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Explain how to compute the surface integral of a scalar-valued function f over a sphere using an explicit description of the sphere.

User Dani Akash
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1 Answer

10 votes
10 votes

The sphere will have an equation of the form


(x - a)^2 + (y - b)^2 + (z - c)^2 = r^2

so that its center is at the point
(a,b,c) and its radius is
r.

You would solve for either half of the hemisphere,


z = \pm√(r^2 - (x - a)^2 - (y - b)^2)

and denote this by
z=g(x,y). Then the surface integral of
f(x,y) over either half of the sphere (call them
S^+ and
S^- for upper and lower hemispheres, respectively) would be


\displaystyle \iint_(S^+\cup S^-) f(x,y) \, ds \\\\ ~~~~ = \iint_(S^+) f(x,y) \sqrt{1 + \left((\partial g)/(\partial x)\right)^2 + \left((\partial g)/(\partial y)\right)^2} \, dx \, dy \\\\ ~~~~~~~~+ \iint_(S^-) f(x,y) \sqrt{1 + \left((\partial g)/(\partial x)\right)^2 + \left((\partial g)/(\partial y)\right)^2} \, dx \, dy

User Pixelbitlabs
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