Inner implies class-preserving

DIRECT: The fact or result stated in this article has a trivial/direct/straightforward proof provided we use the correct definitions of the terms involved
View other results with direct proofs
VIEW FACTS USING THIS: directly | directly or indirectly, upto two steps | directly or indirectly, upto three steps|
VIEW: Survey articles about this

This article gives the statement and possibly, proof, of an implication relation between two automorphism properties. That is, it states that every automorphism satisfying the first automorphism property must also satisfy the second automorphism property
View all automorphism property implications | View all automorphism property non-implications
|

Property "Page" (as page type) with input value "{{{stronger}}}" contains invalid characters or is incomplete and therefore can cause unexpected results during a query or annotation process.Property "Page" (as page type) with input value "{{{weaker}}}" contains invalid characters or is incomplete and therefore can cause unexpected results during a query or annotation process.

Statement

Property-theoretic statement

The automorphism property of being an inner automorphism is stronger than, or implies, the automorphism property of being a class automorphism.

Verbal statement

Any inner automorphism of a group is a class automorphism: it sends every element to its conjugacy class.

Definitions used

Inner automorphism

Further information: Inner automorphism

An automorphism ${\displaystyle \sigma }$ of a group ${\displaystyle G}$ is termed an inner automorphism if there exists ${\displaystyle h\in G}$ such that for every ${\displaystyle g\in G}$, ${\displaystyle \sigma (g)=hg{h}^{-1}}$

Class automorphism

Further information: Class automorphism

An automorphism ${\displaystyle \sigma }$ of a group ${\displaystyle G}$ is termed a class automorphism if, for every ${\displaystyle g\in G}$, there exists ${\displaystyle h\in G}$ such that ${\displaystyle \sigma (g)=hg{h}^{-1}}$

Converse

The converse of this statement is not true. Further information: Class not implies inner

Proof

Hands-on proof

Given: A group ${\displaystyle G}$, an inner automorphism ${\displaystyle \sigma }$ of ${\displaystyle G}$, an element ${\displaystyle g\in G}$

To prove: There exists ${\displaystyle h\in G}$ such that ${\displaystyle \sigma (g)=hg{h}^{-1}}$

Proof: In fact, by the definition of inner automorphism, we do have a ${\displaystyle h}$, that doesn't even depend on the choice of ${\displaystyle g}$.

Deeper insight into the proof

One way of viewing the condition of being a class automorphism is: it looks like an inner automorphism locally at every element. In other words, if we're looking at just one element at a time, the automorphism looks like an inner automorphism. The problem is that the choice of conjugating element may differ depending on which element of the group we're looking at.

Related properties

Other related properties, all of which are weaker than the property of being a class automorphism:

• Subgroup-conjugating automorphism: This sends every subgroup to a conjugate subgroup
• Center-fixing automorphism: This fixes every element in the center of the group
• IA-automorphism: This acts as the identity on the Abelianization of the group
• Quotientable automorphism: This is an automorphism that preserves every normal subgroup