2. Use Green’s Theorem to evaluate R C F · Tds, where C is the square...

Use Stoke’s Theorem to evaluate Z C F~ · d~r where F~ = 2y~i+ 6z~j +...

Use Stoke’s Theorem to evaluate Z C F~ · d~r where F~ = 2y~i+ 6z~j + 5x~k and C is the triangle with vertices (corners) at (5, 0, 0), (0, 5, 0), and (0, 0, 5) oriented clockwise when viewed from above

Use Green’s Theorem to evaluate the integral H C x ln ydx where C is the...

Use Green’s Theorem to evaluate the integral H C x ln ydx where C is the positively oriented boundary curve of the region bounded by x = 1, x = 2, y = e^x and y = e^(x^2) .

Evaluate the integral ∬ ????, where ? is the square with vertices (0,0),(1,1), (2,0), and (1,−1),...

Evaluate the integral ∬ ????, where ? is the square with vertices (0,0),(1,1), (2,0), and (1,−1), by carrying out the following steps: a. sketch the original region of integration R in the xy-plane and the new region S in the uv-plane using this variable change: ? = ? + ?,? = ? − ?, b. find the limits of integration for the new integral with respect to u and v, c. compute the Jacobian, d. change variables and evaluate the...

Part B:1. Verify the Green’s Theorem for ∮ (3? − ?) ?? + (4?) ??, where...

Part B:1. Verify the Green’s Theorem for ∮ (3? − ?) ?? + (4?) ??, where C is a closed curve formed by ? = ?, ? = 4 − ? and x-axis, oriented counter clockwise as shown.

Use Green’s theorem to evaluate the integral: ∫(-x^2y)dx +(xy^2)dy where C is the boundary of the...

Use Green’s theorem to evaluate the integral: ∫(-x^2y)dx +(xy^2)dy where C is the boundary of the region enclosed by y= sqrt(9 − x^2) and the x-axis, traversed in the counterclockwise direction.

Use Stokes' Theorem to evaluate   ∫ C F · dr  where F  =  (x + 8z) ...

Use Stokes' Theorem to evaluate   ∫ C F · dr  where F  =  (x + 8z) i  +  (6x + y) j  +  (7y − z) k   and C is the curve of intersection of the plane  x + 3y + z  =  24  with the coordinate planes. (Assume that C is oriented counterclockwise as viewed from above.) Please explain steps. Thank you:)

Evaluate ∫C2x2+y2+1dS where C is the portion of the line segments from the point (1,0) to...

Evaluate ∫C2x2+y2+1dS where C is the portion of the line segments from the point (1,0) to (1,1) then from the point (1,1) to (0,1) and then from the point (0,1) to (0,0).

Use Stokes" Theorem to evaluate (F-dr where F(x, y, z)=(-y , x-z , 0) and the...

Use Stokes" Theorem to evaluate (F-dr where F(x, y, z)=(-y , x-z , 0) and the surface S is the part of the paraboloid : z = 4- x^2 - y^2 that lies above the xy-plane. Assume C is oriented counterclockwise when viewed from above.

Use Stokes' Theorem to evaluate C F · dr where C is oriented counterclockwise as viewed...

Use Stokes' Theorem to evaluate C F · dr where C is oriented counterclockwise as viewed from above. F(x, y, z) = 5yi + xzj + (x + y)k, C is the curve of intersection of the plane z = y + 7 and the cylinder x2 + y2 = 1.

Let C be the positively oriented square with vertices (0,0), (2,0), (2,2), (0,2). Use Green's Theorem...

Let C be the positively oriented square with vertices (0,0), (2,0), (2,2), (0,2). Use Green's Theorem to evaluate the line integral ∫C3y2xdx+3x2ydy.