User:Anghel/Sandbox

Definition
Let $C$ be a simple closed contour in the complex plane.

Let $f : \closedint 0 1 \to \R^2$ be a Jordan curve.

Let $\phi : \R^2 \to \C$, defined by:


 * $\map{ \phi }{ x, y } = x + iy$

be the standard homeomorphism between $\R^2$ and $\C$.

Let $\Img C = \map{ \phi }{ \Img f }$, where $\Img C$ denotes the image of $C$, and $\Img f$ denotes the image of $f$.

Then the interior of $C$ is denoted $\Int C$ and defined as:


 * $\Int C = \map{ \phi }{ \Int f }$

where $\Int f$ denotes the interior of $f$.

Also see

 * Interior of Simple Closed Contour is Well-Defined