First uncountable ordinal
In mathematics, the first uncountable ordinal, traditionally denoted by ω1 or sometimes by Ω, is the smallest ordinal number that, considered as a set, is uncountable. It is the supremum of all countable ordinals. The elements of ω1 are the countable ordinals, of which there are uncountably many.
Like any ordinal number, ω1 is a well-ordered set, with set membership serving as the order relation. ω1 is a limit ordinal, i.e. there is no ordinal α with α + 1 = ω1.
The cardinality of the set ω1 is the first uncountable cardinal number, ℵ1. The ordinal ω1 is thus the initial ordinal of ℵ1.
Indeed, in most constructions ω1 and ℵ1 are equal as sets. To generalize: if α is an arbitrary ordinal we define ωα as the initial ordinal of the cardinal ℵα.
The existence of ω1 can be proven without the axiom of choice.Any ordinal number can be turned into a topological space by using the order topology. When viewed as a topological space, ω1 is often written as = ω1 + 1 is compact and not first-countable. ω1 is used to define the long line and the Tychonoff plank, two important counterexamples in topology.
