Free Product Of Associative Algebras

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In algebra, the free product (coproduct) of a family of associative algebras Ai,iI over a commutative ring R is the associative algebra over R that is, roughly, defined by the generators and the relations of the Ai's. The free product of two algebras A, B is denoted by A ∗ B. The notion is a ring-theoretic analog of a free product of groups.

In the category of commutative R-algebras, the free product of two algebras (in that category) is their tensor product.

Construction

We first define a free product of two algebras. Let A and B be algebras over a commutative ring R. Consider their tensor algebra, the direct sum of all possible finite tensor products of A, B; explicitly, T=n=1Tn where

T1=AB,T2=(AA)(AB)(BA)(BB),

We then set

A*B=T/I

where I is the two-sided ideal generated by elements of the form

aaaa,bbbb,1A1B.

It is then straightforward to verify that the above construction possesses the universal property of a coproduct.

A finite free product is defined similarly.

References





Categories: [Abstract algebra]


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