Category:Common Divisors
This category contains results about Common Divisors.
Definitions specific to this category can be found in Definitions/Common Divisors.
Integral Domain
Let $\struct {D, +, \times}$ be an integral domain.
Let $S \subseteq D$ be a finite subset of $D$.
Let $c \in D$ such that $c$ divides all the elements of $S$, that is:
- $\forall x \in S: c \divides x$
Then $c$ is a common divisor of all the elements in $S$.
Integers
The definition is usually applied when the integral domain in question is the set of integers $\Z$, thus:
Let $S$ be a finite set of integers, that is:
- $S = \set {x_1, x_2, \ldots, x_n: \forall k \in \N^*_n: x_k \in \Z}$
Let $c \in \Z$ such that $c$ divides all the elements of $S$, that is:
- $\forall x \in S: c \divides x$
Then $c$ is a common divisor of all the elements in $S$.
Real Numbers
The definition can also be applied when the integral domain in question is the real numbers $\R$, thus:
Let $S$ be a finite set of real numbers, that is:
- $S = \set {x_1, x_2, \ldots, x_n: \forall k \in \N^*_n: x_k \in \R}$
Let $c \in \R$ such that $c$ divides all the elements of $S$, that is:
- $\forall x \in S: c \divides x$
Then $c$ is a common divisor of all the elements in $S$.
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