| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kharazishvili A.B. — Strange functions in real analysis | |
| Nagel R. — One-parameter semigroups of positive operators | 4, 26 |
| Olver P.J. — Equivalence, Invariants and Symmetry | 178, 448,458 |
| Hoffman J.D. — Numerical Methods for Engineers and Scientists | 525 |
| Donea J., Huerta A. — Finite Element Methods for Flow Problems | 99, 149 |
| Felsager B. — Geometry, particles and fields | 109—113 |
| Georgescu A. — Asymptotic Treatment of Differential Equations | 57—58, 63—64, 67, 136, 145, 162, 164, 235 |
| Showalter R.E. — Monotone Operators in Banach Space and Nonlinear Partial Differential Equations | 22, 107, 108, 111, 114, 120, 129, 136, 150, 168, 171, 201, 208, 209, 228 |
| Nayfeh A.H., Mook D.T. — Nonlinear Oscillations | 551 |
| Papapetrou A. — Lectures on general relativity | 173 |
| Bryant R., Griffiths P., Grossman D. — Exterior differential systems and Euler-Lagrange PDEs | 118—120 |
| Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations | 17, 84, 145, 150, 295, 347, 368, 419 |
| Skorokhod A.V., Prokhorov Y.V. (Ed) — Basic Principles and Applications of Probability Theory | 145 |
| Debnath L. — Nonlinear Partial Differential Equations for Scientists and Engineers | 5, 16—17, 34, 39, 47, 50, 80, 88, 119—120, 130, 131, 141, 157, 158, 178 |
| Ewing W.M., Jardetzky W.S., Press F. — Elastic waves in layered media | 16, 132, 134 |
| Kythe P.K., Schaferkotter M.R. — Partial Differential Equations and Mathematica | 39, 55, 235, 237 |
| Liao X., Wang L., Yu P. — Stability of Dynamical Systems, Vol. 5 | 21, 30, 263, 323, 342 |
| Carr J. — Applications of Centre Manifold Theory | 101 |
| Dafermos C.M. (ed.), Feireisl E. (ed.) — Evolutionary Equations, Vol. 1 | 6, 387 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 591, 592, 785, 1308 |
| Serre D. — Handbook of Mathematical Fluid Dynamics, Vol. 1 | 100, 130—139, 141—187, 265—423 |
| Brown R.F., Gorniewicz L., Jiang B. — Handbook of Topological Fixed Point Theory | 868 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 3, 15, 36, 118 |
| Martinez A. — An Introduction to Semiclassical and Microlocal Analysis | 133 |
| McEneaney W.M. — Max-Plus Methods for Nonlinear Control and Estimation | 50 |
| Tarkhanov N.N. — Cauchy Problem for Solutions of Elliptic Equations | 356, 430, 441 |
| Ivey Th.A., Landsberg J.M. — Cartan for Beginners: Differential Geometry Via Moving Frames and Exterior Differential Systems | 349 |
| Hertrich-Jeromin U. — Introduction to Mobius Differential Geometry | 353f |
| Krantz S.K. — Partial Differential Equations and Complex Analysis | 2 |
| Goldberg M.A. (ed.) — Solution Methods for Integral Equations | 196, 199, 200, 204, 218, 322, 330, 341 |
| Agoshkov V.I., Dubovsky P.B. — Methods for Solving Mathematical Physics Problems | 3, 33, 225 |
| Shiryaev A., Peskir G. — Optimal Stopping and Free-Boundary Problems | 135, 137 |
| Engel K.-J., Nagel R. — Short Course on Operator Semigroups | 18, 77, 110, 112, 185, 217 |
| Zakharov V.E. — What is integrability? | 273 |
| Egorov Y.U. (Ed), Gamkrelidze R.V. (Ed) — Partial Differential Equations I: Foundations of the Classical Theory | 22, 24—27 |
| Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations (preliminary version of 10 September 1998) | 104, 161, 166, 305, 352, 364, 413 |
| Baez J.C., Segal I.E., Zhou Z. — Introduction to algebraic and constructive quantum field theory | 259 |
| Nasar S. — A Beautiful Mind | 297—298 |
| Gitman D.M., Tyutin I.V. — Quantization of Fields with Constraints | 45 |
| Kannan D. (ed.), Lakshmikantham V. (ed.) — Handbook of stochastic analysis and applications | 86 |
| Zauderer E. — Partial Differential Equations of Applied Mathematics | 136; see also “Initial value problem” |
| Staffans O. — Well-Posed Linear Systems | 10, 12, 146—153 |
| Dupacova J., Hurt J., Stepan J. — Stochastic Modeling in Economics and Finance | 356 |
| Thaller B. — The Dirac equation | 5 |
| Poisson E. — A relativists toolkit | 218 |
| Kythe P.K. — Fundamental Solutions for Differential Operators and Applications | 5, 68, 100, 107, 121, 218 |
| Stewart J. — Advanced general relativity | 175 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, Manifolds and Physics (vol. 2) | 275 |
| Stephani H. — Relativity: an introduction to special and general relativity | 249, 253 |
| Held A. (ed.) — General relativity and gravitation. 100 years after the birth of Albert Einstein (volume 1) | 100—114, 444, see also “Cauchy data”, “Initial data”, “Initial value problem” |
| Strichartz R.S. — The way of analysis | 467 |
| Lebowitz J.L., Montroll E.W. — Nonequilibrium phenomena I. The boltzmann equation | 24 |
| Matveev V.B., Salle M.A. — Darboux Transformation and Solutions | 3 |
| Havin V.P., Nikolski N.K. (eds.) — Linear and Complex Analysis Problem Book 3 (part 2) | 14.4 |
| Fulling S. — Aspects of Quantum Field Theory in Curved Spacetime | 24, 69, 78—79, 120—125, 190—191, 210, 228, 263 |
| Hayes W.D., Probstein R.F. — Hypersonic Flow Theory | 230—232, 245—247 |
| Held A. (ed.) — General Relativity and Gravitation: One Hundred Years After the Birth of Albert Einstein, Vol. 2 | 100—114, 444 (see also “Cauchy data”, “Initial data”, “Initial value problem”) |
| Sedov L. — Similarity and Dimensional Methods in Mechanics | 188—189, 302 |
| Strocchi F. — Symmetry Breaking | 14 |
| Kulish V.V. — Hierarchical Methods: Hierarchy and Hierarchical Asymptotic Methods In Electrodynamics, Volume 1 | 223, 225, 226 |
| Allaire G. — Numerical Analysis and Optimization: An Introduction to Mathematical Modelling and Numerical Simulation | 26, 67 |
| Granas A., Dugundji J. — Fixed Point Theory | 180, 183, 184 |
| Hörmander L. — The Analysis Of Linear Partial Differential Operators III | 385 |
| Guiseppe Da Prato — Stochastic equations in infinite dimensions | 379 |
| Egorov Yu.V. (Ed), Shubin M.A. (Ed) — Partial Differential Equations II: Elements of the Modern Theory. Equations with Constant Coefficients | 225 |
| Stakgold I. — Boundary Value Problems of Mathematical Physics | 73 |
| Egorov Y.V., Shubin M.A. — Partial Differential Equations I (Foundations of the Classical) | 22, 24—27 |
| Egorov Y.V. (Ed), Shubin M.A. (Ed) — Partial Differential Equations II: Elements of the Modern Theory. Equations with Constant Coefficients | 225 |
| Kashiwara M., Schapira P. — Sheaves On Manifolds | 454 |
| D'Inverno R. — Introducing Einstein's Relatvity | 174-7, 292, 296 |
| Hormander L. — The analysis of linear partial differential operators I | 141, 349 |
| Mattheij R.M.M. — Partial differential equations: modeling, analysis, computation | 334 |
| Neubrander F. (Ed), Ferreyra G.S. (Ed) — Evolution Equations, Vol. 168 | 362, 369, 419 |
| Straumann N. — General relativity and relativistic astrophysics | 160 |
| Garbey M., Kaper H.G. — Asymptotic Analysis and the Numerical Solution of Partial Differential Equations, Vol. 130 | 219, 221, 222 |
| Anderson G.A., Granas A. — Fixed Point Theory | 180, 183, 184 |
| Quarteroni A., Saleri F. — Scientific Computing with MATLAB | 155 |
| Weinberg S. — Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity | 163—165 |
| Nash C. — Differential Topology and Quantum Field Theory | 30 |
| Stakgold I. — Boundary value problems of mathematical physics | 73 |
| Tannehill J.C., Pletcher R.H., Anderson D.A. — Computational Fluid Mechanics and Heat Transfer | 28 |
| Carmeli M. — Classical Fields: General Gravity and Gauge Theory | 152, 153 |
| Bergmann P.G., De Sabbata V., Gillies G.T. — Spin in Gravity: Is It Possible to Give an Experimental Basis to Torsion? | 103 |
| Friedlander F.G. — The Wave Equation on a Curved Space-Time | 50 |
| Rektorys K. — Survey of applicable mathematics | 860-1 |
| Haraux A. — Nonlinear Evolution Equations - Global Behavior of Solutions | 1, 3, 4, 16, 118 |
| Bona C., Palenzuela-Luque C. — Elements of Numerical Relativity: From Einstein's Equations to Black Hole Simulations (Lecture Notes in Physics) | 93 |
| Prilepko A.I., Orlovsky D.G., Vasin I.A. — Methods for Solving Inverse Problems in Mathematical Physics | 342, 350, 355, 442, 447, 478 |
| Akhmediev N., Ankiewicz A. — Dissipative Solitons | 348 |
| Yu Y. — Index Theorem and the Heat Equation Method | 94 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. 1. Relativity and cosmology | 61, 68 |
| Falcke H. (ed.), Hehl F.W. (ed.) — The galactic black hole: lectures on general relativity and astrophysics | 178 |
| Zakharov V.D. — Gravitational waves in Einstein's theory | 17, 18 ff, 21, 27, 28, 29, 64 |
| Rall L.B. — Automatic Differentiation: Techniques and Applications | 35, 137 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. Relativity and cosmology | 61, 68 |
| Budinger Th. — Mathematics and Physics of Emerging Biomedical Imaging | 136, 214 |
| Hormander L. — The Analysis of Linear Partial Differential Operators IV | 385 |
| Kythe P.K., Puri P. — Partial differential equations and Mathematica | 39, 55, 235, 237 |
| Choquet-Bruhat Y., DeWitt-Morette C., Dillard-Bleick M. — Analysis, manifolds and physics. Part I. | 256, 278 |
| Belotserkovsky S.M., Lifanov I.K. — Method of Discrete Vortices | 319 |
| Amoroso R.L. (ed.), Hunter G. (ed.), Vigier J.-P. (ed.) — Gravitation and Cosmology: From the Hubble Radius to the Planck Scale | 127 |
| Rodin Y.L. — Generalized Analytic Functions On Riemann Surfaces | 105 |
| Kashiwara M., Kawai T., Kimura T. — Foundations of Algebraic Analysis | 146 |
| Carroll R.W. — Mathematical physics | 12, 14, 56, 151 |
| Tzenov S.I. — Contemporary Accelerator Physics | 173 |
| Rektorys K. (ed.) — Survey of Applicable Mathematics | 860—861 |
| Thaller B. — The Dirac equation | 5 |
| Rubinstein I. — Electro-diffusion of ions | 65, 68, 81, 82, 100 |
| Ivey T.A., Landsberg J.M. — Cartan for beginners: differential geometry via moving frames exterior differential systems | 349 |
| Van Neerven J. — The Adjoint Of A Semigroup Of Linear Operators | 4.3 |
| Dunford N., Schwartz J., Bade W.G. — Linear operators. Part 2 | (613—614), (639—641) |
| Kuttler K. — Notes for Partial Differrential Equations | 86 |
| Virchenko N. — Generalized Associated Legendre Functions and Their Applications | 160 |
| Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 292 |
| Anderson J.L. — Principles of Relativity Physics | see "Initial value problem" |
| Berezanskii Ju. M. — Expansions in Eigenfunctions of Selfadjoint Operators (Translations of Mathematical Monographs Vol 17) | 387 |
| Miller W. — Symmetry and Separation of Variables | 96, 151, 159 |
| Barut A.O. — Electrodynamics and Classical Theory of Fields and Particles | 160 |
| Collatz L. — Functional analysis and numerical mathematics | 261 |
| Kolosov G.E. — Optimal design of control systems: Stochastic and deterministic problems | 9 |
| Vassiliev V.A. — Applied Picard-Lefschetz Theory | 142 |
| Mattheij R.M. — Partial differential equations | 334 |
| 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) | 613—614, 639—641 |
| Kanwal R.P. — Generalized functions: Theory and technique | 283 |
| Friedman A., Littman W. — Industrial Mathematics: A Course in Solving Real-World Problems | 52 |
| Flanders H. — Differential Forms with Applications to the Physical Sciences | 4 |
| Tannehill J.C., Anderson D.A., Pletcher R.H. — Computational Fluid Mechanics and Heat Transfer | 28 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, manifolds and physics | 256, 278 |
| Pastur L., Figotin A. — Spectra of Random and Almost-Periodic Operators | 137 |
| Georgescu A. — Asymptotic Treatment of Differential Equations (Applied Mathematics) | 57—58, 63—64, 67, 136, 145, 162, 164, 235 |
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