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- ...ar to but less stringent than those of a group. A motivating example of a monoid is the set of positive [[integer]]s with [[multiplication]] as the operatio Formally, a monoid is set ''M'' with a binary operation <math>\star</math> satisfying the foll3 KB (526 words) - 11:02, 23 December 2008
- #REDIRECT [[Monoid#Free monoid]]32 bytes (4 words) - 15:36, 13 November 2008
- #REDIRECT [[Monoid]]20 bytes (2 words) - 15:41, 13 November 2008
- 171 bytes (21 words) - 17:11, 13 November 2008
- 120 bytes (15 words) - 02:21, 9 November 2008
- 843 bytes (135 words) - 02:16, 9 November 2008
Page text matches
- #REDIRECT [[Monoid#Free monoid]]32 bytes (4 words) - 15:36, 13 November 2008
- #REDIRECT [[Monoid]]20 bytes (2 words) - 15:41, 13 November 2008
- #REDIRECT [[Monoid]]20 bytes (2 words) - 12:11, 23 December 2008
- ...ar to but less stringent than those of a group. A motivating example of a monoid is the set of positive [[integer]]s with [[multiplication]] as the operatio Formally, a monoid is set ''M'' with a binary operation <math>\star</math> satisfying the foll3 KB (526 words) - 11:02, 23 December 2008
- Algebraic structure with two operations, combining an abelian group with a monoid.118 bytes (15 words) - 07:43, 15 June 2008
- ...e generator. The functions of finite support on a monoid ''M'' form the [[monoid ring]] ''R''[''M'']. ...tion as taking the [[free monoid]] ''S'' on the set Λ and then forming the monoid ring ''R''[''S''].4 KB (604 words) - 23:54, 20 February 2010
- {{r|Monoid}}749 bytes (92 words) - 16:43, 11 January 2010
- ...sition form a [[monoid]]. With ''N'' functions, then one may visualize the monoid as a full [[k-ary tree|N-ary tree]] or a [[Cayley tree]].2 KB (327 words) - 15:52, 27 October 2008
- {{r|Monoid}}714 bytes (111 words) - 02:44, 9 November 2008
- {{r|Monoid}}965 bytes (124 words) - 17:23, 11 January 2010
- {{r|Monoid}}654 bytes (81 words) - 13:36, 29 November 2008
- {{r|Monoid}}969 bytes (124 words) - 18:42, 11 January 2010
- {{r|Free monoid}}910 bytes (146 words) - 16:55, 13 November 2008
- ...y element is one of the properties of a [[group (mathematics)|group]] or [[monoid]].927 bytes (140 words) - 15:33, 8 December 2008
- * Many algebraic structures such as a [[monoid]], [[group (mathematics)|group]] or [[vector space]] have a distinguished e1 KB (168 words) - 12:06, 22 November 2008
- {{r|Monoid}}1 KB (187 words) - 20:18, 11 January 2010
- {{r|Monoid}}2 KB (247 words) - 06:00, 7 November 2010
- {{r|Monoid}}2 KB (247 words) - 17:28, 11 January 2010
- ...ime divisors are discussed is when this semi-group is the multiplicative [[monoid]] of a commutative ring with identity. Also, divisors are also occasionall2 KB (359 words) - 18:39, 2 December 2008
- ...this operation is the empty string. (So far we have described the [[free monoid]] on the alphabet.) We define the inverse of a word to be the word obtaine2 KB (436 words) - 02:56, 15 November 2008