Question 1. Relate to the following maximization problem: maximize z(x,y)=10x^0.5y^0.5  subject to the constraint 10x+5y=40. A) What...

Given the following linear optimization problem Maximize 10x + 20y Subject to x + y ≤...

Given the following linear optimization problem Maximize 10x + 20y Subject to x + y ≤ 50 2x + 3y ≤ 120 x ≥ 10 x, y ≥ 0 (a) Graph the constraints and determine the feasible region. (b) Find the coordinates of each corner point of the feasible region. (c) Determine the optimal solution and optimal objective function value.

Consider the following linear programming problem Manimize $2Y + $5X Subject To 5Y + 10X ≥...

Consider the following linear programming problem Manimize $2Y + $5X Subject To 5Y + 10X ≥ 90 Constraint A 3Y + 9X ≥ 48 Constraint B X, Y ≥ 0 Constraint C if A and B are the two binding constraints. a) What is the range of optimality of the objective function?   Answer ≤ C1/C2  ≤  Answer b) Suppose that the unit revenues for Y and X are changed to $20 and $45, respectively. Will the current optimum remain the same? AnswerYesNO...

Consider the following Linear Programming model: Maximize x+2.5y Subject to x+3y<=12 x+2y<=11 x-2y<=9 x-y>=0 x+5y<=15 x>=0...

Consider the following Linear Programming model: Maximize x+2.5y Subject to x+3y<=12 x+2y<=11 x-2y<=9 x-y>=0 x+5y<=15 x>=0 y>=0 (a) Draw the feasible region for the model, but DO NOT draw the objective function. Without graphing the objective function, find the optimal solution(s) and the optimal value. Justify your method and why the solution(s) you obtain is (are) optimal. (4 points) (b) Add the constraint “x+5y>=15” to the Linear Programming model. Is the optimal solution the same as the one in (a)?...

1. Consider the following integer programming problem. Z = 5x + y Subject to: (1) -x...

1. Consider the following integer programming problem. Z = 5x + y Subject to: (1) -x +2y ? 4 (2) x – y ? 1 (3) 4x + y ? 12 a) Solve this problem in Excel b) Solve this problem graphically. Label your optimal point and objective on your plot.

What is the minimum value of f(x,y,z)=y^2-10z subject to constraint x^2+y^2+z^2 =36 ?

What is the minimum value of f(x,y,z)=y^2-10z subject to constraint x^2+y^2+z^2 =36 ?

geographically analyze the following problem. maximize profit = $4X+$6Y subject to X + 2Y <= 8...

geographically analyze the following problem. maximize profit = $4X+$6Y subject to X + 2Y <= 8 hours 6X + 4Y <= 24 hours a. what is the optimal solution? b. if the first constraint is altered to X + 3Y<=8 does the feasable solution change

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.

The following is the mathematical model of a linear programming problem for profit: Maximize subject to...

The following is the mathematical model of a linear programming problem for profit: Maximize subject to Z = 2X1 + 3X2 4X1+9X2 ≤ 72 10X1 + 11X2 ≤ 110 17X1 + 9X2 ≤ 153 X1 , X2 ≥ 0 The constraint lines have been graphed below along with one example profit line (dashed). The decision variable X1 is used as the X axis of the graph. Use this information for questions 19 through 23. A). Which of the following gives...

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 =

Consider the following linear programming model with 4 regular constraints: Maximize 3X + 5Y subject to:...

Consider the following linear programming model with 4 regular constraints: Maximize 3X + 5Y subject to: 4X + 4Y ≤ 48 (constraint #1) 2X + 3Y ≤ 50 (constraint #2) 1X + 2Y ≤ 20 (constraint #3) Y ≥ 2 (constraint #4) X, Y ≥ 0 (non-negativity constraints) (a) Which of the constraints is redundant? Constraint #____. Justify using the data from the above LP model: ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ (b) Is solution point (10,5) a feasible solution? _____. Explain using...