In mathematics, especially in the field of commutative algebra, a connected ring is a commutative ring A that satisfies one of the following equivalent conditions:[1]
- A possesses no non-trivial (that is, not equal to 1 or 0) idempotent elements;
- the spectrum of A with the Zariski topology is a connected space.
Examples and non-examples
editConnectedness defines a fairly general class of commutative rings. For example, all local rings and all (meet-)irreducible rings are connected. In particular, all integral domains are connected. Non-examples are given by product rings such as Z × Z; here the element (1, 0) is a non-trivial idempotent.
Generalizations
editIn algebraic geometry, connectedness is generalized to the concept of a connected scheme.
References
edit- ^ Jacobson 1989, p 418.
- Jacobson, Nathan (1989), Basic algebra. II (2 ed.), New York: W. H. Freeman and Company, pp. xviii+686, ISBN 0-7167-1933-9, MR 1009787