| Dewey Class |
512 |
| Title |
A First Course in Noncommutative Rings ([EBook]) / by T. Y. Lam. |
| Author |
Lam, T. Y. (Tsit-Yuen) |
| Other name(s) |
SpringerLink (Online service) |
| Publication |
New York, NY : Springer , 1991. |
| Physical Details |
XV, 397 pages : online resource. |
| Series |
Graduate texts in mathematics 0072-5285 ; ; 131 |
| ISBN |
9781468404067 |
| Summary Note |
One of my favorite graduate courses at Berkeley is Math 251, a one-semester course in ring theory offered to second-year level graduate students. I taught this course in the Fall of 1983, and more recently in the Spring of 1990, both times focusing on the theory of noncommutative rings. This book is an outgrowth of my lectures in these two courses, and is intended for use by instructors and graduate students in a similar one-semester course in basic ring theory. Ring theory is a subject of central importance in algebra. Historically, some of the major discoveries in ring theory have helped shape the course of development of modern abstract algebra. Today, ring theory is a fer tile meeting ground for group theory (group rings), representation theory (modules), functional analysis (operator algebras), Lie theory (enveloping algebras), algebraic geometry (finitely generated algebras, differential op erators, invariant theory), arithmetic (orders, Brauer groups), universal algebra (varieties of rings), and homological algebra (cohomology of rings, projective modules, Grothendieck and higher K-groups). In view of these basic connections between ring theory and other branches of mathemat ics, it is perhaps no exaggeration to say that a course in ring theory is an indispensable part of the education for any fledgling algebraist. The purpose of my lectures was to give a general introduction to the theory of rings, building on what the students have learned from a stan dard first-year graduate course in abstract algebra.: |
| Contents note |
1. Wedderburn-Artin Theory -- §1. Basic terminology and examples -- §2. Semisimplicity -- §3. Structure of semisimple rings -- 2. Jacobson Radical Theory -- §4. The Jacobson radical -- §5. Jacobson radical under change of rings -- §6. Group rings and the J-semisimplicity problem -- 3. Introduction to Representation Theory -- §7. Modules over finite-dimensional algebras -- §8. Representations of groups -- §9. Linear groups -- 4. Prime and Primitive Rings -- §10. The prime radical; prime and semiprime rings -- §11. Structure of primitive rings; the Density Theorem -- §12. Subdirect products and commutativity theorems -- 5. Introduction to Division Rings -- §13. Division rings -- §14. Some classical constructions -- §15. Tensor products and maximal subfields -- §16. Polynomials over division rings -- 6. Ordered Structures in Rings -- §17. Orderings and preorderings in rings -- §18. Ordered division rings -- 7. Local Rings, Semilocal Rings, and Idempotents -- §19. Local rings -- §20. Semilocal rings -- §21. The theory of idempotents -- §22. Central idempotents and block decompositions -- 8. Perfect and Semiperfect Rings -- §23. Perfect and semiperfect rings -- §24. Homological characterizations of perfect and semiperfect rings -- §25. Principal indecomposables and basic rings -- References -- Name Index. |
| System details note |
Online access to this digital book is restricted to subscription institutions through IP address (only for SISSA internal users) |
| Internet Site |
http://dx.doi.org/10.1007/978-1-4684-0406-7 |
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