| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Sornette D. — Critical phenomena in natural sciences | |
| Henrici P. — Applied and Computational Complex Analysis. I: Power Series, Integration, Conformal Mapping, Location of Zeros. | 422 |
| Falconer K. — Fractal Geometry. Mathematical Foundations and applications | 273—277 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 433 |
| Bathe K.-J. — Finite element procedures | 676, 682 |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 439ff, 479ff, 495 |
| Falconer K. — Fractal Geometry: Mathematical Foundations and Applications | 307—309 |
| Acheson David — From calculus to chaos | 134, 149 |
| Wesseling P. — An introduction to multigrid methods | 209, 234 |
| Wesseling P. — Principles of computational fluid dynamics | 18, 37 |
| Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 534 |
| Korsch H.J., Jodl H.-J. — Chaos: A Program Collection for the PC | 2 |
| Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 3, Fluid dynamics) | 3, 10, 143, 161 |
| Vilenkin A., Shellard E.P.S. — Cosmic strings and other topological defects | 253, 350 |
| Drazin P. — Introduction to Hydrodynamic Stability | 1, 4, 116 |
| Taberling P. (ed.), Cardoso O. (ed.) — Turbulence: a tentative dictionary | 1, 2, 15—18, 48, 51, 52, 54, 55, 57 |
| Peters E.E. — Chaos and Order in the Capital Markets | 134 |
| Gonzalez-Miranda J.M. — Synchronization and Control of Chaos: An Introduction for Scientists and Engineers | 123 |
| Lim Ch., Nebus J. — Vorticity, Statistical Mechanics, and Monte Carlo Simulation | 2, 3, 8, 235 |
| Lynch S. — Dynamical Systems with Applications Using Mathematica® | 349, 364 |
| Lorenz E.N. — Essence of Chaos | 136, 139, 167, 183 |
| Dyke Ph.P.G. — Managing Mathematical Projects - with Success! | 111 |
| Winterbone D.E. — Advanced thermodynamics for engineers | 291, 302—303 |
| Smith L.A. — Chaos: A Very Short Introduction | 84 |
| Brekhovskikh L.M., Lysanov Y.P. — Fundamentals of Ocean Acoustics | 18, 238 |
| Gleick J. — Chaos. Making a new science | 2, 4, 7, 39, 121—125,130—133, 137—138, 162, 198, 203, 307 |
| Itoh K., Fukayama A. — Transport and Structural Formation in Plasmas | 116 |
| Friedlander S.J. (Ed), Serre D. (Ed) — Handbook of Mathematical Fluid Dynamics, Vol. 3 | 235 |
| Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 28 |
| Nasar S. — A Beautiful Mind | 218—219 |
| Arnold V.I., Khesin B.A. — Topological methods in hydrodynamics | 64—67 |
| Planck M. — Mechanics of Deformable Bodies: Being Volume II of "Introduction to Theoretical Physics" | 225 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 433 |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 6:4138—4139, 6:4139 |
| Hale J.K., Kocak H. — Dynamics and Bifurcations | 519 |
| Schroeder M.R. — Schroeder, Self Similarity: Chaos, Fractals, Power Laws | 167, 195, 320 |
| Schercliff J.A. — Vector Fields | 210, 280 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 482—483 |
| Wolf-Gladrow D.A. — Lattice-gas cellular automata and lattice Boltzmann models | 145, 183, 243 |
| Sparrow C. — The Lorenz equations: bifurcation, chaos, and strange attractors | 3, 4, 189, 208 |
| Ting L., Klein R. — Viscous Vortical Flows (Lecture Notes in Physics) | 28, 36 |
| Hilborn R.C. — Chaos and nonlinear dynamics | 44, 479 |
| Kyle T.G. — Atmospheric transmission, emission and scattering | 50, 140 |
| Zeldovich Ya.B., Yaglom I.M. — Higher Math for Beginners | 352 |
| Truesdell C. — Essays in the History of Mechanics | 71—72, 343 |
| Yulsman T. — Origins. The quest for our cosmic roots | 211, 252—267 |
| Billingham J., King A.C. — Wave Motion | 357 |
| McHardy J., Sawan S.P. — See Inside! Supercritical Fluid Cleaning by Samuel P. Haber: Book Cover * o Table of Contents Supercritical Fluid Cleaning: Fundamentals, Technology and Applications | 35, 235 |
| Landau L.D., Lifschitz E.M. — Fluid Mechanics. Vol. 6 | (III) 95—156 |
| Walker J. — The flying circus of physics: with answers | 1.33, 4.85—4.88, 5.99, 5.102 |
| Roskam J. — Airplane flight dynamics and automatic flight controls (part 1) | 875, 892 |
| Tyson R.K. (ed.) — Adaptive optics engineering handbook | 61 |
| West B.J., Bologna M., Grigolini P. — Physics of Fractal Operators | 4, 76, 283 |
| Zeidler E. — Nonlinear Functional Analysis and Its Applications: Part 1: Fixed-Point Theorems | 100, 412, 737 |
| Padmanabhan T. — Theoretical Astrophysics: Volume 1, Astrophysical Processes | 425 |
| Prigogine I. — Proceedings of the International Symposium on Transport. Processes in Statistical Mechanics, held in Brussels,. August 27-31, 1956 | 46, 199—203 |
| Bellman R., Kalaba R. — Quasilinearization and nonlinear boundary-value problems | 124 |
| Weinberg S. — Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity | 570, 576 |
| Eringen A.C. (ed.) — Continuum physics (vol. 4) Polar and Nonlocal Field Theories | 3, 32 |
| Bell E.T. — The Development of Mathematics | 587 |
| Cramer N.F. — The Physics of Alfvén Waves | 135, 213—214 |
| Rossnagel S.M., Cuomo J.J., Westwood W.D. — Handbook of plasma processing technology. Fundamentals, etching, deposition, and surface interaction | 246 |
| Ayers J. — Neurotechnology for biomimetic robots | 557, 559—561 |
| Mullin T. — The nature of chaos | 93 |
| Aristotle D. Michal — Matrix and tensor calculus: with applications to mechanics, elasticity, and aeronautics | 73, 74 |
| Roads Ñ.(ed.) — Musical signal processing | 254, 255 (see also “Fluctuations”) |
| Adomian G. — Stochastic Systems | 83, 268 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. 1. Relativity and cosmology | 272 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. Relativity and cosmology | 272 |
| Ilachinski A. — Cellular automata. A discrete universe | 399, 470 |
| Adler R.J. — Geometry of random fields | 3, 4 |
| Alder B., Fernbach S., Rotenberg M. — Methods in computational physics. Volume 3. Fundamental methods in hydrodynamics | 2, 122 |
| Appenzeller I. (ed.), Habing H.J. (ed.), Léna P. (ed.) — Evolution of Galaxies Astronomical Observations | 203, 258 |
| Mendelsohn K. — Cryophysics | 135, 147—149 |
| Steen W.M. — Laser material Processing | 29 |
| Gallavotti G. — Foundations of fluid mechanics | 419, 423 |
| Papadopoulos G.J. (ed.), Devreese J.T. (ed.) — Path integrals and their applications in quantum, statistical, and solid state physics | 462 |
| Wheeler J.A. — Topics of modern physics. Vol. I. Geometrodynamics | 69, 188 |
| Sverdrup H.U., Johnson M.W., Fleming R.H. — The Oceans: their physics, chemistry, and general biology | see also "Eddy viscosity", "Eddy diffusion", 90—93, 471 |
| Gamow G. — Creation of the Universe | 82—87 |
| Alder B. (ed.), Fernbach S. (ed.), Rotenberg M. (ed.) — Methods in computational physics: advances in research and applications. Volume 3. Fundamental methods in hydrodynamics | 2, 122 |
| Raine D.J. — The Isotropic Universe: An Introduction to Cosmology | 241, 243—4 |
| Bridgman P.W. — The Nature of Thermodynamics | 59, 83, 134, 190 |
| Carroll R.W. — Mathematical physics | 286 |
| Faber T.E. — Fluid Dynamics for Physicists | 34, 343—9 (see also homogeneous turbulence; wakes) |
| Kahane J.-P. — Fourier Series and Wavelets, Vol. 3 | 0.2 |
| Richards P.I. — Manual of Mathematical Physics | 21 |
| Tzenov S.I. — Contemporary Accelerator Physics | 291 |
| Jeffreys H. — Theory of probability | 332 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 472—475 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 22 |
| Friedlander S.(ed.), Serre D.(ed.) — Handbook of Mathematical Fluid Dynamics | 314 |
| Davies P. — The Cosmic Blueprint | 64, 73 |
| Oertel H. — Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences) | 126, 136, 320 |
| Freidberg J.P. — Plasma Physics and Fusion Energy | see "Micro-instabilities" |
| Greiner W. — Classical mechanics. Systems of particles and hamiltonian dynamics | 417 |
| Stoker J. J. — Water Waves: The Mathematical Theory with Applications | 453 |
| Gerald C.H. — Electro–optical imaging iystem performance | 249, 289 |
| Mantegna R.N., Stanley H.E. — An introduction to econophysics: correlations and complexity in finance | 7, 88, 97 |
| Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook | 313—330 |
| Fung Y. — A First Course in Continuum Mechanics: for Physical and Biological Engineers and Scientists | 243 |
| Ruelle D. — Elements of Differentiable Dynamics and Bifurcation Theory | 86—87 |
| Sturrock P. — Plasma Physics: An Introduction to the Theory of Astrophysical, Geophysical and Laboratory Plasmas | 5 |
| Cercignani C. — Rarefied Gas Dynamics | 122, 241, 245, 265 |
| Davies P. — The New Physics | 264, 319, 351 |
| Hubbard B. — The World According to Wavelets: The Story of a Mathematical Technique in the Making | 72—74, 197 |
| Falconer K. — Fractal geometry: mathematical foundations and applications | 307—309 |
| Badii R., Politi A. — Complexity: Hierarchical structures and scaling in physics | 17—19, 36 |
| Melissinos A.C. — Principles of modern technology | 255 |
| Buckmaster J. — The Mathematics of combustion | 32, 44 |
| Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics) | (III) 95—156 |
| Winnewiser G., Pelz J.C. — Physics and Chemistry of Interstellar Molecular Clouds | 76, 318 |
| Cushman-Roisin B. — Introduction to geophysical fluid dynamics | see also "Geostrophic turbulence" |
| Ruelle D. — The mathematician's brain: A personal tour through the essentials of mathematics | 120, 121 |
| Sedov L.I. — Introduction to the mechanics of a continous medium | 197 |
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