| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Nagel R. — One-parameter semigroups of positive operators | 390 |
| Êîðìåí Ò., Ëåéçåðñîí ×., Ðèâåñò Ð. — Àëãîðèòìû: ïîñòðîåíèå è àíàëèç | 968 |
| Êîðìåí Ò., Ëåéçåðñîí ×., Ðèâåñò Ð. — Àëãîðèòìû: ïîñòðîåíèå è àíàëèç | 746 |
| Nevanlinna R., Paatero V. — Introduction to Complex Analysis | 29 |
| Rudin W. — Fourier Analysis on Groups | 252 |
| Eisenhart L.P. — Riemannian geometry | 243, 249 |
| Cotton F.A. — Chemical Applications of Group Theory | 7 |
| Grimaldi R.P. — Discrete and combinatorial mathematics. An introduction | 173, 777 |
| Dummit D.S., Foote R.M. — Abstract algebra | 17, 84, 158ff, 196, 339, 468 |
| Lang S. — Algebra | 4, 42, 79 |
| Nathanson M.B. — Elementary methods in number theory | 10 |
| Stanley R.P. — Enumerative Combinatorics: Volume 1 | 36 |
| Yale P.B. — Geometry and Symmetry | 4 |
| Apostol T.M. — Introduction to Analytic Number Theory | 129 |
| Polites G.W. — An Introduction to the Theory of Groups | 3 |
| Pommaret J.F. — Differential Galois Theory | 1B 1.3 |
| Cvitanovic P. — Group theory (Lie and other) | 16 |
| Majid S. — Foundations of Quantum Group Theory | 1, 13, 45, 50, 193, 266, 279, 416 |
| Miller E., Sturmfels B. — Combinatorial Commutative Algebra | 129, 149 |
| Silverman J.H. — The arithmetic of elliptic curves | 4, 55, 88, 131, 174, 197, 199, 323, 330, 333 |
| Bochner S., Martin W.T. — Several Complex Variables | 156 |
| Pareigis B. — Categories and functors | 4 |
| Graves L.M. — Theory of Functions of Real Variables | 24 |
| Hewitt E., Ross K.A. — Abstract Harmonic Analysis (Vol. 2) | see “Group” |
| Benson D. — Mathematics and music | 291 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 606 |
| Lee J.M. — Introduction to Topological Manifolds | 203, 353 |
| Opechowski W. — Crystallographic and metacrystallographic groups | 11 |
| Tarski A. — Undecidable theories | 19, 85 |
| Brin M., Stuck G. — Introdution to dynamical system | 87 |
| Rotman J.J. — An Introduction to the Theory of Groups | 13 |
| Artin M. — Algebra | 451 |
| Levine I.N. — Molecular Spectroscopy | 389, 392, 393, 406—407 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 18, 159ff, 317 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume III: Analysis | 521, 526 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume I: Foundations of Mathematics: The Real Number System and Algebra | 111n33, 168 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume II: Geometry | 11, 62, 619 |
| Small Ch.G. — Functional Equations and how to Solve Them | 88 |
| Grillet P.A. — Abstract Algebra | 11, 44—46, 99, 315, 405—408, 456, 492, 493, 495, 576 |
| Lorenz F., Levy S. — Algebra, Volume I: Fields and Galois Theory | 149 |
| Kaczynski T., Mischaikow K.M. — Computational Homology | 420 |
| Hedayat A.S., Sloane N.J.A., Stufken J. — Orthogonal Arrays: Theory and Applications | 113, 342 |
| Ash R.B. — Abstract algebra: the basic graduate year | 1.1 |
| Thomas Ch.B. — Representations of Finite and Lie Groups | 15, 26 |
| Dehn E. — Algebraic Equations | 115, 116, 117, 118, 172 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 226 |
| Shafarevich I.R., Kostrikin A.I. (ed.) — Basic Notions of Algebra | 35, 42, 43, 100, 155, 163, 170, 203, 213 |
| Dudley R.M., Fulton W. (Ed) — Real Analysis and Probability | 70—71 |
| Devlin K.J. — Language of Mathematics: Making the Invisible Visible | 194 |
| Enderton H.B. — Elements of set theory | 95, 122 |
| Coxeter H.S.M., Moser W.O.J. — Generators and Relations for Discrete Groups | 3, 4, 8 |
| Burris S., Sankappanavar H.P. — A Course in Universal Algebra | 26 |
| Connell E.H. — Elements of abstract and linear algebra | 20, 71 |
| Bradley C.J. — Challenges in Geometry: For Mathematical Olympians Past and Present | see “Elliptic curve” |
| Allouche J.-P., Shallit J. — Automatic Sequences: Theory, Applications, Generalizations | 56 |
| Shoup V.A. — Computational Introduction to Number Theory and Algebra | 180 |
| Szkelyhidi L. — Discrete Spectral Synthesis and Its Applications | ix—xiv, 8—11, 14, 16, 17, 19, 21—23, 25, 34—37, 49—52, 57—62, 69, 77, 94 |
| Alaca S., Williams K.S. — Introductory Algebraic Number Theory | 4,65 |
| Koblitz N. — A course in number theory and cryptography | 33 |
| Blyth T.S., Robertson E.F. — Basic Linear Algebra | 69 |
| Marcus M., Rosen J. — Markov Processes, Gaussian Processes and Local Times | 235 |
| James G., Liebeck M.W. — Representations and Characters of Groups | 3, 11, 81, 82 |
| Schmidt O.Yu. — Abstract theory of groups | 10, 90 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis II: Integration | 169 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis I(Cambridge Studies in Advanced Mathematics #86), Vol. 1 | 169 |
| Kurosh A.G. — Theory of Groups (vol 1) | 30 |
| Finch S.R. — Mathematical constants | 114, 191, 273 |
| Geroch R. — Mathematical physics | 17 |
| Cohen H.A. — A Course in Computational Algebraic Number Theory | 66 |
| Jones J.A., Jones J.M. — Elementary Number Theory | 97, 243 |
| Chaikin P.M., Lubensky T.C. — Principles of condensed matter physics | 505 |
| Hinton H. — An introduction to the theory of groups of finite order | 51 |
| Goutsias J., Vincent L., Bloomberg D.S. — Mathematical morphology and its applications to image signal processing | 14, 140, 151 |
| Ziman J.M. — Elements of Advanced Quantum Theory | 236, 242, 256 |
| Lang S. — Undergraduate Algebra | 17, 67 |
| Ross Sh.M. — Topics in Finite and Discrete Mathematics | 240 |
| Kurth R. — Dimensional analysis and group theory in astrophysics | 140 |
| Stephani H., MacCallum M. (ed.) — Differential equations: Their solution using symmetries | 50 |
| Altmann S.L. — Band Theory of Solids: An Introduction from the Point of View of Symmetry | 42 |
| Cantwell B.J., Crighton D.G. (Ed), Ablowitz M.J. (Ed) — Introduction to Symmetry Analysis | 9, 10, 123, 124 |
| Dickson L.E. — Linear Groups with an Exposition of Galois Field Theory | 89, 110, 115, 117, 151, 179, 200, 201, 299, 309 |
| Veblen O., Young J.W. — Projective Geometry. Vol 1 | 67 |
| Mukhi S., Mukunda N. — Introduction to Topology, Differential Geometry and Group Theory for Physicists | 23, 60, 81 |
| Kolman B., Busby R.C., Cutler S.C. — Discrete Mathematical Structures | 339 |
| Kushilevitz E., Nisan N. — Communication Complexity | 163 |
| Simon B. — Representations of Finite and Compact Groups | 1, 65 |
| Stephani H. — Relativity: an introduction to special and general relativity | 286 |
| von zur Gathen J., Gerhard J. — Modern computer algebra | 668 |
| Tung W.K. — Group Theory in Physics: An Introduction to Symmetry Principles, Group Representations, and Special Functions | 13 |
| Bourbaki N. — Algebra I: Chapters 1-3 | I, § 4, no. 2 |
| Lopuzanski J. — An introduction to symmetry and supersymmetry in quantum field theory | 222 |
| Suzuki M. — Group Theory I | 6, 144 |
| Chung F.R.K. — Spectral Graph Theory | 136 |
| Alperin J.L., Bell R.B. — Groups and Representations, Vol. 0 | 2 |
| Kirillov A.A. — Elements of the Theory of Representations | 12 |
| O'Raifeartaigh L. — Group Structure of Gauge Theories | 4 |
| Koblitz N., Wu Y.-H., Menezes A.J. — Algebraic Aspects of Cryptography | 56 |
| Berger M., Cole M. (translator) — Geometry I (Universitext) | 1.4.4.1, 8.3.3 |
| Hu S.-T. — Elements of real analysis | 40 |
| McCoy N.H. — Rings and ideals | 10 |
| Tignol J.-P. — Galois' Theory of Algebraic Equations | 242 |
| Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 43 |
| Littlewood D.E. — The Theory of Group Characters and Matrix Representations of Groups | 32 |
| Granas A., Dugundji J. — Fixed Point Theory | 608 |
| Martin J.Buerger — Elementary Crystallography | 481 |
| Desloge E.A. — Classical Mechanics. Volume 1 | 950 |
| Fine B., Rosenberger G. — Fundamental Theorem of Algebra | 5, 154-159 |
| Perkins D.H. — Particle Astrophysics | 78 |
| Hazewinkel M. — Handbook of Algebra (part 2) | 669 |
| Eisenhart L.P. — Continuous groups of transformations | 48—50, 86, 88, 113, 137, 166, 160, 162, 183, 184, 192, 218—220, 227 |
| Pitkethly J., Davey B.A. — Dualisability: Unary Algebras and Beyond | (see Group) |
| Fuhrmann P.A. — A Polynomial Approach to Linear Algebra | 3 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 43 |
| Steeb W.- H. — Problems and Solutions in Introductory and Advanced Matrix Calculus | 199 |
| Suzuki M. — Group Theory II | 144 |
| Gilmore R. — Lie Groups, Lie Algebras and Some of Their Applications | 3, 5, 83, 95, 118, 225 |
| Jonsson B. — Topics in Universal Algebra | 19 |
| Mac Lane S., Birkhoff G.D. — Algebra | 50, 160, 162, 387, 416 |
| Anderson G.A., Granas A. — Fixed Point Theory | 608 |
| Auletta G. — Foundations and Interpretation of Quantum Mechanics | 61 |
| Kurosh A. — Higher Algebra | 383, 385 —387 |
| Behrens E.-A. — Ring Theory: Volume 44 in Pure and Applied Mathematics | 3 |
| Koblitz N., Menezes A.J. (Contributor), Wu Y.-H. (Contributor) — Algebraic Aspects of Cryptography | 56 |
| Hungerford T.W. — Algebra | 24, 70ff, 76ff |
| Curtis M.L. — Abstract Linear Algebra | 2 |
| Nash C. — Differential Topology and Quantum Field Theory | 170, 185 |
| Margenau H., Murphy G.M. — The mathematics of physics and chemistry | 546 |
| Carmeli M. — Classical Fields: General Gravity and Gauge Theory | 560 |
| Moh T.T. — Algebra | 74 |
| Cheng T.-P., Li L.-F. — Gauge Theory of Elementary Particle Physics | 86, 128-9 (see also U(1)) |
| Steeb W., Hardy Y. — Problems and Solutions in Quantum Computing and Quantum Information | 78 |
| Greub W.H. — Linear Algebra | 2 |
| Grenander U. — Toeplitz Forms and Their Applications | 167 |
| Efimov A.V. — Mathematical analysis: advanced topics. Part 2. Application of some methods of mathematical and functional analysis | 153 |
| Grosche C. — Path integrals, hyperbolic spaces, and Selberg trace formulae | 194 |
| Nouredine Z. — Quantum Mechanics: Concepts and Applications | 79, 378 |
| Seymour L. — Schaum's Outline of Theory and Problems of Discrete Math | 371 |
| Wigner E.P. — Group Theory and Its Applicaion to the Quantum Mechanics of Atomic Spectra | see Group(s) |
| Kuratowski K. — Topology. Volume II | 385 |
| Hermann R. — Differential geometry and the calculus of variations | 180 |
| Hu S.T. — Introduction to general topology | 194 |
| Hu S.-T. — Introduction to contemporary mathematics | 106 |
| Przeworska-Rolewicz D., Rolewicz S. — Equations in linear spaces | 16 |
| W. Burnside — Theory of Groups of Finite Order | 24 |
| Kinsey L.C. — Topology of surfaces | 247 |
| Liu C.L. — Introduction to combinatorial mathematics | 191 |
| Choquet-Bruhat Y., DeWitt-Morette C., Dillard-Bleick M. — Analysis, manifolds and physics. Part I. | 7 |
| Archbold J.W. — Introduction to the Algebraic Geometry of a Plane | 34 |
| Birkhoff G., Mac Lane S. — A Survey of Modern Algebra | 133 |
| Chang C.C., Keisler H.J., Troelstra A.S. — Model Theory | 40 |
| Ross G. — Grand Unified Theories | 32 |
| Kuratowski K. — Introduction To Set Theory & Topology | 244 |
| Greub W.H. — Linear Algebra | 2 |
| Copeland A.H. — Geometry, algebra, and trigonometry by vector methods | 29, 221 |
| Verdina J. — Projective Geometry and Point Tranformations | 5 |
| Chaikin P., Lubensky T. — Principles of condensed matter physics | 505 |
| Leeuwen J.V. — Handbook of Theoretical Computer Science: Algorithms and Complexity | 685, 697 |
| Stinson D.R. — Cryptography: Theory and practice | 4 |
| Bourgain J. — New Classes of Lp-Spaces | 7, 8 |
| Iverson K.E. — A Programming Language | 69 |
| Hewitt E., Stromberg K. — Real and abstract analysis: a modern treatment of the theory of functions of a real variable | 32 |
| Howie J.M. — Fields and Galois Theory | 3, 149 |
| Moskowitz M.A. — Adventures in mathematics | 47 |
| Moh T.T. — Algebra | 74 |
| Leeuwen J. (ed.), Meyer A.R., Nivat M. — Algorithms and Complexity, Volume A | 685,697 |
| Mathews J., Walker R.L. — Mathematical methods of physics | 425 |
| Hsiung C.-C. — A first course in differential geometry | 24 |
| Gries D. — A Logical Approach to Discrete Math | 397 |
| Bryant R., O'Hallaron D.R. — Computer Systems: A Programmer's Perspective | 68 |
| Lane S.M. — Mathematics, form and function | 23 |
| Boerner H. — Representations of Groups | 26 |
| Dunford N., Schwartz J., Bade W.G. — Linear operators. Part 2 | (34) |
| Howes N.R — Modern Analysis and Topology | 273 |
| Weil A. — Number theory for beginners | 17 |
| Lipschutz S., Lipson M.L. — Schaum's outline of theory and problems of discrete mathematics | 371 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of mathematics. Volume III. Analysis | 521, 526 |
| Partee B.H., Meulen A.T., Wall R.E. — Mathematical Methods in Linguistics | 257, 266, 312, 607 |
| Greiner W. — Relativistic quantum mechanics. Wave equations | 399 |
| Karpilovsky G. — The Jacobson radical of classical rings | 182 |
| Schiff L.I. — Quantum Mechanics | 192 |
| Dieudonne J. — Linear Algebra and Geometry. | 1.2 |
| Adler S.L. — Quaternionic Quantum Mechanics and Quantum Fields | 90—91, 99—100 |
| Herstein I.N. — Topics in algebra | 28 |
| Zeidler E. — Oxford User's Guide to Mathematics | 663 |
| Grimaldi R.P., Rothman D.J. — Discrete and Combinatorial Mathematics: An Applied Introduction | 161, 745, 746, 799 |
| Collatz L. — Functional analysis and numerical mathematics | 27 |
| Hadlock C.R. — Field theory and its classical problems | 138 |
| Gullberg J. — Mathematics: from the birth of numbers | 132 |
| Childs L. — A concrete introduction to higher algebra | 92 |
| Geroch R. — Mathematical physics | 17 |
| Elliott Mendelson — Introduction to mathematical logic | 82 |
| Dunford N., Schwartz J.T., Bade W.G. — Linear Operators, Part II: Spectral Theory. Self Adjoint Operators in Hilbert Space (Pure and Applied Mathematics: A Series of Texts and Monographs) | 34 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 83 |
| Morii T., Lim C., Mukherjee S. — The physics of the standard model and beyond | 269 |
| Geroch R. — Mathematical physics | 17 |
| Maclane S. — Homology | 10 |
| Sexl R., Urbantke H.K. — Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 49 |
| Andrews P.B. — An Introduction to Mathematical Logic and Type Theory: To Truth Through Proof | 52, 70, 124 |
| Gill A. — Applied Algebra for the Computer Sciences | 271 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 43 |
| Kolman B., Busby R.C., Ross S. — Discrete Mathematical Structures | 349 |
| Rautenberg W. — A Concise Introduction to Mathematical Logic (Universitext) | 38 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, manifolds and physics | 7 |
| Moiseiwitsch B.L. — Integral Equations | 80 |
| Mathews J., Walker R.L. — Mathematical Methods of Physics | 425 |
| Mac Lane S. — Mathematics: Form and Function | 23 |
| Grimaldi R.P. — Student Solutions Manual for Discrete and Combinatorial Mathematics | 161, 745, 746, 799 |
| Geroch R. — Mathematical physics | 17 |
| Keith Devlin — Mathematics: The New Golden Age | 112 |
| Klein E. — Mathematical methods in theoretical economics | see "Commutative group" |
| Truss J.K. — Foundations of Mathematical Analysis | 38 |
| Knuth D.E. — Selected papers on discrete mathematics | 6, 8 |
| Lindstrum A.O. — Abstract algebra | 57 |
| D'Angelo J.P. — Inequalities from Complex Analysis (Carus Mathematical Monographs) | 248 |
| Truss J. — Foundations of mathematical analysis | 38 |
| J. K. Truss — Foundations of mathematical analysis MCet | 38 |
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