Class of groups

Definition

A class of groups X   is a collection of groups such that if G ∈ X   and G ≅ H   then H ∈ X   . Groups in the class X   are referred to as X -groups.

For a set of groups I   , we denote by ( I ) the smallest class of groups containing I . In particular for a group G , ( G ) denotes its isomorphism class.

Examples

The most common examples of classes of groups are:

Product of classes of groups

Given two classes of groups X   and Y   it is defined the product of classes

X Y   = ( G | G  has a normal subgroup  N ∈ X  with  G / N ∈ Y )

This construction allows us to recursively define the power of a class by setting

X 0 = ( 1 ) and X n = X n − 1 X

It must be remarked that this binary operation on the class of classes of groups is neither associative nor commutative. For instance, consider the alternating group of degree 4 (and order 12); this group belongs to the class ( C C ) C because it has as a subgroup the group V 4 which belongs to C C and furthermore A 4 / V 4 ≅ C 3 which is in C . However A 4 has no non-trivial normal cyclic subgroup, so A 4 ∉ C ( C C ) . Then C ( C C ) ≠ ( C C ) C .

However it is straightforward from the definition that for any three classes of groups X , Y , and Z ,

X ( Y Z ) ⊆ ( X Y ) Z

Class maps and closure operations

A class map c is a map which assigns a class of groups X to another class of groups c X . A class map is said to be a closure operation if it satisfies the next properties:

1. c is expansive: X ⊆ c X
2. c is idempotent: c X = c ( c X )
3. c is monotonic: If X ⊆ Y then c X ⊆ c Y

Some of the most common examples of closure operations are: