axiom of foundation (original) (raw)
For any nonempty set X there is some y∈X such that y∩X=∅.
For any set X, there is no function f from ω to the transitive closure
of X such that for every n, f(n+1)∈f(n).
For any formula ϕ, if there is any set x such that ϕ(x) then there is some X such that ϕ(X) but there is no y∈X such that ϕ(y).
Sets which satisfy this axiom are called artinian. It is known that, if ZF without this axiom is consistent, then this axiom does not add any inconsistencies.
One important consequence of this property is that no set can contain itself. For instance, if there were a set X such that X∈X then we could define a function f(n)=X for all n, which would then have the property that f(n+1)∈f(n) for all n.
| Title | axiom of foundation |
|---|---|
| Canonical name | AxiomOfFoundation |
| Date of creation | 2013-03-22 13:04:31 |
| Last modified on | 2013-03-22 13:04:31 |
| Owner | Henry (455) |
| Last modified by | Henry (455) |
| Numerical id | 10 |
| Author | Henry (455) |
| Entry type | Definition |
| Classification | msc 03C99 |
| Synonym | foundation |
| Synonym | regularity |
| Synonym | axiom of regularity |
| Defines | artinian |
| Defines | artinian set |
| Defines | artinian sets |