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In [[mathematics]], more specifically, in [[abstract algebra]], a module is a mathematical structure of which  [[abelian]] [[group]]s and [[vector space]]s are particular types.  They have become ubiquitous in abstract algebra and other areas of mathematics that involve algebraic structures, such as algebraic topology, algebraic geometry, and algebraic number theory.  Currently, an strong understanding of module theory is essential for anyone desiring to understand a wide array of graduate level mathematics and current mathematical research.
In [[mathematics]], more specifically, in [[abstract algebra]], a module is a mathematical structure of which  [[abelian group]]s and [[vector space]]s are particular types.  They have become ubiquitous in abstract algebra and other areas of mathematics that involve algebraic structures, such as algebraic topology, algebraic geometry, and algebraic number theory.  Currently, an strong understanding of module theory is essential for anyone desiring to understand a wide array of graduate level mathematics and current mathematical research.


==Definition==
==Definition==

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In mathematics, more specifically, in abstract algebra, a module is a mathematical structure of which abelian groups and vector spaces are particular types. They have become ubiquitous in abstract algebra and other areas of mathematics that involve algebraic structures, such as algebraic topology, algebraic geometry, and algebraic number theory. Currently, an strong understanding of module theory is essential for anyone desiring to understand a wide array of graduate level mathematics and current mathematical research.

Definition

Let be a commutative ring with . A (left) -module consists of

  1. An abelian group
  2. an action of on ; i.e., a map , denoted by , such that

The category of -modules

The morphisms in the category of -modules are defined respecting the abelian group structure and the action of . That is, a morphism is a homomorphism of the abelian groups and such that for all .


The category of modules over a fixed commutative ring are the prototypical abelian category; this statement is deeper than it may appear, in fact every small abelian category is equivalent to a full subcategory of some category of modules over a ring. This result is due to Freyd and Mitchell.

Examples

  1. The category of -modules is equivalent to the category of abelian groups.