🧄Vector Field Analysis in Cylindrical Coordinates

A vector field with zero curl can still have a non-zero circulation integral if the integration path encloses a singularity, which is a point where the field is undefined. This demonstrates a crucial exception to Stokes' Theorem, which assumes the absence of such singularities within the surface of integration.

🎬the vector field having a curl of zero everywhere except at the origin

A vector field can have a non-zero circulation integral around a closed loop, even if its curl is zero everywhere along the path of the loop. This happens when the loop encloses a singularity—a point where the vector field is undefined. In this specific example, the field's divergence and curl are both zero everywhere except at the origin, which is the singularity. The non-zero circulation integral is a direct consequence of the path enclosing this singularity. This concept is a fundamental part of the generalized Stokes' Theorem in vector calculus.

🖊️Mathematical Proof

Vector Field Analysis in Cylindrical Coordinates | Proof and Derivationviadean on Notion