(B) For the minimum value of the objective function $Z = px + qy$ to occur at two corner points $(3,0)$ and $(1,1)$,the value of $Z$ at these points m

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(B) For the minimum value of the objective function $Z = px + qy$ to occur at two corner points $(3,0)$ and $(1,1)$,the value of $Z$ at these points must be equal.At point $(3,0)$,$Z = p(3) + q(0) = 3p$.At point $(1,1)$,$Z = p(1) + q(1) = p + q$.Equating the two values:$3p = p + q$$2p = q$$p = \frac{q}{2}$.Thus,the condition is $p = \frac{q}{2}$.

Class 12 Mathematics Linear Programming MCQ based Question

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Corner points of the feasible region determined by the system of linear constraints are $(0,3)$,$(1,1)$ and $(3,0)$. Let $Z = px + qy$,where $p, q > 0$. The condition on $p$ and $q$ so that the minimum value of $Z$ occurs at $(3,0)$ and $(1,1)$ is . . . . . . .

GSEB 2024 All GSEB

A
$p = 2q$
B
$p = \frac{q}{2}$
C
$p = 3q$
D
$p = q$

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Corner points of the feasible region determined by the system of linear constraints are $(0,3)$,$(1,1)$ and $(3,0)$. Let $Z = px + qy$,where $p, q > 0$. The condition on $p$ and $q$ so that the minimum value of $Z$ occurs at $(3,0)$ and $(1,1)$ is . . . . . . .

Similar Questions

Consider a $LPP$ given by minimize $Z = 6x + 10y$. Subject to $x \geq 6, y \geq 2, 2x + y \geq 10, x \geq 0, y \geq 0$. Redundant constraints in this $LPP$ are $....$

If the vertices of a feasible region are $O(0,0), A(10,0), B(0,20), C(15,15)$,then the minimum value of the objective function $Z = 10x - 20y + 30$ is . . . . . . .

The corner points of the feasible region determined by the system of linear constraints are $(2, 72)$,$(15, 20)$,and $(40, 15)$. Let $Z = 6x + 3y$ be the objective function. The minimum value of $Z$ occurs at:

Minimize $Z = 13x - 15y$ subject to the constraints: $x + y \leq 7$,$2x - 3y + 6 \geq 0$,$x \geq 0$,$y \geq 0$.

For the $LP$ problem,minimize $z = 2x + 3y$,the coordinates of the corner points of the bounded feasible region are $A(3, 3), B(20, 3), C(20, 10), D(18, 12),$ and $E(12, 12)$. The minimum value of $z$ is:

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