Linear Programming Problem A manufacturer of three models of tote bag must determine the production plan for the next quarter. The specifics for each model are shown in the following table. Model Revenue ($ per item) Cutting (hours per item) Sewing (hours per item) Packing (hours per item) A $8.75 .10 .15 .20 B $10.50 .15 .12 .20 C $11.50 .20 .18 .20 Time available in the three production departments are: Cutting 450 hours, Sewing 550 hours, Packing 450 hours. Based on market research, the company wants to make at least 300 model A’s, 400 model B’s and 250 model C’s but no more than 1200 of any one model Costs in each department are: Cutting $11.00 per hour, Sewing $12.50 per hour, Packing $9.25 per hour Write the Linear Programming formulation for this problem to help determine the best production mix of the three models that will maximize profit.
Linear Programming Problem
A manufacturer of three models of tote bag must determine the production plan for the next quarter.
The specifics for each model are shown in the following table.
|
Model |
Revenue ($ per item) |
Cutting (hours per item) |
Sewing (hours per item) |
Packing (hours per item) |
|
A |
$8.75 |
.10 |
.15 |
.20 |
|
B |
$10.50 |
.15 |
.12 |
.20 |
|
C |
$11.50 |
.20 |
.18 |
.20 |
|
|
|
|
|
|
Time available in the three production departments are: Cutting 450 hours, Sewing 550 hours, Packing 450 hours.
Based on market research, the company wants to make at least 300 model A’s, 400 model B’s and 250 model C’s but no more than 1200 of any one model
Costs in each department are: Cutting $11.00 per hour, Sewing $12.50 per hour, Packing $9.25 per hour
Write the Linear Programming formulation for this problem to help determine the best production mix of the three models that will maximize profit.
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