Analytical functions: conformal map and applications to hydrodynamics

This homework deals with the application of conformal maps to the study of two-dimensional hydrodynamics. A conformal map is a geometrical transformation which preserves all (oriented) crossing angles between lines. In dimension ${\displaystyle d\geq 3}$ a conformal map is necessarily composed from the following limited number of transformations: translations, rotations, homothetic transformation and special conformal transformation (which is the composition of a reflection and an inversion in a sphere). However in two dimensions, ${\displaystyle d=2}$, the space of conformal mappings is much larger and one can show that, given an open set ${\displaystyle \Omega \in {\mathbb {C} }}$, any holomorphic function ${\displaystyle f:\Omega \rightarrow {\mathbb {C} }}$ such that ${\displaystyle f'(z)\neq 0}$, ${\displaystyle \forall z\in \Omega }$ defines a conformal map from ${\displaystyle \Omega }$ to ${\displaystyle f(\Omega )}$.