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Ïîèñê êíèã, ñîäåðæàùèõ: Initial value problem
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Agarwal R.P. — Difference Equations and Inequalities. Theory, Methods and Applications. | 6 | | Abell M., Braselton J. — Differential Equations with Mathematica | 6 | | Hunter J.K., Nachtergaele B. — Applied Analysis | 52 | | Brauer F., Nohel J.A. — The qualitative theory of ordinary differential equations | 9, 11, 26—28, 72, 109, 110, 124, 126, 145, 175, 192 | | Hayek S.I. — Advanced mathematical methods in science and engineering | 13, 107, 413 | | Olver P.J. — Equivalence, Invariants and Symmetry | 178 | | Finlayson B.A. — Numerical Methods for Problems With Moving Fronts | 468 | | Latrve D.R., Kreider D.L., Proctor T.G. — Hp-48G/Gx Investigations in Mathematics | 142 | | Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 457 | | Miranker W.L. — Numerical Methods for Stiff Equations and Singular Perturbation Problems | 1, 6, 73 | | Mathews J.H., Fink K.D. — Numerical Methods Using MATLAB | 428, 430, 487, 498 | | Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 1, The basis) | 495 | | Shampine L.F., Allen R.C., Pruess Jr.S. — Fundamentals of numerical computing | 210—211 | | Murdock J. — Perturbations: Theory and Methods | 84, 106, 140, 227, 343, 479, 485 | | Pedlosky J. — Waves in the ocean and atmosphere: introduction to wave dynamics | 41, 53, 100, 103, 242 | | Debnath L. — Nonlinear water waves | 47, 81—82, 92, 104—110, 115—128, 199, 301, 309, 403 | | Erbe L.H., Kong Q., Zhang B.G. — Oscillation Theory for Functional Differential Equations | 2, 4 | | Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations | 145 | | Appell J.M., Kalitvin A.S., Zabrejko P.P. — Partial Integral Operators and Integro-Differential Equations | 2, 4, 367 | | Wilmott P., Bowison S., DeWynne J. — Option Pricing: Mathematical Models and Computation | 81 | | Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume III: Analysis | 343 | | Estep D.J. — Practical Analysis in One Variable | 316, 559 | | Machel A.N., Wang K. — Qualitative Theory of Dynamical Systems: The Role of Stability Preserving Mappings | 46, 55, 56, 59, 63, 66, 67, 413 | | Heermann D.W. — Computer Simulation Methods in Theoretical Physics | 17 | | Hall G.R., Lee — Continuous dynamical systems | 4 | | Chipot M., Quittner P. — Handbook of Differential Equations: Stationary Partial Differential Equations, Vol. 3 | 562, 576 | | Hogben L. — Handbook of Linear Algebra | 55—2, 56—2 | | Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 580, 785 | | Brown R.F., Gorniewicz L., Jiang B. — Handbook of Topological Fixed Point Theory | 868 | | Roman P. — Introduction to quantum field theory | 42 | | Ivey Th.A., Landsberg J.M. — Cartan for Beginners: Differential Geometry Via Moving Frames and Exterior Differential Systems | 349 | | Agarwal R.P., O'Regan D. — Fixed Point Theory and Applications | 6 | | Engel K.-J., Nagel R. — Short Course on Operator Semigroups | 110 | | Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations (preliminary version of 10 September 1998) | 161 | | Delves L.M. (ed.), Walsh J. (ed.) — Numerical Solution of Integral Equations | 141 | | Rall D. — Computational Solution to Nonlinear Operator Equations | 169 | | Lin C.C., Segel L.A. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 42, 46, 57, 104 | | Kannan D. (ed.), Lakshmikantham V. (ed.) — Handbook of stochastic analysis and applications | 38 | | Zauderer E. — Partial Differential Equations of Applied Mathematics | 8, 20, 49, 64, 136; see also “Cauchy problem” | | Kress R., Gehring F.W. — Numerical Analysis | 228 | | Kato G., Struppa D.C. — Fundamentals of algebraic microlocal analysis | 82 | | Stakgold I. — Green's Functions and Boundary Value Problems | 68, 186 | | Stephani H. — Relativity: an introduction to special and general relativity | 253 | | De Felice F., Clarke C.J.S. — Relativity on curved manifolds | 261 | | Held A. (ed.) — General relativity and gravitation. 100 years after the birth of Albert Einstein (volume 1) | 38, 137—165, 234—236 | | Libai A., Simmonds J.G. — The Nonlinear Theory of Elastic Shells | 21, 38, 41, 61, 168 | | Billingham J., King A.C. — Wave Motion | 22, 26, 104, 157, 161, 317, 322, 370 | | Held A. (ed.) — General Relativity and Gravitation: One Hundred Years After the Birth of Albert Einstein, Vol. 2 | 38, 137—165, 234—236 | | Gröbner W., Knapp H, — Contributions to the method of Lie series | 44 | | Berinde V. — Iterative Approximation of Fixed Points | 19, 25, 26, 179 | | Betchov R. — Stability of Parallel Flows | 117—128 | | Betts J.T. — Practical Methods for Optimal Control Using Nonlinear Programming | 62 | | Guiseppe Da Prato — Stochastic equations in infinite dimensions | 379 | | Asmar N.H. — Partial Differential Equations with fourier series and boundary value problems | A5 | | Chan Man Fong C.F., De Kee D., Kaloni P.N. — Advanced Mathematics for Engineering and Sciences | 637 | | Kuttler K. — Calculus, Applications and Theory | 176 | | Bayfield J.E. — Quantum Evolution: An Introduction to Time-Dependent Quantum Mechanics | 314, 322, 330 | | Lynch D.R. — Numerical Partial Differential Equations for Environmental Scientists and Engineers: A First Practical Course | 7 | | Stakgold I. — Boundary Value Problems of Mathematical Physics | 73 | | Antia H.M. — Numerical Methods for Scientists and Engineers | 521, 522—563, 566, 619, 895—908 | | Olver P.J., Shakiban C. — Applied linear. algebra | 364, 373, 450, 473, 589 | | Kreyszig E. — Advanced engineering mathematics | 6, 38, 48, 107, 886, 902 | | Naidu D.S., Rao A.K. — Singular Perturbation Analysis of Discrete Control Systems | 1, 2, 19, 66, 74, 90, 149 | | Stakgold I. — Boundary value problems of mathematical physics | 73 | | Wilmott P., Howison S., Dewynne J. — The Mathematics of Financial Derivatives : A Student Introduction | 61 | | Tannehill J.C., Pletcher R.H., Anderson D.A. — Computational Fluid Mechanics and Heat Transfer | 19, 27 | | Drmota M., Tichy R.F. — Sequences, Discrepancies and Applications | 300 | | Friedlander F.G. — The Wave Equation on a Curved Space-Time | 50 | | Cox D.A., Little J., O'Shea D. — Using Algebraic Geometry | 339 | | Bellman R.E., Dreyfus S.E. — Applied Dynamic Programming | 187 | | Stavroulakis I.P., Tersian S.A. — Partial Differential Equations: An Introduction with Mathematica and Maple | 3 | | Harman T.L., Dabney J.B., Richert N.J. — Advanced Engineering Mathematicas with MATLAB | 212 | | Fox W.P., Goirdano F.R., Weir M.D. — First Course in Mathematical Modeling | 404 | | Abell M.L., Braselton J.P. — Differential equations with Mathematica | 6 | | Rauch J. — Partial differential equations | Ch. 1, Ch. 3, Ch. 4 | | Zhang B. G., Yong Z. — Qualitative analysis of delay partial difference equations | 2 | | Antsaklis P.S., Michel A.N. — Linear Systems | 10, 11, 12, 62 | | Israel W. (ed.) — Relativity, astrophysics and cosmology | 40, 78, 112 | | Murdock J.A. — Perturbations: Theory and Methods (Classics in Applied Mathematics) | 84, 106, 140, 227, 343, 479, 485 | | Schulz F., Dold A. (Ed), Eckmann B. (Ed) — Regularity Theory for Quasilinear Elliptic Systems and Monge-Ampere Equations in Two Dimensions | 104 | | Kashiwara M., Kawai T., Kimura T. — Foundations of Algebraic Analysis | 146 | | Stakgold I. — Green's functions and boundary value problems | 68, 186 | | Hirsch M.W., Smale S. — Differential Equations, Dynamical Systems, and Linear Algebra | 2 | | Ivey T.A., Landsberg J.M. — Cartan for beginners: differential geometry via moving frames exterior differential systems | 349 | | Reithmeier E. — Periodic Solutions of Nonlinear Dynamical Systems: Numerical Computation, Stability, Bifurcation and Transition to Chaos | 9 | | Albeverio S.A., Hoegh-Krohn R.J. — Mathematical theory of Feynman path integrals | 26 | | Kanwal R.P. — Linear Integral Equations: Theory and Techniques | 61, 67, 72—74ff | | Behnke H., Bachmann F., Fladt K. — Fundamentals of mathematics. Volume III. Analysis | 343 | | Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 292, 296, 309, 323, 324, 344, 357 | | Anderson J.L. — Principles of Relativity Physics | 98, 434 | | Koonin S.E., Meredith D.C. — Computational Physics-Fortran Version | 26 | | Israel W. (ed.) — Relativity, astrophysics and cosmology | 40, 78, 112 | | Zeidler E. — Oxford User's Guide to Mathematics | 429 | | Israel W. — Relativity, Astrophysics and Cosmology | 40, 78, 112 | | Kanwal R.P. — Generalized functions: Theory and technique | 107, 153, 207, 217 ff | | Bangerth W., Rannacher R. — Adaptive Finite Element Methods for Differential Equations | 15 | | Stakgold I. — Boundary value problems of mathematical physics | 59 | | Stamatescu I., Seiler E. — Approaches to Fundamental Physics | 97, 101, 131 | | Tannehill J.C., Anderson D.A., Pletcher R.H. — Computational Fluid Mechanics and Heat Transfer | 19, 27 | | Kupferschmid M. — Classical FORTRAN: Programming for Engineering and Scientific Applications | Ex 7.4.23, 177 | | Buckmaster J. — The Mathematics of combustion | 10, 184 | | Lin C., Segel L. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 42, 46, 57, 104 | | Lin C., Segel L. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 42, 46, 57, 104 | | Lin C., Segel L. — Mathematics applied to deterministic problems in the natural sciences | 42, 46, 57, 104 | | Ferziger J.H., Kaper H.G. — Mathematical theory of transport processes in gases | see "Existence theory" |
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