Question

maximize z=3x + 4y subject to constraints x+y ≤ 4 , x≥0 y ≥0​

Answer 1

This is the detailed solution of your question.

Answer 2

Answer:

$\boxed{ \bf{ \:Maximum \: value \: of \: Z = 16\: at \: (0, 4)}}$

Step-by-step explanation:

Consider

$\sf \: x + y \leqslant 4$

Let we first sketch the line x + y = 4

Hᴇɴᴄᴇ,

➢ Pair of points of the given equation are shown in the below table.

$\qquad\begin{gathered}\boxed{\begin{array}{c|c} \bf x & \bf y \\ \frac{\qquad \qquad}{} & \frac{\qquad \qquad}{} \\ \sf 0 & \sf 4 \\ \\ \sf 4 & \sf 0 \end{array}} \\ \end{gathered}$

[ See the attachment graph ]

Now, from graph we concluded that OAB is a feasible region.

$\begin{gathered}\boxed{\begin{array}{c|c} \bf Corner \: Point & \bf Value \: of \: Z = 3x + 4y\\ \frac{\qquad \qquad}{} & \frac{\qquad \qquad}{} \\ \sf O(0,0) & \sf 0\\ \\ \sf A(4,0) & \sf 12\\ \\ \sf B(0, 4) & \sf 16 \end{array}} \\ \end{gathered}$

$\sf\implies \boxed{ \bf{ \:Maximum \: value \: of \: Z = 16 \: at \: (0, 4)}}$