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Поиск книг, содержащих: Fredholm integral equation
| Книга | Страницы для поиска | | Sornette D. — Critical phenomena in natural sciences | | | Hunter J.K., Nachtergaele B. — Applied Analysis | 67 | | Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 217.A | | Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 502 | | Bellman R. — Methods of nonlinear analysis (Vol. 1) | 130, 177 | | Holmes M.H. — Introduction to Perturbation Methods | 33 | | Ablowitz M.J., Fokas A.S. — Complex Variables: Introduction and Applications | 538 | | Schenk C.A., Schueller G.I. — Uncertainty Assessment of Large Finite Element Systems | 53 | | Agarwal R.P., O'Regan D. — Fixed Point Theory and Applications | 49, 85 | | Greiner W. — Quantum mechanics. An introduction | 261 | | Agoshkov V.I., Dubovsky P.B. — Methods for Solving Mathematical Physics Problems | 50 | | Domb C., Green M.S. (eds.) — Phase Transitions and Critical Phenomena (Vol. 1) | 186 | | Vapnik V. — Estimation of dependences based on empirical data | 10, 13, 66, 75, 289 | | Ito K. — Encyclopedic Dictionary of Mathematics | 217.A | | Ablowitz M.J., Segur H. — Solitons and the Inverse Scattering Transform | 24 | | Kress R., Gehring F.W. — Numerical Analysis | 287 | | Cuyt A., Wuytack L. — Nonlinear methods in numerical analysis | 260 | | Bellman R.E. — Introduction to the mathematical theory of control processes (Volume I: Linear Equations and Quadratic Criteria) | 237 | | Berinde V. — Iterative Approximation of Fixed Points | 22 | | Betten J. — Creep Mechanics | 300 | | Olver P.J., Shakiban C. — Applied linear. algebra | 365 | | Risken H. — The Fokker-Planck equation: methods of solution and applications | 130 | | Smithies F., Hall P. (ed.) — INTEGRAL EQUATIONS (No. 49) | 3 | | Sneddon I.N. — Mixed boundary value problems in potential theory | 45, 106, 136, 140, 147, 176, 213, 222, 229, 256 | | Kreyszig E. — Introductory functional analysis with applications | 319 | | Mandel L., Wolf E. — Optical Coherence and Quantum Optics | 67, 215, 391 | | Eringen A.C., Suhubi E.S. — Elastodynamics (vol. 2) Linear theory | 936, 942, 948 | | Hille E. — Methods in classical and functional analysis | 178-184 | | Hildebrand F.B. — Methods of Applied Mathematics | 222, 227, 232, 246, 251, 259, 269 | | Murdock J.A. — Perturbations: Theory and Methods (Classics in Applied Mathematics) | 484 | | Mathews J., Walker R.L. — Mathematical methods of physics | 300 | | Cloud M.J., Drachman B.C. — Inequalities: with applications to engineering | 116 | | Virchenko N. — Generalized Associated Legendre Functions and Their Applications | 134 | | Kanwal R.P. — Linear Integral Equations: Theory and Techniques | 2 | | Cohen G.L. — A Course in Modern Analysis and Its Applications | 126, 243 | | Pan G.W. — Wavelets in Electromagnetics and Device Modeling | 330 | | Fayolle G., Iasnogorodski R., Malyshev V. — Random Walks in the Quarter-Plane: Algebraic Methods, Boundary Value Problems and Applications (Stochastic Modelling and Applied Probability) | 103 | | Burden R.L., Faires J.D. — Numerical analysis | 337 | | Kanwal R.P. — Generalized functions: Theory and technique | 288, 290, 303, 304, 312, 315, 319, 336 | | Cheney W. — Analysis for Applied Mathematics | 175, 178, 190 | | Mathews J., Walker R.L. — Mathematical Methods of Physics | 300 | | Chui C.K. — Wavelets: a mathematical tool for signal processing | 183 |
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