| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kedlaya K.S., Poonen B., Vakil R. — The William Lowell Putnam Mathematical Competition 1985–2000: Problems, Solutions, and Commentary | 107 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 368.B |
| Grimaldi R.P. — Discrete and combinatorial mathematics. An introduction | 706, 711, 837—839, 850 |
| Dummit D.S., Foote R.M. — Abstract algebra | 228, 235 |
| Lang S. — Algebra | 91 |
| Nathanson M.B. — Elementary methods in number theory | 174 |
| Cohn H. — Advanced Number Theory | 47 |
| Dodge C.W. — Sets, logic & numbers | 205 |
| Brown W.C. — Matrices over communicative rings | 2 |
| Pommaret J.F. — Differential Galois Theory | IB 2.4 |
| Schenck H. — Computational algebraic geometry | 165 |
| Barbeau E.J. — Polynomials: a problem book | 37 |
| Kodaira K. — Complex manifolds and deformation of complex structures | 15 |
| Mishra B. — Algorithmic algebra | 29 |
| Lueneburg H. — Tools and fundamental constructions of combinatorial mathematics | 136, 131, 138, 143 |
| Miller E., Sturmfels B. — Combinatorial Commutative Algebra | 131 |
| Becker T., Weispfenning V. — Groebner bases and commutative algebra | 20 |
| Kreuzer M., Robbiano L. — Computational commutative algebra 1 | 18 |
| Pareigis B. — Categories and functors | 115, 148 |
| Reid M. — Undergraduate commutative algebra | 2, 99 |
| Ahlfors L.V. — Complex analysis | 4 |
| Tarski A. — Undecidable theories | 70f. |
| Artin M. — Algebra | 368 |
| Dodge C.W. — Foundations of algebra and analysis | 205 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 229, 235, 255, 256, 264, 265, 282 |
| Lawvere F.W., Rosebrugh R. — Sets for Mathematics | 216 |
| Walker R.J. — Algebraic Curves | see domain |
| Ash R.B. — Abstract algebra: the basic graduate year | 2.1 |
| Johnstone P. — Stone Spaces | V 3.11 203 |
| Ueno K. — An Introduction to Algebraic Geometry (Translations of Mathematical Monographs) | 226 |
| Kempf G.R. — Algebraic Varieties | 16 |
| Shafarevich I.R., Kostrikin A.I. (ed.) — Basic Notions of Algebra | 19 |
| Devlin K.J. — Language of Mathematics: Making the Invisible Visible | 73 |
| Lam T.Y. — A first course in noncommutative ring theory | 3 |
| Enderton H.B. — Elements of set theory | 97, 122 |
| Surowski D. — Workbook in higher algebra | 75 |
| Ellis G. — Rings and Fields | 2 |
| Shoup V.A. — Computational Introduction to Number Theory and Algebra | 215 |
| Krantz S.G. — Function Theory of Several Complex Variables | 275 |
| Swallow J. — Exploratory Galois Theory | 10 |
| Alaca S., Williams K.S. — Introductory Algebraic Number Theory | 1 |
| Roggenkamp K.W., Huber-Dyson V. — Lattices Over Orders I | I 43 |
| Zoladek H. — Monodromy Group | 446 |
| Ratcliffe J.G. — Foundations of Hyperbolic Manifolds | 322 |
| Humphreys J.F., Prest M.Y. — Numbers, Groups and Codes | 192,194,196 |
| Cohen H.A. — A Course in Computational Algebraic Number Theory | 114 |
| Jones J.A., Jones J.M. — Elementary Number Theory | 196 |
| Stewart I., Tall D. — Algebraic Number Theory and Fermat's Last Theorem | 10 |
| Polya G. — Problems and Theorems in Analysis: Theory of Functions. Zeros. Polynomials. Determinants. Number Theory. Geometry | 143 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 368.B |
| Cohn P.M. — Skew Fields : Theory of General Division Rings (Encyclopedia of Mathematics and its Applications) | 8 |
| Gruenberg K.W. — Linear Geometry | 155, 160 |
| von zur Gathen J., Gerhard J. — Modern computer algebra | 670, 671—675 |
| Bourbaki N. — Algebra I: Chapters 1-3 | I, § 9, no. 2 |
| Smith L., Meyer D.M. — Poincare Duality Algebras, Macaulay's Dual Systems, and Steenrod Operations | 147 |
| Koblitz N., Wu Y.-H., Menezes A.J. — Algebraic Aspects of Cryptography | 65 |
| Beachy J.A. — Abstract Algebra II | xi |
| Froberg R. — An Introduction to Grobner Bases | 5 |
| McCoy N.H. — Rings and ideals | 15 |
| Stetter H. J. — Numerical polynomial algebra | 13 |
| O'Donnell C.J. — Incidence Algebras | 120, 174, 187, 240, 243, 249 |
| Abhyankar S.S. — Local Analytic Geometry | 1 |
| Fine B., Rosenberger G. — Fundamental Theorem of Algebra | 22 |
| D'Angelo J.P., West D.B. — Mathematical Thinking: Problem-Solving and Proofs | 133 |
| Jacobson N. — Lectures in Abstract Algebra, Vol. 1 | 53 |
| Fuhrmann P.A. — A Polynomial Approach to Linear Algebra | 21 |
| Nagata M. — Field Theory | 24 |
| Mac Lane S., Birkhoff G.D. — Algebra | 99, 113, 120 |
| Kaye R. — Models of Peano Arithmetic | 21 |
| Koblitz N., Menezes A.J. (Contributor), Wu Y.-H. (Contributor) — Algebraic Aspects of Cryptography | 65 |
| Hungerford T.W. — Algebra | 116 |
| Curtis M.L. — Abstract Linear Algebra | 85 |
| Karpilovsky G. — Unit groups of classical rings | 3 |
| Moh T.T. — Algebra | 106 |
| Bhaskara Rao K.P.S. — Theory of generalized inverses over commutative rings | 2 |
| Beaumont R.A., Pierce R.S. — The Algebraic Foundations of Mathematics | 121 |
| Cox D.A., Little J., O'Shea D. — Using Algebraic Geometry | 136 |
| Seymour L. — Schaum's Outline of Theory and Problems of Discrete Math | 376 |
| Adams P.W., Smith K., Výborný D. — Introduction to Mathematics with Maple | 174 |
| Hu S.-T. — Introduction to contemporary mathematics | 113 |
| McCoy N.H. — The theory of rings | 5 |
| Beth E.W. — The foundations of mathematics: A study in the philosophy of science | 136, 138, 649f. |
| Birkhoff G., Mac Lane S. — A Survey of Modern Algebra | 3 |
| Chang C.C., Keisler H.J., Troelstra A.S. — Model Theory | 41 |
| Marathe K.B., Martucci G. — The mathematical foundations of gauge theories | 309 |
| Johnstone P.T. — Topos Theory | 215 |
| Cohen L.W., Ehrlich G. — The Structure of the Real Number System | 53 |
| Howie J.M. — Fields and Galois Theory | 2 |
| Moh T.T. — Algebra | 106 |
| Gries D. — A Logical Approach to Discrete Math | 303 |
| Northcott D. G. — An introduction to homological algebra | 176 |
| Lane S.M. — Mathematics, form and function | 215 |
| Dauns J. — A Concrete Approach to Division Rings | 345 |
| Hinman P.G. — Fundamentals of Mathematical Logic | 137, 261, 447 |
| Lipschutz S., Lipson M.L. — Schaum's outline of theory and problems of discrete mathematics | 376 |
| Gruenberg K.W., Weir A.J. — Linear Geometry | 155 (exx. 1, 3), 160 |
| Cox D., Little J., O'Shea D. — Ideals, varieties, and algorithms | see "Ring, integral domain" |
| Partee B.H., Meulen A.T., Wall R.E. — Mathematical Methods in Linguistics | 266—272, 275, 276, 312, 313 |
| Herstein I.N. — Topics in algebra | 126 |
| Blomberg H.( ed.) — Algebraic theory for multivariable linear systems, Volume 166 | 13, 84, 304 |
| Zeidler E. — Oxford User's Guide to Mathematics | 393, 669 |
| Grimaldi R.P., Rothman D.J. — Discrete and Combinatorial Mathematics: An Applied Introduction | 677, 678, 681, 682, 801, 802 |
| Hodge W.V.D., Pedoe D. — Methods of Algebraic Geometry: Volume 1 | 13 |
| Northcott D.G. — Ideal theory | 25 |
| Fritzsche K., Grauert H. — From Holomorphic Functions To Complex Manifolds | 113 |
| Sachkov V.N. — Combinatorial methods in discrete mathematics | 106 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 82, 155 |
| Bell E.T. — Mathematics: Queen and Servant of Science | 72 |
| Gill A. — Applied Algebra for the Computer Sciences | 99, 289 |
| Rautenberg W. — A Concise Introduction to Mathematical Logic (Universitext) | 38 |
| Golan J.S. — The Linear Algebra a Beginning Graduate Student Ought to Know (Texts in the Mathematical Sciences) | 10 |
| Grimaldi R.P. — Student Solutions Manual for Discrete and Combinatorial Mathematics | 677, 678, 681, 682, 801, 802 |
| D'Angelo J.P., West D.B. — Mathematical thinking: problem-solving and proofs | 133 |
| Keith Devlin — Mathematics: The New Golden Age | 34 |
| Larson L.C. — Problem Solving Through Problems | 4.4.11 |
| Klein E. — Mathematical methods in theoretical economics | 148 |
| Truss J.K. — Foundations of Mathematical Analysis | 50, 64, 205 |
| Geddes K.O., Czapor S.R., Labahn G. — Algorithms for computer algebra | 24 |
| Lindstrum A.O. — Abstract algebra | 95 |
| Truss J. — Foundations of mathematical analysis | 50, 64, 205 |
| J. K. Truss — Foundations of mathematical analysis MCet | 50, 64, 205 |
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