Please show all coordinates in the graph
Please show all coordinates in the graph 27. Solve the following linear programming model graphically: minimize...
(9 pts) 3. Solve the linear programming problem graphically. Minimize c = 2x - 5y, subject to (x + y 510 3x - y 26. x20,20 (3x + y 55 (9 pts) 4. Use the simplex method to maximize p= 2x+y, subject to <x+2y52. x 20, y20
(9 pts) 3. Solve the linear programming problem graphically. Minimize c=2x-5y, subject to (x + y 510 3x - y26. x 20, y 20
both questions require different ways of solving. Solve the linear programming problem graphically. Minimize c= 2x–5y, subject to (x+ y = 10 {3x – y 26 (x20, y20 (3x + y = 5 Use the simplex method to maximize p = 2x + y, subject to {x+2y 2 . x>0, y20
Solve the following linear programming models graphically and explain the solution results based on the different solution types we discussed in class. a) Formulation 1 Subiect to: AX 12 X,Y 20 b) Formulation 2 Max Z = X + 4Y Subject to: 2X +3Y 3 24 Y 2 1 X,Y 2 0 c) Formulation 3 Subject to: X 2 4 6X 6Y 2 42 Y 2 2 Solve the following linear programming models graphically and explain the solution results based...
Your problem is to find the optimal solution to the following linear programming model where X, Y and Z represent the amounts of products X, Y and Z to produce in order to minimize some cost. Min 4X + 2Y + 6Z s.t. 6X + 7Y + 10Z ≤ 80 (1) 2X + 4Y + 3Z ≤ 35 (2) 4X + 3Y + 4Z ≥ 30 (3) 3X + 2Y + 6Z ≥ 40 (4) X,Y,Z ≥...
Solve the following linear programming problem graphically: Maximize Z=4X₁+4X₂, Subject to: 3X₁ + 5X₂ ≤ 150 X₁ - 2X₂ ≤ 10 5X₁ + 3X₂ ≤ 150 X₁, X₂ ≥ 0 1) Using the line drawing tool, plot the constraints by picking two endpoints for each line. Do not plot the nonnegativity constraints. 2) Using the point drawing tool, plot the five corner points which define the feasible region. The optimal solution is X₁ = _______ and X₂ = _______ (round your responses to two decimal places). Maximum profit is $_______
-/2 POINTS MY NOTES ASK YOUR TEACHER Solve the following linear programming problem. Restrict x 20 and y 2 0. Maximize f = 3x + 4y subject to x + y s 9 2x + y s 14 y s6. (x, y) = ( ) -/2 POINTS MY NOTES ASK YOUR TEACHER Solve the following linear programming problem. Restrict x 2 0 and y 2 0. Minimize g = 6x + 8y subject to the following. 5x + 2y >...
Solve the linear programming problem by simplex method. . Minimize C= -x - 2y + z. subject to 2x + y +2 < 14 4x + 2y + 3z < 28 2x + 5y + 5z < 30 x = 0, y>02 > 0
2. Solve the following minimization problem graphically. Minimize z 4x1 5x2, subject to 4x12x2 12 XI 4x2 8 xi2 0, x220 2. Solve the following minimization problem graphically. Minimize z 4x1 5x2, subject to 4x12x2 12 XI 4x2 8 xi2 0, x220
Solve the following linear programming problem. Maximize: z = 6x + 2y subject to: 3x-y s 16 2x + y214 x 24 ys9 The maximum value is (Type an integer or a simplified fraction.) The maximum occurs at the point (Type an ordered pair. Type an integer or a simplified fraction.)