Deck 2: Linear Programming: Basic Concepts

A)Constraints.
B)Decision variables.
C)Parameters.
D)An objective.
E)A spreadsheet.

A)B2:C2.
B)B2:C2,B5:C7,and F5:F7.
C)B10:C10.
D)F10.
E)None of the above.

A)optimal.
B)feasible.
C)nonnegative.
D)targeted.
E)All of the above.

A)What it is.
B)When it should be used.
C)When it should not be used.
D)How to interpret the results of a study.
E)All of the above.

A)Parameters are called data cells.
B)Decision variables are called changing cells.
C)Nonnegativity constraints must be included.
D)The objective function is called the target cell.
E)All of the above.

A)(x₁,x₂ )= (1,5).
B)(x₁,x₂ )= (5,1).
C)(x₁,x₂ )= (4,4).
D)(x₁,x₂ )= (2,1).
E)(x₁,x₂ )= (2,6).

A)1A + 2B $\le$ 3.
B)1A + 2B $\ge$ 3.
C)1A + 2B = 3.
D)1A + 2B.
E)1A + 2B + 3C $\le$ 3.

A)(x₁,x₂ )= (0.5,5).
B)(x₁,x₂ )= (0,4).
C)(x₁,x₂ )= (2,5).
D)(x₁,x₂ )= (1,2).
E)(x₁,x₂ )= (2,1).

A)B2:C2.
B)B2:C2,B5:C7,and F5:F7.
C)B10:C10.
D)F10.
E)None of the above.

A)B2:C2.
B)B2:C2,B5:C7,and F5:F7.
C)B10:C10.
D)F10.
E)None of the above.

A)identify the decision variables.
B)identify the objective function.
C)identify the constraints.
D)specify the parameters of the problem.
E)None of the above.

A)P = 1A + 2B +3C + 4D.
B)P = 1A + 2BC + 3D.
C)P = 1A + 2AB + 3ABC + 4ABCD.
D)P = 1A + 2B/C + 3D.
E)All of the above.

A)$0.
B)$400.
C)$700.
D)$800.
E)$900.
The operations manager for the Blue Moon Brewing Co.produces two beers: Lite (L)and Dark (D).He can only get 675 gallons of malt extract per day for brewing and his brewing hours are limited to 8 hours per day.To produce a keg of Lite beer requires 2 minutes of time and 5 gallons of malt extract.Each keg of Dark beer needs 4 minutes of time and 3 gallons of malt extract.Profits for Lite beer are $3.00 per keg and profits for Dark beer are $2.00 per keg.

A)(x₁,x₂ )= (1,1.5).
B)(x₁,x₂ )= (0.5,2).
C)(x₁,x₂ )= (0,3).
D)(x₁,x₂ )= (2,0).
E)(x₁,x₂ )= (0,0).

A)B2:C2.
B)B2:C2,B5:C7,and F5:F7.
C)B10:C10.
D)F10.
E)None of the above.

A)2x + 4y = 20.
B)2x - 4y = 20.
C)4x - 2y = 20.
D)8x + 8y = 20.
E)4x + 2y = 10.

A)(x,y)= (2,0).
B)(x,y)= (0,3).
C)(x,y)= (0,0).
D)(x,y)= (1,5).
E)None of the above.

A)A + 2B $\le$ 4,800.
B)12A + 8B $\le$ 4,800.
C)2A + B $\ge$ 4,800.
D)8A + 12B $\le$ 4,800.
E)4A + 8B $\le$ 4,800.

A)12A + 8B $\le$ 4,800.
B)8A + 12B $\le$ 4,800.
C)4A + 8B $\le$ 3,200.
D)8A + 4B $\le$ 3,200.
E)4A + 8B $\le$ 4,800.

A)optimum solution space.
B)region of optimality.
C)profit maximization space.
D)feasible region.
E)region of nonnegativity.

A)is possible with any number of decision variables.
B)provides geometric intuition about what linear programming is trying to achieve.
C)will always result in an optimal solution.
D)All of the above.
E)None of the above.

A)(x₁,x₂ )= (2,0.5).
B)(x₁,x₂ )= (4,0.5).
C)(x₁,x₂ )= (2,1).
D)x₁ = x₂.
E)x₂ = 2x₁.

A)P = 2L + 3D.
B)P = 2L + 4D.
C)P = 3L + 2D.
D)P = 4L + 2D.
E)P = 5L + 3D.

A)(x,y)= (0,0).
B)(x,y)= (0,3).
C)(x,y)= (0,5).
D)(x,y)= (1,2.5).
E)(x,y)= (6,0).
The production planner for Fine Coffees,Inc.produces two coffee blends: American (A)and British (B).He can only get 300 pounds of Colombian beans per week and 200 pounds of Dominican beans per week.Each pound of American blend coffee requires 12 ounces of Colombian beans and 4 ounces of Dominican beans,while a pound of British blend coffee uses 8 ounces of each type of bean.Profits for the American blend are $2.00 per pound,and profits for the British blend are $1.00 per pound.

A)(A,B)= (0,0).
B)(A,B)= (0,400).
C)(A,B)= (200,300).
D)(A,B)= (400,0).
E)(A,B)= (400,400).

A)$580.
B)$340.
C)$220.
D)$380.
E)$420.
The owner of Crackers,Inc.produces both Deluxe (D)and Classic (C)crackers.She only has 4,800 ounces of sugar,9,600 ounces of flour,and 2,000 ounces of salt for her next production run.A box of Deluxe crackers requires 2 ounces of sugar,6 ounces of flour,and 1 ounce of salt to produce.A box of Classic crackers requires 3 ounces of sugar,8 ounces of flour,and 2 ounces of salt to produce.Profits are 40 cents for a box of Deluxe crackers and 50 cents for a box of Classic crackers.

A)2R + 3S $\le$ 720.
B)2R + 5S $\le$ 720.
C)3R + 2S $\le$ 720.
D)3R + 5S $\le$ 720.
E)5R + 5S $\le$ 720.

A)1A + 1B $\le$ 800.
B)0.25A + 0.5B $\le$ 800.
C)0.5A + 0.25B $\le$ 800.
D)1A + 0.5B $\le$ 800.
E)0.25A + 1B $\le$ 800.

A)2D + 3C $\le$ 4,800.
B)6D + 8C $\le$ 4,800.
C)1D + 2C $\le$ 4,800.
D)3D + 2C $\le$ 4,800.
E)4D + 5C $\le$ 4,800.

A)P = 150D + 300T.
B)P = 500D + 300T.
C)P = 300D + 500T.
D)P = 300D + 150T.
E)P = 100D + 90T.

A)$0.
B)$240.
C)$420.
D)$405.
E)$505.
The production planner for a private label soft drink maker is planning the production of two soft drinks: root beer (R)and sassafras soda (S).There are at most 12 hours per day of production time and 1500 gallons per day of carbonated water available.A case of root beer requires 2 minutes of time and 5 gallons of water to produce,while a case of sassafras soda requires 3 minutes of time and 5 gallons of water.Profits for the root beer are $6.00 per case,and profits for the sassafras soda are $4.00 per case.

A)(L,D)= (0,0).
B)(L,D)= (0,120).
C)(L,D)= (90,75).
D)(L,D)= (135,0).
E)(L,D)= (135,120).

A)P = 0.5D + 0.4C.
B)P = 0.2D + 0.3C.
C)P = 0.4D + 0.5C.
D)P = 0.1D + 0.2C.
E)P = 0.6D + 0.8C.

A)2L + 3D $\le$ 480.
B)2L + 4D $\le$ 480.
C)3L + 2D $\le$ 480.
D)4L + 2D $\le$ 480.
E)5L + 3D $\le$ 480.

A)$10,000.
B)$4,600.
C)$2,500.
D)$5,200.
E)$6,400.
A local bagel shop produces bagels (B)and croissants (C).Each bagel requires 6 ounces of flour,1 gram of yeast,and 2 tablespoons of sugar.A croissant requires 3 ounces of flour,1 gram of yeast,and 4 tablespoons of sugar.The company has 6,600 ounces of flour,1,400 grams of yeast,and 4,800 tablespoons of sugar available for today's baking.Bagel profits are 20 cents each and croissant profits are 30 cents each.

A)$800.
B)$500.
C)$640.
D)$620.
E)$600.
The operations manager of a mail order house purchases double (D)and twin (T)beds for resale.Each double bed costs $500 and requires 100 cubic feet of storage space.Each twin bed costs $300 and requires 90 cubic feet of storage space.The manager has $75,000 to invest in beds this week,and her warehouse has 18,000 cubic feet available for storage.Profit for each double bed is $300 and for each twin bed is $150.

A)P = 4A + 1B.
B)P = 0.25A + 1B.
C)P = 1A + 4B.
D)P = 1A + 1B.
E)P = 0.25A + 0.5B.

A)(D,C)= (0,0).
B)(D,C)= (0,1000).
C)(D,C)= (800,600).
D)(D,C)= (1600,0).
E)(D,C)= (0,1,200).

A)P = 0.3B + 0.2C.
B)P = 0.6B + 0.3C.
C)P = 0.2B + 0.3C.
D)P = 0.2B + 0.4C.
E)P = 0.1B + 0.1C.

A)(B,C)= (0,0).
B)(B,C)= (0,1100).
C)(B,C)= (800,600).
D)(B,C)= (1100,0).
E)(B,C)= (0,1400).

A)(R,S)= (0,0).
B)(R,S)= (0,240).
C)(R,S)= (180,120).
D)(R,S)= (300,0).
E)(R,S)= (180,240).

A)6B + 3C $\le$ 4,800.
B)1B + 1C $\le$ 4,800.
C)c.2B + 4C $\le$ 4,800.
D)4B + 2C $\le$ 4,800.
E)2B + 3C $\le$ 4,800.

A)$960.
B)$1,560.
C)$1,800.
D)$1,900.
E)$2,520.
An electronics firm produces two models of pocket calculators: the A-100 (A)and the B-200 (B).Each model uses one circuit board,of which there are only 2,500 available for this week's production.In addition,the company has allocated a maximum of 800 hours of assembly time this week for producing these calculators.Each A-100 requires 15 minutes to produce while each B-200 requires 30 minutes to produce.The firm forecasts that it could sell a maximum of 4,000 of the A-100s this week and a maximum of 1,000 B-200s.Profits for the A-100 are $1.00 each and profits for the B-200 are $4.00 each.

A)P = 4R + 6S.
B)P = 2R + 3S.
C)P = 6R + 4S.
D)P = 3R +2S.
E)P = 5R + 5S.

A)(A,B)= (0,0).
B)(A,B)= (0,1000).
C)(A,B)= (1800,700).
D)(A,B)= (2500,0).
E)(A,B)= (100,1600).