1. One specific factory can manufacture two different sizes of mixers. They earn a profit of $102 on the large mixer and $98 on the small mixer. Each mixer uses the same base of which 17 are produced each day. The bowl for the large mixer requires 3 hours of fabrication, while the small one requires 4 hours. The fabrication machines can run for a total of 60 hours in a day. The motor assembly department works 80 hours in a day, and they can assemble a large motor in 5 hours, and a small one in 4 hours. The finishing department requires 2 hours to finish a small user, and one hour to finish a large mixer. They are operating for 28 hours in a day. How many of each mixer should be produced to maximize profit, and how much will be made? 16 12 18 21 24 27 12 15
1. One specific factory can manufacture two different sizes of mixers. They earn a profit of $102 on the large mixer and $98 on the small mixer. Each mixer uses the same base of which 17 are produced each day. The bowl for the large mixer requires 3 hours of fabrication, while the small one requires 4 hours. The fabrication machines can run for a total of 60 hours in a day. The motor assembly department works 80 hours in a day, and they can assemble a large motor in 5 hours, and a small one in 4 hours. The finishing department requires 2 hours to finish a small user, and one hour to finish a large mixer. They are operating for 28 hours in a day. How many of each mixer should be produced to maximize profit, and how much will be made? 16 12 18 21 24 27 12 15
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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Transcribed Image Text:1. One specific factory can manufacture two different sizes of mixers. They earn a profit of
$102 on the large mixer and $98 on the small mixer. Each mixer uses the same base of
which 17 are produced each day. The bowl for the large mixer requires 3 hours of
fabrication, while the small one requires 4 hours. The fabrication machines can run for a
total of 60 hours in a day. The motor assembly department works 80 hours in a day, and
they can assemble a large motor in 5 hours, and a small one in 4 hours. The finishing
department requires 2 hours to finish a small user, and one hour to finish a large mixer.
They are operating for 28 hours in a day. How many of each mixer should be produced to
maximize profit, and how much will be made?
16
12
8
21
24
27
12
15
18
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