Consider the following linear programming problem: Max 8X + 7Y s.t. 15X + 5Y ≤ 75...

Consider the following linear programming problem Max      7X + 8Y s.t.        5X + 15Y...

Consider the following linear programming problem Max      7X + 8Y s.t.        5X + 15Y <= 75             6X + 10Y <= 60             X + Y <= 8             X, Y >= 0 What are the maximum values of the objective function? Group of answer choices 15 59 75 70 5

Consider the following linear programming problem Max      7X + 8Y s.t.        5X + 15Y...

Consider the following linear programming problem Max      7X + 8Y s.t.        5X + 15Y <= 75             6X + 10Y <= 60             X + Y <= 8             X, Y >= 0 What are the values of X and Y at the optimal solution? Group of answer choices X = 6, Y = 3.5 X= 5, Y=3 X = 3.5, Y = 6 X= 3, Y= 5 X = 2, Y = 7.5

Question 5 options: Consider the following integer linear programming problem: Max Z =       3x +...

Question 5 options: Consider the following integer linear programming problem: Max Z =       3x + 2y Subject to:    3x + 5y ? 30 4x + 2y ? 28                     x ? 8                     x , y ? 0 and integer The solution to the linear programming formulation is: x = 5.714, y = 2.571. What is the optimal solution to the integer linear programming problem? State the optimal values of decision variables and the value of the objective function.

1.For the following linear programming problem Max 5X + 7Y s.t. 1X+ 1Y≤ 6 3X +1Y...

1.For the following linear programming problem Max 5X + 7Y s.t. 1X+ 1Y≤ 6 3X +1Y ≤ 12 X+ 2Y ≤ 10 X, Y ≥ 0 a)Write the problem in standard form. b)Solve the problem neatly using the graphical solution procedure(on paper). c)What are the values of the three slack variables at the optimal solution? d)Solve the problem with Microsoft Excel and attach your “own” printout.

Question 5 options: Consider the following integer linear programming problem: Max Z =       3x +...

Question 5 options: Consider the following integer linear programming problem: Max Z =       3x + 2y Subject to:    3x + 5y ≤ 30 5x + 2y ≤ 28                     x ≤ 8                     x, y ≥ 0 and integer The solution to the linear programming formulation is: x = 4.21, y = 3.47. What is the optimal solution to the integer linear programming problem? State the optimal values of decision variables. x = , y =

Solve the following linear programming problem by answering parts give below Max 5x+74 S.T. x≤ 6...

Solve the following linear programming problem by answering parts give below Max 5x+74 S.T. x≤ 6 2x+3y ≤19 x+y ≤ 8 x,y≥0 Y Your solution must include: the coordinates of each extreme point, the optimum solution and the optimum objective function value (10 Marks Question)

The following constraints of a linear programming model have been graphed on the graph paper provided...

The following constraints of a linear programming model have been graphed on the graph paper provided to form a feasible region: 2X    + 6Y     >=    120 10X + 2Y     > =   200 X      +     Y     <=    120 X                     <=    100                  Y    <=      80 X,Y                  >=        0 Using the graphical method, determine the optional solution and the objective function value for the following objective functions. Graph the objective function as a dashed line on the feasible region described by the...

The following constraints of a linear programming model have been graphed on the graph paper provided...

The following constraints of a linear programming model have been graphed on the graph paper provided (same constraints found in problem #3) to form a feasible region: 2X    + 6Y     >=    120 10X + 2Y     > =   200 X      +     Y     <=    120 X                     <=    100                  Y    <=      80 X,Y                  >=        0 Using the graphical method, determine the optional solution and the objective function value for the following objective functions. Graph the objective function as a dashed line on...

Solve the linear programming problem by the method of corners. Minimize C = 8x + 3y...

Solve the linear programming problem by the method of corners. Minimize C = 8x + 3y subject to x + y ≤ 48 x + 3y ≥ 60 9x + 5y ≤ 320 x ≥ 10, y ≥ 0

Use the simplex method to solve the linear programming problem. Maximize   P = 6x + 5y...

Use the simplex method to solve the linear programming problem. Maximize   P = 6x + 5y subject to   3x + 6y ≤ 42 x + y ≤ 8 2x + y ≤ 12 x ≥ 0, y ≥ 0   The maximum is P = at (x, y) =