The feasible solution for a LPP is shown in following figure. Let Z=3x-4y be the objective function, Minimum of Z occurs at

The feasible region for an LPP is shown in the following figure. Let F=3x--4y be the objective function. Maximum value of F is

Feasible region (shaded) for a LPP is shown in following figure. Maximise Z=5x+7y.

The feasible region for an LPP is shown in following figure. Find the minimum value of Z=11x+7y.

The feasible region for a LPP is shown in the following figure. Evaluate Z=4x+y at each of the corner points of the region. Find the minimum value of Z, if it exists

Find x,y and z in each of the following figure:

Corner points of the feasible region for an LPP are ( 0,2) (3,0) ,(6,0),(6,8) and (0,5) Let Z=4 x + 6y be the objective function. The minimum value of F occurs at?

If the feasibile region for a LPP is unbounded, maximum or minimum of the objective function Z = ax + by may or may not exist.

Find the values of x,y, and z in the following figure.

In the feasible region for a LPP is ..., then the optimal value of the objective function Z= ax + by may or may not exist.

Corner points of the feasible region for an LPP are (0,2),(3,0),(6,0),(6,8), and (0,5). Let F-4x+6y be the objective function. Determine the minimum valur of F occurs at