Definition:Convergent Sequence/Normed Division Ring

Definition
Let $\struct {R, \norm {\, \cdot \,} }$ be a normed division ring.

Let $\sequence {x_n} $ be a sequence in $R$.

The sequence $\sequence {x_n}$ converges to $x \in R$ in the norm $\norm {\, \cdot \,}$ :


 * $\sequence {x_n}$ converges to $x$ in the metric induced by the norm $\norm {\, \cdot \,}$

that is,


 * $\forall \epsilon \in \R_{>0}: \exists N \in \N: n > N \implies \norm {x_n - x} < \epsilon$

or equivalently,
 * the Real sequence $\sequence {\norm {x_n - x}}$ converges to $0$ in the reals $\R$

Then $x$ is a limit of $\sequence {x_n}$ as $n$ tends to infinity which is usually written:
 * $\displaystyle x = \lim_{n \mathop \to \infty} x_n$

Also see

 * Definition:Metric Induced by Norm
 * Metric Induced by Norm is Metric

Generalizations

 * Definition:Convergent Sequence in Metric Space