The demand for subassembly S is 120 units in week 7. Each unit of S requires 1 unit of T and 2 units of U. Each unit of T requires 2 units of V, 1 unit of W, and 1 unit of X. Finally, each unit of U requires 1 unitof Y and 3 units of Z. One firm manufactures all items. It takes 2 weeks to make S, 1 week to make T, 2 weeks to make U, 1 week to make V, 3 weeks to make W, 2 weeks to make X, 2 weeks to make Y, and2 weeks to make Z.Click the icon to view the product structure and the time-phased product structure.Construct a gross material requirements plan (type 0 if the input box is not used).Item123Week4Lead Time567(weeks)SGross reqOrder release2TGross reqOrder release1UGross reqOrder release2VGross reqOrder release1WGross reqOrder release3Gross reqOrder release2YGross reqZOn-HandInventoryItemOn-HandInventoryITITOrder releaseGross reqOrder release22

We must first dissect the demand for subassembly S into its components (T and U), and then into the…

Answered: The demand for subassembly S is 120…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Similar questions

Write the LP formulation for this transportation problem. (Let x, represent the flow from node i to node j.) Min s.t. 100 1 200 2 150 3 50 4 6 7 5 2 4 5 19 8 5 250 6 250 @ Min s.t. Node 1 Flows Node 2 Flows Node 3 Flows Node 4 Flows Node 5 Flows Node 6 Flows all Xij ≥ 0.
Hart Manufacturing makes three products. Each product requires manufacturing operations in three departments: A, B, and C. The labor-hour requirements, by department, are as follows. Max Department Product 1 Product 2 Product 3 s.t. A B с Department A Department B 1.50 Department C P₁, P2, P320 P1¹ 2.00 0.25 3.00 1.00 During the next production period, the labor-hours available are 450 in department A, 350 in department B, and 50 in department C. The profit contributions per unit are $23 for product 1, $27 for product 2, and $28 for product 3. (a) Formulate a linear programming model for maximizing total profit contribution. (Let P; = units of product i produced, for i = 1, 2, 3.) 0.25 2.00 2.50 0.25 (b) Solve the linear program formulated in part (a). How much of each product should be produced, and what is the projected total profit contribution (in dollars)? (P₁, P₂, P3)-([ with profit $ (c) After evaluating the solution obtained in part (b), one of the production supervisors noted…
part 3 4
A company is producing 3 products A ,B and C. BOM of each product is given in the table below. Material Unit Product A Product B Product C Steel Ton 4 Aluminum KG 50 40 60 Wood CFT 10 10 Glass SFT 30 30 Rubber Sealer RFT 100 120 Screws Рack 5 6 4 Nut Bolt Dozen 2 Calculate the material requirements for 6 months production for all the products if monthly demand for A=1000, B=1200 and C=1500 units
If JG = 5x + 4, JH = 3y + 2, JF = 14, HK = 4z - 8, and KF = 12, find x, y, and z.
ET 回 EES103 Worksheet 26104 Series-Parallel Circuit 1 Instructions: Use the NCCER Electrical Level 1 book (Module 26104) to complete the worksheet. Fill in the missing values. ET www R1 R2 www R1 R2 www www wwwww www 33 R3 wwwww Voltage Current Resistance R4 R1 1Κ Ω R2 2800 R3 7ΚΩ R4 300 Ω Total 12V RT R3 R4 Voltage Current Resistance Power wwwww R1 500 R2 500 R3 480 R4 2ΚΩ Total 60V RT Power
1. Two well-mixed tanks are hooked up so that water with 2 pounds of salt per gallon flows into the first tank, well - mixed water flows out of the second tank, water flows from the first tank to the second tank, and water flows from the second tank to the first tank. All flows are constant. Determine how much water is in each of the two tanks, given if x is the amount of salt in the first tank and y is the amount of salt in the second tank then 3x = -x + y + 30 and 6y' 2x - 3y. The answer should be 45 gallons in the first tank and 30 gallons in the second tank. =

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