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Line 1: In algebra, a '''generating set''' ''G'' of a [[module (mathematics)\|module]] ''M'' over a [[ring (mathematics)\|ring]] ''R'' is a subset of ''M'' such that the smallest submodule of ''M'' containing ''G'' is ''M'' itself (the smallest submodule containing ''G'' exists; it is the intersection of all submodules containing ''G''). The set ''G'' is then said to generate ''M''. For example, ~~when~~ the ring ''R'' is generated by the identity element 1 as a left ''R''-module over itself. If there is a finite generating set, then a module is said to be [[finitely generated module\|finitely generated]]. Explicitly, if ''G'' is a generating set of a module ''M'', then every element of ''M'' is a (finite) ''R''-linear combination of the elements of ''G''; i.e., for each ''x'' in ''M'', there are ''r''<sub>1</sub>, ..., ''r''<sub>m</sub> in ''R'' and ''g''<sub>1</sub>, ..., ''g''<sub>m</sub> in ''G'' such that

Generating set of a module: Difference between revisions