Question 1

The improvement in the value of the optimal solution per unit increase in a constraint's right-hand side is&#10;A)the slack value.&#10;B)the dual price.&#10;C)never negative.&#10;D)the 100% rule.

Accepted Answer

The improvement in the value of the optimal solution per unit increase in a constraint's right-hand side is known as the dual price or shadow price. The dual price represents the marginal value of relaxing the corresponding constraint, and it is computed as the change in the objective function value divided by the change in the right-hand side. The dual price is always non-negative and provides valuable insights into the sensitivity of the optimal solution to changes in the problem parameters. Therefore, choice B is the best answer.

Question 2

We can often avoid the process of formulating and solving a modified linear programming problem by using the range of optimality to determine whether a change in an objective function coefficient is large enough to cause a change in the optimal solution.

Accepted Answer

The statement is true. By analyzing the range of optimality of a linear programming problem, we can determine the range of values for each objective function coefficient that will not affect the optimal solution. If a coefficient falls outside this range, it will cause a change in the optimal solution. This eliminates the need to formulate and solve a modified linear programming problem.

Question 3

Dual prices and ranges for objective function coefficients and right-hand-side values are found by considering&#10;A)dual analysis.&#10;B)optimality analysis.&#10;C)ranging analysis.&#10;D)sensitivity analysis.

Accepted Answer

Sensitivity analysis is used to determine the effect of changes in the problem data (such as objective function coefficients and right-hand-side values) on the optimal solution. Dual prices and ranges can be calculated as part of sensitivity analysis. Therefore, the best choice is sensitivity analysis (option D).

Question 4

The range of optimality is calculated by considering changes in the c_j − z_j value of the variable in question.

Accepted Answer

The range of optimality is calculated by considering changes in the objective function coefficients, not by the formula provided. It determines how much an objective function coefficient can change without altering the optimal solution.

Question 5

As long as the actual value of the objective function coefficient is within the range of optimality,the current basic feasible solution will remain optimal.

Accepted Answer

If the actual value of the objective function coefficient changes outside the range of optimality, then the current basic feasible solution may no longer be optimal. However, as long as the coefficient remains within the range of optimality, the current solution will remain optimal.

Question 6

A one-sided range of optimality&#10;A)always occurs for nonbasic variables.&#10;B)always occurs for basic variables.&#10;C)indicates changes in more than one coefficient.&#10;D)indicates changes in a slack variable's coefficient.

Accepted Answer

A one-sided range of optimality always occurs for nonbasic variables because their coefficients can only be zero or positive.

Question 7

The dual price is the improvement in value of the optimal solution per unit increase in a constraint's right-hand-side value.

Accepted Answer

The dual price, also known as shadow price, represents the increase in the objective function value per unit increase in the right-hand-side of a constraint in the primal problem. Therefore, the statement is correct.

Question 8

If the simplex tableau is from a maximization converted from a minimization,the signs and directions of the inequalities that give the objective function ranges will need to be adjusted to apply to the original coefficients.

Accepted Answer

When converting from minimization to maximization, the coefficients in the objective function are multiplied by -1 to change the direction of optimization. However, this also changes the signs of the inequalities that give the objective function ranges. Therefore, when going back to the original coefficients, the signs and directions will need to be adjusted accordingly.

Question 9

The range of optimality for a basic variable defines the objective function coefficient values for which that variable will remain part of the current optimal basic feasible solution.

Accepted Answer

This statement is true. The range of optimality for a basic variable determines the values of its corresponding objective function coefficient for which it remains a part of the optimal basic feasible solution. In other words, if the objective function coefficient of a basic variable falls outside its range of optimality, the current optimal solution will no longer remain optimal and the variable will need to be replaced by a non-basic variable.

Question 10

The ranges for which the right-hand-side values are valid are the same as the ranges over which the dual prices are valid.

Accepted Answer

This statement is true as per the duality theory in linear programming. The range of validity of dual prices is determined by the range of change that can be made to the right-hand-side values of the constraints in the primal linear program without affecting the optimality of the solution. Thus, the two ranges are equivalent and valid over the same set of values.

Question 11

The range of feasibility indicates right-hand-side values for which&#10;A)the value of the objective function will not change.&#10;B)the values of the decision variables will not change.&#10;C)those variables that are in the basis will not change.&#10;D)more simplex iterations must be performed.

Accepted Answer

The answer of The range of feasibility indicates right-hand-side values...

Question 12

The entries in the associated slack column of the final tableau can also be interpreted as the changes in the values of the current basic variables corresponding to a one-unit increase in the right-hand side.&#8203;

Accepted Answer

The answer of The entries in the associated slack column...

Question 13

The dual variable represents the&#10;A)marginal value of the constraint.&#10;B)right-hand-side value of the constraint.&#10;C)artificial variable.&#10;D)technical coefficient of the constraint.

Accepted Answer

The answer of The dual variable represents the&#10;A)marginal value of...

Question 14

The range of optimality is useful only for basic variables.

Accepted Answer

The answer of The range of optimality is useful only...

Question 15

As long as the objective function coefficient remains within the range of optimality,the variable values will not change although the value of the objective function could.

Accepted Answer

The answer of As long as the objective function coefficient...

Question 16

For the basic feasible solution to remain optimal, A)all c_j − z_j values must remain ≤ 0. B)no objective function coefficients are allowed to change. C)the value of the objective function must not change. D)All of these are correct.

Accepted Answer

The answer of For the basic feasible solution to remain...

Question 17

The dual price for an equality constraint is the z_j value for its artificial variable.

Accepted Answer

The answer of The dual price for an equality constraint...

Question 18

A linear programming problem with the objective function 3x₁ + 8x₂ has the optimal solution x₁ = 5,x₂ = 6.If c₂ decreases by 2 and the range of optimality shows 5 ≤ c₂ ≤ 12,the value of Z

A)will decrease by 12.
B)will decrease by 2.
C)will not change.
D)cannot be determined from this information.

Accepted Answer

The answer of A linear programming problem with the objective...

Question 19

Within the concept of duality is the original formulation of a linear programming problem known as the primal problem.

Accepted Answer

The answer of Within the concept of duality is the...

Question 20

A dual price is associated with each decision variable.

Accepted Answer

The answer of A dual price is associated with each...

Question 21

For the following linear programming problem the final tableau is a.Find the range of optimality for c_1, c_2, c_3, c_4, c_5, and c₆. b.Find the range of feasibility for b₁,b₂,and b₃.

Accepted Answer

The answer of For the following linear programming problem ...

Question 22

If the dual price for b₁ is 2.7,the range of feasibility is 20 ≤ b₁ ≤ 50,and the original value of b₁ was 30,which of the following is true? A)There currently is no slack in the first constraint. B)We would be willing to pay up to $2.70 per unit for up to 20 more units of resource 1. C)If only 25 units of resource 1 were available,profit would drop by $13.50. D)All of these are correct.

Accepted Answer

The answer of If the dual price for b₁ is...

Question 23

The primal problem is as follows:   &#8203;&#10;The final tableau for its dual problem is as follows:   &#8203;&#10;Give the complete solution to the primal problem.

Accepted Answer

The answer of The primal problem is as follows: ...

Question 24

Creative Kitchen Tools manufactures a wide line of gourmet cooking tools from stainless steel.For the coming production period,there is demand of 1200 for eight-quart stock pots and unlimited demand for three-quart mixing bowls and large slotted spoons.In the following model,the three variables measure the number of pots,bowls,and spoons to make.The objective function measures profit.Constraint 1 measures steel,constraint 2 measures manufacturing time,constraint 3 measures finishing time,and constraint 4 measures the stock pot demand.

The final tableau is as follows:

a.Calculate the range of optimality for c₁,c₂,and c₃.
b.Calculate the range of feasibility for b₁,b₂,b₃,and b₄.
c.
Suppose that the inventory records were incorrect and the company really has only 14,000 units of steel.What effect will this have on your solution?
d.
Suppose that a cost increase will change the profit on the pots to $4.62.What effect will this have on your solution?
e.

Assume that the cost of time in production and finishing is relevant.Would you be willing to pay a $1.00 premium over the normal cost for 1000 more hours in the production department? What would this do to your solution?

Accepted Answer

The answer of Creative Kitchen Tools manufactures a wide line...

Question 25

For the following linear programming problem the final tableau is a.Find the range of optimality for c₁,c₂,c₃,c₄,c₅,and c₆. b.Find the range of feasibility for b₁ and b₂.

Accepted Answer

The answer of For the following linear programming problem ...

Question 26

For the following linear programming problem the final tableau is a.Find the range of optimality for c₁ and c₂. b.Find the range of feasibility for b₁,b₂,and b₃. c.Find the dual prices.

Accepted Answer

The answer of For the following linear programming problem ...

Question 27

Write the dual of the following problem:   &#8203;&#10;&#8203;

Accepted Answer

The answer of Write the dual of the following problem:...

Question 28

For this optimal simplex tableau,the original right-hand sides were 100 and 90.The problem was a maximization.

a.What would the new solution be if there had been 150 units available in the first constraint?
b.What would the new solution be if there had been 70 units available in the second constraint?

Accepted Answer

The answer of For this optimal simplex tableau,the original right-hand...

Question 29

An LP maximization problem with all less-than-or-equal-to constraints and nonnegativity requirements for the decision variables is known as&#10;A)a canonical form for a minimization problem.&#10;B)a canonical form for a maximization problem.&#10;C)always unbounded.&#10;D)None of these are correct.

Accepted Answer

The answer of An LP maximization problem with all less-than-or-equal-to...

Question 30

For this optimal simplex tableau,the right-hand sides for the two original ≥ constraints were 300 and 250.The problem was a minimization.

a.What would the new solution be if the right-hand-side value in the first constraint had been 325?
b.What would the new solution be if the right-hand-side value for the second constraint had been 220?

Accepted Answer

The answer of For this optimal simplex tableau,the right-hand sides...

Question 31

Write the dual to the following problem.

Accepted Answer

The answer of Write the dual to the following problem....

Question 32

Given the simplex tableau for the optimal primal solution, A)the values of the dual variables can be found from the c_j − z_j values of the slack/surplus variable columns. B)the values of the dual surplus variables can be found from the c_j − z_j values of the primal decision variable columns. C)the value of the dual objective function will be the same as the objective function value for the primal problem. D)All of these are correct.

Accepted Answer

The answer of Given the simplex tableau for the optimal...

Deck 18: Simplex-Based Sensitivity Analysis and Duality