Only #2 please show work! Exercises In Exercises 1-4,1 surface, oriented with an upward-pointing normal same...
verify Stokes' Theorem for the given vector field and surface, oriented with an upward-pointing normal F = (- y, 2x, x + z), the upper hemisphere x 2 + v 2 + z 2 = 1, z 0
help with #2
(2) Verify Stokes' theorem for where s is the portion of the surface of the cone z = VF+7 : 0 2, with normal n pointing z upward"
(2) Verify Stokes' theorem for where s is the portion of the surface of the cone z = VF+7 : 0 2, with normal n pointing z upward"
Verify Stokes' Theorem for the given vector field and surface, oriented with a downward-pointing normal. F = 〈ey-z, 0, 0), the square with vertices (6, 0, 6), (6, 6, 6), (0, 6, 6), and (O, O, 6) F·dS = aS curl(F) = curl(F) . dS =
Verify Stokes' Theorem for the given vector field and surface, oriented with a downward-pointing normal. F = 〈ey-z, 0, 0), the square with vertices (6, 0, 6), (6, 6, 6), (0, 6, 6), and...
Verify Stokes' Theorem by evaluating the line integral and the double surface integral. Assume that the surface has an upward orientation. (a) F(x, y, z)= x’i + y²j+z?k; o is the portion of the cone below the plane z=l. (b) 7 (x, y, z)=(z - y){ +(z+x) ș- (x + y)k; o is the portion of the paraboloid z=9-r? - y2 above the xy-plane. [0, 187]
17.2 Stokes Theorem: Problem 2 Previous Problem Problem List Next Problem (1 point) Verify Stokes' Theorem for the given vector field and surface, oriented with an upward-pointing normal: F (ell,0,0), the square with vertices (8,0, 4), (8,8,4),(0,8,4), and (0,0,4). ScFids 8(e^(4) -en-4) SIs curl(F). ds 8(e^(4) -e^-4) 17.2 Stokes Theorem: Problem 1 Previous Problem Problem List Next Problem (1 point) Let F =< 2xy, x, y+z > Compute the flux of curl(F) through the surface z = 61 upward-pointing normal....
all questions are related and need help answering!
rough the surface 4. o pm) What is the value of the flux of the vector field F(x,y)j+z ioriented with upward- pointing normal vector? (A) 0 (B) 2n/3 (C) π (D) 4T/3 (E) 2π Use Stokes, Theorem to evaluateⅡcurl F.dS, where F(x, y, z)-(x2 sin Theorem to evaluate Jceun F'.asS , where Fl.e)(', ») and 5. (5pts.) F,y, sin z, y', xy) and s is the part of the paraboloid : -...
10. Let F(x, y, z) = 〈y,-z, 10) per half of x2 +y2 + z2 = 1, oriented upward, and C the circle 2 y 1 in the z - y plane, oriented counter-clockwise. Find Jscurl(F) ndS directly and by using Stokes' Theorem. , where S is the up
10. Let F(x, y, z) = 〈y,-z, 10) per half of x2 +y2 + z2 = 1, oriented upward, and C the circle 2 y 1 in the z - y...
Question 1 1 pts Let F= (2,0, y) and let S be the oriented surface parameterized by G(u, v) = (u? – v, u, v2) for 0 <u < 12, -1 <u< 4. Calculate | [F. ds. (enter an integer) Question 2 1 pts Calculate (F.ds for the oriented surface F=(y,z,«), plane 6x – 7y+z=1,0 < x <1,0 Sysi, with an upward pointing normal. (enter an integer) Question 3 1 pts Calc F. ds for the oriented surface F =...
1. Let F(x, y, z) = (-y + ,2-2,2-y), and let S be the surface of the paraboloid 2 = 9-32 - v2 for 2 > 0. oriented by an upward pointing normal vector. Note that the boundary of S is C, the circle of radius 3 in the xy-plane. Verify Stokes' Theorem by computing both sides of the equality: (a) (1 Credit) || (D x F). ds (b) (1 Credit) $F. dr
number 6.
to udestyoRe phenomena ren is the Key to understanding these ty ercises 1. Let S be the portion of the plane 2x + 3y+ z Let S be the portion of the surface z-x2 +y2 lyin between the points (0, 0, 0). (2, 0, 4). (0, 2, 4), and (2, 2, 8). Find parameterizations for both the surface and its boundary aS. Be sure that their respective orientations are compatible with Stokes theorem. 5 lying 2. between the...