Solve the follwing LPP by the graphical method
Min Z= 32x+y
Subject to the constraints
`2x+y ge 14`
`x-y ge 4`
and `x ge 0, y ge 0`

Solve the following linear programming problem graphically : min Z= 5x+7y Subject to the constraints 3x+2y ge12 2x+3y ge 13 and x ge 0, y ge 0

Maximise Z=3x+4y Subject to the constraints x+yle4, xge0, yge0

The maximum value of Z=3x+4y subject to the constraints x+y le 40, x+2y le 60, x ge 0 and y ge 0 is -

Represent geometrically the following LPP Minimize Z= 3x+2y Subject to the constraits 5x+y ge 10 x+yge6 x+4yge12 and x ge 0 ,y ge 0 find out the exterme points of the convex set of feasible solution and hence find out the minimum value of the objective function

Solve the following linear programming problem graphically Maximize Z= 60 x+15y Subject to the constraints x+y le 50 3x+y le90 x,yge 0

Given the LPP Max z=x+y Subject to the contraints x+2yle4 x+2y gt6 and x,y ge0 The given LPP has

Solve graphically the LPP given below: Minimize Z= 3x+2y Subject to the constraints : 2x+y gt14 2x+3ygt22 x+ygt5 and x,ygt0

Make a graphical representation of the set of constraints in the following LPP Maximimize Z= x+y Subject to the constraints 5x+10y le50 x+y ge1 and x ge 0, y ge 0 show that the LPP has unique optimal solution

Solve graphically: Maximize Z= 3x+4y subject of the constraints x-ygt0 -x+3ylt3 and x,ygt0