Finitely_generated_abelian_group | TriviaQuestions.online

⭐ Core Definition: Finitely generated abelian group

In abstract algebra, an abelian group $(G,+)$ is called finitely generated if there exist finitely many elements $x_{1},\dots ,x_{s}$ in $G$ such that every $x$ in $G$ can be written in the form $x=n_{1}x_{1}+n_{2}x_{2}+\cdots +n_{s}x_{s}$ for some integers $n_{1},\dots ,n_{s}$ . In this case, we say that the set $\{x_{1},\dots ,x_{s}\}$ is a generating set of $G$ or that $x_{1},\dots ,x_{s}$ generate $G$ . So, finitely generated abelian groups can be thought of as a generalization of cyclic groups.

Every finite abelian group is finitely generated. The finitely generated abelian groups can be completely classified.

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Finitely generated abelian group in the context of Algebraic integer

In algebraic number theory, an algebraic integer is a complex number that is integral over the integers. That is, an algebraic integer is a complex root of some monic polynomial (a polynomial whose leading coefficient is 1) whose coefficients are integers. The set of all algebraic integers $A$ is closed under addition, subtraction and multiplication and therefore is a commutative subring of the complex numbers.

The ring of integers of a number field $K$ , denoted by $O K$ , is the intersection of $K$ and $A$ : it can also be characterized as the maximal order of the field $K$ . Each algebraic integer belongs to the ring of integers of some number field. A number $α$ is an algebraic integer if and only if the ring $\mathbb {Z} [\alpha ]$ is finitely generated as an abelian group, which is to say, as a $\mathbb {Z}$ -module.

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Finitely generated abelian group in the context of "Abelian group"

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⭐ Core Definition: Finitely generated abelian group

Finitely generated abelian group in the context of Algebraic integer