Consider the following LP Min Z = 4X1+X2 s.t. 3X1+X2=3 4X1+3X2>=6 X1+X2<=4 X1 , X2 >=...

Max Z = X1 - X2 + 3X3 s.t. X1+X3 = 5 X1+X2 <= 20 X2+X3...

Max Z = X1 - X2 + 3X3 s.t. X1+X3 = 5 X1+X2 <= 20 X2+X3 >= 10 X1 , X2 , X3 >= 0 a) Put the problem into standard form, using slack, excess, and artificial variables. b) Identify the initial BV and NBV along with their values. c) Modify the objective function using an M, a large positive number. d) Apply the Big M method to find the optimal solution

3) Find the dual of the following LP: Max 4x1 - x2 s.t. 2x1 + 3x2...

3) Find the dual of the following LP: Max 4x1 - x2 s.t. 2x1 + 3x2 ≥ 10 x1 – x2 = 4 0.5x1 + 2x2 ≤ 20 x1 ≥ 0, x2 unconstrained Please provide an excel solution to this problem

Consider the following LP problem:           Max   3X1 + 2X2           s.t. 5X1 + 4X2 £...

Consider the following LP problem:           Max   3X1 + 2X2           s.t. 5X1 + 4X2 £ 40                 3X1 + 5X2 £ 30                 3X1 + 3X2 £ 30                        2X2 £ 10                 X1 ³ 0, X2 ³ 0 (1)   Show each constraint and the feasible region by graphs. Indicate the feasible region clearly.   (5 points) (2)   Are there any redundant constraints? If so, what constraint(s) is redundant? (2 points) (3)   Identify the optimal point on your graph. What...

max Z = 5x1+3x2+x3 s.t : 2x1+x2+x3 < 6 x1+2x2+x3 < 7 x1, x2, x3 >...

max Z = 5x1+3x2+x3 s.t : 2x1+x2+x3 < 6 x1+2x2+x3 < 7 x1, x2, x3 > 0 Solve the problem. What is the optimal value of the objective function (OF)? Decision variables? Solve the problem. What is the optimal value of the objective function (OF)? Decision variables? (20 points)

Find the duals of the following LP: max z = 4x1 - x2 + 2x3 s.t....

Find the duals of the following LP: max z = 4x1 - x2 + 2x3 s.t. x1 + x2 <= 5 2x1 + x2 <= 7 2x2 + x3 >= 6 x1 + x3 = 4 x1 >=0, x2, x3 urs show steps

Consider the following LP: Max Z=X1+5X2+3X3 s.t. X1+2X2+X3=3 2X1-X2 =4 X1,X2,X3≥0 a.) Write the associated dual...

Consider the following LP: Max Z=X1+5X2+3X3 s.t. X1+2X2+X3=3 2X1-X2 =4 X1,X2,X3≥0 a.) Write the associated dual model b.) Given the information that the optimal basic variables are X1 and X3, determine the associated optimal dual solution.

Consider the following LP problem: Minimize Cost = 3x1 + 2x2 s.t. 1x1 + 2x2 ≤...

Consider the following LP problem: Minimize Cost = 3x1 + 2x2 s.t. 1x1 + 2x2 ≤ 12 2x1 + 3 x2 = 12 2 x1 + x2 ≥ 8 x1≥ 0, x2 ≥ 0 What is the optimal solution of this LP? (0,8)(12,0)(4,0)(0,4)(2,3)(0,6)(3,2) I NEED SOLUTION!

Use the Big M method to solve the following LP: min z=x1+x2 x1+x2=2 2(x1)+2(x2)=4 x1, x2...

Use the Big M method to solve the following LP: min z=x1+x2 x1+x2=2 2(x1)+2(x2)=4 x1, x2 =>0

Consider the following mixed-integer linear program. Max     3x1 + 4x2 s.t. 4x1 + 7x2 ≤ 28...

Consider the following mixed-integer linear program. Max     3x1 + 4x2 s.t. 4x1 + 7x2 ≤ 28 8x1 + 5x2 ≤ 40 x1, x2 ≥ and x1 integer (c) Find the optimal solution for the mixed-integer linear program. (Round your answers to three decimal places, when necessary.)

Duality Theory: Consider the following LP: max 2x1+2x2+4x3 x1−2x2+2x3≤−1 3x1−2x2+4x3≤−3 x1,x2,x3≤0 Formulate a dual of this...

Duality Theory: Consider the following LP: max 2x1+2x2+4x3 x1−2x2+2x3≤−1 3x1−2x2+4x3≤−3 x1,x2,x3≤0 Formulate a dual of this linear program. Select all the correct objective function and constraints 1. min −y1−3y2 2. min −y1−3y2 3. y1+3y2≤2 4. −2y1−2y2≤2 5. 2y1+4y2≤4 6. y1,y2≤0