Hereditary system generated by

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Demote grade once content is put in place, I really want to pull the "smallest" note out and give it a name (generated system of sets?) as this occurs a lot, and can be applied any time the type of system in question is closed under arbitrary intersection, that is the intersection of an arbitrary family of a type of system is a system of that type in and of itself.

Warning:This page is little more than notes at the moment, however everything stated here is verified and correct

Definition

The hereditary system generated by a collection of sets, [ilmath]S[/ilmath], which we denote: [ilmath]\mathcal{H}(S)[/ilmath] is the smallest^{[Note 1]} hereditary system containing [ilmath]S[/ilmath]^[1].

Claim 1: [ilmath]\mathcal{H}(S)=\{V\in\mathcal{P}(T)\ \vert\ T\in S\}[/ilmath]^{[Note 2]} where [ilmath]\mathcal{P}(A)[/ilmath] denotes the power set of [ilmath]A[/ilmath].

Proof of claims

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This page requires one or more proofs to be filled in, it is on a to-do list for being expanded with them.

Please note that this does not mean the content is unreliable. Unless there are any caveats mentioned below the statement comes from a reliable source. As always, Warnings and limitations will be clearly shown and possibly highlighted if very important (see template:Caution et al).
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Pretty routine proof by contradiction. I've done it on some paper somewhere

Notes

↑
We do not mean smallest in the sense of cardinality arguments, we also do not mean smallest in the sense of [ilmath]\subset[/ilmath] relation (as given any two hereditary systems containing [ilmath]S[/ilmath] we cannot be sure that either one is a subset (proper or not) of the other! Instead we mean smallest in the following sense:
- [math]\mathcal{H}(S):=\bigcap_{\text{All hereditary systems of sets, }\mathcal{H}\text{, where }S\subseteq\mathcal{H} }\mathcal{H}[/math]
This is extremely similar to sigma-ring generated by and many other generators involving systems of sets - there is certainly something to abstract here.
Grade: A
This page requires one or more proofs to be filled in, it is on a to-do list for being expanded with them.
Please note that this does not mean the content is unreliable. Unless there are any caveats mentioned below the statement comes from a reliable source. As always, Warnings and limitations will be clearly shown and possibly highlighted if very important (see template:Caution et al).
The message provided is:
Prove that the intersection of an arbitrary family of hereditary systems of sets (among other systems of course!) is itself a hereditary system of sets
↑
There are many ways to write this and this may not be the best. The "defining property" (Note to self: explore notion between FOL sentences and sets) is:
- [ilmath]\left[A\in\mathcal{H}(S)\right]\iff[\exists B\in S(A\in\mathcal{P}(B))][/ilmath]

References

↑ Measure Theory - Paul R. Halmos

[1] We do not mean smallest in the sense of cardinality arguments, we also do not mean smallest in the sense of [ilmath]\subset[/ilmath] relation (as given any two hereditary systems containing [ilmath]S[/ilmath] we cannot be sure that either one is a subset (proper or not) of the other! Instead we mean smallest in the following sense:
[math]\mathcal{H}(S):=\bigcap_{\text{All hereditary systems of sets, }\mathcal{H}\text{, where }S\subseteq\mathcal{H} }\mathcal{H}[/math]
This is extremely similar to sigma-ring generated by and many other generators involving systems of sets - there is certainly something to abstract here.
Grade: A
This page requires one or more proofs to be filled in, it is on a to-do list for being expanded with them.
Please note that this does not mean the content is unreliable. Unless there are any caveats mentioned below the statement comes from a reliable source. As always, Warnings and limitations will be clearly shown and possibly highlighted if very important (see template:Caution et al).
The message provided is:
Prove that the intersection of an arbitrary family of hereditary systems of sets (among other systems of course!) is itself a hereditary system of sets

[2] [math]\mathcal{H}(S):=\bigcap_{\text{All hereditary systems of sets, }\mathcal{H}\text{, where }S\subseteq\mathcal{H} }\mathcal{H}[/math]

[3] There are many ways to write this and this may not be the best. The "defining property" (Note to self: explore notion between FOL sentences and sets) is:
[ilmath]\left[A\in\mathcal{H}(S)\right]\iff[\exists B\in S(A\in\mathcal{P}(B))][/ilmath]

[4] [ilmath]\left[A\in\mathcal{H}(S)\right]\iff[\exists B\in S(A\in\mathcal{P}(B))][/ilmath]

[MTH-2] Measure Theory - Paul R. Halmos

[Note 1]

[1]

[Note 2]

Hereditary system generated by

Contents

Definition

Proof of claims

Notes

References

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