Question: Problem 8-25 (Algorithmic) Georgia Cabinets manufactures kitchen cabinets that are sold to local dealers throughout the Southeast. Because of a large backlog of orders for
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Problem 8-25 (Algorithmic)
Georgia Cabinets manufactures kitchen cabinets that are sold to local dealers throughout the Southeast. Because of a large backlog of orders for oak and cherry cabinets, the company decided to contract with three smaller cabinetmakers to do the final finishing operation. For the three cabinetmakers, the number of hours required to complete all the oak cabinets, the number of hours required to complete all the cherry cabinets, the number of hours available for the final finishing operation, and the cost per hour to perform the work are shown here:
Cabinetmaker 1 Cabinetmaker 2 Cabinetmaker 3 Hours required to complete all the oak cabinets 47 40 27 Hours required to complete all the cherry cabinets 64 52 36 Hours available 40 30 35 Cost per hour $34 $41 $52 For example, Cabinetmaker 1 estimates that it will take 47 hours to complete all the oak cabinets and 64 hours to complete all the cherry cabinets. However, Cabinetmaker 1 only has 40 hours available for the final finishing operation. Thus, Cabinetmaker 1 can only complete 40/47 = 0.85, or 85%, of the oak cabinets if it worked only on oak cabinets. Similarly, Cabinetmaker 1 can only complete 40/64 = 0.63, or 63%, of the cherry cabinets if it worked only on cherry cabinets.
- Formulate a linear programming model that can be used to determine the proportion of the oak cabinets and the proportion of the cherry cabinets that should be given to each of the three cabinetmakers in order to minimize the total cost of completing both projects.
Let O1 = proportion of Oak cabinets assigned to cabinetmaker 1 O2 = proportion of Oak cabinets assigned to cabinetmaker 2 O3 = proportion of Oak cabinets assigned to cabinetmaker 3 C1 = proportion of Cherry cabinets assigned to cabinetmaker 1 C2 = proportion of Cherry cabinets assigned to cabinetmaker 2 C3 = proportion of Cherry cabinets assigned to cabinetmaker 3 Min O1 + O2 + O3 + C1 + C2 + C3 s.t. O1 C1 Hours avail. 1 O2 + C2 Hours avail. 2 O3 + C3 Hours avail. 3 O1 + O2 + O3 = Oak C1 + C2 + C3 = Cherry O1, O2, O3, C1, C2, C3 0 - Solve the model formulated in part (a). What proportion of the oak cabinets and what proportion of the cherry cabinets should be assigned to each cabinetmaker? What is the total cost of completing both projects? If required, round your answers for the proportions to three decimal places, and for the total cost to two decimal places.
Total Cost = $Cabinetmaker 1 Cabinetmaker 2 Cabinetmaker 3 Oak O1 = O2 = O3 = Cherry C1 = C2 = C3 = - If Cabinetmaker 1 has additional hours available, would the optimal solution change? Yes Explain. The input in the box below will not be graded, but may be reviewed and considered by your instructor.
- If Cabinetmaker 2 has additional hours available, would the optimal solution change? No Explain. The input in the box below will not be graded, but may be reviewed and considered by your instructor.
- Suppose Cabinetmaker 2 reduced its cost to $38 per hour. What effect would this change have on the optimal solution? If required, round your answers for the proportions to three decimal places, and for the total cost to two decimal places.
Total Cost = $ Explain. The input in the box below will not be graded, but may be reviewed and considered by your instructorCabinetmaker 1 Cabinetmaker 2 Cabinetmaker 3 Oak O1 = O2 = O3 = Cherry C1 = C2 = C3 =
- Formulate a linear programming model that can be used to determine the proportion of the oak cabinets and the proportion of the cherry cabinets that should be given to each of the three cabinetmakers in order to minimize the total cost of completing both projects.
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