In linear algebra, functional analysis and related areas of mathematics, a quasinorm is similar to a norm in that it satisfies the norm axioms, except that the triangle inequality is replaced by for some K > 1.

Definition

A on a vector space X is a real-valued map p on X that satisfies the following conditions:

<ol> <li>: p \geq 0;</li> <li>: for all x \in X and all scalars s;</li> <li>there exists a real k \geq 1 such that for all x, y \in X. </ol> A is a quasi-seminorm that also satisfies: <li>[Positive definite](https://bliptext.com/articles/positive-definite)/: if x \in X satisfies p(x) = 0, then x = 0.</li> </ol> A pair (X, p) consisting of a [vector space](https://bliptext.com/articles/vector-space) X and an associated quasi-seminorm p is called a. If the quasi-seminorm is a quasinorm then it is also called a. **Multiplier** The [infimum](https://bliptext.com/articles/infimum) of all values of k that satisfy condition (3) is called the of p. The multiplier itself will also satisfy condition (3) and so it is the unique smallest real number that satisfies this condition. The term is sometimes used to describe a quasi-seminorm whose multiplier is equal to k. A (respectively, a ) is just a quasinorm (respectively, a quasi-seminorm) whose multiplier is 1. Thus every [seminorm](https://bliptext.com/articles/semi[norm](https://bliptext.com/articles/norm-mathematics)) is a quasi-[seminorm](https://bliptext.com/articles/semi[norm](https://bliptext.com/articles/norm-mathematics)) and every [norm](https://bliptext.com/articles/norm-mathematics) is a quasi[norm](https://bliptext.com/articles/norm-mathematics) (and a quasi-[seminorm](https://bliptext.com/articles/semi[norm](https://bliptext.com/articles/norm-mathematics))).

Topology

If p is a quasinorm on X then p induces a vector topology on X whose neighborhood basis at the origin is given by the sets: as n ranges over the positive integers. A topological vector space with such a topology is called a or just a. Every quasinormed topological vector space is pseudometrizable. A complete quasinormed space is called a. Every Banach space is a quasi-Banach space, although not conversely.

Related definitions

A quasinormed space is called a if the vector space A is an algebra and there is a constant K > 0 such that for all x, y \in A. A complete quasinormed algebra is called a.

Characterizations

A topological vector space (TVS) is a quasinormed space if and only if it has a bounded neighborhood of the origin.

Examples

Since every norm is a quasinorm, every normed space is also a quasinormed space. L^p spaces with 0 < p < 1 The L^p spaces for 0 < p < 1 are quasinormed spaces (indeed, they are even F-spaces) but they are not, in general, normable (meaning that there might not exist any norm that defines their topology). For 0 < p < 1, the Lebesgue space L^p([0, 1]) is a complete metrizable TVS (an F-space) that is locally convex (in fact, its only convex open subsets are itself L^p([0, 1]) and the empty set) and the continuous linear functional on L^p([0, 1]) is the constant 0 function. In particular, the Hahn-Banach theorem does hold for L^p([0, 1]) when 0 < p < 1.