(5) (a) Suppose that S is the boundary of a region in R3. It is known that (i) Explain this resul...
(7) Let V be the region in R3 enclosed by the surfaces+2 20 and z1. Let S denote the closed surface of V and let n denote the outward unit normal. Calculate the flux of the vector field F(x, y, z) = yi + (r2-zjy + ~2k out of V and verify Gauss Divergence Theorem holds for this case. That is, calculate the flux directly as a surface integral and show it gives the same answer as the triple integral...
I'll ask again, Please DON'T use the divergence theroem, I cant do the surface integral. (7) Let V be the region in R3 enclosed by the surfaces ++22,0 and1. Let S denote the closed surface of V and let n denote the outward unit normal. Calculate the flux of the vector field Fx, y, z)(2 - 2)j 22k out of V and verify Gauss' Divergence Theorem holds for this case. That is, calculate the flux directly as a surface integral...
5. Prove that SSS div n d V = area of S, V where S is a closed surface enclosing a region V and having outward drawn unit normal n. B. H. 1996 1
(1) Let F denote the inverse square vector field (axr, y, z) F= (Note that ||F 1/r2.) The domain of F is R3\{(0, 0, 0)} where r = the chain rule (a) Verify that Hint: first show that then use (b) Show that div(F 0. (c) Suppose that S is a closed surface in R3 that does not enclose the origin. Show that the flux of F through S is zero. Hint: since the interior of S does not contain...
2. Calculate the flux of the vector field F (2ry,-y2 + 3y, 1) through the surface with boundary Soriented with the outward unit normal in the figure below. Assume the volume of the solid E which lies inside the surface S and above the ry plane is 2π. Follow the following steps. [Warning: The problem is very similar to the one in PS11 but they are not the same. We can not apply the Divergence Theorem to S since it...
i found 8pi(2-sqrt(2)) (5) (20 points total) The region W lies between the spheres x2y z2 1 and x2y2 + z2 9 and within the cone z22 +y2with z 2 0; its boundary is the closed surface, S, oriented outward. For G-: < x, y, z >, where -A2 + y2 + z2 . Use the divergence Theorem to computeJI, .ds (5) (20 points total) The region W lies between the spheres x2y z2 1 and x2y2 + z2 9...
Suppose that S is a closed surface that bounds the region T Prove that [Suggestion: Apply the divergence theorem to F x a, where a is an arbitrary constant vector.]
Help would be greatly appreciated!! 1. Let S be the surface in R3 parametrized by the vector function ru, v)(,-v, v+ 2u) with domain D-{(u, u) : 0 u 1,0 u 2). This surface is a plane segment shaped like a parallelogram, and its boundary aS (with positive orientation) is made up of four line segments. Compute the line integral fos F -dr where F(z, y, z) = 〈エ2018 + y, 2r, r2-Ins). Hint: use Stokes' theorem to transform this...
Let F(x, y, z) (xr,y, z). Compute the outward flux of F: 9y2622 on the bounded region inside of S. However, you may wish to consider the region bounded between S and the sphere of radius 100.) 7/Fthrough the ellipsoid 4c2 36. (Hint: Because F is not continuous at zero, you cannot use the divergence theorem Suppose that E is the unit cube in the first octant and F(z,y, z) = (-x,y, z). Let S be the surface obtained by...
(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...