Definition:Continuous Mapping (Topology)

Definition
Let $T_1 = \left({A_1, \vartheta_1}\right)$ and $T_2 = \left({A_2, \vartheta_2}\right)$ be topological spaces.

Let $f: A_1 \to A_2$ be a mapping from $A_1$ to $A_2$.

Then $f$ is continuous (with respect to the topologies $\vartheta_1$ and $\vartheta_2$) iff:
 * $U \in \vartheta_2 \implies f^{-1} \left({U}\right) \in \vartheta_1$

If necessary, we can say that $f$ is $\left({\vartheta_1, \vartheta_2}\right)$-continuous.

Continuous at a Point
Let $T_1 = \left({A_1, \vartheta_1}\right)$ and $T_2 = \left({A_2, \vartheta_2}\right)$ be topological spaces.

Let $x \in T_1$.

Let $N \subseteq T_2$ be a neighborhood of $f \left({x}\right)$.

Then $f$ is continuous at (the point) $x$ iff there always exists a neighborhood $M$ of $x$ such that $f \left({M}\right) \subseteq N$.

The general definition for continuous mapping follows from the definition of continuity at a point for all points in the topology.