A seemingly simple exercise on the divergence theorem

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Here is the problem statement:

Compute the surface integral
[itex]\int_{S^2}f \cdot n \ dS \ \[/itex] where [itex]f(x,y,z)=(y^3, z^3, x^3)^T[/itex]

I thought it's a straightforward exercise on the divergence theorem, yet it looks like [itex]\operatorname{div} f = 0[/itex]. So the surface integral is zero?

Am I missing some sort of a trick here? The exercise isn't supposed to be that easy.

Any hints are very appreciated!
 
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true, ##\operatorname{div} f = 0## but what is the surface? Is it a closed surface or not closed and do they give some specific surface to integrate over?
 
Feynman's fan said:
Here is the problem statement:



I thought it's a straightforward exercise on the divergence theorem, yet it looks like [itex]\operatorname{div} f = 0[/itex]. So the surface integral is zero?

Am I missing some sort of a trick here? The exercise isn't supposed to be that easy.

Any hints are very appreciated!

If ##S^2## means the unit sphere, then you are correct. Unless there is something missing in the translation of ##(y^3,z^3,x^3)^T##.
 
ah, right, ##S^2## means sphere. I forgot about that. hmm, yeah it looks like zero is the right answer then. well, don't look a gift horse in the mouth :)