Norm (abelian group)
Appearance
In mathematics, specifically abstract algebra, if is an (abelian) group with identity element then is said to be a norm on if:
- Positive definiteness: ,
- Subadditivity: ,
- Inversion (Symmetry): .[1]
An alternative, stronger definition of a norm on requires
- ,
- ,
- .[2]
The norm is discrete if there is some real number such that whenever .
Free abelian groups
[edit]An abelian group is a free abelian group if and only if it has a discrete norm.[2]
References
[edit]- ^ Bingham, N.H.; Ostaszewski, A.J. (2010). "Normed versus topological groups: Dichotomy and duality". Dissertationes Mathematicae. 472: 4. doi:10.4064/dm472-0-1.
- ^ a b Steprāns, Juris (1985), "A characterization of free abelian groups", Proceedings of the American Mathematical Society, 93 (2): 347–349, doi:10.2307/2044776, JSTOR 2044776, MR 0770551