Bihomomorphism: Difference between revisions

Definition

Definition with symbols

Let ${\displaystyle G,H,K}$ be groups. A map ${\displaystyle f:G\times H\to K}$ is termed a bihomomorphism if for every ${\displaystyle g}$ in ${\displaystyle G}$, the induced map ${\displaystyle h\mapsto f(g,h)}$ is a homomorphism from ${\displaystyle H}$ to ${\displaystyle K}$, and for every ${\displaystyle h\in H}$, the induced map ${\displaystyle g\mapsto f(g,h)}$ is a homomorphism from ${\displaystyle G}$ to ${\displaystyle K}$.

Bihomomorphism is a group-theoretic variant of the notion of bilinear map in vector spaces.

Facts

• Subgroup generated by image of bihomomorphism is abelian, or in other words, all the elements that can be written as images under the bihomomorphisms commute with each other.