Limit at Infinity of x^n

Theorem
Let Let $x \mapsto x^n$, $n \in \R$ be a real function which is continuous on the open interval $\left({1..+\infty}\right)$

If $n > 0$, then $x^n \to +\infty$ as $x \to +\infty$

Proof
From Upper Bound of Natural Logarithm:


 * $\forall n > 0: n \ln x < x^n$

which, by the contrapositive of Combination Theorem for Continuous Functions, implies:

From Logarithm Tends to Infinity:


 * $n \ln x \to +\infty$ as $x \to +\infty$

The result follows from Function Larger than Divergent Function is Divergent and Logarithm Tends to Infinity.

Also see

 * Power of Reciprocal
 * Limit at Infinity of Identity Function