Free abelian group

Definition

A free abelian group is an abelian group satisfying the following equivalent conditions:

No.	Shorthand	A group is a free abelian group if ...	A group ${\displaystyle G}$ is a free abelian group if ...
1	Direct sum of copies of integers	it is isomorphic to a possibly infinite restricted direct product (also called direct sum) of copies of the group of integers	${\displaystyle G\cong \bigoplus _{i\in I}\mathbb {Z} }$, where ${\displaystyle I}$ is some set.
2	Freely generating set, in terms of unique integer combinations	there exists a subset of the group such that every element of the group has a unique expression as an integer linear combination of elements of the subset. Such a subset is termed a freely generating set or a basis.	there exists a subset ${\displaystyle S}$ of ${\displaystyle G}$ such that every element of ${\displaystyle G}$ can be written uniquely as ${\displaystyle \sum _{s\in S}a_{s}s}$, where ${\displaystyle a_{s}}$ is an integer and only finitely many ${\displaystyle a_{s}}$s are nonzero
3	Freely generating set, in terms of universal property	there exists a subset of the group such that any set map from that subset to any abelian group extends uniquely to a group homomorphism from the whole group to that abelian group	there exists a subset ${\displaystyle S}$ of ${\displaystyle G}$ such that any set map ${\displaystyle f}$ from ${\displaystyle S}$ to an abelian group ${\displaystyle H}$ extends uniquely to a group homomorphism from ${\displaystyle G}$ to ${\displaystyle H}$
4	Projective object in category of abelian groups	any surjective homomorphism from an abelian group to it has a one-sided inverse	for any surjective homomorphism ${\displaystyle \varphi :H\to G}$ with ${\displaystyle H}$ an abelian group, there exists an injective homomorphism ${\displaystyle \alpha :G\to H}$ such that ${\displaystyle \varphi \circ \alpha }$ is the identity map on ${\displaystyle G}$.
5	Abelianization of free group	it occurs as the abelianization of a free group, i.e., as the quotient of a free group by its derived subgroup	there is a free group ${\displaystyle F}$ such that ${\displaystyle G\cong F/[F,F]}$

The rank of a free abelian group is defined as the cardinality of a freely generating set for it. The rank of a free abelian group is fixed; in other words, any two freely generating sets of a free abelian group have the same cardinality. Further information: free abelian groups satisfy IBN

The free abelian group of rank ${\displaystyle \alpha }$ is isomorphic to a direct sum of ${\displaystyle \alpha }$ copies of the group of integers. In particular, the free abelian group of rank ${\displaystyle n}$ for a natural number ${\displaystyle n}$ is isomorphic to the group ${\displaystyle \mathbb {Z} ^{n}}$, which is a direct product of ${\displaystyle n}$ copies of the group of integers.

Examples

Extreme examples

• The trivial group is a free abelian group of rank ${\displaystyle 0}$.
• The group of integers is a free abelian group of rank ${\displaystyle 1}$.

Non-examples

An (unrestricted) external direct power of the group of integers need not be free abelian. In fact, it is not free abelian if it is an infinite power. The smallest counterexample is the Baer-Specker group, which arises as the external direct product of countably many copies of the group of integers.

Relation with other properties

Stronger properties

Weaker properties

Metaproperties