An analogue of Hilbert's Syzygy Theorem for the algebra of one-sided inverses of a polynomial algebra
Abstract
An analogue of Hilbert's Syzygy Theorem is proved for the algebra n (A) of one-sided inverses of the polynomial algebra A[x1, ..., xn] over an arbitrary ring A: (n(A))= (A) +n. The algebra n(A) is noncommutative, neither left nor right Noetherian and not a domain. The proof is based on a generalization of the Theorem of Kaplansky (on the projective dimension) obtained in the paper. As a consequence it is proved that for a left or right Noetherian algebra A: (n(A))= (A) +n.
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