Find the optimal solution of the above LPP and also find the value of `Z_(max)` from the graph of feasible region

If 2 le |x| le 5 , then find the values of x from the graph of y = |x| .

Draw the graph of the equation 2x + 3y = 11. Find the value of y when x = 1 from the graph.

Find the number of solutions of z^2+overlinez = 0

Find the number zeroes of the given polynomials. And also find their values. r(z)=z^(3)

Draw the graph of y=(x+2)/(3) , Find the value of y where x=-2 from the graph. Also find from the graphs the value of x for which the value of y is 3.

(b) Draw the graph of the expression (2x+7)/(3) . Also, find the value of the expression when x=4 and the value of x for which the value of the expression is 0 from the graph.

Draw the graph of the equation y - 2x = 4 and then answer the following. (i) Does the point (2, 8) lie on the line? Is (2, 8) a solution of the equation? Check by substituting (2, 8) in the equation. (ii) Does the point (4, 2) lie on the line? Is (4, 2) a solution of the equation? Check algebraically also. (iii) From the graph find three more solutions of the equation and also three more which are not solutions.

Find a normal vector to the plane 2x-y+2z=5 . Also, find a unit vector normal to the plane.

Find the number of positive integral solutions of the equation x+y+z=12.