Product of subgroups: Difference between revisions

Definition

Symbol-free definition

The Product of two subgroups of a group is the subset consiting of the pairwise products between the two subgroups.

Definition with symbols

The Product ${\displaystyle HK}$ of two subgroups ${\displaystyle H}$ and ${\displaystyle K}$ of a group ${\displaystyle G}$ is:

${\displaystyle HK:=\{hk\mid h\in H,k\in K\}}$.

If ${\displaystyle G}$ is abelian and if the group operation is denoted as ${\displaystyle +}$, the product is termed the sum, and is denoted ${\displaystyle H+K}$:

${\displaystyle H+K=\{h+k\mid h\in H,k\in K\}}$.

Facts

${\displaystyle HK}$ is the double coset ${\displaystyle HeK}$, ${\displaystyle e}$ being the identity element of ${\displaystyle G}$.

The cardinality ${\displaystyle \left|HK\right|}$ of ${\displaystyle HK}$ is ${\displaystyle \left|H\right|\left|K\right|/|H\cap K|}$.

The product ${\displaystyle HK}$ is in general not a subgroup, because it may not be closed under the group operation.

The smallest subgroup containing ${\displaystyle HK}$ is the join ${\displaystyle ⟨H,K⟩}$ of ${\displaystyle H}$ and ${\displaystyle K}$, which is also the subgroup generated by ${\displaystyle H}$ and ${\displaystyle K}$.

Following statements are equivalent:

• ${\displaystyle HK}$ is a subgroup
• ${\displaystyle HK=⟨H,K⟩}$, viz., it is precisely the join of ${\displaystyle H}$ and ${\displaystyle K}$ (the subgroup generated by ${\displaystyle H}$ and ${\displaystyle K}$)
• ${\displaystyle HK=KH}$
• ${\displaystyle HK\subseteq KH}$
• ${\displaystyle KH\subseteq HK}$

If the above equivalent conditions hold, ${\displaystyle H}$ and ${\displaystyle K}$ are termed permuting subgroups.