| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kadison R.V., Ringrose J.R. — Fundamentals of the theory of operator algebras (vol. 1) Elementary Theory | 228 |
| Ìàíçîí Á.Ì. — Maple V power edition | 65 |
| Ueno K. — Algebraic Geometry. From varieties to schemes (vol. 1) | 4 |
| Bump D. — Algebraic Geometry | 5 |
| Artin E. — Geometric Algebra | 115 |
| Nathanson M.B. — Elementary methods in number theory | 30, 172, 218 |
| Eisenbud D., Harris J. — The Geometry of Schemes | 67 |
| Pommaret J.F. — Differential Galois Theory | 1B 2.15 |
| Bump D. — Algebraic Geometry and the Theory of Curves | 5 |
| Ribenboim P. — My numbers, my friends: popular lectures on number theory | 227, 259, 262, 264, 266 |
| Wedderburn J.H.M. — Lectures on Matrices | 154, 157 ff. |
| Dolgachev I. — Lectures on Invariant Theory | 42 |
| Eisenbud D. — Commutative algebra with a view toward algebraic geometry | 33, 71, 111, 137 |
| Becker T., Weispfenning V. — Groebner bases and commutative algebra | 393 |
| Kreuzer M., Robbiano L. — Computational commutative algebra 1 | 139 |
| Rudin W. — Real and Complex Analysis | 365 |
| Jacobson N. — Structure and Representations of Jordan Algebras | 192 |
| Katznelson Y. — Introduction to Harmonic Analysis | 207 |
| Freitaq — Several Complex Variables. Local Theory | 33 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 258, 267 |
| Katznelson Y. — Introduction to Harmonic Analysis | 222 |
| TeX82 program code documentation | 208, 265, 266, 1046, 1162 |
| Grillet P.A. — Abstract Algebra | 375 |
| Sepanski R.M. — Compact Lie Groups | 124 |
| Hazewinkel M. (ed.) — Handbook of Algebra, Volume 4 | 262 |
| Lorenz F., Levy S. — Algebra, Volume I: Fields and Galois Theory | see also “Solvable by radikals” |
| Parshin A.N., Shafarevich I.R. — Algebraic Geometry III : Complex Algebraic Varieties. Algebraic Curves and Their Jacobians | 11 |
| Blessenohl D., Schocker M. — Noncommutative Character Theory of the Symmetric Group | 72 |
| Hida H., Fulton W. (Ed) — Modular Forms and Galois Cohomology | 29 |
| Ueno K. — An Introduction to Algebraic Geometry (Translations of Mathematical Monographs) | 99 |
| Thomas Ch.B. — Representations of Finite and Lie Groups | 109 |
| Arveson W. — A Short Course on Spectral Theory | 27 |
| Johnson M., Jha W., Biliotti M. — Handbook of Finite Translation Planes | 768 |
| Hilton P.J., Stammbach U. — A course in homological algebra | 250 |
| Chou S.-C. — Mechanical Geometry Theorem Proving | 23, 26, 33, 49, 77 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 8 |
| Stenstroem B. — Ring of quotients. Introduction to methods of ring theory | 136 |
| Devlin K.J. — Language of Mathematics: Making the Invisible Visible | 196 |
| Lectures on invariant theory | 42 |
| Zung N.T. — Poisson Structures and their Normal Forms | 57 |
| Hunt B. — Geometry of Some Special Arithmetic Quotients | 133 |
| Parshin A.N., Shafarevich I.R. — Algebraic Geometry IV: Linear Algebraic Groups Invariant Theory | 28 |
| Ellis G. — Rings and Fields | 48 |
| Szkelyhidi L. — Discrete Spectral Synthesis and Its Applications | 3 |
| Roggenkamp K.W., Huber-Dyson V. — Lattices Over Orders I | I 35 |
| Catanese F. (Ed) — Global Aspects of Complex Geometry | 229 |
| Serre J.-P. — Local Algebra - Multiplicities | 3 |
| Mitsumi S., Sturmfels B., Takayama N. — Groebner Deformations of Hypergeometric Differential Equations, Algorithms and Computation in Mathematics, Volume 6 | 29 |
| Platonov V., Rapinchuk A. — Algebraic groups and number theory | 58 |
| Stewart I., Tall D. — Algebraic Number Theory and Fermat's Last Theorem | 265 |
| Rickart C.E. — General Theory of Banach Algebras | ($\S$2.3) 55—59, (3.1.8) 112 |
| Rudin W. — Functional analysis | 268 |
| Lang S. — Undergraduate Algebra | 171 |
| Cohen A.M., Cuypers H., Sterk H. — Some tapas of computer algebra | 38, 106 |
| Langmuir I. — Phenomena, Atoms and Molecules | 272 |
| Rudin W. — Real and complex analysis | 369 |
| Berger M., Pansu P., Berry J.-P. — Problems in Geometry | 13.C |
| Sheil-Small T. — Complex polynomials | 23 |
| Borel A. — Linear algebraic groups | 11.21 |
| Borceux F. — Handbook of Categorical Algebra 3 | 169 |
| Kadison R.V., Ringrose J.R. — Fundamentals of the Theory of Operator Algebras (vol. 2) Advanced Theory | 228 |
| Kemmer F.N. (ed.) — The NALCO Water Handbook | 3.5 |
| Kasner E., Newman J. — Mathematics and the Imagination | 16—18 |
| Alperin J.L., Bell R.B. — Groups and Representations, Vol. 0 | 131, 136 |
| Kirillov A.A. — Elements of the Theory of Representations | 25 |
| Koblitz N., Wu Y.-H., Menezes A.J. — Algebraic Aspects of Cryptography | 69, 111 |
| Lieberman M.A., Lichtenberg A.J. — Principles of Plasma Discharges and Materials Processing | 9—10, see also “Neutral radical density” |
| Char B.W. — First Leaves: A Tutorial Introduction to Maple V | 39 |
| Beachy J.A. — Abstract Algebra II | 107 |
| Sattinger D.H., Weaver O.L. — Lie groups and algebras with applications to physics, geometry, and mechanics | 27, 122 |
| Berger M., Cole M. (translator) — Geometry I (Universitext) | 13.9.1, 14.1.7, 18.2.1 |
| Radjavi H., Rosenthal P. — Simultaneous Triangularization | 11 |
| O'Donnell C.J. — Incidence Algebras | 187 |
| Artin E., Nesbitt C.J., Thrall R.M. — Rings with Minimum Condition | 17 |
| von Neumann J. — Continuous Geometry | 83 |
| Aigner M. — Combinatorial Theory | 150 |
| Abhyankar S.S. — Local Analytic Geometry | 1 |
| Springer T.A. — Linear Algebraic Groups | 112 |
| Stenstrom B. — Rings of quotients: an introduction to methods of ring theory | 136 |
| Hazewinkel M. — Handbook of Algebra (part 2) | 176, 618, 631, 700 |
| Nastasescu C., Oystaeyen F.V. — Dimensions of ring theory | 28 |
| Nagata M. — Field Theory | 117 |
| Olver P.J., Shakiban C. — Applied linear. algebra | 403 |
| Simmons G.F. — Introduction to topology and modern analysis | 314 |
| Phillips N.Ch. — Equivariant K-Theory and Freeness of Group Actions on C*-Algebras | 9, 144, 178—179 |
| Suzuki M. — Group Theory II | 29 |
| Mcmullen P., Schulte E. — Abstract Regular Polytopes | 298 |
| Gilmore R. — Lie Groups, Lie Algebras and Some of Their Applications | 225, 234, 235, 256, 258, 261 |
| Fried M.D., Jarden M. — Field Arithmetic | 173 |
| Rosenfeld B. — Geometry of Lie Groups | 37 |
| Conway J.B. — A Course in Functional Analysis | 225 |
| Mac Lane S., Birkhoff G.D. — Algebra | 582 |
| Koblitz N., Menezes A.J. (Contributor), Wu Y.-H. (Contributor) — Algebraic Aspects of Cryptography | 69, 111 |
| Cälugäreanu G., Hamburg P. — Exercises in Basic Ring Theory | 45 |
| Larsen R. — Banach algebras: An Introduction | 82 |
| Ya Helemskii A., West A. — Banach and locally convex algebras | 92 |
| Leverenz H.W. — An introduction to luminescence of solids | 13, 46, 70, 143, 144, 243 |
| Wakimoto M. — Infinite-Dimensional Lie Algebras | 16 |
| Tannenbaum A. — Invariance and System Theory: Algebraic and Geometric Aspects | 2, 97 |
| Naimark M.A., Stern A.I. — Theory of Group Representations | 383 |
| Eisenbud D., Harris J. — The geometry of schemes (textbook draft) | 67 |
| Milnor J., Husemoller D. — Symmetric Bilinear Forms | 68, 69, 95 |
| Goffman C., Pedrick G. — First course in functional analysis | 265 |
| Albert A.A. — Structure of algebras, | 23 |
| Hagen R., Roch S., Silbermann B. — Spectral Theory of Approximation Methods for Convolution Equations | 3 |
| United States NAVY — Mathematics, basic math and algebra (Navy course) | 73, 102 |
| Minoru Wakimoto — Infinite-Dimensional Lie Algebras | 16 |
| Rosenfeld A. — An introduction to algebraic structures | 269 |
| Przeworska-Rolewicz D., Rolewicz S. — Equations in linear spaces | 18 |
| Knus M.-A. — Quadratic and hermitian forms over rings | 86 |
| de Graaf W.A. — Lie Algebras: Theory and Algorithms | 307 |
| IItaka S. — Algebraic Geometry: An Introduction to Birational Geometry of Algebraic Varieties | 6 |
| Hausner M., Schwartz J.T. — Lie groups, Lie algebras | 160 |
| Borovik A.V. — Mathematics under the microscope | 11 |
| Bruck R.H. — A survey of binary systems | 82 |
| Gelbaum B.R. — Problems in Real and Complex Analysis | 6.4. 90, s 6.4. 368 |
| Zuo K. — Representations Of Fundamental Groups Of Algebraic Varieties | 11 |
| Loomis L.H. — An introduction to abstract harmonic analysis | 76 |
| Knus M.-A., Ojanguren M. — Theorie de la Descente et Aigebres d' Azumaya | 6 |
| Prestel A. — Lectures On Formally Real Fields | 17 |
| Kasner E., Newman J. — Mathematics and the imagination | 16—18 |
| Bachman G. — Elements of Abstract Harmonic Analysis | 56 |
| Geddes K., Czapor S., Labahn G. — Algorithms for computer algebra | 406, 420 |
| Fuch L. — Partially ordered algebraic systems | 202 |
| Howes N.R — Modern Analysis and Topology | 171 |
| Prössdorf S., Silbermann B. — Numerical analysis for integral and related operator equations | 20, 106 |
| Lange H., Birkenhake C. — Complex Tori | 25 |
| Gabriel P., Roiter A.V., Kostrikin A.I. (ed.) — Encyclopaedia of Mathematical Sciences. Volume 73: algebra VIII | 26 |
| Hille E., Phillips R.S. — Functional Analysis and Semi-Groups | 133, 699 |
| Hazewinkel M. — Handbook of Algebra (÷àñòü 1) | 769 |
| Albert A.A. — Structure of algebras | 23 |
| Pier J.-P. — Mathematical Analysis during the 20th Century | 180 |
| Gullberg J. — Mathematics: from the birth of numbers | 138 |
| Gohberg I., Goldberg S., Kaashoek M. — Classes of linear operators. (volume 2) | 828 |
| Mathiak K. — Valuations of Skew Fields and Projective Hjelmslev Spaces | 95 |
| Abhyankar S.S. — Lectures on Algebra Volume 1 | 108—109, 608 |
| Bell E.T. — Mathematics: Queen and Servant of Science | 91 |
| Sagle A. A. — Introduction to Lie groups and Lie algebras | 192, 207, 224, 233, 258 |
| Ross D. — Master Math: Basic Math and Pre-Algebra (Master Math Series) | 73, 102 |
| Keith Devlin — Mathematics: The New Golden Age | 101, 114 |
| Truss J.K. — Foundations of Mathematical Analysis | 188, 193 |
| Geddes K.O., Czapor S.R., Labahn G. — Algorithms for computer algebra | 406, 420 |
| Truss J. — Foundations of mathematical analysis | 188, 193 |
| J. K. Truss — Foundations of mathematical analysis MCet | 188, 193 |
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