| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kedlaya K.S., Poonen B., Vakil R. — The William Lowell Putnam Mathematical Competition 1985–2000: Problems, Solutions, and Commentary | 70, 98, 276 |
| Taylor M.E. — Partial Differential Equations. Basic theory (vol. 1) | 285, 290 |
| Grinstead C.M., Snell J.L. — Introduction to Probability | 369 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 103.G |
| Dummit D.S., Foote R.M. — Abstract algebra | 619 |
| Lang S. — Algebra | 257—259, 516 |
| Di Francesco P., Mathieu P., Senechal D. — Conformal field theory | 521 |
| Ash R.B. — A Course In Algebraic Number Theory | 2-9 |
| Pollard H., Diamond H.G. — The Theory of Algebraic Numbers | 68 |
| Lueneburg H. — Tools and fundamental constructions of combinatorial mathematics | 439 |
| Lutkepohl H. — Handbook of Matrices | 49, 283 |
| Meyer C.D. — Matrix analysis and applied linear algebra | 486 |
| Borwein P. — Computational Excursions in Analysis and Number Theory | 105 |
| Fulton W., Harris J. — Representation Theory: A First Course | 49 |
| Williamson R.E., Crowell R.H., Trotter H.F. — Calculus of vector functions | 49 |
| Artin M. — Algebra | 36 |
| Bellman R. — Methods of nonlinear analysis (Vol. 1) | 96 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 534 |
| Walker R.J. — Algebraic Curves | 20, 148 |
| Ash R.B. — Abstract algebra: the basic graduate year | A6, 7.4 |
| Borwein P, Erdelyi T — Polynomials and polynomial inequalities | 38, 103 |
| Hogben L. — Handbook of Linear Algebra | 4—3 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 179 |
| Haran S.M.J. — Arithmetical Investigations: Representation Theory, Orthogonal Polynomials, and Quantum Interpolations | 173 |
| Fradkin E. — Field theories of condensed matter systems | 284 |
| Alaca S., Williams K.S. — Introductory Algebraic Number Theory | 125, 140 |
| Murty M.R., Esmonde J. — Problems in algebraic number theory | 26, 195, 200, 210 |
| Bronson R. — Schaum's Outline of Matrix Operations | 66 |
| Stewart I., Tall D. — Algebraic Number Theory and Fermat's Last Theorem | 41 |
| Polya G. — Problems and Theorems in Analysis: Theory of Functions. Zeros. Polynomials. Determinants. Number Theory. Geometry | V 48 43 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 103.G |
| Lin I.H. — Geometric Linear Algebra. Vol. 1 | 750 |
| Robinson D.J.S. — A Course in Linear Algebra with Applications | 86 |
| Pedregal P. — Introduction to Optimization | 73 |
| Gallier J. — Geometric Methods and Applications: For Computer Science and Engineering | 49 |
| Greenberg M.D. — Advanced engineering mathematics | 495 |
| Berndt B.C., Evans R.J., Williams K.S. — Gauss and Jacobi Sums | 48 |
| Haake F. — Quantum signatures of chaos | 69, 88, 101, 205, 347 |
| Bellman R. — Introduction to Matrix Analysis | 186 |
| Simon B. — Representations of Finite and Compact Groups | 238 |
| Bourbaki N. — Algebra I: Chapters 1-3 | III, § 8, no. 6 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 1) | 852 |
| Aldrovandi R. — Special matrices of mathematical physics (stochastic, circulant and bell matrices) | 193 |
| Asmar N.H. — Partial Differential Equations with fourier series and boundary value problems | A20 |
| Mirsky L. — An introduction to linear algebra | 17-18 |
| Kreyszig E. — Advanced engineering mathematics | 112 |
| Jerry Shurman — Geometry of the Quintic | 109 |
| Kurosh A. — Higher Algebra | 49, 329, 336 |
| Adler S.L. — Quantum theory as emergent phenomenon | 111—112 |
| Carl D. Meyer — Matrix Analysis and Applied Linear Algebra Book and Solutions Manual | 486 |
| Greub W.H. — Linear Algebra | 115 |
| Efimov A.V. — Mathematical analysis: advanced topics. Part 2. Application of some methods of mathematical and functional analysis | 309 |
| Lang S. — Algebra | 257—259, 516 |
| Cox D.A., Little J., O'Shea D. — Using Algebraic Geometry | 426, 434 |
| Marks R.J.II. — The Joy of Fourier | 258, 290 |
| Zhang B. G., Yong Z. — Qualitative analysis of delay partial difference equations | 334 |
| Bellman L., Cooke K. L. — Modern elementary differential equations | 84 |
| Goldstein L.J. — Analytic Number Theory | 11, 66, 100 |
| Liu C.L. — Introduction to combinatorial mathematics | 89 |
| Birkhoff G., Mac Lane S. — A Survey of Modern Algebra | 323 |
| Hamming R.W. — Numerical Methods For Scientists And Engineers | 92, 339 |
| van Lint J.H., Wilson R.M. — Course in Combinatorics | 143 |
| Collatz L. — The numerical treatment of differential equations | 162 |
| Itzykson C., Drouffe J-M. — Statistical field theory. Vol. 1 | 77 |
| Greub W.H. — Linear Algebra | 115 |
| Leeuwen J.V. — Handbook of Theoretical Computer Science: Algorithms and Complexity | 644 |
| Leeuwen J. (ed.), Meyer A.R., Nivat M. — Algorithms and Complexity, Volume A | 644 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 2) | 852 |
| Lang S. — Linear Algebra | 179 |
| van Lint J.H. — Coding Theory | 57 |
| Arnold V.I. — Ordinary Differential Equations | 195 |
| Hadlock C.R. — Field theory and its classical problems | 155, 194, 256 |
| Miller K.S., Ross B. — An Introduction to the Fractional Calculus and Fractional Differential Equations | 156 |
| Lorentz R.A. — Multivariate Birkhoff Interpolation | 9 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 71 |
| Demidovich B.P., Maron I.A. — Computational Mathematics | 592, 614 |
| Hammerlin G., Hoffmann K.-H., Schumaker L.L. — Numerical Mathematics | 183 |
| Young D.M., Gregory R.T. — A Survey of Numerical Mathematics, Volume 2 | 260, 500 |
| Neusel M.D. — Invariant Theory of Finite Groups | 35 |
| Proskuryakov I.V. — Problems in Linear Algebra | 36 |
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