Finite normal implies potentially characteristic: Difference between revisions

This article gives the statement and possibly, proof, of an implication relation between two subgroup properties. That is, it states that every subgroup satisfying the first subgroup property (i.e., finite normal subgroup) must also satisfy the second subgroup property (i.e., potentially characteristic subgroup)
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Get more facts about finite normal subgroup|Get more facts about potentially characteristic subgroup

This fact is related to: NPC conjecture
View other facts related to NPC conjecture | View terms related to NPC conjecture

Statement

Suppose ${\displaystyle G}$ is a group and ${\displaystyle H}$ is a finite normal subgroup of ${\displaystyle G}$: ${\displaystyle H}$ is a normal subgroup of ${\displaystyle G}$ that is finite as a group. Then, there exists a group ${\displaystyle K}$ containing ${\displaystyle G}$ such that ${\displaystyle H}$ is characteristic in ${\displaystyle K}$.

Definitions used

Potentially characteristic subgroup

Further information: Potentially characteristic subgroup

A subgroup ${\displaystyle H}$ of a group ${\displaystyle G}$ is termed a potentially characteristic subgroup if there exists a group ${\displaystyle K}$ containing ${\displaystyle G}$ such that ${\displaystyle H}$ is a characteristic subgroup of ${\displaystyle K}$.

Related facts

• Finite NPC theorem: This states that a normal subgroup of a finite group can be realized as a characteristic subgroup in some finite group containing it.

Facts used

1. Finite normal implies amalgam-characteristic
2. Amalgam-characteristic implies potentially characteristic

Proof

The proof follows directly by piecing together facts (1) and (2).