| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Taylor M.E. — Partial Differential Equations. Qualitative studies of linear equations (vol. 2) | 127 |
| Siegman A.E. — Lasers | 662, 728 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 220.B |
| Bruce C.Berndt — Ramanujan's Notebooks (part 1) | 335 |
| Hayek S.I. — Advanced mathematical methods in science and engineering | 389 |
| Hochstadt H. — Integral Equations (Pure & Applied Mathematics Monograph) | 174 |
| Cherednik I. — Double Affine Hecke Algebras | 186, 188, 194 |
| Miklowitz J. — The theory of elastic waves and waveguides | 248—250 |
| Debnath L. — Nonlinear water waves | 30, 89, 91, 104, 249 |
| Akhiezer N.I., Glazman I.M. — Theory of Linear Operators in Hilbert Space | 213 |
| Debnath L. — Nonlinear Partial Differential Equations for Scientists and Engineers | 58—59 |
| Gorenflo R., Vessella S. — Abel Integral Equations: Analysis and Applications | 4 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 446, 449, 1400 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 489 |
| Agoshkov V.I., Dubovsky P.B. — Methods for Solving Mathematical Physics Problems | 131, 136 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis II: Integration | 665 |
| Egorov Y.U. (Ed), Gamkrelidze R.V. (Ed) — Partial Differential Equations I: Foundations of the Classical Theory | 234 |
| Iwaniec H., Kowalski E. — Analytic number theory | 71, 99 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 220.B |
| Jahne B. — Digital Image Processing | 199 |
| van Eijndhoven S.J.L., de Greef J. — Trajectory Spaces, Generalized Functions and Llnbounded Operators | 65 |
| Zauderer E. — Partial Differential Equations of Applied Mathematics | 281, 282, 373, 375 |
| Stakgold I. — Green's Functions and Boundary Value Problems | 459 |
| Ayoub R. — An Introduction to the Analytic Theory of Numbers | 357 |
| Barber J.R. — Elasticity | 359—360 |
| Achenbach J.D. — Wave propagation in elastic solids | 270, 311, 343 |
| Jackson J.D. — Classical electrodynamics | 77 |
| Goodman J.W. — Introduction to Fourier Optics | 10—12 |
| Asmar N.H. — Partial Differential Equations with fourier series and boundary value problems | 509 |
| Bracewell R.N. — The Fourier Transform and its applications | 335—339, 343, 357 (see also Abel-Fourier-Hankel ring) |
| Wong K. — Asymptotic Approximations of Integrals | 147, 203, 210, 502 |
| Stakgold I. — Boundary Value Problems of Mathematical Physics | 275—80 |
| Gray C.G., Gubbins K.E. — Theory of molecular fluids | 185, 218—219 |
| Egorov Y.V., Shubin M.A. — Partial Differential Equations I (Foundations of the Classical) | 234 |
| Graff K.F. — Wave motion in elastic solids | 620—1 |
| Ding H., Chen W., Zhang L. — Elasticity of Transversely Isotropic Materials | 189, 199, 277, 280, 376, 378, 380, 383 |
| Davies B. — Integral Transforms and Their Applications | 227 |
| Luke Y.L. — The special functions and their approximations (volume 1) | 165, 287 |
| Stakgold I. — Boundary value problems of mathematical physics | 275—280 |
| Attard P. — Therodynamics and Statistical Mechanics: Equilibrium by Entropy Maximisation | 298, 313 |
| Grenander U. — Toeplitz Forms and Their Applications | 139 |
| Jähne B. — Spatio-Temporal Image Processing | 25 |
| Geckeler S. — Optical fiber transmission systems | 81, 120, 140, 144, 325 |
| Bracewell R. — The Fourier Transform and Its Applications | 335—339, 343, 357 (see also Abel — Fourier — Hankel ring) |
| Goertzel G. — Some Mathematical Methods of Physics | 276 |
| Marks R.J.II. — The Joy of Fourier | 224, 353, 355, 425, 426, 756, 757, 765 |
| Sneddon I.N. — Mixed boundary value problems in potential theory | 29 |
| Cordes H. — Elliptic Pseudo-Differential Operators - An Abstract Theory | 26 |
| Peebbles P.Z. — Radar Principles | 116 |
| Eringen A.C., Suhubi E.S. — Elastodynamics (vol. 2) Linear theory | 497 |
| Tranter C.J. — Integral transforms in mathematical physics | 2, 46 |
| Zwillinger D. — CRC Standard Mathematical Tables and Formulae | 589 |
| Stakgold I. — Green's functions and boundary value problems | 459 |
| Richards P.I. — Manual of Mathematical Physics | 328 |
| Mathews J., Walker R.L. — Mathematical methods of physics | 109, 212 |
| Luke Y.L. — Special Functions and Their Approximations. Volume II | I, 165, 287 |
| Dunford N., Schwartz J., Bade W.G. — Linear operators. Part 2 | XI.8.23 (978), (1535) |
| Wong R. — Asymptotic approximations of integrals | 147, 203, 210, 502 |
| Krall A.M. — Hilbert Space, Boundary Value Problems, and Orthogonal Polynomials | 332, 333 |
| Miller W. — Symmetry and Separation of Variables | 112 |
| Collatz L. — Functional analysis and numerical mathematics | 117 |
| Natterer F., Wubbeling F. — Mathematical methods in image reconstruction | 14, 35 |
| 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) | XI.3.23 978, 1535 |
| Lions J-L., Dautray R. — Mathematical Analysis and Numerical Methods for Science and Technology: Volume 2: Functional and Variational Methods | 2, 40, 47 |
| Mathews J., Walker R.L. — Mathematical Methods of Physics | 109, 212 |
| Jackson J.D. — Classical electrodynamics | 118 |
| Davies B. — Integral Transforms and their Applications | 227 |
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