investment. During each year, the money invested doubles with probability p and is completely lost with probability 1 - p. Independently of this investment, the firm’s asset position increases by an amount y with probability qy (y may be negative). If the firm’s asset position is negative at the beginning of a year, it cannot invest any money during that year. The firm initially has $10,000 in assets and wants to maximize its expected asset position ten years from now. Formulate a dynamic programming recursion that will help accomplish this goal.arrow_forwardQuestion 4 A red die, a blue die, and a yellow die (all six-sided) are rolled. We are interested inthe probability that the number appearing on the blue die is less than that appearing on theyellow die which is less than that appearing on the red die. (That is, if B (R) [Y ] is the numberappearing on the blue (red) [yellow] die, then we are interested in P(B < Y < R). )(a) What is the probability that no two of the dice land on the same number?(b) Given that no two of the dice land on the same number, what is theconditional probability that B < Y < R?(c) What is P(B < Y < R)?arrow_forward[Very Hard] Suppose, you are working in a company ‘X’ where your job is to calculate the profit based on their investment. If the company invests 100,000 USD or less, their profit will be based on 75,000 USD as first 25,000 USD goes to set up the business in the first place. For the first 100,000 USD, the profit margin is low: 4.5%. Therefore, for every 100 dollar they spend, they get a profit of 4.5 dollar. For an investment greater than 100,000 USD, for the first 100,000 USD (actually on 75,000 USD as 25,000 is the setup cost), the profit margin is 4.5% where for the rest, it goes up to 8%. For example, if they invest 250,000 USD, they will get an 8% profit for the 150,000 USD. In addition, from the rest 100,000 USD, 25,000 is the setup cost and there will be a 4.5% profit on the rest 75,000. Investment will always be greater or equal to 25,000 and multiple of 100. Complete the RECURSIVE methods below that take an array of integers (investments) and an iterator (always…arrow_forward
- : You have a basketball hoop and someone says that you can play one of two games.Game 1: You get one shot to make the hoop.Game 2: You get three shots and you have to make two of three shots.If p is the probability of making a particular shot, for which values of p should you pick one gameor the other?arrow_forwardConsider values shown in the table below:i=1 (cold) i=2 (allergy) i=3 (stomach pain) p(Hi)0.60.30.1 p(E1 |Hi)0.30.80.3 p(E2 |Hi)0.60.90.0Those values represent (hypothetically) three mutually exclusive and exhaustive hypotheses for the patient’s condition. For example, H1: the patient has a cold, H2: the patient has an allergy, and H3: the patient has stomach pain with their prior probabilities, p(Hi)’s and two conditionally independent pieces of evidence (E1, patient sneezes and E2, patient coughs) which support these hypotheses to differing degrees. Therefore;a) Compute the posterior probabilities for the hypothesis if the patient sneezes. What is the conclusion that can be derived from this condition?b) Based on the answer from the previous result, as the patient coughs are now observed, compute the posterior probabilities for this condition. Explain the results.arrow_forward
arrow_back_ios
arrow_forward_ios
Recommended textbooks for you
Operations Research : Applications and AlgorithmsComputer ScienceISBN:9780534380588Author:Wayne L. WinstonPublisher:Brooks Cole
Operations Research : Applications and Algorithms
Computer Science
ISBN:9780534380588
Author:Wayne L. Winston
Publisher:Brooks Cole