Principal ideal

This article defines a property of an ideal in a commutative unital ring |View other properties of ideals in commutative unital rings

This property of ideals in commutative unital rings depends only on the ideal, viewed abstractly as a module over the commutative unital ring. The corresponding module property that the ideal must satisfy is: cyclic module
View other such properties

Definition

Symbol-free definition

An ideal in a commutative unital ring is termed a principal ideal if it is the ideal generated by a single element of the ring.

Definition with symbols

An ideal ${\displaystyle I}$ in a ring ${\displaystyle R}$ is termed a principal ideal if there exists an ${\displaystyle x}$ in ${\displaystyle R}$ such that ${\displaystyle I=Rx}$.

Relation with other properties

Weaker properties

• Finitely generated ideal

Metaproperties

Trimness

This property of ideals in commutative unital rings is trim: it is satisfied by the zero ideal and by the whole ring, as an ideal of itself

The whole ring, as well as the zero ideal, are principal ideals.

Intersection-closedness

This property of ideals in commutative unital rings is not closed under taking arbitrary intersections; in other words, an arbitrary intersection of ideals with this property need not have this property

An intersection of principal ideals need not be a principal ideal. However, for a unique factorization domain, it is true that an arbitrary intersection of principal ideals is principal. Thus, given any ideal, there exists a smallest principal ideal containing it.

For a gcd domain, it is true that given any finitely generated ideal, there exists a smallest principal ideal containing it.