Normal subgroups are subtle

The definition of a subgroup is obvious, but the definition of a normal subgroup is subtle.

Widgets and subwidgets

The general pattern of widgets and subwidgets is that a widget is a set with some kind of structure, and a subwidget is a subset that has the same structure. This applies to vector spaces and subspaces, manifolds and submanifolds, lattices and sublattices, etc. Once you know the definition of a group, you can guess the definition of a subgroup.

But the definition of a normal subgroup is not something anyone would guess immediately after learning the definition of a group. The definition is not difficult, but its motivation isn't obvious.

Standard definition

A subgroup H of a group G is a normal subgroup if for every g G,

g^-1Hg = H.

That is, if h is an element of H, g^-1hg is also an element of H. All subgroups of an Abelian group are normal because not only is g^-1hg also an element of H, it's the same element of H, i.e. g^-1hg = h.

Alternative definition

There's an equivalent definition of normal subgroup that I only ran across recently in a paper by Francis Masat [1]. A subgroup H of a group G is normal if for every pair of elements a and b such that ab is in H, ba is also in H. With this definition it's obvious that every subgroup of an Abelian group is normal because ab = ba for any a and b.

It's an easy exercise to show that Masat's definition is equivalent to the usual definition. Masat's definition seems a little more motivated. It's requiring some vestige of commutativity. It says that a subgroup H of a non-Abelian group G has some structure in common with subgroups of normal groups if this weak replacement for commutativity holds.

Categories

Category theory has a way of defining subobjects in general that basically formalizes the notion of widgets and subwidgets above. It also has a way of formalizing normal subobjects, but this is more recent and more complicated.

The nLab page on normal subobjects says The notion was found relatively late." The page was last edited in 2016 and says it is to be finished later." Given how exhaustively thorough nLab is on common and even not-so-common topics, this implies that the idea of normal subobjects is not mainstream.

I found a recent paper that discusses normal subobjects [2] and suffice it to say it's complicated. This suggests that although analogs of subgroups are common across mathematics, the idea of a normal subgroup is more or less unique to group theory.

Related posts

• The relation normal subgroup of" is not transitive
• Normal and non-normal subgroups
• Analogy between prime numbers and simple groups

[1] Francis E. Masat. A Useful Characterization of a Normal Subgroup. Mathematics Magazine, May, 1979, Vol. 52, No. 3, pp. 171-173

[2] Dominique Bourn and Giuseppe Metere. A note on the categorical notions of normal subobject and of equivalence class. Theory and Applications of Categories, Vol 36, No. 3, 2021, pp. 65-101.

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