The Toledo Leather Company has been producing leather goods for more than 30 years. It purchases prepared hides from tanners and produces leather clothing accessories such as wallets, belts, and handbags. The firm has just developed a new leather product and has prepared a 1-year production and sales plan for it. The new product is best described as a combination billfold, key case, and credit card carrier. As company president Peggy Lane has noted, “It is a super carryall for small this-and-that.” Lane has placed her administrative assistant, Harold Hamilton, in charge of the project. Hamilton has established that material and variable overhead for the carryall should be about $1.50 per case over the next year given a 5-day week and no overtime. Unit labor and machining costs, however, depend on the choice of machine that will be used for production. Hamilton has narrowed the choice down to two specialized pieces of equipment. Machine 1 is a semi-automated machine that will cut the material to the size needed for one unit and also will sew it, install the rings and snaps, and emboss it with two types of designs. This machine costs $250,000 and will add $2.50 per case to the average variable cost for labor and other machine-related costs. This piece of equipment has a production capacity of 640 units per day. However, estimated downtime for maintenance and repairs is 12.5% (1/8 of the total time). Machine 2 is fully automated. It cuts, sews, and installs rings and snaps and is capable of embossing the case with three types of designs. This machine costs $350,000 and will add $1.75 per case to the average variable cost for labor and other machine-related costs. Machine 2 has a higher production capacity (estimated at 800 units per day) than the semi-automated machine. However, estimated downtime is 25% (1/4 of the total time), consistent with its great complexity. Marketing estimates for the next year have been more difficult to project than production costs and capacity estimates. However, $6.00 seems the likeliest selling price for the carryall. The price brings it in line with somewhat comparable products on the market, but because the carryall offers more features than these other products, it has the potential to outsell them. Sales volume estimates center on 140,000 units for the year, but analysis of the potential market has been difficult because this new product is so different from the products now being sold. Hamilton’s best estimates of sales at $6.00 per unit and the probabilities attached to these volumes are as follows: SALES VOLUME PROBABILITY 120,000 units …………………………………………………. 0.15 130,000 units …………………………………………………. 0.25 140,000 units .………………………………………………… 0.40 150,000 units …………………………………………………. 0.15 160,000 units …………………………………………………. 0.05 Given these marketing estimates and the machine capacities, the company will have to decide either to modify the machines to increase capacity or to work overtime if demand is at the higher levels. Management can make this decision based on the first weeks’ worth of sales, which are expected to be a good indicator of the annual sales level. Overtime premiums would raise the costs by $1.20 per case on the semi-automated machine and by $0.90 on the fully automated machine. Modification of Machine 1, the semi-automated one, would cost $15,000 to meet the highest level of sales. Modification of Machine 2 would cost $20,000. Lane has directed Hamilton to make a decision based on first-year sales, since demand for a product such as this is uncertain after its initial popularity passes. Toledo operates on a 50-week year because the company usually closes down for the winter holidays. Discussion Questions 1. Using a decision tree based on maximizing expected profit, decide which machine Toledo Leather should select. Should overtime be scheduled? Or should a machine be modified and, if so, under what circumstances? 2. Set up a payoff matrix for the sales volumes given (assume the machines cannot be modified and overtime is used), and assume that the probabilities for the five levels of sales are not known. Then decide which machine should be purchased using the maximax criterion, the maximin criterion, and the equally likely criterion.
> The closing stock price for each of two stocks was recorded over a 12-month period. The closing price for the Dow Jones Industrial Average (DJIA) was also recorded over this same time period. These values are shown in the following table: (a) Develop a
> The number of victories (W), earned run average (ERA), runs scored (R), batting average (AVG), and on-base percentage (OBP) for each team in the American League in the 2012 season are provided in the following table. The ERA is one measure of the effecti
> In 2012, the total payroll for the New York Yankees was almost $200 million, while the total payroll for the Oakland Athletics (a team known for using baseball analytics or saber metrics) was about $55 million, less than one-third of the Yankeesâ&#
> A sample of nine public universities and nine private universities was taken. The total cost for the year (including room and board) and the median SAT score (maximum total is 2400) at each school were recorded. It was felt that schools with higher media
> Use the data in Problem 4-26 to find the best quadratic regression model. (There is more than one to consider.) How does this compare to the models in Problems 4-26 and 4-27? Problem 4-26: A sample of 20 automobiles was taken, and the miles per gallon (
> Martin-Pullin Bicycle Corp. (MPBC), located in Dallas, is a wholesale distributor of bicycles and bicycle parts. Formed in 1981 by cousins Ray Martin and Jim Pullin, the firm’s primary retail outlets are located within a 400-mile radius
> The total expenses of a hospital are related to many factors. Two of these factors are the number of beds in the hospital and the number of admissions. Data were collected on 14 hospitals, as shown in the following table: Find the best regression model
> Use the data in Problem 4-22 and develop a regression model to predict selling price based on the square footage and number of bedrooms. Use this to predict the selling price of a 2,000-square-foot house with three bedrooms. Compare this model with the m
> The following data give the selling price, square footage, number of bedrooms, and age of houses that have sold in a neighborhood in the past 6 months. Develop three regression models to predict the selling price based upon each of the other factors indi
> The following data give the starting salary for students who recently graduated from a local university and accepted jobs soon after graduation. The starting salary, grade-point average (GPA), and major (business or other) are provided. (a) Using a com
> Use computer software to develop a regression model for the data in Problem 4-19. Explain what this output indicates about the usefulness of this model. Problem 4-19: Bus and subway ridership in Washington, D.C., during the summer months is believed to
> Bus and subway ridership in Washington, D.C., during the summer months is believed to be heavily tied to the number of tourists visiting the city. During the past 12 years, the following data have been obtained: (a) Plot these data and determine whethe
> Thirteen students entered the undergraduate business program at Rollins College 2 years ago. The following table indicates what their grade-point averages (GPAs) were after being in the program for 2 years and what each student scored on the SAT exam (ma
> Accountants at the firm Walker and Walker believed that several traveling executives submit unusually high travel vouchers when they return from business trips. The accountants took a sample of 200 vouchers submitted from the past year; they then develop
> Steve Caples, a real estate appraiser in Lake Charles, Louisiana, has developed a regression model to help appraise residential housing in the Lake Charles area. The model was developed using recently sold homes in a particular neighborhood. The price (Y
> Using the data in Problem 4-13, test to see if there is a statistically significant relationship between the grade on the first test and the final average at the 0.05 level of significance. Use the formulas in this chapter and Appendix D. Problem 4-13:
> For years The Glass Slipper restaurant has operated in a resort community near a popular ski area of New Mexico. The restaurant is busiest during the first 3 months of the year, when the ski slopes are crowded and tourists flock to the area. When James a
> Sue Reynolds has to decide if she should get information (at a cost of $20,000) to help her decide whether to invest in a retail store. If she gets the information, there is a 0.6 probability that the information will be favorable and a 0.4 probability t
> Mary is considering opening a new grocery store in town. She is evaluating three sites: downtown, the mall, and out at the busy traffic circle. Mary calculated the value of successful stores at these locations as follows: downtown, $250,000; the mall, $3
> In the past few years, the traffic problems in Lynn McKell’s hometown have gotten worse. Now, Broad Street is congested about half the time. The normal travel time to work for Lynn is only 15 minutes when Broad Street is used and there is no congestion.
> In this chapter, a decision tree was developed for John Thompson (see Figure 3.5 for the complete decision tree analysis). After completing the analysis, John was not completely sure that he is indifferent to risk. After going through a number of standar
> In Problem 3-37, you helped the medical professionals analyze their decision using expected monetary value as the decision criterion. This group has also assessed its utility for money: U(-$45,000) = 0, U(-$40,000) = 0.1, U(-$5,000) = 0.7, U($0)= 0.9, U(
> The Long Island Life Insurance Company sells a term life insurance policy. If the policy holder dies during the term of the policy, the company pays $100,000. If the person does not die, the company pays out nothing, and there is no further value to the
> Two states of nature exist for a particular situation: a good economy and a poor economy. An economic study may be performed to obtain more information about which of these will actually occur in the coming year. The study may forecast either a good econ
> A financial advisor has recommended two possible mutual funds for investment: Fund A and Fund B. The return that will be achieved by each of these depends on whether the economy is good, fair, or poor. A payoff table has been constructed to illustrate th
> Mark Martinko has been a class A racquetball player for the past 5 years, and one of his biggest goals is to own and operate a racquetball facility. Unfortunately, Mark thinks that the chance of a successful racquetball facility is only 30%. Mark’s lawye
> Peter Martin is going to help his brother who wants to open a food store. Peter initially believes that there is a 50–50 chance that his brother’s food store would be a success. Peter is considering doing a market research study. Based on historical data
> Southwestern University (SWU), a large state college in Stephenville, Texas, 30 miles southwest of the Dallas/Fort Worth metroplex, enrolls close to 20,000 students. In a typical town– gown relationship, the school is a dominant force i
> Bill Holliday is not sure what he should do. He can build a quadplex (i.e., a building with four apartments), build a duplex, gather additional information, or simply do nothing. If he gathers additional information, the results could be either favorable
> Jerry Smith (see Problem 3-38) has done some analysis about the profitability of the bicycle shop. If Jerry builds the large bicycle shop, he will earn $60,000 if the market is favorable, but he will lose $40,000 if the market is unfavorable. The small s
> The physicians in Problem 3-36 have been approached by a market research firm that offers to perform a study of the market at a fee of $5,000. The market researchers claim their experience enables them to use Bayes’ Theorem to make the following statemen
> Refer to the leasing decision facing Beverly Mills in Problem 3-31. Develop the opportunity loss table for this situation. Which option would be chosen based on the minimax regret criterion? Which alternative would result in the lowest expected opportuni
> What is the meaning of mutually exclusive events? What is meant by collectively exhaustive? Give an example of each.
> Describe the use of sensitivity analysis and post optimality analysis in analyzing the results.
> What are the two basic laws of probability?
> List some sources of input data.
> What is Bayes’ Theorem, and when can it be used?
> Briefly trace the history of quantitative analysis. What happened to the development of quantitative analysis during World War II?
> In January 2012, Northern Airlines merged with Southeast Airlines to create the fourth largest U.S. carrier. The new North– South Airline inherited both an aging fleet of Boeing 727-300 aircraft and Stephen Ruth. Stephen was a tough for
> What is the quantitative analysis process? Give several examples of this process.
> What are the three categories of business analytics?
> Define quantitative analysis. What are some of the organizations that support the use of the scientific approach?
> What is the difference between quantitative and qualitative analysis? Give several examples.
> Discuss the role of sensitivity analysis in LP. Under what circumstances is it needed, and under what conditions do you think it is not necessary?
> The mathematical relationships that follow were formulated by an operations research analyst at the Smith–Lawton Chemical Company. Which ones are invalid for use in an LP problem, and why? Maximize profit = 4X1 + 3X1X2 + 8X2 + 5X3 subject to 2X1 + X2 +
> The production manager of a large Cincinnati manufacturing firm once made the statement, “I would like to use LP, but it’s a technique that operates under conditions of certainty. My plant doesn’t have that certainty; it’s a world of uncertainty. So LP c
> You have just formulated a maximization LP problem and are preparing to solve it graphically. What criteria should you consider in deciding whether it would be easier to solve the problem by the corner point method or the isoprofit line approach?
> It has been said that each LP problem that has a feasible region has an infinite number of solutions. Explain.
> It is important to understand the assumptions underlying the use of any quantitative analysis model. What are the assumptions and requirements for an LP model to be formulated and used?
> Explain how a change in a technological coefficient can affect a problem’s optimal solution. How can a change in resource availability affect a solution?
> Develop your own original LP problem with two constraints and two real variables. (a) Explain the meaning of the numbers on the right hand side of each of your constraints. (b) Explain the significance of the technological coefficients. (c) Solve you
> A linear program has a maximum profit of $600. One constraint in this problem is 4X + 2Y ≤ 80. Using a computer, we find the dual price for this constraint is 3, and there is a lower bound of 75 and an upper bound of 100. Explain what this means.
> A linear program has the objective of maximizing profit = 12X + 8Y. The maximum profit is $8,000. Using a computer, we find the upper bound for profit on X is 20 and the lower bound is 9. Discuss the changes to the optimal solution (the values of the var
> Discuss the similarities and differences between minimization and maximization problems using the graphical solution approaches of LP.
> If the ROP is greater than the order quantity, explain how the ROP is implemented. Can the ROP be more than twice the order quantity, and, if so, how is such a situation handled?
> What is the ROP? How is it determined?
> What are some of the assumptions made in using the EOQ?
> Why wouldn’t a company always store large quantities of inventory to eliminate shortages and stockouts?
> Under what circumstances can inventory be used as a hedge against inflation?
> After watching a movie about a young woman who quit a successful corporate career to start her own baby food company, Julia Day decided that she wanted to do the same. In the movie, the baby food company was very successful. Julia knew, however, that it
> Briefly describe what is meant by ABC analysis. What is the purpose of this inventory technique?
> Briefly explain the marginal analysis approach to the single-period inventory problem.
> When using safety stock, how is the standard deviation of demand during the lead time calculated if daily demand is normally distributed but lead time is constant? How is it calculated if daily demand is constant but lead time is normally distributed? Ho
> Briefly describe what is involved in solving a quantity discount model.
> What assumptions are made in the production run model?
> What is the purpose of sensitivity analysis?
> Why is inventory an important consideration for managers?
> Explain how the number of seasons is determined when forecasting with a seasonal component.
> Explain what would happen if the smoothing constant in an exponential smoothing model was equal to zero. Explain what would happen if the smoothing constant was equal to one.
> Describe briefly the steps used to develop a forecasting system.
> In 1979, Steve Blake founded Blake Electronics in Long Beach, California, to manufacture resistors, capacitors, inductors, and other electronic components. During the Vietnam War, Steve was a radio operator, and it was during this time that he became pro
> Explain what information is provided by the F test.
> Morgan Arthur has spent the past few weeks determining inventory costs for Armstrong, a toy manufacturer located near Cincinnati, Ohio. She knows that annual demand will be 30,000 units per year and that the carrying cost will be $1.50 per unit per year.
> Harrington Health Food stocks 5 loaves of Neutro- Bread. The probability distribution for the sales of Neutro-Bread is listed in the following table. How many loaves will Harrington sell on average? NUMBER OF LOAVES SOLD PROBABILITY 0 ……………………………………………
> Explain how the adjusted r2 value is used in developing a regression model.
> Which of the following are probability distributions? Why? (a) RANDOM VARIABLE X PROBABILITY 2 ………………………………………….………….. 0.1 -1 ……………………………………………….…….. 0.2 0 …………………………………………………….. 0.3 1 ………………………………………………..….. 0.25 2 …………………………………………………….. 0.15 (b)
> Develop your own set of constraint equations and inequalities, and use them to illustrate graphically each of the following conditions: (a) an unbounded problem (b) an infeasible problem (c) a problem containing redundant constraints
> Under what condition is it possible for an LP problem to have more than one optimal solution?
> Let the annual demand for an arbitrary commodity be 1,000 units per year and the associated EOQ be 400 units per order. Under this circumstance, the number of orders per year would be (D>Q) = 2.5 orders per year. How can this be so?
> Discuss the major inventory costs that are used in determining the EOQ.
> What is the purpose of inventory control?
> What is the objective of JIT?
> What is the difference between the gross and the net material requirements plans?
> What is the overall purpose of MRP?
> What happens to the production run model when the daily production rate becomes very large?
> Discuss how the coefficient of determination and the coefficient of correlation are related and how they are used in regression analysis.
> What is MAD, and why is it important in the selection and use of forecasting models?
> Describe briefly the Delphi technique.
> What effect does the value of the smoothing constant have on the weight given to the past forecast and the past observed value?
> What are some of the problems and drawbacks of the moving average forecasting model?
> What is a qualitative forecasting model, and when is it appropriate?
> What is the difference between a causal model and a time-series model?
> Explain when a CMA (rather than an overall average) should be used in computing a seasonal index. Explain why this is necessary.
> In using the decomposition method, the forecast based on trend is found using the trend line. How is the seasonal index used to adjust this forecast based on trend?
> How is the impact of seasonality removed from a time series?
> A seasonal index may be less than one, equal to one, or greater than one. Explain what each of these values would mean.
> Discuss the use of dummy variables in regression analysis.
> Explain how a plot of the residuals can be used in developing a regression model.
> What is the SSE? How is this related to the SST and the SSR?
> What is the difference between prior and posterior probabilities?
