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In algebra, given a module and a submodule, one can construct their quotient module. This construction, described below, is very similar to that of a quotient vector space. It differs from analogous quotient constructions of rings and groups by the fact that in these cases, the subspace that is used for defining the quotient is not of the same nature as the ambient space (that is, a quotient ring is the quotient of a ring by an ideal, not a subring, and a quotient group is the quotient of a group by a normal subgroup, not by a general subgroup).
Given a module A over a ring R, and a submodule B of A, the quotient space A/B is defined by the equivalence relation
for any a, b in A. The elements of A/B are the equivalence classes The function sending a in A to its equivalence class a + B is called the quotient map or the projection map, and is a module homomorphism.
The addition operation on A/B is defined for two equivalence classes as the equivalence class of the sum of two representatives from these classes; and scalar multiplication of elements of A/B by elements of R is defined similarly. Note that it has to be shown that these operations are well-defined. Then A/B becomes itself an R-module, called the quotient module. In symbols, for all a, b in A and r in R: