Find the optimal solution for the following problem. (Round your answers to 3 decimal places.) Minimize...

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

Find the complete optimal solution to this linear programming problem.                         ...

Find the complete optimal solution to this linear programming problem.                                      Min   5x + 6y                                  s.t.   3x + y >= 15                  x + 2y >= 12       I am using excel, without the slover please show all work and formulas and all steps. and graphs i       3x + 2y >= 24                  x , y...

Consider the following Linear Programming model: Minimize -2x+y Subject to x-y<=1 2y-x<=3 x+10y<=50 2x+y<=14 x>=0 y>=0...

Consider the following Linear Programming model: Minimize -2x+y Subject to x-y<=1 2y-x<=3 x+10y<=50 2x+y<=14 x>=0 y>=0 (a) Draw the feasible region and objective function for the model. Report what you find about the optimal solution(s) and the optimal value. Justify your finding. (4 points) (b) Is there any redundant constraint? Which one(s) and why?

Solve the initial value problem and determine the interval in which the solution is valid. Round...

Solve the initial value problem and determine the interval in which the solution is valid. Round your answer to three decimal places. y′=6x^2/(6y^2−11), y(1)=0 2y^3=2x^3+11y-2 The solution is valid for (fill in the blank)<x<(fill in the blank)

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) = ?

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

Consider the following linear programming problem Max      7X + 8Y s.t.        5X + 15Y <= 75             6X + 10Y <= 60             X + Y <= 8             X, Y >= 0 What are the values of X and Y at the optimal solution? Group of answer choices X = 6, Y = 3.5 X= 5, Y=3 X = 3.5, Y = 6 X= 3, Y= 5 X = 2, Y = 7.5

1- Find the numerical value of each expression. (Round your answers to five decimal places.) (a)    ...

1- Find the numerical value of each expression. (Round your answers to five decimal places.) (a)     sinh(0) (b)     cosh(0) 2- Find the numerical value of each expression. (Round your answers to five decimal places.) (a)     tanh(0) (b)     tanh(1) 3- Find the numerical value of each expression. (Round your answers to five decimal places.) (a)     cosh(3) (b)     cosh(ln(3)) 4-Find the numerical value of each expression. (Round your answers to five decimal places.) (a)     sinh(1) (b)     sinh−1(1) 5-Prove the identity. cosh(−x) =...

               For the following linear programming problem, determine the optimal solution by the...

               For the following linear programming problem, determine the optimal solution by the graphical solution method                                                                                              Max   -x + 2y                                                                                                          s.t.   6x - 2y <= 3          ...

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...