Quotient-powering-invariant subgroup: Difference between revisions

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| [[Stronger than::powering-invariant subgroup]] || || [[quotient-powering-invariant implies powering-invariant]] || [[powering-invariant not implies quotient-powering-invariant]] || {{intermediate notions short|powering-invariant subgroup|quotient-powering-invariant subgroup}}
| [[Stronger than::powering-invariant subgroup]] || || [[quotient-powering-invariant implies powering-invariant]] || [[powering-invariant not implies quotient-powering-invariant]] || {{intermediate notions short|powering-invariant subgroup|quotient-powering-invariant subgroup}}
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| [[Stronger than::normal subgroup with a subgroup-to-quotient powering-invariance implication]] || || || || {{intermediate notions short|normal subgroup with a subgroup-to-quotient powering-invariance implication|quotient-powering-invariant subgroup}}
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Revision as of 01:58, 13 February 2013

This article defines a subgroup property: a property that can be evaluated to true/false given a group and a subgroup thereof, invariant under subgroup equivalence. View a complete list of subgroup properties[SHOW MORE]

BEWARE! This term is nonstandard and is being used locally within the wiki. [SHOW MORE]

Definition

A normal subgroup H of a group G is termed a quotient-powering-invariant subgroup if, for any prime number p such that G is a powered for p, the quotient group G/H is also powered for p.

Metaproperties

Metaproperty name Satisfied? Proof Statement with symbols
quotient-transitive subgroup property Yes quotient-powering-invariance is quotient-transitive If HKG are such that H is quotient-powering-invariant in G and K/H is quotient-powering-invariant in G/H, then K is quotient-powering-invariant in G.

Relation with other properties

Stronger properties

Property Meaning Proof of implication Proof of strictness (reverse implication failure) Intermediate notions
normal subgroup of finite group the whole group is finite
normal subgroup of periodic group every element in the whole group has finite order
normal subgroup of finite index the quotient group is finite normal of finite index implies quotient-powering-invariant
finite normal subgroup the normal subgroup is finite finite normal implies quotient-powering-invariant
direct factor normal subgroup with normal complement (via complemented normal) (via complemented normal) |FULL LIST, MORE INFO
complemented normal subgroup normal subgroup with a (possibly non-normal) complement complemented normal implies quotient-powering-invariant |FULL LIST, MORE INFO
characteristic subgroup of abelian group characteristic subgroup and the whole group is an abelian group characteristic subgroup of abelian group is quotient-powering-invariant |FULL LIST, MORE INFO

Weaker properties

Property Meaning Proof of implication Proof of strictness (reverse implication failure) Intermediate notions
powering-invariant subgroup quotient-powering-invariant implies powering-invariant powering-invariant not implies quotient-powering-invariant |FULL LIST, MORE INFO
normal subgroup with a subgroup-to-quotient powering-invariance implication |FULL LIST, MORE INFO

Properties whose conjunction with powering-invariance implies quotient-powering-invariance

The relevant subgroup property is normal subgroup with a subgroup-to-quotient powering-invariance implication. This property is implied both by being a central subgroup and by being a normal subgroup contained in the hypercenter.

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