Supplement D Supplement D Special Inventory Models Special Inventory Models TRUE/FALSE 1. The economic production lot size represents the maximum quantity of on-hand inventory for a manufacturer. Answer: False Keywords: ELS, economic, product, lot, size, inventory 2. For analysis using the economic production lot size (ELS) model to be useful, the producer must be able to produce the item faster than it is consumed. Answer: True Keywords: ELS, economic, product, lot, size 3. When facing quantity discounts, the EOQ found with the lowest price level is the lowest total cost plan. Answer: False Reference: Quantity Discounts Keywords: EOQ, quantity, discount 4. The one-period inventory model is commonly known as the newsboy problem. Answer: True Keywords: newsboy, one-period, period 504
MULTIPLE CHOICE 5. Consider a noninstantaneous replenishment situation in which the production rate is 100 units per day, the demand rate is four units per day, and the economic production lot size is 500 units. Which of the following statements is true? a. The average cycle inventory is fewer than 225 units. b. The average cycle inventory is greater than 300 units. c. The rate of buildup in cycle inventory during the production cycle is fewer than 100 units per day. d. The rate of buildup in cycle inventory during the production cycle is greater than or equal to 400 units per day. Keywords: noninstantaneous, replenishment, buildup Scenario D.1 Jerry Allison is in charge of production for a small producer of plumbing supplies. The cricket model has an estimated annual demand of 12,000 units and can be produced at a production rate of 90 units per day. The company produces (and sells) the cricket 300 days per year. Setup cost to produce this model averages $22 and the item has a holding cost of $3 per unit per year. 6. Use the information in Scenario D.1. What is the economic production lot size (ELS)? a. Fewer than or equal to 400 units b. Greater than 400 units but fewer than or equal to 480 units c. Greater than 480 units but fewer than or equal to 500 units d. Greater than 500 units Answer: d Keywords: ELS, noninstantaneous, replenishment, economic, production, lot 7. Use the information in Scenario D.1. How many production runs per year are needed if Jerry chooses to produce at his economic production lot size (ELS)? a. Fewer than or equal to 10 runs b. Greater than 10 runs but fewer than or equal to 20 runs c. Greater than 20 runs but fewer than or equal to 30 runs d. Greater than 30 runs Keywords: ELS, noninstantaneous, replenishment, economic, production, run 505
8. Use the information in Scenario D.1. If Jerry chooses to produce batches dictated by the economic production lot size (ELS) model, how many days elapse between the start of consecutive production runs (what is the time between runs or TBO)? a. Fewer than or equal to 8 days b. Greater than 8 days but fewer than or equal to 10 days c. Greater than 10 days but fewer than or equal to 12 days d. Greater than 12 days Answer: d Keywords: ELS, noninstantaneous, replenishment, economic, production, TBO, cycle 9. Use the information in Scenario D.1. What is the maximum inventory if Jerry chooses to produce at the economic production lot size (ELS)? a. Fewer than or equal to 300 units b. Greater than 300 units but fewer than or equal to 320 units c. Greater than 320 units but fewer than or equal to 340 units d. Greater than 340 units Answer: b Keywords: ELS, noninstantaneous, replenishment, economic, production, maximum, inventory 10. Use the information in Scenario D.1. If Jerry chooses to produce the batch size suggested by the economic production lot size (ELS) model, what is the annual cost? a. Less than or equal to $900 b. Greater than $900 but less than or equal to $950 c. Greater than $950 but less than or equal to $1000 d. Greater than $1000 Answer: b Keywords: ELS, noninstantaneous, replenishment, economic, production, total, cost 506
11. Warren s Ice Cream makes 4 different flavors of ice cream using their secret process and top secret recipes. Each of their flavors is equally popular and experiences a demand of 5000 gallons/year. Warren s process is capable of producing 100 gallons/day once they incur the $25 setup cost. The ice cream holding cost is 10% of the $5 per gallon price. Warren s plant runs 250 days a year and stays busy doing so but management feels they can add another flavor to their product line and increase their revenue. Which of the following statements is appropriate for this scenario? a. Warren s can comfortably add a fifth flavor without increasing the number of days they operate. b. Warren s cannot add the fifth flavor because the holding cost would increase. c. Warren s can add the fifth flavor only if there is zero setup time between flavors. d. Warren s cannot add the fifth flavor because demand would exceed capacity. Difficulty: Difficult Keywords: ELS, noninstantaneous, replenishment, economic, production, total, cost 12. In a noninstantaneous replenishment model, as the daily demand approaches the daily production rate: a. the number of production runs per year decreases. b. the length in days of a production run increases. c. the economic lot size increases. d. the time between production runs decreases. Answer: d Keywords: ELS, noninstantaneous, replenishment, economic, production, total, cost 13. A pencil supplier just introduced quantity discounts. The price schedule follows. Order Quantity Price per Unit 000 199 $4.00 200 399 $3.00 400 and more $2.00 XYZ store s annual demand remains at 500 units and ordering cost at $10 per order. If annual holding cost is 10 percent of the pencils per-unit price, what order quantity should XYZ select to minimize all costs? a. Fewer than or equal to 150 units b. Greater than 150 units but fewer than or equal to 199 units c. Greater than 199 units but fewer than or equal to 399 units d. Greater than 399 units Answer: d Reference: Quantity Discounts Keywords: quantity, discount, order 507
14. Which one of the following statements about quantity discounts is best? a. The minimum cost point on each price curve is always feasible. b. A price break is the maximum quantity needed to get a discount. c. If the EOQ for the lowest price is feasible, this is the best lot size. d. Either price or quantity is sufficient for the search for the best lot size. Reference: Quantity Discounts Keywords: quantity, discount, feasible 15. As an inventory manager, you must decide on the order quantity for an item. Its annual demand is 300 units. Ordering cost is $20 each time an order is placed, and the holding cost is 30 percent of the perunit price. Your supplier provided the following price schedule. Price per Unit Order Quantity $6.00 000 149 $5.00 150 199 $4.00 200 and more What ordering-quantity policy do you recommend? a. Fewer than or equal to 50 units b. Greater than 50 units but fewer than or equal to 149 c. Greater than 149 units but fewer than or equal to 199 units d. More than 199 units Answer: d Reference: Quantity Discount Keywords: quantity, discount, order Scenario D.2 Kyle store sells K2 skis. The store makes a $200 profit per unit sold during the ski season, but it should take a $50 loss per unit if sold after the season is over. The following discrete probability distribution has been estimated for the season s demand. Demand (D) Demand Probability 10 0.1 20 0.3 30 0.3 40 0.2 50 0.1 508
16. Use the information in Scenario D.2. What is the payoff with an order quantity (Q) of 40 units if the demand (D) is 30 units? a. Less than or equal to $2,000 b. Greater than $2,000 but less than or equal to $4,000 c. Greater than $4,000 but less than or equal to $6,000 d. Greater than $6,000 Keywords: one-period, period, order, quantity, payoff 17. Use the information in Scenario D.2.. What is the best order quantity? a. Fewer than or equal to 20 units b. Greater than 20 units but fewer than or equal to 40 units c. Greater than 40 units but fewer than or equal to 50 units d. Greater than 50 units Answer: b Keywords: one-period, period, order, quantity Scenario D.3 Consider an item with the following discrete demand distribution for a one-time inventory decision. Demand (D) Demand Probability 10 0.15 20 0.20 30 0.30 40 0.20 50 0.15 This item experiences a seasonal demand pattern. A profit of $15 per unit is made if the item is sold in season, but a loss of $10 per unit is incurred if sold after the season is over. 18. Use the information in Scenario D.3. What is the payoff when 40 units are ordered but a demand of 50 materializes? a. $150 b. $300 c. $450 d. $600 Answer: d Keywords: one-period, period, payoff, quantity 509
19. Use the information in Scenario D.3. What is the payoff when 40 units are ordered but a demand of 30 materializes? a. $0 b. $100 c. $350 d. $450 Keywords: payoff, one-period, period, quantity 20. Use the information in Scenario D.3. What is the order quantity with the highest expected payoff? a. 20 units b. 30 units c. 40 units d. 50 units Answer: b Keywords: one-period, order, quantity, payoff 21. A world traveler prepares to leave the comforts of home for a back to nature visit to Gilligan s Island, where all transactions are conducted in coconuts and the banking system is completely undeveloped. The traveler can buy cocoanuts for $2 each before the journey. If he fails to bring enough cocoanuts with him and runs out, he must get some cocoanuts flown in at a cost of $5 each. If he finishes his vacation and has leftover cocoanuts he can cash them in when he returns home, but will receive only $1.50 per cocoanut. What is his loss per unit if he overstocks on cocoanuts prior to leaving home? a. $0.50 b. $1 c. $3.50 d. $4.50 Answer: a Difficulty: Easy Keywords: one-period, order, quantity, payoff 22. Which of these statements about the one-period model is best? a. Purchasing a quantity with the highest expected payoff will result in a positive payoff regardless of demand during the period. b. The loss per unit cannot exceed the profit per unit. c. If demand exceeds the purchased quantity then the payoff exceeds the expected payoff. d. The expected payoff is always less than the actual payoff. Difficulty: Easy Keywords: one-period, order, quantity, payoff 510
FILL IN THE BLANK 23. The is the optimal lot size in situations in which replenishment is not instantaneous. Answer: economic production lot size, ELS Keywords: economic, lot, size, ELS, replenishment 24. A manufacturer produces aluminum cans internally rather than purchasing them and uses the economic production lot size equation to govern this process. The length of time that the aluminum can batch runs is and the time between the start of one batch of cans to the next is. Answer: ELS/p, ELS/d Difficulty: Hard Keywords: economic, lot, size, ELS 25. A(n) is the minimum quantity needed to receive a discount. Answer: price break Reference: Quantity Discounts Keywords: price, break, discount, quantity 26. The need for one-time inventory decisions also can arise in manufacturing plants when items are made to a single order and are high. ustomized (specials), scrap quantities Difficulty: Hard Keywords: one-period, newsboy, scrap, special SHORT ANSWERS 27. Briefly explain why the economic production lot size (ELS) is actually larger than the EOQ when there are noninstantaneous replenishments. Answer: The cycle inventory is less than Q/2, which reduces the annual holding cost of ordering in cost of Q units. Thus a larger order quantity is justified. Keywords: ELS, noninstantaneous, replenishment 28. Why are there discontinuities (areas where the curve jumps up or down and is not smooth) in the total cost curve in the quantity discount model? Answer: The total cost curve has breaks due to the price breaks. Reading the total cost curve from left to right, when purchase quantities reach a price break, an increase in one unit will trigger a per-unit decrease in price, which accounts for the reduction in total cost. Reference: Quantity Discounts Keywords: quantity, discount, total, cost 511
29. When do one-period decisions on inventory arise in practice? Answer: The one-period inventory models are appropriate when retailers handle seasonal goods that must be sold at a reduced price after the selling season. For manufacturing situations, it can be when customized specials are made and scrap rates are high. Keywords: one-period, period, newsboy PROBLEMS 30. A production manager is making a decision on batch size for a product with an annual demand of 25,000 units per year. The setup cost for each batch is $45 and once the setup is complete, the product may be produced at the rate of 650 units per day. There is a holding cost of $2 per unit per year and the plant operates on a 250-day production year. How big should the production batch be and how long (in days) will it take to produce the batch? Answer: 2DS p 2(25000)45 650 ELS 1,153 units H p d 2 (650 100) ELS 1153 Production time 1.77 days p 650 Keywords: ELS, noninstantaneous, replenishment, batch 512
31. A production manager uses the economic lot size approach to determine the batch size for a product with an annual demand of 20,000 units per year. The setup cost for each batch is $50 and once the setup is complete, the product may be produced at the rate of 800 units per day. There is a holding cost of $2 per unit per year and the plant operates on a 250-day production year. If the machine used to produce this product is needed for another item and it takes one day to set up regardless of product, how many production days are available for production of the new item? Answer: 2DS p 2(20000)50 800 ELS 1,054 units H p d 2 (800 80) ELS 1054 Production time 1.3175 days p 800 ELS 1054 Time Between Orders 13.175 days d 80 Available Time 13.175 days-1.3175 days-2 (1 day)=9.8575 days per cycle 250 days 18.97 cycles/year 19 cycles/year 13.175 days/cycle 19 cycles/year 9.8575 days/cycle 187.29 days/year Keywords: ELS, noninstantaneous, replenishment, batch, TBO 513
32. As an inventory manager, you must decide on the order quantity for an item. Its annual demand is 1,000 units. Ordering costs are $50 each time an order is placed, and the holding cost is 25 percent of the per-unit price. Your supplier provided the following price schedule. Quantity Price per Unit 1 199 $10.00 200 499 $ 9.80 500 or more $ 9.60 What ordering-quantity policy do you recommend? Answer: Start at lowest cost EOQ 2DS H 2(1000)50.25(9.60) 9.6 Solve for next lowest cost EOQ 2DS H 2(1000)50.25(9.80) 9.80 204, not feasible 202, feasible, Compare costs at the feasible 202 and at the lower cost for discount at 500 Q D 202 1000 C 202 H S PD (.25)9.80 (50) 9.80(1000) $10,295 2 Q 2 202 Q D 500 1000 C 500 H S PD (.25)9.60 (50) 9.60(1000) $10,300 2 Q 2 500 Therefore, the best order size is 202, with a cost of $10,295. Reference: Quantity Discounts Keywords: quantity, discount, order 514
33. A newsstand is trying to determine how many bundles of newspapers to stock. For each bundle, the newsstand makes $20. However, they lose $5 per bundle if they do not sell. The following discrete probability distribution has been estimated for their daily demand. How many bundles should they stock? Demand Probability (bundles) 4.10 5.20 6.30 7.30 8.10 Answer: Profit Loss $20.00(if sold during preferred period) $5.00(if sold after preferred period) Demand 4 5 6 7 8 Probability 0.1 0.2 0.3 0.3 0.1 Demand 4 5 6 7 8 Quantity 4 80 80 80 80 80 5 75 100 100 100 100 6 70 95 120 120 120 7 65 90 115 140 140 8 60 85 110 135 160 Weighted Payoffs Order Quantity Expected Payoff 4 80Greatest Expected Payoff 115 5 97.5 6 110Associated with Order Quantity 7 7 115 8 112.5 Keywords: one-period, probability, discrete, order 515