| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kedlaya K.S., Poonen B., Vakil R. — The William Lowell Putnam Mathematical Competition 1985–2000: Problems, Solutions, and Commentary | 259 |
| Nevanlinna R., Paatero V. — Introduction to Complex Analysis | 167 |
| Abramowitz M., Stegun I. (eds.) — Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Table | 635 |
| Henrici P. — Applied and Computational Complex Analysis. I: Power Series, Integration, Conformal Mapping, Location of Zeros. | 209, 224, 226, 369, 370, 381, 559 |
| Goldschmidt D.M. — Algebraic Functions and Projective Curves | 22, 64 |
| Press W.H., Teukolsky S.A., Vetterling W.T. — Numerical recipes in FORTRAN77 | 566 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 339.A |
| Abramowitz M., Stegun I. — Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables | 635 |
| Dummit D.S., Foote R.M. — Abstract algebra | see “Formal Laurent series” |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 1) | 378 |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 2) | 378 |
| Allen R.L., Mills D.W. — Signal analysis. Time, frequency, scale and structure | 72, 557—558 |
| Mauch S. — Introduction to Methods of Applied Mathematics or Advanced Mathematical Methods for Scientists and Engineers | 337, 1368 |
| Hayek S.I. — Advanced mathematical methods in science and engineering | 222 |
| Schenck H. — Computational algebraic geometry | 181, 134 |
| Miller E., Sturmfels B. — Combinatorial Commutative Algebra | 153, 154—155, 163 |
| Eisenbud D. — Commutative algebra with a view toward algebraic geometry | 295 |
| Silverman J.H. — The arithmetic of elliptic curves | 110, 113, 157 |
| Bini D., Pan V.Y. — Polynomial and matrix computations. Fundamental algorithms. Vol.1 | 260 |
| Lightstone A.H., Robinson A. — Nonarchimedean Fields and Asymptotic Expansions | 15 |
| Henrici P. — Applied and Computational Complex Analysis (Vol. 2) | 12, 45, 70, 117, 118, 147, 368, 369, 370, 566 |
| Henrici P. — Applied and Computational Complex Analysis (Vol. 3) | 31, 36, 114, 180, 185, 190, 192, 471, 572, 585 |
| Bochner S., Martin W.T. — Several Complex Variables | 90 |
| Rudin W. — Real and Complex Analysis | 266 |
| Georgescu A. — Asymptotic Treatment of Differential Equations | 43 |
| Axler S., Bourdon p., Ramey W. — Harmonic function theory | 193, 209 |
| Miranda R. — Graduate studies in mathematics (vol.5). Algebraic curves and Riemann surfaces | 25 |
| Conte R. — Painleve Property: One Century Later | 77, 83, 84 |
| Weinberger H.F. — First course in partial defferential equations with complex variables and transform methods | 278—281 |
| Ward R.S., Wells R.O. — Twistor geometry and field theory | 91, 191—193, 315, 316, 400 |
| Ahlfors L.V. — Complex analysis | 182—184 |
| Sadd M.H. — Elasticity: theory, applications, and numerics | 249 |
| Polya G., Latta G. — Complex Variables | 195 |
| Dwork B., Gerotto G., Sullivan F.J. — An Introduction to G-Functions | 46 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 238 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume III: Analysis | 229, 236 |
| Grillet P.A. — Abstract Algebra | 131, 131—133, 245, 254 |
| Kirwan F. — Complex algebraic curves | 112 |
| Friedlander E.M. (ed.), Grayson D.R. (ed.) — Handbook of K-Theory | 121 |
| Le Bruyn L. — Noncommutative geometry | 336 |
| Ash R.B. — Abstract algebra: the basic graduate year | 7.9 |
| Borwein P., Choi S., Rooney B. — The Riemann Hypothesis | 17 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 410, 412 |
| Shafarevich I.R., Kostrikin A.I. (ed.) — Basic Notions of Algebra | 16, 21, 57, 59 |
| Thomas A.D. — Zeta-functions | 1!,36 |
| Hensley D. — Continued Fractions | 225 |
| Vein R., Dale P. — Determinants and their applications in mathematical physics | 335 |
| Allouche J.-P., Shallit J. — Automatic Sequences: Theory, Applications, Generalizations | 359 |
| Comtet L. — Advanced Combinatorics. The Art of Finite and Infinate Expansions | 43 |
| Tarkhanov N.N. — Cauchy Problem for Solutions of Elliptic Equations | 142, 293 |
| Ablowitz M.J., Fokas A.S. — Complex Variables: Introduction and Applications | 121, 127, 196 |
| Borwein J., Bailey D., Girgensohn R. — Experimentation in Mathematics: Computational Paths to Discovery | 275 |
| Jones J.A., Jones J.M. — Elementary Number Theory | 248 |
| Bamberg P.G. — A Course in Mathematics for Students of Physics, Vol. 2 | 743 |
| Cohn P.M. — Algebraic numbers and algebraic functions | 30 |
| Polya G. — Problems and Theorems in Analysis: Theory of Functions. Zeros. Polynomials. Determinants. Number Theory. Geometry | 343 |
| Mann S. — Intelligent image processing | 138 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 339.A |
| Cohn P.M. — Skew Fields : Theory of General Division Rings (Encyclopedia of Mathematics and its Applications) | 45, 66 |
| Ablowitz M.J., Segur H. — Solitons and the Inverse Scattering Transform | 241, 243, 247 |
| Rudin W. — Real and complex analysis | 230 |
| Dieudonne J. — Foundation of Modern Analysis | 9.14 |
| Kato G., Struppa D.C. — Fundamentals of algebraic microlocal analysis | 18, 200 |
| Greenberg M.D. — Advanced engineering mathematics | 1225 |
| Gong S., Gong Y. — Concise Complex Analysis | 86 |
| Tabor M. — Chaos and Integrability in Nonlinear Dynamics: An Introduction | 329—330 |
| Char B.W. — First Leaves: A Tutorial Introduction to Maple V | 45 |
| Draxl P.K. — Skew fields | 5 |
| Bak J., Newman D.J. — Complex Analysis | 107 |
| Abhyankar S.S. — Local Analytic Geometry | 17 |
| Wong K. — Asymptotic Approximations of Integrals | 270 |
| Pinsky M.A. — Introduction to Fourier Analysis and Wavelets | 5 |
| Antia H.M. — Numerical Methods for Scientists and Engineers | 211 |
| Faraut J., Korányi A. — Analysis on symmetric cones | 249 |
| Greiner W. — Classical electrodynamics | 110 |
| Clemens C.H. — Scrapbook of Complex Curve Theory | 86, 88 |
| Kreyszig E. — Advanced engineering mathematics | 701, 712 |
| Steeb W.-H. — Problems and Solutions in theoretical and mathematical physics. Volume 1. Introductory level | 170, 227 |
| Lemmermeyer F. — Reciprocity Laws: From Euler to Eisenstein | 247 |
| Saxe K. — Beginning functional analysis | 105 |
| Dieudonne J. — Foundation of Modern Analysis | 9.14 |
| Conte R. — The Painlevé property: One century later | 77, 83, 84 |
| Margenau H., Murphy G.M. — The mathematics of physics and chemistry | 92 |
| Bayin S.S. — Mathematical Methods in Science and Engineering | 341 |
| Drmota M., Tichy R.F. — Sequences, Discrepancies and Applications | 385 |
| Rektorys K. — Survey of applicable mathematics | 958-61 |
| Grenander U. — Toeplitz Forms and Their Applications | 62 |
| Kaplan W. — Introduction to analytic functions | 88—121, 184—189 |
| Akhmediev N., Ankiewicz A. — Dissipative Solitons | 374, 400 |
| Press W.H., Teukolsky S.A., Vetterling W.T. — Numerical recipes in Fortran 90 | 566 |
| Smith P.A., Eilenberg S. — Pure and Applied Mathematics | 109 |
| Stanley R.P. — Enumerative Combinatorics: Volume 2 | (see Series, Laurent) |
| Cohn P.M. — Algebraic Numbers and Algebraic Functions | 30 |
| Thomas A.D. — Zeta functions, introduction to algebraic geometry | 11, 36 |
| Rainville E. D. — Intermediate Course in Differential Equations | 59 |
| Nehari Z. — Conformal mapping | 110—111 |
| Rice J.R. — Linear Theory. Volume 1. The approximation of functions | 145 |
| Slurmfels B. — Solving systems of polynomial equations | 6 |
| Abramovich Y.A., Aliprantis C.D. — An Invitation to Operator Theory | 49 |
| van Lint J.H., Wilson R.M. — Course in Combinatorics | 507, 509 |
| Morse P.M. — Methods of theoretical physics | 378 |
| Churchill R.V. — Operational mathematics | 158 |
| Rudin W. — Function theory in polydiscs | 93 |
| Cohen L.W., Ehrlich G. — The Structure of the Real Number System | 70, 101 |
| Silverman J. — The arithmetic of dynamical systems | 245 |
| Rektorys K. (ed.) — Survey of Applicable Mathematics | 958—961 |
| Geddes K., Czapor S., Labahn G. — Algorithms for computer algebra | 18, 494 |
| Sachdev P.L. — Nonlinear ordinary differential equations and their applications | 140 |
| Kept R. — Fundamentals of the Average Case Analysis of Particular Algorithms | 143, 207 A |
| Lane S.M. — Mathematics, form and function | 341 |
| Hinrichsen D., Pritchard A. — Mathematical Systems Theory I: Modelling, State Space Analysis, Stability and Robustness | 320, 730 |
| Hildebrand F.B. — Advanced Calculus for Applications | 531 |
| Wong R. — Asymptotic approximations of integrals | 270 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of mathematics. Volume III. Analysis | 229, 236 |
| Zeidler E. — Oxford User's Guide to Mathematics | 545 |
| Rektorys K. — Survey of Applicable Mathematics.Volume 2. | II 265 |
| Von Grudzinski O. — Quasihomogeneous distributions | 88 |
| Mackey G. — Unitary Group Representations in Physics, Probability and Number Theory | 306 |
| Sommerfeld A. — Partial Differential Equations in Physics | 109 |
| Abramowitz M., Stegun I.A. (eds.) — Handbook of mathematical functions (without numerical tables) | 635 |
| Cohn P.M. — Free Rings and Their Relations (London Mathematical Society Monographs) | 56, 521ff. |
| Abramovich Y., Aliprantis C. — An Invitation to Operator Theory (Graduate Studies in Mathematics, V. 50) | 49 |
| Mac Lane S. — Mathematics: Form and Function | 341 |
| Dennery P., Krzywicki A. — Mathematics for Physicists | 48 |
| Vretblad A. — Fourier Analysis and Its Applications (Graduate Texts in Mathematics) | 60 |
| Srivastava H.M., Manocha H.L. — A Treatise on Generating Functions | 11, 337, 345, 475, 477 |
| Geddes K.O., Czapor S.R., Labahn G. — Algorithms for computer algebra | 18, 494 |
| Georgescu A. — Asymptotic Treatment of Differential Equations (Applied Mathematics) | 43 |
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