Please answer with complete solution A simplex matrix for a standard maximization problem is given. Indicate...

Given the following initial simplex tableau: x y z u v w P 2 4 3...

Given the following initial simplex tableau: x y z u v w P 2 4 3 1 0 0 0 4 6 7 1 0 1 0 0 8 6 6 5 0 0 1 0 18 -8 -11 -4 0 0 0 1 0 The pivot element that would be selected if you follow the standard convention taught in this course is the entry in row  , column  . Now, use this pivot element and complete ONE STEP using the simplex...

8. Given the following 2 constraints, which solution is a feasible solution for a maximization problem?...

8. Given the following 2 constraints, which solution is a feasible solution for a maximization problem? (i) 8x1 + 3x2 ≤ 22; (ii) x1 – x2 ≤ 5 A) (x1, x2 ) = (1, 5) B) (x1, x2 ) = (5, 1) C) (x1, x2) = (2, 1) D) (x1, x2) = (4, 4)

Please answer this in 15 minutes Write down the initial simplex table for the following problem....

Please answer this in 15 minutes Write down the initial simplex table for the following problem. Find the first pivot column and the first pivot. Do not complete the simplex algorithm. A department store has up to 16000TL to spend on television advertising for sale. All ads will be placed with one television station. A 30-second ad costs 1000TL on daytime TV and is viewed by 14000 potential customers, 1800TL on prime-time TV and is viewed by 18000 potential customers,...

1. Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is...

1. Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty or the objective function is unbounded. HINT [See Example 1.] (Enter EMPTY if the region is empty. Enter UNBOUNDED if the function is unbounded.) Maximize p = 3x + 2y subject to 1.8x + 0.9y ≤ 9 0.15x + 0.3y ≤ 1.5 8x + 8y ≤ 48 x ≥ 0, y ≥ 0. p = (x,y) = 2. Solve the LP problem. If...

1. Find the inverse of the 3 by 3 matrix : [123] [014] [560] by elementary...

1. Find the inverse of the 3 by 3 matrix : [123] [014] [560] by elementary row operations 2. A couple would like to invest $150,000 so that they can earn $8500 in interest in one year. One investment portfolio option suggest investing their money into two accounts. One account earns interest at 7.5% and the other earns interest at 5%. How much should be invested in each account? 3. Given the following maximum problem, set up the initial simplex...

Find the fundamental matrix solution for the system x′ = Ax where matrix A is given....

Find the fundamental matrix solution for the system x′ = Ax where matrix A is given. If an initial condition is provided, find the solution of the initial value problem using the principal matrix. A= [ 4 -13 ; 2 -6 ]. , x(o) = [ 2 ; 0 ]

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty...

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty or the objective function is unbounded. HINT [See Example 1.] (Enter EMPTY if the region is empty. Enter UNBOUNDED if the function is unbounded.) Maximize p = 3x + y subject to 5x − 8y ≤ 0 8x − 5y ≥ 0 x + y ≤ 13 x ≥ 0, y ≥ 0. p = ? (x, y) = ?

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty...

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty or the objective function is unbounded. HINT [See Example 1.] (Enter EMPTY if the region is empty. Enter UNBOUNDED if the function is unbounded.) Maximize p = 4x + 3y subject to −4x + y ≥ 11 x + 5y ≤ 13 x ≥ 0, y ≥ 0. p = : Your answer is incorrect. (x,y) =

Find the complete optimal solution to this linear programming problem using Excel and type in the...

Find the complete optimal solution to this linear programming problem using Excel and type in the optimal value of Y below (Y*=?). Max 5X + 3Y s.t. 2X + 3Y <= 30 2X + 5Y <= 40 6X - 5Y <= 0 X , Y >= 0

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty...

Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty or the objective function is unbounded. HINT [See Example 1.] (Enter EMPTY if the region is empty. Enter UNBOUNDED if the function is unbounded.) Maximize and minimize p = x + 2y subject to x + y ≥ 2 x + y ≤ 10 x − y ≤ 2 x − y ≥ −2. Minimum: p= (x,y)= Maximum: p= (x,y)=