Schröder-Bernstein theorem, well-ordering of cardinals #
This file proves the Schröder-Bernstein theorem (see schroeder_bernstein
), the well-ordering of
cardinals (see min_injective
) and the totality of their order (see total
).
Notes #
Cardinals are naturally ordered by α ≤ β ↔ ∃ f : a → β, Injective f
:
schroeder_bernstein
states that, given injectionsα → β
andβ → α
, one can get a bijectionα → β
. This corresponds to the antisymmetry of the order.- The order is also well-founded: any nonempty set of cardinals has a minimal element.
min_injective
states that by saying that there exists an element of the set that injects into all others.
Cardinals are defined and further developed in the folder SetTheory.Cardinal
.
theorem
Function.Embedding.schroeder_bernstein
{α : Type u}
{β : Type v}
{f : α → β}
{g : β → α}
(hf : Function.Injective f)
(hg : Function.Injective g)
:
∃ h, Function.Bijective h
The Schröder-Bernstein Theorem:
Given injections α → β
and β → α
, we can get a bijection α → β
.
The cardinals are well-ordered. We express it here by the fact that in any set of cardinals
there is an element that injects into the others.
See Cardinal.conditionallyCompleteLinearOrderBot
for (one of) the lattice instances.