Euler's Number to Rational Power permits Unique Continuous Extension

Theorem
Let $e$ be Euler's number.

Let $f : \Q \to \R$ be the real mapping defined as:
 * $f \left({ q }\right) = e^q$

where $e^q$ denotes $e$ to the power of $q$.

Then there exists a unique continuous extension of $f$ to $\R$.

Proof
Since $e > 0$, we may apply Exponential with Rational Power Permits Unique Continuous Extension.

Hence the result.