No integrals Let F = (2 z , z, 2 y + x ) and let S be the hemisphere of radius a with its base in the xy -plane and center at the origin. a. Evaluate ∬ S ( ∇ × F ) ⋅ n d S by computing ▿ × F and appealing to symmetry. b. Evaluate the line integral using Stokes’ Theorem to check part (a).
No integrals Let F = (2 z , z, 2 y + x ) and let S be the hemisphere of radius a with its base in the xy -plane and center at the origin. a. Evaluate ∬ S ( ∇ × F ) ⋅ n d S by computing ▿ × F and appealing to symmetry. b. Evaluate the line integral using Stokes’ Theorem to check part (a).
Solution Summary: The author calculates the value of the surface integral by computing nablatimes F and appealing to symmetry.
No integrals Let F = (2z, z, 2y + x) and let S be the hemisphere of radius a with its base in the xy-plane and center at the origin.
a. Evaluate
∬
S
(
∇
×
F
)
⋅
n
d
S
by computing ▿ × F and appealing to symmetry.
b. Evaluate the line integral using Stokes’ Theorem to check part (a).
With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.
c) Verify Stokes's Theorem for F = (x²+y²)i-2xyj takes around the rectangle bounded by the lines x=2,
x=-2, y=0 and y=4
Consider the contour represented in the following figure.
The points marked on the figure are
А(3, 1),
B(금, 1), and
O(0,0).
Find the equation from O to A, A to B, B to 0, Y=
Use Green's Theorem to find the line integral f. v • dr, where y = 2z°y?i +yj, and where Cis from part (a).
dv, dv .
f.v•dr = [Mregiom{
)dzdy
əz
dy
fv • dr = [rgiem{ 32x2 32x2 }dzdy
Find final solution
Please show work. This is my calculus 3 hw.
Part A only
Chapter 14 Solutions
Student Solutions Manual, Single Variable for Calculus: Early Transcendentals
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