Totally bounded set: Difference between revisions

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In mathematics, a totally bounded set is any subset of a metric space with the property that for any positive radius r>0 it is contained in some union of a finite number of "open balls" of radius r. In a finite dimensional normed space, such as the Euclidean spaces, total boundedness is equivalent to boundedness.

Formal definition

Let X be a metric space. A set ${\displaystyle A\subset X}$ is totally bounded if for any radius r>0 the exist a finite number n(r) (that depends on the value of r) of open balls ${\displaystyle B_{r}(x_{1}),\ldots ,B_{r}(x_{n(r)})}$, with ${\displaystyle x_{1},\ldots ,x_{n(r)}\in X}$, such that ${\displaystyle A\subset \cup _{k=1}^{n(r)}B_{r}(x_{k})}$.

See also

• Open set
• Closed set
• Compact space