Consider the graphic L.P. problem below: Max(Z) = $10X + $30Y subject to: (1) X + 2Y ≤ 6 and (2) $5X + 2Y ≤ 10 What is the possible maximum profit from this linear programming problem? $85 $70 None of the above $60 $90 $150
Q: Donald Harris received a windfall and needs to invest it for tax reasons. He went to his…
A: Given data, Future Air Traffic Strategies Major Downturn Downturn Upturn Major Upturn…
Q: You are attempting to establish the utility that your boss assigns to a payoff of $1,000. You have…
A: Below is the solution:-
Q: marginal cost of managing an additional supplier is $14,800 per year, how many suppliers should Witt…
A: Here, for each alternative, I will determine the EMV value, Given data:Shutdown cost $…
Q: In most cases, several storage lockers are sold in sequence during a particular auction.…
A: Bidding and auction can be very tricky as the thought process and moves of the parties involved is…
Q: Mary is a sales person for Challenge Furniture. She receives an incremental commission based on the…
A: Based on the given information, it is clear that Mary is getting commission level 3 commission of…
Q: Ginger owns a property worth $500,000. She owes $220,000 on her mortgage. How much equity does she…
A: The objective of the question is to calculate the equity that Ginger has in her property. Equity is…
Q: You can use the YIELD function in Excel to calculate the yield to maturity of a bond. Suppose we…
A: Given Bond Characteristics:Years to maturity: 8Settlement date: 1/1/2000Maturity date:…
Q: Problem 2: You go to the racetrack and are choosing between 2 horses: Belle and Jeb (you are at the…
A: Decision analysis is a part of business operations where the organization has to take a decision…
Q: Imagine that there are 100 similar yet independent houses (located in different geographic areas),…
A: The 80% standard is clung to by most insurance organizations. As per the norm, a backup plan will…
Q: Assuming the appropriate interest rate is 8 percent, what is the MIRR for this project using the…
A: MIRR stands for Modified Internal Rate of Return. It is a financial metric used to evaluate the…
Q: Consider an investment project with the following cash flows: N Cash…
A: Substitute, 9% as interest rate, according to trial and error method,
Q: policy or mechanism could solve any informational imbalances
A: An EVPI (expected value of perfect information) is the difference between actual highest return and…
Q: a.) Draw a decision tree. b.) Determine the expected payoff for each decision and event node. c.)…
A: A Small Introduction about Demand Market interest structure the most essential ideas of financial…
Q: Marcus Johnson has a life insurance policy that allows him to change his policy to fit his changing…
A: There are several risks that occur and that can influence the practices and working of the…
Q: A massive network of seawalls is possibly going to be constructed right in the middle of Miami…
A: The correct answer is A.
Q: A grocery store sells a bag of 4 oranges for $2.84. How much would it cost for 5 oranges?
A: The objective of the question is to find out the cost of 5 oranges based on the given cost of 4…
Q: You are attempting to establish the utility that your boss assigns to a payoff of $1,200. You have…
A: To find out? The utility function of $1200
Q: A start-up company, Macrotech, plans to produce a device to translate Morse codeto a written message…
A: Given that, Initial Cost = $30,000 Selling Price SP= $85 Cost Price = $20
Q: market for steal. The result will be that the domestic price of steel and imports of foreign-made…
A: Ans) As the government has imposed the quota on imports of foreign made Steel. This means supply of…
Q: Consider the following hypothetical scenario. ABC Computer Company has a ₹1.4 billion (Indian…
A: Part a: Calculating Contributions to GDP1. Production Approach (Value-Added)ABC Computer Company:-…
Q: You are attempting to establish the utility that your boss assigns to a payoff of $2,000. You have…
A: Small Introduction about Payoff Your payback amount is the amount you'll have to pay in order to…
Q: If an economy can produce a maximum of 10 units of good X and the opportunity cost of 1X is always…
A: In economics, the concept of opportunity cost refers to the value of the next best alternative that…
Trending now
This is a popular solution!
Step by step
Solved in 4 steps with 1 images
- Assume the demand for a companys drug Wozac during the current year is 50,000, and assume demand will grow at 5% a year. If the company builds a plant that can produce x units of Wozac per year, it will cost 16x. Each unit of Wozac is sold for 3. Each unit of Wozac produced incurs a variable production cost of 0.20. It costs 0.40 per year to operate a unit of capacity. Determine how large a Wozac plant the company should build to maximize its expected profit over the next 10 years.If the number of competitors in Example 11.1 doubles, how does the optimal bid change?In the financial world, there are many types of complex instruments called derivatives that derive their value from the value of an underlying asset. Consider the following simple derivative. A stocks current price is 80 per share. You purchase a derivative whose value to you becomes known a month from now. Specifically, let P be the price of the stock in a month. If P is between 75 and 85, the derivative is worth nothing to you. If P is less than 75, the derivative results in a loss of 100(75-P) dollars to you. (The factor of 100 is because many derivatives involve 100 shares.) If P is greater than 85, the derivative results in a gain of 100(P-85) dollars to you. Assume that the distribution of the change in the stock price from now to a month from now is normally distributed with mean 1 and standard deviation 8. Let EMV be the expected gain/loss from this derivative. It is a weighted average of all the possible losses and gains, weighted by their likelihoods. (Of course, any loss should be expressed as a negative number. For example, a loss of 1500 should be expressed as -1500.) Unfortunately, this is a difficult probability calculation, but EMV can be estimated by an @RISK simulation. Perform this simulation with at least 1000 iterations. What is your best estimate of EMV?
- A project does not necessarily have a unique IRR. (Refer to the previous problem for more information on IRR.) Show that a project with the following cash flows has two IRRs: year 1, 20; year 2, 82; year 3, 60; year 4, 2. (Note: It can be shown that if the cash flow of a project changes sign only once, the project is guaranteed to have a unique IRR.)You now have 10,000, all of which is invested in a sports team. Each year there is a 60% chance that the value of the team will increase by 60% and a 40% chance that the value of the team will decrease by 60%. Estimate the mean and median value of your investment after 50 years. Explain the large difference between the estimated mean and median.Suppose you are borrowing 25,000 and making monthly payments with 1% interest. Show that the monthly payments should equal 556.11. The key relationships are that for any month t (Ending month t balance) = (Ending month t 1 balance) ((Monthly payment) (Month t interest)) (Month t interest) = (Beginning month t balance) (Monthly interest rate) Of course, the ending month 60 balance must equal 0.
- In this version of dice blackjack, you toss a single die repeatedly and add up the sum of your dice tosses. Your goal is to come as close as possible to a total of 7 without going over. You may stop at any time. If your total is 8 or more, you lose. If your total is 7 or less, the house then tosses the die repeatedly. The house stops as soon as its total is 4 or more. If the house totals 8 or more, you win. Otherwise, the higher total wins. If there is a tie, the house wins. Consider the following strategies: Keep tossing until your total is 3 or more. Keep tossing until your total is 4 or more. Keep tossing until your total is 5 or more. Keep tossing until your total is 6 or more. Keep tossing until your total is 7 or more. For example, suppose you keep tossing until your total is 4 or more. Here are some examples of how the game might go: You toss a 2 and then a 3 and stop for total of 5. The house tosses a 3 and then a 2. You lose because a tie goes to the house. You toss a 3 and then a 6. You lose. You toss a 6 and stop. The house tosses a 3 and then a 2. You win. You toss a 3 and then a 4 for total of 7. The house tosses a 3 and then a 5. You win. Note that only 4 tosses need to be generated for the house, but more tosses might need to be generated for you, depending on your strategy. Develop a simulation and run it for at least 1000 iterations for each of the strategies listed previously. For each strategy, what are the two values so that you are 95% sure that your probability of winning is between these two values? Which of the five strategies appears to be best?The IRR is the discount rate r that makes a project have an NPV of 0. You can find IRR in Excel with the built-in IRR function, using the syntax =IRR(range of cash flows). However, it can be tricky. In fact, if the IRR is not near 10%, this function might not find an answer, and you would get an error message. Then you must try the syntax =IRR(range of cash flows, guess), where guess" is your best guess for the IRR. It is best to try a range of guesses (say, 90% to 100%). Find the IRR of the project described in Problem 34. 34. Consider a project with the following cash flows: year 1, 400; year 2, 200; year 3, 600; year 4, 900; year 5, 1000; year 6, 250; year 7, 230. Assume a discount rate of 15% per year. a. Find the projects NPV if cash flows occur at the ends of the respective years. b. Find the projects NPV if cash flows occur at the beginnings of the respective years. c. Find the projects NPV if cash flows occur at the middles of the respective years.In Example 11.1, the possible profits vary from negative to positive for each of the 10 possible bids examined. a. For each of these, use @RISKs RISKTARGET function to find the probability that Millers profit is positive. Do you believe these results should have any bearing on Millers choice of bid? b. Use @RISKs RISKPERCENTILE function to find the 10th percentile for each of these bids. Can you explain why the percentiles have the values you obtain?
- A common decision is whether a company should buy equipment and produce a product in house or outsource production to another company. If sales volume is high enough, then by producing in house, the savings on unit costs will cover the fixed cost of the equipment. Suppose a company must make such a decision for a four-year time horizon, given the following data. Use simulation to estimate the probability that producing in house is better than outsourcing. If the company outsources production, it will have to purchase the product from the manufacturer for 25 per unit. This unit cost will remain constant for the next four years. The company will sell the product for 42 per unit. This price will remain constant for the next four years. If the company produces the product in house, it must buy a 500,000 machine that is depreciated on a straight-line basis over four years, and its cost of production will be 9 per unit. This unit cost will remain constant for the next four years. The demand in year 1 has a worst case of 10,000 units, a most likely case of 14,000 units, and a best case of 16,000 units. The average annual growth in demand for years 2-4 has a worst case of 7%, a most likely case of 15%, and a best case of 20%. Whatever this annual growth is, it will be the same in each of the years. The tax rate is 35%. Cash flows are discounted at 8% per year.It costs a pharmaceutical company 75,000 to produce a 1000-pound batch of a drug. The average yield from a batch is unknown but the best case is 90% yield (that is, 900 pounds of good drug will be produced), the most likely case is 85% yield, and the worst case is 70% yield. The annual demand for the drug is unknown, with the best case being 20,000 pounds, the most likely case 17,500 pounds, and the worst case 10,000 pounds. The drug sells for 125 per pound and leftover amounts of the drug can be sold for 30 per pound. To maximize annual expected profit, how many batches of the drug should the company produce? You can assume that it will produce the batches only once, before demand for the drug is known.The Tinkan Company produces one-pound cans for the Canadian salmon industry. Each year the salmon spawn during a 24-hour period and must be canned immediately. Tinkan has the following agreement with the salmon industry. The company can deliver as many cans as it chooses. Then the salmon are caught. For each can by which Tinkan falls short of the salmon industrys needs, the company pays the industry a 2 penalty. Cans cost Tinkan 1 to produce and are sold by Tinkan for 2 per can. If any cans are left over, they are returned to Tinkan and the company reimburses the industry 2 for each extra can. These extra cans are put in storage for next year. Each year a can is held in storage, a carrying cost equal to 20% of the cans production cost is incurred. It is well known that the number of salmon harvested during a year is strongly related to the number of salmon harvested the previous year. In fact, using past data, Tinkan estimates that the harvest size in year t, Ht (measured in the number of cans required), is related to the harvest size in the previous year, Ht1, by the equation Ht = Ht1et where et is normally distributed with mean 1.02 and standard deviation 0.10. Tinkan plans to use the following production strategy. For some value of x, it produces enough cans at the beginning of year t to bring its inventory up to x+Ht, where Ht is the predicted harvest size in year t. Then it delivers these cans to the salmon industry. For example, if it uses x = 100,000, the predicted harvest size is 500,000 cans, and 80,000 cans are already in inventory, then Tinkan produces and delivers 520,000 cans. Given that the harvest size for the previous year was 550,000 cans, use simulation to help Tinkan develop a production strategy that maximizes its expected profit over the next 20 years. Assume that the company begins year 1 with an initial inventory of 300,000 cans.