Group (mathematics)

A group is a mathematical structure consisting of a set of elements combined with a binary operator which satisfies four conditions:

Closure: applying the binary operator to any two elements of the group produces a result which itself belongs to the group
Associativity: $\text{[math]}$ where $\text{[math]}$ , $\text{[math]}$ and $\text{[math]}$ are any element of the group
Existence of Identity: there must exist an identity element $\text{[math]}$ such that $\text{[math]}$ ; that is, applying the binary operator to some element $\text{[math]}$ and the identity element $\text{[math]}$ leaves $\text{[math]}$ unchanged
Existence of Inverse: for each element $\text{[math]}$ , there must exist an inverse $\text{[math]}$ such that $\text{[math]}$

A group with commutative binary operator is known as Abelian.

Examples

the set of integers $\text{[math]}$ under addition: here, zero is the identity, and the inverse of an element $\text{[math]}$ is $\text{[math]}$ .
the set of the positive rational numbers $\text{[math]}$ : obviously, $\text{[math]}$ is the identity, while the inverse of an elements $\text{[math]}$ is $\text{[math]}$ .
the Klein four group consists of the set of formal symbols $\text{[math]}$ with the relations $\text{[math]}$ All elements of the Klein four group (except the identity 1) have order 2. The Klein four group is isomorphic to $\text{[math]}$ under mod addition.
the set of complex numbers {1, -1, i,-i} under multiplication, where i is the square root of -1, the basis of the imaginary numbers. This group is isomorphic to $\text{[math]}$ under mod addition.