Totally bounded set: Difference between revisions

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In [[mathematics]], a '''totally bounded set''' is any [[set|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.
In [[mathematics]], a '''totally bounded set''' is any [[set|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 [[bounded set|boundedness]].


==Formal definition==
==Formal definition==

Revision as of 13:50, 28 September 2007

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 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 , with , such that .

See also

Open set

Closed set

Compact set