Warehouse 1 4 Supply A. $2 $4 $4 $1 150 Enter your search term Factory B 7 200 10 C. 6. 20 5 150 50 100 150 200 500 500 Demand A. Define the decision variables and Write a linear programming model for this problem. B. Use the Northwest-Corner Method, the Least-Cost Method and the VAM to get the starting feasible solution. Then Find the optimal solution using the transportation algorithm discussed in class by considering the least optimal of the objective function computed. C.Formulate a network model to illustrate the optimal solution.
Warehouse 1 4 Supply A. $2 $4 $4 $1 150 Enter your search term Factory B 7 200 10 C. 6. 20 5 150 50 100 150 200 500 500 Demand A. Define the decision variables and Write a linear programming model for this problem. B. Use the Northwest-Corner Method, the Least-Cost Method and the VAM to get the starting feasible solution. Then Find the optimal solution using the transportation algorithm discussed in class by considering the least optimal of the objective function computed. C.Formulate a network model to illustrate the optimal solution.
Practical Management Science
6th Edition
ISBN:9781337406659
Author:WINSTON, Wayne L.
Publisher:WINSTON, Wayne L.
Chapter2: Introduction To Spreadsheet Modeling
Section: Chapter Questions
Problem 20P: Julie James is opening a lemonade stand. She believes the fixed cost per week of running the stand...
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Question
- Define the decision variablesand Write a linear programming model for this problem.
- B. Use the Northwest-Corner Method, the Least-Cost Method and the VAM to getthe starting feasible solution.ThenFind the optimal solution using the transportation algorithm discussed in class by considering the least optimal of the objective function computed.
3.C.Formulate a network model to illustrate the optimal solution.
Transcribed Image Text:Consider the transportation table below.
Warehouse
1
Supply
A
$2
$4
$4
$1 150
Enter your search term
Factory
B
7 200
10
6.
20
5 150
50
100
150
200
500
500
Demand
A. Define the decision variables and Write a linear programming model for this problem.
B. Use the Northwest-Corner Method, the Least-Cost Method and the VAM to get the starting feasible solution. Then Find the optimal
solution using the transportation algorithm discussed in class by considering the least optimal of the objective function computed.
C.Formulate a network model to illustrate the optimal solution.
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