nLab square-free number

Context

Arithmetic

Idea
Properties
See also
External links

Idea

A square-free number is a natural number $n$ such that for all prime numbers $p$ , $p^2$ does not divide $n$ .

Properties

Given a square-free number $n$ with prime factors

n = \prod p_i

the completion of the sequence of finite cyclic rings $\mathbb{Z}/n^i\mathbb{Z}$ is the ring $\mathbb{Z}_n$ , which is a subring of the profinite integers and the product of the p-adic integers of the prime factors of $n$ :

\mathbb{Z}_n \coloneqq \prod \mathbb{Z}_{p_i}

Given a square-free integer $n$ , the integers modulo n $\mathbb{Z}/n\mathbb{Z}$ is a reduced ring. Since for every integer $n$ the $\mathbb{Z}/n\mathbb{Z}$ is a prefield ring, $\mathbb{Z}/n\mathbb{Z}$ is an integral domain and thus a field if and only if $n$ is a prime number.

Given any odd prime number $p$ , the integer $2 p$ is square-free, and the ring $\mathbb{Z}/2 p\mathbb{Z}$ has idempotent elements of $0$ , $1$ , $p$ , and $p + 1$ . Every element of $\mathbb{Z}/2 p\mathbb{Z}$ could be written as a linear combination of $p$ and $p + 1$ .

External links

Wikipedia, Square-free integer

Last revised on January 22, 2023 at 22:20:16. See the history of this page for a list of all contributions to it.