Rings and Categories of Modules
Springer Science & Business Media, Sep 10, 1992 - Mathematics - 376 pages
This book is intended to provide a reasonably self-contained account of a major portion of the general theory of rings and modules suitable as a text for introductory and more advanced graduate courses. We assume the famil iarity with rings usually acquired in standard undergraduate algebra courses. Our general approach is categorical rather than arithmetical. The continuing theme of the text is the study of the relationship between the one-sided ideal structure that a ring may possess and the behavior of its categories of modules. Following a brief outline of set-theoretic and categorical foundations, the text begins with the basic definitions and properties of rings, modules and homomorphisms and ranges through comprehensive treatments of direct sums, finiteness conditions, the Wedderburn-Artin Theorem, the Jacobson radical, the hom and tensor functions, Morita equivalence and duality, de composition theory of injective and projective modules, and semi perfect and perfect rings. In this second edition we have included a chapter containing many of the classical results on artinian rings that have hdped to form the foundation for much of the contemporary research on the representation theory of artinian rings and finite dimensional algebras. Both to illustrate the text and to extend it we have included a substantial number of exercises covering a wide spectrum of difficulty. There are, of course" many important areas of ring and module theory that the text does not touch upon.
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abelian group algebra annihilator artinian ring bimodule characterization commutative complements direct summands complements maximal composition series Corollary decomposition that complements denote diagram direct sum direct summand division ring dual element End(RM endomorphism ring epic epimorphism exact sequence Exercise exists factor module faithful finitely cogenerated finitely generated projective following are equivalent full subcategory Hint HomR(M idempotents implies indecomposable decomposition indexed set injective envelope injective modules inverse Kerf lattice left ideal left noetherian Lemma matrices maximal submodule minimal module RR monic monomorphism Morita duality morphism multiplication natural isomorphism nilpotent orthogonal primitive idempotents primitive ring projective cover projective module Proof Proposition Prove quasi-regular R-homomorphism right artinian right modules ring and let ring homomorphism semiperfect ring semisimple modules semisimple ring serial ring simple left R-module simple modules split subring subset Suppose Theorem unique vector space