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Photon Technologies, Inc., a manufacturer of batteries for mobile phones, signed a contract with a large electronics manufacturer to produce three models of lithium-ion battery
Photon Technologies, Inc., a manufacturer of batteries for mobile phones, signed a contract with a large electronics manufacturer to produce three models of lithium-ion battery packs for a new line of phones. The contract calls for the following: Battery Pack PT-100 Production Quantity 200,000 100,000 PT-200 PT-300 150,000 Photon Technologies can manufacture the battery packs at manufacturing plants located in the Philippines and Mexico. The unit cost of the battery packs differs at the two plants because of differences in production equipment and wage rates. The unit costs for each battery pack at each manufacturing plant are as follows: Plant Product Mexico Philippines $0.95 PT-100 $0.98 PT-200 $0.98 $1.06 PT-300 $1.34 $1.15 The PT-100 and PT-200 battery packs are produced using similar production equipment available at both plants. However, each plant has a limited capacity for the total number of PT-100 and PT- 200 battery packs produced. The combined PT-100 and PT-200 production capacities are 175,000 units at the Philippines plant and 160,000 units at the Mexico plant. The PT-300 production capacities are 75,000 units at the Philippines plant and 100,000 units at the Mexico plant. The cost of shipping from the Philippines plant is $0.21 per unit, and the cost of shipping from the Mexico plant is $0.18 per unit. (a) Develop a linear program that Photon Technologies can use to determine how many units of each battery pack to produce at each plant to minimize the total production and shipping cost associated with the new contract. Let P1 = number of PT-100 battery packs produced at the Philippines plant = P2 - number of PT-200 battery packs produced at the Philippines plant P3 = number of PT-300 battery packs produced at the Philippines plant M1 = number of PT-100 battery packs produced at the Mexico plant = M2 = number of PT-200 battery packs produced at the Mexico plant M3 = number of PT-300 battery packs produced at the Mexico plant = Min P1 + P2 + P3 + M1 + M2 + M3 s.t. P1 + P2 + P3 + M1 + M2 + M3 = Production PT-100 P1 + + P2 + P3 + Ml + M2+ M3 - Production PT-200 - P1 + + P2 + P3 + MI + M2+ M3 - Production PT-300 P1 + P2 + P3 + M1 + M2+ M3 s Capacity Phi PT-100 & 200 P1 + PZ + P3 + Mi + M2 + M3 s P1 + P2 + P3 + M1 + M2+ M3 s Capacity Mex PT-100 & 200 Capacity Phi PT-300 Capacity Mex PT-300 P1 + P2 + P3 + Ml + M2+ M3 P1, P2, P3, M1, M2, M3 2 0 , , 2 0 (b) Solve the linear program developed in part (a), to determine the optimal production plan. Qty Produced Phillipines Mexico PT-100 PT-200 - PT-300 Total Cost $ (c) Use sensitivity analysis to determine how much the production and/or shipping cost per unit would have to change to produce additional units of the PT-100 in the Philippines plant. If required, round your answer to two decimal digits. At least s / unit (d) Use sensitivity analysis to determine how much the production and/or shipping cost per unit would have to change to produce additional units of the PT-200 in the Mexico plant. If required, round your answer to two decimal digits. At least $ / unit
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