Rings with (a, b, c) = (a, c, b) and (a, [b, c]d) = 0: A Case Study Using Albert

Hentzel, Irvin; Jacobs, D. P.; Kleinfeld, Erwin

Rings with (a, b, c) = (a, c, b) and (a, [b, c]d) = 0: A Case Study Using Albert

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1993_Hentzel_RingsWith.pdf (258.04 KB)

Date

1993

Authors

Hentzel, Irvin

Jacobs, D. P.

Kleinfeld, Erwin

Authors

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Hentzel, Irvin

Professor Emeritus

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Mathematics

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Mathematics

Abstract

Albert is an interactive computer system for building nonassociative algebras [2]. In this paper, we suggest certain techniques for using Albert that allow one to posit and test hypotheses effectively. This process provides a fast way to achieve new results, and interacts nicely with traditional methods. We demonstrate the methodology by proving that any semiprime ring, having characteristic ≠ 2, 3, and satisfying the identities (a, b, c) - (a, c, b) = (a, [b, c], d) = 0, is associative. This generalizes a recent result by Y. Paul [7].

Comments

This is an Accepted Manuscript of an article published by Taylor & Francis as Hentzel, Irvin Roy, D. P. Jacobs, and Erwin Kleinfeld. "Rings with (a, b, c)=(a, c, b) and (a,[b, c] d)= 0: a case study using albert." International journal of computer mathematics 49, no. 1-2 (1993): 19-27. doi: 10.1080/00207169308804211. Posted with permission.

Copyright

Fri Jan 01 00:00:00 UTC 1993

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