Consider the feasible region in the xy-plane defined by the following linear inequalities. x ≥ 0...

Sketch the region in the xy-plane defined by the inequalities x − 7y2 ≥ 0, 1...

Sketch the region in the xy-plane defined by the inequalities x − 7y2 ≥ 0, 1 − x − 6|y| ≥ 0 and find its area.

Exercises Consider a feasible region S defined by a set of linear constraints: S = {x...

Exercises Consider a feasible region S defined by a set of linear constraints: S = {x : Ax ≤ b} Prove that S is convex. Express (2, 2)T as a convex combination of (0, 0)T , (1, 4)T , and (3, 1)T Determine if f (x1 , x2 ) = 2x12 – 3x1x2 + 5x22 - 2x1 + 6x2 is convex, concave, both, or neither for x Є R2

A thin plate covers the triangular region of the xy-plane with vertices (0,0), (1,1), and (−1,1)....

A thin plate covers the triangular region of the xy-plane with vertices (0,0), (1,1), and (−1,1). (Coordinates measured in cm.) (a) Find the mass of the plate if its density at (x,y) is sin(y^2) kg/cm^2 . (b) Find the mass of the plate if its density at (x,y) is sin(x^2) kg/cm^2 .

Find the absolute maximum and minimum values of f(x,y)=4xy+x^2 on the triangular region D in the...

Find the absolute maximum and minimum values of f(x,y)=4xy+x^2 on the triangular region D in the xy plane with the vertices (4,0) (0,3) and (2,4)

(An Unbounded Feasible Region). Consider the problem: Maximize: 3x + 4y 2x+y ≥ 10 x+2y ≥...

(An Unbounded Feasible Region). Consider the problem: Maximize: 3x + 4y 2x+y ≥ 10 x+2y ≥ 14 x,y ≥ 0 a) Draw the feasible set for this linear programming problem. Identify the extreme points and infinite rays. b) Express the points (3,7) and (10,10) in terms of the extreme points and infinite rays of the feasible set.

find the absolute maximum value and absolute minimum values of the function f(x,y)4xy^2-x^2y^2-xy^3 on the set...

find the absolute maximum value and absolute minimum values of the function f(x,y)4xy^2-x^2y^2-xy^3 on the set D, where D is the closed trianglar region in the xy-plane with certices (0,0)(0,6)(6,)0

Consider the following Linear Programming model: Maximize x+2.5y Subject to x+3y<=12 x+2y<=11 x-2y<=9 x-y>=0 x+5y<=15 x>=0...

Consider the following Linear Programming model: Maximize x+2.5y Subject to x+3y<=12 x+2y<=11 x-2y<=9 x-y>=0 x+5y<=15 x>=0 y>=0 (a) Draw the feasible region for the model, but DO NOT draw the objective function. Without graphing the objective function, find the optimal solution(s) and the optimal value. Justify your method and why the solution(s) you obtain is (are) optimal. (4 points) (b) Add the constraint “x+5y>=15” to the Linear Programming model. Is the optimal solution the same as the one in (a)?...

Find the absolute maximum and minimum values of f(x, y) = 4xy + x^2 on the...

Find the absolute maximum and minimum values of f(x, y) = 4xy + x^2 on the triangular region D in the xy-plane with vertices (4, 0), (0, 3), and (2, 4).

1. Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is...

1. Solve the LP problem. If no optimal solution exists, indicate whether the feasible region is empty or the objective function is unbounded. HINT [See Example 1.] (Enter EMPTY if the region is empty. Enter UNBOUNDED if the function is unbounded.) Maximize p = 3x + 2y subject to 1.8x + 0.9y ≤ 9 0.15x + 0.3y ≤ 1.5 8x + 8y ≤ 48 x ≥ 0, y ≥ 0. p = (x,y) = 2. Solve the LP problem. If...

find volume lies below surface z=2x+y and above the region in xy plane bounded by x=0...

find volume lies below surface z=2x+y and above the region in xy plane bounded by x=0 ,y=1 and x=y^1/2