Let D be a region in the xy plane , and we find the area given below
(1 point) Consider the volume of the region shown below, which shows a hemisphere of radius 6 mm and a slice of the hemisphere with width Dy- Ay. D y Write a Riemann sum for the volume, using the slice shown: Riemann sum-Σ Now write an integral that gives this volume #4 and b where a - Finally, calculate the exact volume of the region, using your integral volume - (include units) (1 point) Consider the volume of the region...
4. There is a region O in the plane whose area we wish to compute: JJ, dk dy. It turns out that if we let then in the new coordinates the region Q is described by osu s vand 2 sv s 3. Compute the area of Q. 4. There is a region O in the plane whose area we wish to compute: JJ, dk dy. It turns out that if we let then in the new coordinates the region...
10 Given the double integral 4(x+ y)e dy dx, where R is the triangle in the xy-plane with vertices at (-1, 1), (1, 1) and (O,0). Transform this integral into J g(u.)dv du by the transformations given by 스叱制一想ル r}(u+v), y (u + v), y =-(u-v). Then, Evaluate the integral." (u-v). Then, Evaluate the integral. r 10 Given the double integral 4(x+ y)e dy dx, where R is the triangle in the xy-plane with vertices at (-1, 1), (1, 1)...
12. Consider the region bounded above by the function ?=1/(?+2)2(?+6)^2 and below by the xy-plane for x≥0 and ?≥0. (1 point) Consider the region bounded above by the function z = - "2" (x + 2)2(y + 62 an and below by the xy-plane for x > 0 and y 2 0. On a piece of paper, sketch the shadow of the region in the xy-plane. Set up double integrals to compute the volume of the solid region in two...
1- ould have a uni dy (5 pts) Determine a region of the xy-plane for which the DE y+2 ution whose graph passes through a point (xo, yo) in the region. 1- ould have a uni dy (5 pts) Determine a region of the xy-plane for which the DE y+2 ution whose graph passes through a point (xo, yo) in the region.
(a) Let S be the area of a bounded and closed region D with boundary дD of a smooth and simple closed curve, show that S Jlxy -ydx by Green's Theorem. (Hint: Let P--yandQ x) (b) Let D = {(x,y) 1} be an ellipse, compute the area of D a2 b2 (c) Let L be the upper half from point A(a, 0) to point B(-a, 0) along the elliptical boundary, compute line integral I(e* siny - my)dx + (e* cos...
Consider the line integral Sc xy dx + (x - y) dy where is the line segment from (4, 3) to (3,0). Find an appropriate parameterization for the curve and use it to write the integral in terms of your parameter. Do not evaluate the integral.
(b) Let C be the closed curve formed by intersecting the cylinder x2 +y= 1 with the plane x z= 2. Let the tangent to the curve from above. point in the anti-clockwise direction when viewed Calculate the line integral (e (e sin y+ 4) dy+(e(cos z+ sin z)+ay) dz. cos x2yz) dx + (b) Let C be the closed curve formed by intersecting the cylinder x2 +y= 1 with the plane x z= 2. Let the tangent to the...
a. Find the Jacobian of the transformation x = u, y = 4uv and sketch the region G: 1 s u s 2.4 s4uvs 8, in the uv-plane. b. Then usef(x.y) dx dy-f(g(u.v),h(u.v)|J(u,v)l du dv to transform the integral dy dx into an integral over G, and evaluate both integrals a. Find the Jacobian of the transformation x = u, y = 4uv and sketch the region G: 1 s u s 2.4 s4uvs 8, in the uv-plane. b. Then...
please help with Q1 and 3 1. Let V be the solid region in R3 that lies within the sphere 2+y+z2-4, above the zy-plane, and below the cone z -Vx2 + y2 (a) Sketch the region V (b) Calculate the volume of V by using spherical coordinates. (c) Find the surface area of the part of V that lies on the sphere z2 y 24, by calculatinga surface integral. (d) Verify your solution to (c) by calculating the surface integral...