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| Ðåçóëüòàò ïîèñêà |
Ïîèñê êíèã, ñîäåðæàùèõ: Intermittency
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Falconer K. — Fractal Geometry. Mathematical Foundations and applications | 274—276 | | Falconer K. — Fractal Geometry: Mathematical Foundations and Applications | 308 | | McComb W.D. — Physics of Fluid Turbulence | See Coherent structures, Fine-structure intermittency, Free-surface intermittency, $\Lambda$ vortices and Turbulent bursts | | Tennekes H., Lumley J.L. — A First Course in Turbulence | 102, 117, 122, 129, 135, 222 | | Wilcox D. — Turbulence modeling for CFD | 49 | | Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 368, 372, 646 | | Korsch H.J., Jodl H.-J. — Chaos: A Program Collection for the PC | 26, 36, 42, 203, 287, 303 | | Versteeg H.K., Malalasekera W. — An introduction to computational fluid dynamics | 55 | | Kundu P.K., Cohen I.R. — Fluid mechanics | 522—524 | | Frisch U. — Turbulence. The legacy of A.N. Kolmogorov | 120—194, 194; see also fractals, singularities | | Taberling P. (ed.), Cardoso O. (ed.) — Turbulence: a tentative dictionary | 5—7, 9—12, 25, 39, 43, 44, 49, 59, 63—66, 73, 76—78, 82, 101, 102, 104, 105, 111—116, 125, 128, 129, 139—141, 145 | | Biscamp D. — Magnetohydrodynamic turbulence | 134 | | Leslie D.C. — Developments in the theory of turbulence | 30—34, 241 | | Peters E.E. — Fractal Market Analysis: Applying Chaos Theory to Investment and Economics | 180—181, 309 | | Hand L.N., Finch J.D. — Analytical Mechanics | 457 | | Lynch S. — Dynamical Systems with Applications Using Mathematica® | 162, 168, 278 | | Ott E. — Chaos in dynamical systems | 272—277, 303 | | Smith P. — Explaining chaos | 110—111 | | Gleick J. — Chaos. Making a new science | 209, 290 | | Holden A.V. — Chaos | 111, 129, 153, 188, 243, 246, 264, 266 | | Chorin A.J. — Vorticity and turbulence | 61—64 | | Haken H. — Laser light dynamics (volume 2) | 197 | | Kadanoff L.P. — Statistical physics | 89 | | Schroeder M.R. — Schroeder, Self Similarity: Chaos, Fractals, Power Laws | 289, 290 | | Cebeci T., Platzer M., Chen H. — Analysis of Low-Speed Unsteady Airfoil Flows | 60, 61, 167, 202 | | Holden A.V. — Chaos | 111, 129, 153, 188, 243, 246, 264, 266 | | Hilborn R.C. — Chaos and nonlinear dynamics | 250—267 | | Tabor M. — Chaos and Integrability in Nonlinear Dynamics: An Introduction | 203, 210 | | Aoki K. — Nonlinear dynamics and chaos in semiconductors | 22, 191, 274 | | Baladi V. — Positive Transfer Operators And Decay Of Correlations | 211 | | Lichtenberg A.J., Liebermen M.A. — Regular and Chaotic Dynamics | 537ff | | McComb W. D. — The Physics of Fluid Turbulence | see “Coherent structures”, “Fine-structure intermittency”, “Free-surface intermittency, A vortices, and turbulent bursts” | | Betchov R. — Stability of Parallel Flows | 134 | | Pope S.B. — Turbulent Flows | 168, 171, 167-173 (see also Internal intermittency) | | Shore S.N. — The Tapestry of Modern Astrophysics | 612—613 | | Holmes P., Lumley J.L., Berkooz G. — Turbulence, Coherent Structures, Dynamical Systems and Symmetry | 48 | | Hollander Fr. — Large deviations | VIII.2 | | West B.J., Bologna M., Grigolini P. — Physics of Fractal Operators | 203 | | Bernard P.S., Wallace J.M. — Turbulent Flow: Analysis, Measurement and Prediction | 42, 144, 148, 190, 479 | | Curle N., Davies H. — Modern Fluid Dynamics. Volume 1. Incompressible flow | 244, 246 | | Mullin T. — The nature of chaos | 91 | | Guckenheimer J., Holmes Ph. — Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields, Vol. 42 | 343—346 | | Ilachinski A. — Cellular automata. A discrete universe | 397, 442, 475 | | Gallavotti G. — Foundations of fluid mechanics | 405, 460 | | Büchner J., Dum C., Scholer M. — Space Plasma Simulation | 331 | | Biskamp D. — Magnetic Reconnection in Plasmas | 191 | | Biskamp D. — Magnetohydrodynamic Turbulence | 134 | | Cvitanovic P., Artuso R., Dahlqvist P. — Classical and quantum chaos | 67, 283, 348 | | Oertel H. — Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences) | 351, 540 | | Lasota A., Mackey M.C. — Probabilistic Properties of Deterministic Systems | 131 | | Arnold L. (Ed), Wihstutz V. (Ed) — Lyapunov Exponents: Proceedings of a Workshop Held in Bremen | 342 | | Mantegna R.N., Stanley H.E. — An introduction to econophysics: correlations and complexity in finance | 96 | | Ruelle D. — Elements of Differentiable Dynamics and Bifurcation Theory | 66 | | Addison P.S. — Fractals and chaos | 146 | | Meyer-Ortmanns H., Reisz T. — Principles of phase structures in particle physics | 654 | | Falconer K. — Fractal geometry: mathematical foundations and applications | 308 | | Badii R., Politi A. — Complexity: Hierarchical structures and scaling in physics | 89, 95, 221 | | Biskamp D. — Nonlinear Magnetohydrodynamics | 218 |
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