Boolean ring
An associative ring 
whose elements are all idempotent, i.e. 
for any 
. Any Boolean ring 
is commutative and is a subdirect sum of fields 
of two elements, and 
for all 
. A finite Boolean ring 
is a direct sum of fields 
and therefore has a unit element.
A Boolean ring is the ring version of a Boolean algebra, namely: Any Boolean algebra is a Boolean ring with a unit element under the operations of addition and multiplication defined by the rules
 |
where 
is the complement of 
. The zero and the unit of the ring are the same as, respectively, the zero and the unit of the algebra. Conversely, every Boolean ring with a unit element is a Boolean algebra under the operations 
, 
, 
.
References
| [1] | M.H. Stone, "The theory of representations for Boolean algebras" Trans. Amer. Math. Soc. , 40 (1936) pp. 37–111 |
| [2] | I.I. Zhegalkin, "On the technique of computation of propositions in symbolic logic" Mat. Sb. , 34 : 1 (1927) pp. 9–28 (In Russian) (French abstract) |
| [3] | D.A. Vladimirov, "Boolesche Algebren" , Akademie Verlag (1978) (Translated from Russian) |
| [4] | R. Sikorski, "Boolean algebras" , Springer (1969) |
Comments
The operation 
is known as the symmetric difference. Think of the Boolean algebra of all subsets of a given set under union, intersection and complement to interpret these formulas.
References
| [a1] | S. Rudeanu, "Boolean functions and equations" , North-Holland (1974) |
Boolean ring. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Boolean_ring&oldid=32903