Group homomorphism

Depiction of a group homomorphism (h) from G (left) to H (right). The oval inside H is the image of h. N is the kernel of h and aN is a coset of N.

In mathematics, given two groups, (G,∗) and (H, ·), a group homomorphism from (G,∗) to (H, ·) is a function h : GH such that for all u and v in G it holds that

where the group operation on the left side of the equation is that of G and on the right side that of H.

From this property, one can deduce that h maps the identity element eG of G to the identity element eH of H,

and it also maps inverses to inverses in the sense that

Hence one can say that h "is compatible with the group structure".

In areas of mathematics where one considers groups endowed with additional structure, a homomorphism sometimes means a map which respects not only the group structure (as above) but also the extra structure. For example, a homomorphism of topological groups is often required to be continuous.


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