Consider the following linear program: MIN Z = 50A + 60B s.t. 6A + 8B ≤...

Consider the following linear program: MIN Z = 60A + 50B s.t. 10A + 20B ≤...

Consider the following linear program: MIN Z = 60A + 50B s.t. 10A + 20B ≤ 200 8A + 5B ≤ 80 A≥2 B≥5 Solve this linear program graphically and determine the optimal quantities of A, B, and the value of Z using enumeration method.

Consider the following linear program: MIN Z = 60A + 50B s.t. 10A + 20B ≤...

Consider the following linear program: MIN Z = 60A + 50B s.t. 10A + 20B ≤ 200 8A + 5B ≤ 80 A≥2 B≥5 Solve this linear program graphically and determine the optimal quantities of A, B, and the value of Z using iso-profit method.

Consider the following program Min Z=-x1-x2 s.t 2x1+x2≤10 -x1+2x2≤10 X1, x2≥0 Suppose that the vector c=...

Consider the following program Min Z=-x1-x2 s.t 2x1+x2≤10 -x1+2x2≤10 X1, x2≥0 Suppose that the vector c= {-1,-1} is replaced by (-1,-1) +ʎ (2, 3) where ʎ is a real number Find optimal solutions for all values of ʎ      Z     X1      X2     S1   S2    RhS     Z      1      0       0    -0.6    -0.2     -8    X1      0      1       0     0.4    -0.2     10    X2     ...

Consider the following program Min Z=-x1-x2 s.t 2x1+x2≤10 -x1+2x2≤10 X1, x2≥0 Suppose that the vector c=...

Consider the following program Min Z=-x1-x2 s.t 2x1+x2≤10 -x1+2x2≤10 X1, x2≥0 Suppose that the vector c= {-1,-1} is replaced by (-1,-1) +ʎ (2, 3) where ʎ is a real number Find optimal solutions for all values of ʎ      Z     X1      X2     S1     S2    RhS     Z      1      0       0    -0.6    -0.2     -8    X1      0      1       0     0.4    -0.2      2    X2...

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.)

Consider the following linear program: Max 3A + 2B s.t 1A + 1B 10 3A +...

Consider the following linear program: Max 3A + 2B s.t 1A + 1B 10 3A + 1B < 24 1A + 2 B < 16 A, B > 0

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

Consider the following linear programming problem: Max 8X + 7Y s.t. 15X + 5Y ≤ 75 10X + 6Y ≤ 60 X + Y ≤ 8 X, Y ≥ 0 The optimal value of the objective function is ________. A)59 B)61 C)58 D)60

Consider this problem and answer the following questions. Maximize      Z = 2x1 + 3x2           s.t....

Consider this problem and answer the following questions. Maximize      Z = 2x1 + 3x2           s.t.                                x1   +   2x2 <= 30                                x1    +    x2   <= 20                                x1,          x2   >= 0 Solve the problem graphically in a free hand manner and identify all the CPFs. Use hand calculation to solve the problem by the simplex method in algebraic form Additional: What can you say about the solution if the RHS of the second constraint was 16? (i. e....

Consider the problem Min 3X2 – 22X + 2XY + Y2 – 16Y + 60 s.t....

Consider the problem Min 3X2 – 22X + 2XY + Y2 – 16Y + 60 s.t. X + 5Y ≤ 8 Find the minimum solution to this problem. If required, round your answers to two decimal places. The optimal solution is X = , Y = , for an optimal solution value of . If the right-hand side of the constraint is increased from 8 to 9, how much do you expect the objective function to change? If required, round...

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

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