Calculate  ∮c(2?^2 − 3?) ?? + (?+ 2?^2)?? where C is a closed curve (0,0) (2,0) (2,1)...

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.

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...

Consider ∫c x2ydx + x3dy where C is the line segments going from (0,0) to (1,0)...

Consider ∫c x2ydx + x3dy where C is the line segments going from (0,0) to (1,0) to (1,1) and back to (0,0). Compute that path integral two ways: (a) directly via parametrization, (b) using Green’s theorem.

Let A=(0,0), B=(1,1), C=(-1,1), A'(2,0),B'(4,0), C'(2,-2).Show that triangle ABC and triangle A'B'C' satisfy the hypothesis of...

Let A=(0,0), B=(1,1), C=(-1,1), A'(2,0),B'(4,0), C'(2,-2).Show that triangle ABC and triangle A'B'C' satisfy the hypothesis of Proposition 2.3.4 in taxicab geometry but are not congruent in it

In this and the following problem you will consider the integral ∮? 6?sin(3?)??+6???? on the closed...

In this and the following problem you will consider the integral ∮? 6?sin(3?)??+6???? on the closed curve C consisting of the line segments from (0,0) to (3,2) to (0,2) to (0,0). Here, you evaluate the line integral along each of these segments separately (as you would have before having attained a penetrating and insightful knowledge of Green's Theorem), and in the following problem you will apply Green's Theorem to find the same integral. Note that you can check your answers...

2. Consider the line integral I C F · d r, where the vector field F...

2. Consider the line integral I C F · d r, where the vector field F = x(cos(x 2 ) + y)i + 2y 3 (e y sin3 y + x 3/2 )j and C is the closed curve in the first quadrant consisting of the curve y = 1 − x 3 and the coordinate axes x = 0 and y = 0, taken anticlockwise. (a) Use Green’s theorem to express the line integral in terms of a double...

Evaluate the line integral of " (y^2)dx + (x^2)dy " over the closed curve C which...

Evaluate the line integral of " (y^2)dx + (x^2)dy " over the closed curve C which is the triangle bounded by x = 0, x+y = 1, y = 0.

Evaluate the line integral, where C is the given curve. C xeyz ds, C is the...

Evaluate the line integral, where C is the given curve. C xeyz ds, C is the line segment from (0, 0, 0) to (3, 4, 2)

Calculate the line integral I C <y,z,x> where C is the curve of intersection of the...

Calculate the line integral I C <y,z,x> where C is the curve of intersection of the sphere given by equation (x − 1)^2 + (y − 1)^2 + z^ 2 = 4 and the plane given by equation x = 1 oriented counterclockwise when viewed from the positive x-axis.

Evaluate the line integral F * dr where F = 〈2xy, x^2〉 and the curve C...

Evaluate the line integral F * dr where F = 〈2xy, x^2〉 and the curve C is the trajectory of rt = 〈4t−3, t^2〉 for −1 ≤ t≤1.