Power Series Converges to Continuous Function

Theorem
Let $\displaystyle f \left({x}\right) := \sum_{n \mathop = 0}^\infty a_n \left({x - \xi}\right)^n$ be a power series about a point $\xi$.

Let $R$ be the radius of convergence of $S$.

Then $f \left({x}\right)$ is a continuous function on $\left\{{x: \left|{x - \xi}\right| < R}\right\}$.

Proof
Let $\rho \in \R$ such that $0 \le \rho < R$.

From Power Series Converges Uniformly within Radius of Convergence, $f \left({x}\right)$ is uniformly convergent on $\left\{{x: \left|{x - \xi}\right| \le \rho}\right\}$.

From Polynomial is Continuous, each of $f_n \left({x}\right) = a_n x^n$ is a continuous function of $x$.

The result follows from Uniformly Convergent Series of Continuous Functions is Continuous.