A normal subgroup is a subgroup that is invariant under conjugation by any element of the original group: H is normal if and only if gHg-1 = H for any g ∈ G. Equivalently, a subgroup H of G is normal if and only if gH = Hg for any g ∈ G.
Normal subgroups are useful in constructing quotient groups, and in analyzing homomorphisms.
Quotient Groups
A quotient group is defined as G/N for some normal subgroup N of G, which is the set of cosets of N w.r.t. G, equipped with the operation º satisfying for all g, h ∈ G.
This definition is the reason that N must be normal to define a quotient group; it holds because the chain of equalities
holds, where utilizes the fact that Nh = hN for any h (true iff N is normal, by definition).
For example, consider the subgroup (which is an additive group). The left cosets are
so This can be more cleanly written as
which is isomorphic to {0,1} or the cyclic group C2. Additional examples:
Homomorphisms and Normal Subgroups
Recall that a homomorphism from G to H is a function φ such that
for all g1, g2 ∈ G.
The kernel of a homomorphism is the set of elements of G that are sent to the identity in H, and the kernel of any homomorphism is necessarily a normal subgroup of G.
In fact, more is true: the image of G under this homomorphism (the set of elements G is sent to under φ) is isomorphic to the quotient group G/ker(φ), by the first isomorphism theorem. This provides a bijection between normal subgroups of G and the set of images of G under homomorphisms.
Thus normal subgroups can be classified in another manner:
A subgroup N of G is normal if and only if there exists a homomorphism on G whose kernel is N. |
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1. What is a normal subgroup? |
2. What is a quotient group? |
3. What is the significance of normal subgroups and quotient groups? |
4. What is a homomorphism in group theory? |
5. How are homomorphisms related to normal subgroups and quotient groups? |
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