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Deck 22: Linear Programming

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Question
A parameter is a region that represents all permissible combinations of the decision variables in a linear programming model.
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Question
Which of the following statements regarding linear programming is NOT true?

A)A parameter is also known as a decision variable.
B)Linearity assumes proportionality and additivity.
C)The product-mix problem is a one-period type of aggregate planning problem.
D)One reasonable sequence for formulating a model is defining the decision variables,writing out the objective function,and writing out the constraints.
Question
A site manager has three day laborers available for eight hours each and a burning desire to maximize his return on their wages.The site manager uses linear programming to assign them to two tasks and notes that he has enough work to occupy 21 labor hours.The linear program that the site manager has constructed has

A)slack.
B)surplus.
C)a positive shadow price for labor.
D)no feasible solution.
Question
The graphical method is a practical method for solving product mix problems of any size,provided the decision maker has sufficient quantities of graph paper.
Question
For the line that has the equation 4X1 + 8X2 = 88,an axis intercept is

A)(0,22).
B)(6,0).
C)(6,22).
D)(0,11).
Question
In linear programming,each parameter is assumed to be known with certainty.
Question
Linear programming is useful for allocating scarce resources among competing demands.
Question
One assumption of linear programming is that a decision maker cannot use negative quantities of the decision variables.
Question
A binding constraint is the amount by which the left-hand side falls short of the right-hand side.
Question
Only corner points should be considered for the optimal solution to a linear programming problem.
Question
The objective function Maximize Z = 3x2 = 4y is appropriate.
Question
A manager is interested in deciding production quantities for products A,B,and C.He has an inventory of 20 tons each of raw materials 1,2,3,and 4 that are used in the production of products A,B,and C.He can further assume that he can sell all of what he makes.Which of the following statements is correct?

A)The manager has four decision variables.
B)The manager has three constraints.
C)The manager has three decision variables.
D)The manager can solve this problem graphically.
Question
Consider a corner point to a linear programming problem,which lies at the intersection of the following two constraints: 6X1 + 15X2 < 390
2X1 + X2 < 50
Which of the following statements about the corner point is true?

A)X1 < 21
B)X1 > 25
C)X1 < 10
D)X1 > 17
Question
Which of the following statements regarding linear programming is NOT true?

A)A linear programming problem can have more than one optimal solution.
B)Most real-world linear programming problems are solved on a computer.
C)If a binding constraint were relaxed,the optimal solution wouldn't change.
D)A surplus variable is added to a > constraint to convert it to an equality.
Question
A binding constraint has slack but does not have surplus.
Question
Suppose that the optimal values of the decision variables to a two-variable linear programming problem remain the same as long as the slope of the objective function lies between the slopes of the following two constraints: 2X1 + 3X2 < 26
2X1 + 2X2 < 20
The current objective function is:
8X1 + 9X2 = Z
Which of the following statements about the range of optimality on c1 is TRUE?

A)0 < c1 < 2
B)2 < c1 < 6
C)6 < c1 < 9
D)9 < c1 < 12
Question
A constraint is a limitation that restricts the permissible choices.
Question
The simplex method is an interactive algebraic procedure for solving linear programming problems.
Question
A manager is interested in using linear programming to analyze production for the ensuing week.She knows that it will take exactly 1.5 hours to run a batch of product A and that this batch will consume two tons of sugar.This is an example of the linear programming assumption of

A)linearity.
B)certainty.
C)continuous variables.
D)whole numbers.
Question
Decision variables are represented in both the objective function and the constraints while formulating a linear program.
Question
A(n)________ is a value that the decision maker cannot control and that does not change when the solution is implemented.
Question
The ________ is the upper and lower limit over which the optimal values of the decision variables remain unchanged.
Question
The assumption of ________ allows a decision maker to combine the profit from one product with the profit from another to realize the total profit from a feasible solution.
Question
________ are the limitations that restrict the permissible choices for the decision variables.
Question
The ________ is an expression in linear programming models that states mathematically what is being maximized or minimized.
Question
A modeler is limited to two or fewer decision variables when using the ________.
Question
A(n)________ is the marginal improvement in the objective function value caused by relaxing a constraint by one unit.
Question
The ________ problem is a one-period type of aggregate planning problem,the solution of which yields optimal output quantities of a group of products or services,subject to resource capacity and market demand conditions.
Question
Each coefficient or given constant is known by the decision maker with ________.
Question
In linear programming,a ________ is a point that lies at the intersection of two (or possibly more)constraint lines on the boundary of the feasible region.
Question
While glancing over the sensitivity report,you note that the stitching labor has a shadow price of $10 and a lower limit of 24 hours with an upper limit of 36 hours.If your original right hand value for stitching labor was 30 hours,you know that

A)the next worker that offers to work an extra 8 hours should receive at least $80.
B)you can send someone home 6 hours early and still pay them the $60 they would have earned while on the clock.
C)you would be willing pay up to $60 for someone to work another 6 hours.
D)you would lose $80 if one of your workers missed an entire 8 hour shift.
Question
________ represent choices the decision maker can control.
Question
________ is an assumption that the decision variables must be either positive or zero.
Question
The ________ represents all permissible combinations of the decision variables in a linear programming model.
Question
________ is the amount by which the left-hand side falls short of the right-hand side in a linear programming model.
Question
For an = constraint,only points ________ are feasible solutions.
Question
A(n)________ forms the optimal corner and limits the ability to improve the objective function.
Question
________ is useful for allocating scarce resources among competing demands.
Question
________ is the amount by which the left-hand side exceeds the right-hand side in a linear programming model.
Question
If merely rounding up or rounding down a result for a decision variable is not sufficient when they must be expressed in whole units,then a decision maker might instead use ________ to analyze the situation.
Question
________ occurs in a linear programming problem when the number of nonzero variables in the optimal solution is fewer than the number of constraints.
Question
Briefly describe the meaning of a shadow price.Provide an example of how a manager could use information about shadow prices to improve operations?
Question
The interval over which the right-hand-side parameter can vary while its shadow price remains valid is the ________.
Question
What is the meaning of a slack or surplus variable?
Question
What are the assumptions of linear programming? Provide examples of each.
Question
Provide three examples of operations management decision problems for which linear programming can be useful,and why.
Question
What are some potential abuses or misuses of linear programming (beyond violation of basic assumptions)?
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Deck 22: Linear Programming
1
A parameter is a region that represents all permissible combinations of the decision variables in a linear programming model.
False
2
Which of the following statements regarding linear programming is NOT true?

A)A parameter is also known as a decision variable.
B)Linearity assumes proportionality and additivity.
C)The product-mix problem is a one-period type of aggregate planning problem.
D)One reasonable sequence for formulating a model is defining the decision variables,writing out the objective function,and writing out the constraints.
A
3
A site manager has three day laborers available for eight hours each and a burning desire to maximize his return on their wages.The site manager uses linear programming to assign them to two tasks and notes that he has enough work to occupy 21 labor hours.The linear program that the site manager has constructed has

A)slack.
B)surplus.
C)a positive shadow price for labor.
D)no feasible solution.
D
4
The graphical method is a practical method for solving product mix problems of any size,provided the decision maker has sufficient quantities of graph paper.
Unlock Deck
Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
5
For the line that has the equation 4X1 + 8X2 = 88,an axis intercept is

A)(0,22).
B)(6,0).
C)(6,22).
D)(0,11).
Unlock Deck
Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
6
In linear programming,each parameter is assumed to be known with certainty.
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7
Linear programming is useful for allocating scarce resources among competing demands.
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k this deck
8
One assumption of linear programming is that a decision maker cannot use negative quantities of the decision variables.
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9
A binding constraint is the amount by which the left-hand side falls short of the right-hand side.
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10
Only corner points should be considered for the optimal solution to a linear programming problem.
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11
The objective function Maximize Z = 3x2 = 4y is appropriate.
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12
A manager is interested in deciding production quantities for products A,B,and C.He has an inventory of 20 tons each of raw materials 1,2,3,and 4 that are used in the production of products A,B,and C.He can further assume that he can sell all of what he makes.Which of the following statements is correct?

A)The manager has four decision variables.
B)The manager has three constraints.
C)The manager has three decision variables.
D)The manager can solve this problem graphically.
Unlock Deck
Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
13
Consider a corner point to a linear programming problem,which lies at the intersection of the following two constraints: 6X1 + 15X2 < 390
2X1 + X2 < 50
Which of the following statements about the corner point is true?

A)X1 < 21
B)X1 > 25
C)X1 < 10
D)X1 > 17
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Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
14
Which of the following statements regarding linear programming is NOT true?

A)A linear programming problem can have more than one optimal solution.
B)Most real-world linear programming problems are solved on a computer.
C)If a binding constraint were relaxed,the optimal solution wouldn't change.
D)A surplus variable is added to a > constraint to convert it to an equality.
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Unlock Deck
k this deck
15
A binding constraint has slack but does not have surplus.
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k this deck
16
Suppose that the optimal values of the decision variables to a two-variable linear programming problem remain the same as long as the slope of the objective function lies between the slopes of the following two constraints: 2X1 + 3X2 < 26
2X1 + 2X2 < 20
The current objective function is:
8X1 + 9X2 = Z
Which of the following statements about the range of optimality on c1 is TRUE?

A)0 < c1 < 2
B)2 < c1 < 6
C)6 < c1 < 9
D)9 < c1 < 12
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17
A constraint is a limitation that restricts the permissible choices.
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18
The simplex method is an interactive algebraic procedure for solving linear programming problems.
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k this deck
19
A manager is interested in using linear programming to analyze production for the ensuing week.She knows that it will take exactly 1.5 hours to run a batch of product A and that this batch will consume two tons of sugar.This is an example of the linear programming assumption of

A)linearity.
B)certainty.
C)continuous variables.
D)whole numbers.
Unlock Deck
Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
20
Decision variables are represented in both the objective function and the constraints while formulating a linear program.
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21
A(n)________ is a value that the decision maker cannot control and that does not change when the solution is implemented.
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22
The ________ is the upper and lower limit over which the optimal values of the decision variables remain unchanged.
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k this deck
23
The assumption of ________ allows a decision maker to combine the profit from one product with the profit from another to realize the total profit from a feasible solution.
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Unlock for access to all 47 flashcards in this deck.
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k this deck
24
________ are the limitations that restrict the permissible choices for the decision variables.
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25
The ________ is an expression in linear programming models that states mathematically what is being maximized or minimized.
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k this deck
26
A modeler is limited to two or fewer decision variables when using the ________.
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27
A(n)________ is the marginal improvement in the objective function value caused by relaxing a constraint by one unit.
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k this deck
28
The ________ problem is a one-period type of aggregate planning problem,the solution of which yields optimal output quantities of a group of products or services,subject to resource capacity and market demand conditions.
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Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
29
Each coefficient or given constant is known by the decision maker with ________.
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k this deck
30
In linear programming,a ________ is a point that lies at the intersection of two (or possibly more)constraint lines on the boundary of the feasible region.
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Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
31
While glancing over the sensitivity report,you note that the stitching labor has a shadow price of $10 and a lower limit of 24 hours with an upper limit of 36 hours.If your original right hand value for stitching labor was 30 hours,you know that

A)the next worker that offers to work an extra 8 hours should receive at least $80.
B)you can send someone home 6 hours early and still pay them the $60 they would have earned while on the clock.
C)you would be willing pay up to $60 for someone to work another 6 hours.
D)you would lose $80 if one of your workers missed an entire 8 hour shift.
Unlock Deck
Unlock for access to all 47 flashcards in this deck.
Unlock Deck
k this deck
32
________ represent choices the decision maker can control.
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33
________ is an assumption that the decision variables must be either positive or zero.
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34
The ________ represents all permissible combinations of the decision variables in a linear programming model.
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k this deck
35
________ is the amount by which the left-hand side falls short of the right-hand side in a linear programming model.
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k this deck
36
For an = constraint,only points ________ are feasible solutions.
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37
A(n)________ forms the optimal corner and limits the ability to improve the objective function.
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38
________ is useful for allocating scarce resources among competing demands.
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k this deck
39
________ is the amount by which the left-hand side exceeds the right-hand side in a linear programming model.
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k this deck
40
If merely rounding up or rounding down a result for a decision variable is not sufficient when they must be expressed in whole units,then a decision maker might instead use ________ to analyze the situation.
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k this deck
41
________ occurs in a linear programming problem when the number of nonzero variables in the optimal solution is fewer than the number of constraints.
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k this deck
42
Briefly describe the meaning of a shadow price.Provide an example of how a manager could use information about shadow prices to improve operations?
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43
The interval over which the right-hand-side parameter can vary while its shadow price remains valid is the ________.
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44
What is the meaning of a slack or surplus variable?
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45
What are the assumptions of linear programming? Provide examples of each.
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46
Provide three examples of operations management decision problems for which linear programming can be useful,and why.
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Unlock Deck
k this deck
47
What are some potential abuses or misuses of linear programming (beyond violation of basic assumptions)?
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