純粋・応用数学・数学隣接分野（含むガロア理論）20

[過去ﾛｸﾞ] 純粋・応用数学・数学隣接分野（含むガロア理論）20 (1002ﾚｽ)
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950(1): 07/20(日)15:35 ID:2Jr4cGNB(13/29) AAS
補題１
　ωは任意の帰納的集合の共通部分である。
証明
　定義２よりx∈ωならばxは任意の帰納的集合の元であるから主張は示された。

964(2): 現代数学の系譜雑談 ◆yH25M02vWFhP 07/20(日)18:34 ID:JxJPBISF(2/10) AAS
>>949-950
>補題１
>　ωは任意の帰納的集合の共通部分である。

うむ
１）その結論は、正しい。下記の独 de.wikipediaの英訳
　Infinity axiomで、”The natural numbers are therefore defined as the intersection of all inductive sets, as the smallest inductive set.”
　とある通りだ
２）ところで下記の独 de.wikipedia Infinity axiom では
　記号∩ 使ってないよ？
　記号∩ は、使わなくてもいいの？
　記号∩ は、使わなくてもいいのならば、その方がすっきりしてないかな？ｗ；ｐ）

(参考)
外部ﾘﾝｸ:de.wikipedia.org
（google翻訳独→英）
Infinity axiom
The axiom of infinity is an axiom of set theory that postulates the existence of an inductive set . It is called the axiom of infinity because inductive sets are also infinite sets .

formulation
There are a lot A, which is the empty set ∅ and with each element
x∈A also the amount x∪{x}contains.
∃A:(∅∈A∧∀x:(x∈A⇒x∪{x}∈A))
The infinity axiom does not merely postulate, as the name might suggest, the existence of any infinite set. It postulates the existence of an inductive set and thus, consequently, the existence of the set of natural numbers according to John von Neumann's model .

Significance for mathematics
Natural numbers
By the existence of at least one inductive set
I together with the exclusion axiom, the existence of natural numbers as a set is also ensured:
N:={x∈I∣∀z(z inductive ⟹ x∈z)}
The natural numbers are therefore defined as the intersection of all inductive sets, as the smallest inductive set.

Infinite quantities
Without the infinity axiom, ZF would only guarantee the existence of finite sets. No statements could be made about the existence of infinite sets. The infinity axiom, together with the power set axiom , ensures that there are also uncountable sets, such as the real numbers.

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