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Divisibility (ring theory)
Concept in mathematical ring theory
Concept in mathematical ring theory
In mathematics, the notion of a divisor originally arose within the context of arithmetic of whole numbers. With the development of abstract rings, of which the integers are the archetype, the original notion of divisor found a natural extension.
Divisibility is a useful concept for the analysis of the structure of commutative rings because of its relationship with the ideal structure of such rings.
Definition
Let R be a ring, and let a and b be elements of R. If there exists an element x in R with , one says that a is a left divisor of b and that b is a right multiple of a. Similarly, if there exists an element y in R with , one says that a is a right divisor of b and that b is a left multiple of a. One says that a is a two-sided divisor of b if it is both a left divisor and a right divisor of b; the x and y above are not required to be equal.
When R is commutative, the notions of left divisor, right divisor, and two-sided divisor coincide, so one says simply that a is a divisor of b, or that b is a multiple of a, and one writes a \mid b . Elements a and b of an integral domain are associates if both a \mid b and b \mid a . The associate relationship is an equivalence relation on R, so it divides R into disjoint equivalence classes.
Note: Although these definitions make sense in any magma, they are used primarily when this magma is the multiplicative monoid of a ring.
Properties
Statements about divisibility in a commutative ring R can be translated into statements about principal ideals. For instance,
- One has a \mid b if and only if (b) \subseteq (a) .
- Elements a and b are associates if and only if (a) = (b) .
- An element u is a unit if and only if u is a divisor of every element of R.
- An element u is a unit if and only if (u) = R .
- If a = b u for some unit u, then a and b are associates. If R is an integral domain, then the converse is true.
- Let R be an integral domain. If the elements in R are totally ordered by divisibility, then R is called a valuation ring.
In the above, (a) denotes the principal ideal of R generated by the element a.
Zero as a divisor, and zero divisors
- If one interprets the definition of divisor literally, every a is a divisor of 0, since one can take . Because of this, it is traditional to abuse terminology by making an exception for zero divisors: one calls an element a in a commutative ring a zero divisor if there exists a nonzero x such that .
- Some texts apply the term 'zero divisor' to a nonzero element x where the multiplier a is additionally required to be nonzero where x solves the expression , but such a definition is both more complicated and lacks some of the above properties.
Notes
Citations
References
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