Definition:Module

Definition
Let $\left({R, +_R, \times_R}\right)$ be a ring.

Let $\left({G, +_G}\right)$ be an abelian group.

A module over $R$ or an $R$-module is an $R$-algebraic structure with one operation $\left({G, +_G, \circ}\right)_R$ such that:

$\forall x, y \in G, \forall \lambda, \mu \in R$:
 * $(1): \quad \lambda \circ \left({x +_G y}\right) = \left({\lambda \circ x}\right) +_G \left({\lambda \circ y}\right)$


 * $(2): \quad \left({\lambda +_R \mu}\right) \circ x = \left({\lambda \circ x}\right) +_G \left({\mu \circ x}\right)$


 * $(3): \quad \left({\lambda \times_R \mu}\right) \circ x = \lambda \circ \left({\mu \circ x}\right)$

Note that a module is not an algebraic structure unless $R$ and $G$ are the same set.

Vector
The elements of $\left({G, +_G}\right)$ are called vectors.

Also see

 * Scalar Ring


 * Vector Space