Stokes' Theorem states that, "For a smooth oriented region $V$ $\in$ $R^3$ and a smooth vector field defined on $V \cup \partial V$, where $\partial V$ is the boundary curve for $V$, $\int \int _{V} $ curl $\vec F .d\vec S$ = $\int_{\partial V} \vec F . d\vec r$. My question is, do we always take $\partial V$ to be the curve when $V$ is projected onto the $xy$ plane? (So if $V$ is a unit sphere, say, then $\partial V$ is the unit circle). If so, why do we do so?
Stokes’ theorem confusion
multivariable-calculusstokes-theorem
Best Answer
See the Math Insight website. In the website there is a toy applet you can play with.
The curve need not lie on a plane, and it is NOT a projection on a plane. It can only be the boundary of an "open" surface, so your should split your "ellipsoid" into two parts and apply the theorem respectively.
In a calculus course, the boundary (curve) is usually on a plane. It's only because of simplicity of calculation. It's not related to the theorem description.