Evaluate each integral in and explain why you used the method you did. ∫ ???(? +...

Use the given transformation to evaluate the integral.    (12x + 12y) dA R , where...

Use the given transformation to evaluate the integral.    (12x + 12y) dA R , where R is the parallelogram with vertices (−2, 4), (2, −4), (5, −1), and (1, 7) ; x = 1 3 (u + v), y = 1 3 (v − 2u)

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...

Use the given transformation to evaluate the integral. (15x + 15y) dA R , where R...

Use the given transformation to evaluate the integral. (15x + 15y) dA R , where R is the parallelogram with vertices (−1, 4), (1, −4), (2, −3), and (0, 5) ; x = 1 5 (u + v), y = 1 5 (v − 4u)

Use the given transformation to evaluate the double integral. (12x + 12y) dA R , where...

Use the given transformation to evaluate the double integral. (12x + 12y) dA R , where R is the parallelogram with vertices (−3, 6), (3, −6), (4, −5), and (−2, 7) ; x = 1/ 3 *(u + v), y = 1 /3* (v − 2u)

1. Use the shell method to set up and evaluate the integral that gives the volume...

1. Use the shell method to set up and evaluate the integral that gives the volume of the solid generated by revolving the plane region about the line x=4. y=x^2 y=4x-x^2 2. Use the disk or shell method to set up and evaluate the integral that gives the volume of the solid generated by revolving the region bounded by the graphs of the equations about each given line. y=x^3 y=0 x=2 a) x-axis b) y-axis c) x=4

2. Evaluate the double integral Z Z R e ^(x^ 2+y ^2) dA where R is...

2. Evaluate the double integral Z Z R e ^(x^ 2+y ^2) dA where R is the semicircular region bounded by x ≥ 0 and x^2 + y^2 ≤ 4. 3. Find the volume of the region that is bounded above by the sphere x^2 + y^2 + z^2 = 2 and below by the paraboloid z = x^2 + y^2 . 4. Evaluate the integral Z Z R (12x^ 2 )(y^3) dA, where R is the triangle with vertices...

Evaluate the given integral by making an appropriate change of variables, where R is the trapezoidal...

Evaluate the given integral by making an appropriate change of variables, where R is the trapezoidal region with vertices (3, 0), (4, 0), (0, 4), and (0, 3). L = double integral(7cos(7(x-y)/(x+y))dA

Problem 1 f(x) = ex * cos(x) Evaluate the integral of f(x) from x = -...

Problem 1 f(x) = ex * cos(x) Evaluate the integral of f(x) from x = - Π / 2 to x = + Π / 2 using: 1. Trapezoidal Rule where Δx = Π / 6 2. Simpson's 1/3 Rule where n = 4 3. Simpson's 3/8 Rule 4. Draw a scatter plot of f(x) in Excel over the desired range (use sufficient data points to accurately depict the function) 5a. What is the true solution? (evaluate the integral) 5b....

Solve (In the proof, explain each step explaining why you did that. Explain as if you...

Solve (In the proof, explain each step explaining why you did that. Explain as if you were teaching a class) 1. Prove that if (G,*) is abelian, then (G/H, #) is abelian 2. If F is homomorphism from (G,*) to (G',#), then prove that e=identity in G is an element in Kernel of F and that Kernel of F is normal (you do NOT need to prove all the properties of subgroup) 3. If F is a homomorphism from (G,*)...

Instructions: For each region described, set up, BUT DO NOT EVALUATE, a single definite integral that...

Instructions: For each region described, set up, BUT DO NOT EVALUATE, a single definite integral that represents the exact area of the region. You must give explicit functions as your integrands, and specify limits in each case. You do not need to evaluate the resulting integral. 1. The region enclosed by the lines y=x, y=2x and y=4. 2. The region enclosed by the curve y=x^2 and the line y=5x+6. 3. The portion of the region inside the circle x^2+y^2 =4...