Word problem for groups

In mathematics, especially in the area of abstract algebra known as combinatorial group theory, the word problem for a finitely generated group is the algorithmic problem of deciding whether two words in the generators represent the same element of . The word problem is a well-known example of an undecidable problem.

If is a finite set of generators for , then the word problem is the membership problem for the formal language of all words in and a formal set of inverses that map to the identity under the natural map from the free monoid with involution on to the group . If is another finite generating set for , then the word problem over the generating set is equivalent to the word problem over the generating set . Thus one can speak unambiguously of the decidability of the word problem for the finitely generated group .

The related but different uniform word problem for a class of recursively presented groups is the algorithmic problem of deciding, given as input a presentation for a group in the class and two words in the generators of , whether the words represent the same element of . Some authors require the class to be definable by a recursively enumerable set of presentations.


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