Norm (mathematics): Difference between revisions

Revision as of 23:31, 28 September 2007

In mathematics, a norm is a function on a vector space that generalizes to vector spaces the notion of the distance from a point of a Euclidean space to the origin.

Formal definition of norm

Let X be a vector space over some subfield F of the complex numbers. Then a norm on X is any function $\|\cdot \|:X\rightarrow X$ having the following four properties:

$\|x\|\geq 0$ for all $x\in X$ (positivity)
$\|x\|=0$ if and only if x=0
$\|x+y\|\leq \|x\|+\|y\|$ for all $x,y\in X$ (triangular inequality)
$\|cx\|=|c|\|x\|$ for all $c\in F$

A norm on X also defines a metric $d$ on X as $d(x,y)=\|x-y\|$ . Hence a normed space is also a metric space.

@@ Line 2: / Line 2: @@
 ==Formal definition of norm==
-Let ''X'' be a vector space over some subfield ''F'' of the [[complex number|complex numbers]]. Then a norm on X is any function <math>\|\cdot\|:X \rightarrow X</math> having the following three properties:
+Let ''X'' be a vector space over some subfield ''F'' of the [[complex number|complex numbers]]. Then a norm on X is any function <math>\|\cdot\|:X \rightarrow X</math> having the following four properties:
 #<math>\|x\|\geq 0</math> for all <math>x \in X</math> (positivity)
 #<math>\|x\|=0</math> if and only if ''x=0''

Norm (mathematics): Difference between revisions

Revision as of 23:31, 28 September 2007

Formal definition of norm

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