Separation axioms: Difference between revisions

In topology, separation axioms describe classes of topological space according to how well the open sets of the topology distinguish between distinct points.

Terminology

A neighbourhood of a point x in a topological space X is a set N such that x is in the interior of N; that is, there is an open set U such that ${\displaystyle x\in U\subseteq N}$. A neighbourhood of a set A in X is a set N such that A is contained in the interior of N; that is, there is an open set U such that ${\displaystyle A\subseteq U\subseteq N}$.

Properties

A topological space X is

• T0 if for any two distinct points there is an open set which contains just one
• T1 if for any two points x, y there are open sets U and V such that U contains x but not y, and V contains y but not x
• T2 if any two distinct points have disjoint neighbourhoods
• T3 if a closed set A and a point x not in A have disjoint neighbourhoods
• T4 if disjoint closed sets have disjoint neighbourhoods
• T5 if separated sets have disjoint neighbourhoods

• Hausdorff is a synonym for T2
• normal if T0 and T3
• regular if T0 and T4