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. The minimum value of F occurs at:

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 value of F occurs at

The corner points of the feasible region of an LPP are (0,0),(0,8),(2,7),(5,4) and (6,0). The maximum value of the objective function Z = 3x + 2y is:

The corner points of the feasible region are A (50,50), B(10,50),C(60,0) and D (60,4) . The objective function is P=(5)/(2)x+(3)/(2)y+410 . The minimum value of P is at point

The corner points of the feasible region are (800 , 400) , (1050,150) , (600,0) . The objective function is P=12x+6y . The maximum value of P is

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

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

The corner points of a feasible region of a LPP are (0, 0), (0, 1) and (1, 0). If the objective function is Z = 7x + y, then Z_("max") - Z_("min") =

The feasible solution for a LPP is hown as below, Let Z =3x -4y be the objective function . Then, Minimum of Z occurs at

The feasible region for an LPP is shown in the Let Z = 4x + 3y be the objective function. Maximum of Z occur at :