Chapter 7 and 8- Linear Programming Models
When using a graphical solution procedure, the region bounded by the set of constraints is called to
Feasible region
How many points are in a feasible region
Infinite
Using LP to maximize audience exposure in an advertising campaign is known as an example type problem
Media selection
When applying LP to diet problems, the objective function is usually designed to
Minimize the cost of nutrient buns
If the feasible region gets larger due to a change in one of the constraints, the optimal value of the objective function
Must increase or remain the same for a maximization problem
A feasible solution to an LP problem
Must satisfy all of the problem's constraints simultaneously
Surplus >
Normal access above the minimum requirement
Slack <
Normal unused resources
The selection of specific investments from among a wide variety of alternatives is the type of LP problem known as
Portfolio selection problem
When you add one more assembly hour it would be
Positive
In solving a linear program, no feasible solution exists. To resolve this problem we might
Remove or relax a constraint
Which of the following does not represent a factor a manager might consider when applying LP for a production scheduling
Risk assessment
In the optimal solution to a linear program, there are 20 units of slack for a constraint. From this we know that
The dual price for this constraint is 0.
An LP problem has bounded a feasible region, if this problem has an equality (=) constraint, then
The feasible region must consist of a line segment
If a non-redundant constraint is removed from an LP problem, then
The feasible region will get larger
When alternate optimal solutions exist in an LP problem, then
The objective function will be parallel to one of the constraints
What is the difference between the optimal point and the Feasible point
The optimal is the best fit, a feasible point is any point in the feasible region
The following problem type Is such a special case of LP that a special algorithm has been developed to solve it
The production mix problem
A linear program has been solved and sensitivity analysis has been performed. The ranges for the objective function coefficients have been found. for the profit on X1, the upper bound is 80, the lower bound is 60, and the current value is 75. Which of the following must be true if the profit on this variable is lowered to 70 and the optimal solution is found
The values for all the decision variables will remain the same
A graphical method should only be used to solve an LP problem when
There are only two variables
In an LP problem, at least one corner point myst be an optimal solution if an optimal solution exists
True
When your programming can be used to select effective media mixes, Allocate fixed or limited budgets across media, and minimize audience exposure
True
A typical transportation problem has four sources and three destinations. How many decision variables with there be in this linear program
12
A typical transportation problem has four sources and three destinations. How many constraints with there be in this LP
7
If a linear program is unbounded, the problem probably has not been formulated correctly. Which of the following would most likely cause this
A constraint was inadvertently omitted
The diet problem is
Also called the Phoenix problem in agriculture, a special case of the ingredients mix problem, a special case of the blending problem.
Which of the following would have a one as the right-hand side value for each constraint
And assignment problem
Which of the following would cause a change in the feasible region
Changing the right-hand side of a non-redundant constraint
What are the corner points on the feasible region
Depends on the specific problem
In LP, variables do not have to be integer valued and may take on any fractional value. This assumption is called
Divisibility
