College Algebra – 10.8b – Linear Programming
Name: __________________________________
1. A manufacturer makes two types of jet skis, regular and deluxe. The profit on a regular jet ski
is $200 and the profit on the deluxe model is $250. To meet customer demand, the company
must manufacture at least 50 regular jet skis per week and at least 75 deluxe models. To
maintain high quality, the total number of both models should not exceed 150 per week. How
many jet skis of each type should be manufactured per week to maximize profit? What is the
maximum weekly profit?
2. A television manufacturer makes rear-projection and plasma televisions. The profit per unit is
$125 for rear-projection and $200 for plasma televisions. Equipment in the factory is limited to
making at most 450 rear-projection and 200 plasma televisions per month. The cost per unit is
$600 for rear-projection and $900 for plasma televisions. The total monthly costs cannot exceed
$360,000. How many televisions of each type should the manufacturer make to maximize their
profit? What is the maximum profit?
3. You are about to take a test that contains computation problems worth 6 points each and word
problems worth 10 points each. You can do a computation problem in 2 minutes and a word
problem in 4 minutes. You have 40 minutes to take the test and may answer no more than 12
problems. Assuming you answer all the problems attempted correctly, how many of each type of
problem must you do to maximize your score? What is the maximum score?
4. An owner of a fruit orchard hires a crew of workers to prune at least 25 of his 50 fruit trees. Each
newer tree requires one hour to prune, while each older tree needs one-and-a-half hours. The crew
contracts to work for at least 30 hours and charge $15 for each newer tree and $20 for each older tree.
To minimize the cost, how many of each kind of tree will the orchard owner have pruned? What will be
the cost?
5. A factory manufactures two kinds of ceramic figurines: a dancing girl and mermaid. Each requires three
processes: molding, painting, and glazing. The daily labor available for molding is no more than 90 work hours,
labor available for painting does not exceed 120 work hours, and labor available for glazing is no more than 60
work hours. The dancing girl requires 3 work hours for molding, 6 work hours for painting, and 2 work hours for
glazing. The mermaid requires 3 work hours for molding, 4 work hours for painting and 3 work hours for glazing.
If the profit on each figurine is $25 for dancing girls and $30 for mermaids, how many of each should be produced
to maximize profit?
6. A certain diet requires at most 60 units of carbohydrates, 45 units of protein, and 30 units of fat
each day. Each ounce of Supplement A provides 5 units of carbohydrates, 3 units of protein, and 4
units of fat. Each ounce of Supplement B provides 2 units of carbohydrates, 2 units of protein, and 1
unit of fat. If Supplement A costs $1.50 per ounce and Supplement B costs $1.00 per ounce, how
many ounces of each supplement should be taken daily to minimize the cost of the diet? What will
the minimum cost be?
7. In a factory, machine 1 produces 8-inch pliers at a rate of 60 units per hour and 6-inch pliers at a rate of 70 units
per hour. Machine 2 produces 8-inch pliers at a rate of 40 units per hour and 6-inch pliers at a rate of 20 units per
hour. It costs $50 per hour to operate machine 1 and $30 per hour to operate machine 2. The production
schedule requires that at least 240 units of 8-inch pliers and at least 140 units of 6-inch pliers be
produced during each 10-hour day. What combination of machines will cost the least money to
operate? What is this minimum cost?