Definition:Limit of Mapping

Real and Complex Numbers
As:
 * The real number line $$\R$$ under the usual metric forms a metric space;
 * The complex plane $$\C$$ under the usual metric forms a metric space;

the definition holds for sequences in $$\R$$ and $$\C$$.

However, see the definition of the limit of a real function below:

Limit of a Real Function
The concept of the limit of a real function has been around for a lot longer than that on a general metric space.

The definition for the function on a metric space is a generalization of that for a real function, but the latter has an extra subtlety which is not encountered in the general metric space, namely: the "direction" from which the limit is approached.

Also see

 * Limit of a Sequence


 * Continuity