Axiom:Metric Space Axioms

Definition
Let $A$ be a set upon which a distance function $d: A \times A \to \R$ is imposed.

The metric space axioms are the conditions on $d$ which are satisfied for all elements of $A$ in order for $\struct {A, d}$ to be a metric space:

Also defined as
The numbering of the axioms is arbitrary and varies between authors.

It is therefore a common practice, when referring to an individual axiom by number, to describe it briefly at the same time.

Some sources replace $(\text M 1)$ and $(\text M 4)$ with a combined axiom:

thus allowing for there to be just three metric space axioms.

Others use:

as the stipulation that $\map d {x, y} \ge 0$ can in fact be derived.

Also see

 * Distance Function for Distinct Elements in Metric Space is Strictly Positive