Why Can't a Sequence Have Two Distinct Limits in a Metric Space?

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I'm trying to understand that proof with little success. Particularly I don't understand why "S has x_0 as a limit point, and S has no other limit point in R^k". Please help
 

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The conditions |x_n-x_0|<1/n imply that (x_n)_n converges to x_0. Thus x_0 is a limit point of the (x_n)_n (which is the set S). Since limits of sequences are unique in \mathbb{R}^k, the limit point x_0 is unique.
 
Alright, but can you explain it with basic topology, like neighbourhoods and the definition of a limit point? I don't see why any other interior point of S couldn't be a also a limit point in that case. Rudin says that it's because it would violate the triangular inequality theorem, but still it's not clear enough...
 
If y is a limit point of (x_n)_n, then there exists a subsequence (x_{k_n})_n that converges to y. But since the original sequence (x_n)_n converges to x, the subsequence must also converge to x.

So (x_{k_n})_n converges to both x and y. Thus x must equal y.
 
By basic properties of the (standard) real numbers, any two real numbers that are

indefinitely-close to each other, e.g., d(x,y)<1/n for all n , then x=y by,e.g., the

Archimedean Property. Use the triangle inequality to show that, in a metric space,

if a sequence has two limits L1, L2, then L1 is indefinitely-close to L2.
 

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