The feasible region by a system of linear inequalities is shown shaded in the given graph.

If Z = 4x - 6y, then `Z_("min")` =

The feasible region of a system of linear inequations is shown shaded in the following figure If Z =4x +3y," then "Z_(max) - Z_(min)=

The feasible region of a system of linear inequalities is shown shaded in the following graph . If the objective function is Z = ax + by where a,b are constants and the maximum of Z occurs at points A and D then :

The feasible region of a system of linear inequalities is shown below. If the objective function is maximise Z = 25x + 15y, then the maximum value of Z occurs at:

The feasible region of a sytem of linear inequations is shown below. If Z = 2x + y, then the minimum value of Z is:

A feasible region of a system of linear inequalities is said to be ..., if it can be enclosed within a circle.

If the corner points of a feasible region of system of linear inequalities are (15,20) (40,15) and (2,72) and the objective function is Z = 6x + 3y then Z_(max) - Z_(min) =

The corner points of the feasible region of a system of linear inequations are (0, 0), (5, 0), (6,5), (6, 8), (4, 10) and (0,8). If Z = 3x - 4y, then the minimum value of Z occurs at:

The feasible region of the system of linear inequations x+2yle120,x+yge60,x-2yge0,x,yge0 :

Find the linear inequalities for which the shaded region in the given figure is the solution set.

Find the linear inequalities for which the shaded region in the given figure is the solution set.