Bounded set: Difference between revisions
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imported>Hendra I. Nurdin m (typo) |
imported>Aleksander Stos m (moved) |
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==Formal definition== | ==Formal definition== | ||
Let ''X'' be a normed space with the [[norm]] <math>\|\cdot\|</math>. Then a set <math>A \subset X</math> is bounded if there exists a real number ''M>0'' such that <math>\|x\|\leq M</math> for all <math>x \in A</math>. | Let ''X'' be a normed space with the [[norm (mathematics)]] <math>\|\cdot\|</math>. Then a set <math>A \subset X</math> is bounded if there exists a real number ''M>0'' such that <math>\|x\|\leq M</math> for all <math>x \in A</math>. | ||
[[Category:Mathematics_Workgroup]] | [[Category:Mathematics_Workgroup]] | ||
[[Category:CZ Live]] | [[Category:CZ Live]] | ||
Revision as of 12:09, 1 December 2007
In mathematics, a bounded set is any subset of a normed space whose elements all have norms which are bounded from above by a fixed positive real constant. In other words, all its elements are uniformly bounded in magnitude.
Formal definition
Let X be a normed space with the norm (mathematics) . Then a set is bounded if there exists a real number M>0 such that for all .
