Given the LPP Max Z= `3x_(1)+2x_(2)` subject to the constraints
`2x_(1)+x_(2) le2`
`3x_(1)+4x_(2)ge12`
`x_(1) ge 0 , x_(2)ge0`
Draw the graphs of the constraints

Make a graphical representation of the set of constraints in the following LPP Max Z=2x_(1)+x_(2) Subject to the contraints x_(1)+3x_(2) le 15 3x_(1)-4x_(2)le 12 x_(1) ge 0, x_(2) ge 0 Find the corner points of the convex set of feasible solution.

Solve the following linear programming problem : Minimize Z=3x_(1)+5x_(2) Subject to the constraints x_(1)+3x_(2) ge 32 x_(1)+x_(2)ge2 x_(1),x_(2)ge 0

Find the minimum value of Z=3x_(1)+5x_(2) subject to x_(1) +3x_(2)ge3,x_(1)+x_(2)ge2 and x_(1),x_(2)ge0

Given the LPP max Z=3x+4y subject ot the constraints 2x+3y le9 x-5yge-20 and x,ygt0 The LPP has

Find the corner points of the LPP Max Z= 2x+5y Subject to the constaints 0 le x le 4 0 le y le 3 x+yle6

Given the LPP Max Z= 2x+3y Subject to the constraints 3x-y le -3 x-2y ge2 and xge 0,y ge 0 Graphically show that the LPP has no feasible solution

Find the corner points of the LPP max Z=x+2y Subject ot the constraints 3x+5yle10 5x+3yle15 x,y ge0

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

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

Given the LPP min Z=3x-y Subject to the constraints 2x+3ygt1 and x,ygt0 The optimal solution of the LPP is