Suppose we have a linear program in standard equation formmaximize c'xsubject to Ax=b,x≥ 0.and suppose u, v, and w are all optimal solutions to this linear program.(a) Prove that zu+v+w is an optimal solution.(b) If you try to adapt your proof from part (a) to prove that that u+v+wis an optimal solution, say exactly which part(s) of the proof go wrong.(c) If you try to adapt your proof from part (a) to prove that u+v-w is anoptimal solution, say exactly which part(s) of the proof go wrong.

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Answered: Suppose we have a linear program in…

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter2: Systems Of Linear Equations

Section2.4: Applications

Problem 23EQ: 23. Consider a simple economy with just two industries: farming and manufacturing. Farming consumes...

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Use a software program or a graphing utility to write v as a linear combination of u1, u2, u3, u4, u5 and u6. Then verify your solution. v=(10,30,13,14,7,27) u1=(1,2,3,4,1,2) u2=(1,2,1,1,2,1) u3=(0,2,1,2,1,1) u4=(1,0,3,4,1,2) u5=(1,2,1,1,2,3) u6=(3,2,1,2,3,0)
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тах 2х, + 3xz— Хз s.t X1 + 2x2 + x3 = 5 (1) -x1 +x2 + x3 21 (2) X1 + x2 + 2x3 < 8 (3) x1 2 0 (4) x2 2 0 (5) d. Could the point (2, 0, 3) be an optimal solution to the linear program? e. Is the point (2, 0, 3) a basic solution? Justify your answer. f. Is the point (2, 0, 3) an extreme point? Justify your answer. g. Is the point (2, 0, 3) degenerate?
A= (70, 110), B=(110, 110) C=(130, 90) D= (130, 50) E= (100, 50) F= (70, 80) 5. Evaluate the objective function at the vertices of each of the feasible regions. T= x+y T1=70+80=150 T2=100+503D150 T3=130+50=180 T4=130+90=220 T5=110+110=220 T6=70+110=180 6. How many laptops and how many tablets should the company make to maximize profit? DE Linear Progra.
Let a and B E R. Consider the linear optimization model: (Pa,8) min s.t. x1 + x₂ αX1 + βα2 >1 x1 ≥ 0, x₂ € R. Write the linear programming dual of (Pa,ß). Call it (Da‚ß). α,β
Suppose we have a linear program in standard equation form maximize cx subject to Ax = b, x > 0. and suppose u, v, and w are all optimal solutions to this linear program. (a) Prove that z = u+v+w is an optimal solution. (b) If you try to adapt your proof from part (a) to prove that that u+v+w is an optimal solution, say exactly which part(s) of the proof go wrong. (c) If you try to adapt your proof from part (a) to prove that u+v-w is an optimal solution, say exactly which part(s) of the proof go wrong.
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Solve the linear programming problem in the attached image (excel solver or simplex tableau). Here x3 is unrestricted, so we have to take: x3=(x’3-x”3), also introduce slack and artificial variables.
Use the method of corners to solve the linear programming problem. Find the maximum and minimum of Q = 5x + 7y subject to х+ 4 -X + 6. х+ Зу < 30 9. x2 0, у2 0. The minimum is P = at (x, y) = The maximum is P = at (x, у) 3
Find the minimum of Q = x2 + y2 if x + y = 6.
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Now, consider an arbitrary linear program in standard equation form: maximise cx subject to Ax = b, x ≥ 0 with n variables and m constraints. (i) Explain what it means for x ER" to be a basic feasible solution of this linear program. (ii) Let y ER" and z E R" be two optimal solutions to this linear program and let X (0, 1) be a constant. Show that x = y + (1 - X)z must also be an optimal solution to this program.

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