Compute area using divergence and flux?

nebbie
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Compute area using divergence and flux??

Consider the curve given by g(t) =acos^3(t),asin^3(t), where t is [0; 2pi] and a > 0 is a constant.

(a) Find the unit tangent and outward normal vectors.
(b) Compute the area enclosed by this curve.

I have done part a), and I know that
flux of F = divergence x area
but for part b), i m not given a vector field F. so how am I suppose to approach this question and possibly find the divergence (thus the area)? any hint or solution would be much appreciated. ^__^
 
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If you could find an F such the div(F)=1, that would work, right?
 


Dick said:
If you could find an F such the div(F)=1, that would work, right?

why would the divergence be 1? could you be more specific please?
 


You are going to integrate the divergence over the surface by computing the flux of F around the curve, right? If div(F)=1 then the integral of the divergence is the integral of 1 over the surface. That's the area. So pick ANY F that has div(F)=1. There's lots of choices.
 

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