Central factor implies transitively normal: 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., central factor) must also satisfy the second subgroup property (i.e., transitively normal subgroup)
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Statement

Verbal statement

Any central factor of a group is a transitively normal subgroup. In other words, any normal subgroup of a central factor is a central factor.

Statement with symbols

Suppose ${\displaystyle K}$ is a central factor of a group ${\displaystyle G}$. Then, Failed to parse (unknown function "\K"): {\displaystyle H\K} is a transitively normal subgroup of ${\displaystyle G}$, i.e., if ${\displaystyle H}$ is a normal subgroup of ${\displaystyle K}$, then ${\displaystyle H}$ is a normal subgroup of ${\displaystyle G}$.

Proof

Given: A group ${\displaystyle G}$, a central factor ${\displaystyle K}$ of ${\displaystyle G}$, a normal subgroup ${\displaystyle H}$ of ${\displaystyle K}$. ${\displaystyle g}$ is an element of ${\displaystyle G}$ and ${\displaystyle h}$ is an element of ${\displaystyle H}$.

To prove: ${\displaystyle gh{g}^{-1}\in H}$.

Proof: Let ${\displaystyle c_g=x\mapsto gx{g}^{-1}}$ be the inner automorphism obtained as conjugation by ${\displaystyle g}$.

1. There exists ${\displaystyle k\in K}$ such that the inner automorphism ${\displaystyle c_k}$ by ${\displaystyle k\in K}$, as an inner automorphism of ${\displaystyle K}$, is the restriction to ${\displaystyle K}$ of ${\displaystyle c_g}$. In other words, for any ${\displaystyle x\in K}$, ${\displaystyle gx{g}^{-1}=kx{k}^{-1}}$: This follows from the definition of central factor.
2. ${\displaystyle kh{k}^{-1}\in K}$: This follows from the fact that ${\displaystyle K}$ is normal in ${\displaystyle H}$.
3. ${\displaystyle gh{g}^{-1}\in K}$: This follows immediately from the previous two steps.