| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Sornette D. — Critical phenomena in natural sciences | |
| Óýéêåðëè Äæ.Ô. — Ïðîåêòèðîâàíèå öèôðîâûõ óñòðîéñòâ (òîì 1) | 156, 452 |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 148ff, 348ff |
| Demtroeder W. — Laser spectroscopy | 804 |
| Lommel E. — Lehrbuch der Experimentalphysik | 330 |
| Acheson David — From calculus to chaos | 142, 146, 149, 151, 165 |
| Finlayson B.A. — Numerical Methods for Problems With Moving Fronts | 395 |
| Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 305, 306, 610, 613, 618 |
| Korsch H.J., Jodl H.-J. — Chaos: A Program Collection for the PC | 170, 177, 214, 219, 224 |
| Showalter R.E. — Monotone Operators in Banach Space and Nonlinear Partial Differential Equations | 237, 246, 261 |
| Taylor G., Kleeman L. — Visual Perception and Robotic Manipulation: 3d Object Recognition, Tracking and Hand-Eye Coordination | 195 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 270, 271, 523 |
| Nayfeh A.H., Mook D.T. — Nonlinear Oscillations | 40 |
| Tao G. — Adaptive control design and analysis | 507 |
| Herrmann H.J. (ed.), Roux S. (ed.) — Statistical models for the fracture of disordered media | 55 |
| Leach A.R. — Molecular Modelling Principles and Applications | 577 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 402, 408—409 |
| Lynch S. — Dynamical Systems with Applications Using Mathematica® | 139, 283, 324 |
| Elliott R.J., Gibson A.F. — An Introduction to Solid State Physics and Its Applications | 465, 469, 475 |
| Maugin G.A. — Nonlinear waves in elastic crystals | 121 |
| Itoh K., Fukayama A. — Transport and Structural Formation in Plasmas | 202, 251 |
| Wyld H.W. — Mathematical Methods for Physics | 252 |
| Chaikin P.M., Lubensky T.C. — Principles of condensed matter physics | 171, 673 |
| Haken H. — Laser light dynamics (volume 2) | 221, 227, 230, 231, 232, 317 |
| Dorlas T.C. — Statistical mechanics, fundamentals and model solutions | 52 |
| Planck M. — Theory of electricity and magnetism,: Being volume III of Introduction to theoretical physics | 90 |
| Perry J. — The Calculus for Engineers | 209, 255 |
| Hale J.K., Kocak H. — Dynamics and Bifurcations | 30, 31, 32, 38, 58, 59 |
| Konopinski E.J. — Electromagnetic fields and relativistic particles | 546—548 |
| Cebeci T., Platzer M., Chen H. — Analysis of Low-Speed Unsteady Airfoil Flows | 18, 19, 146, 197, 198, 199, 200, 201, 202, 203, 205, 209, 210 |
| Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids | 17, 141, 150 |
| Robinson W.S. — Magnetic Phenomena - An Elementary Treatise | 53 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 883—884, 888 |
| Adkins C.J. — Equilibrium Thermodynamics | 9—10 |
| Page Ch.H. — The Algebra of Electronics | 123 ff. |
| Craig J.J. — Introduction to Robotics Mechanic and Control | 291 |
| Reist P.C. — Aerosol Science and Technology | 246—248 |
| Koerber G.G. — Properties of Solids | 129—131, 259, 268 |
| Hilborn R.C. — Chaos and nonlinear dynamics | 199, 580 |
| Banerjee P.P., Poon T.-C. — Principles of applied optics | 216, 321 |
| Forsythe W.E. — Smithsonian Physical Tables | 451 |
| Dally W.J., Poulton J.W. — Digital Systems Engineering (part 2) | 347—348 |
| Unertl W.N. — Physical Structure | 370, 723, 724, 796 |
| Aoki K. — Nonlinear dynamics and chaos in semiconductors | 143, 173, 393 |
| Love A.E.H. — A Treatise on the Mathematical Theory of Elasticity | 118 |
| Auerbach F. — Modern magnetics | 48, 51, 112 |
| Cowan B. — Topics In Statistical Mechanics | 199, 203 |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | 271, 443, see “Metastability ice” |
| Stoner E.C. — Magnetism and Atomic Structure with 56 diagrams | 10, 59—64, 81, 175 |
| Poole Jr.C.P., Owens F.J. — Introduction to Nanotechnology | 168, 177 |
| Lurie J.B., Enright P.J. — Classical Feedback Control With Matlab | 297 |
| Huang K. — Introduction to Statistical Physics | 9 |
| Betten J. — Creep Mechanics | 223—226 |
| Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids | 364 |
| Stratton J.A. — Electromagnetic Theory | 122, 125, 126, 133 |
| Dijkstra H.A. — Nonlinear physical oceanography | 98 |
| Shirer H.N. — Nonlinear Hydrodynamic Modeling: A Mathematical Introduction | 96, 97, 100, 122 |
| Tyson R.K. (ed.) — Adaptive optics engineering handbook | 182, 191 |
| Greiner W. — Classical electrodynamics | 226, 232 |
| Daniel C. Mattis — The theory of magnetism made simple: an introduction to physical concepts and to some useful mathematical methods | 35, 68, 241, 361, 362 |
| Weyl H. — Philosophy of mathematics and natural science | 200 |
| Peddie W. — Molecular Magnetism | 127 |
| Bell E.T. — The Development of Mathematics | 530 |
| Ayers J. — Neurotechnology for biomimetic robots | 29, 190 |
| Craig J.J. — Introduction to Robotics: Mechanics and Control | 291 |
| Mullin T. — The nature of chaos | 14 |
| Kimball A.I. — A college textbook of physics | 344, 453 |
| Dekker A.J. — Solid State Physics | 184, 465, 481 |
| Socha L. — Linearization Methods for Stochastic Dynamic Systems | 1 |
| Smith R.C., Demetriou M.A. — Research Directions in Distributed Parameter Systems | 183, 230 |
| Farges J. (ed.) — Organic conductors: fundamentals and applications | see "Phase transitions" |
| Ohanian H.C. — Classical Electrodynamics | 346 |
| de Boer J.H. — The dynamical character of adsorption | 224, 231—3 |
| Dornbusch R., Fischer S. — Macroeconomics | 512, 612—613 |
| Mandel L., Wolf E. — Optical Coherence and Quantum Optics | 828—829 |
| Stratton J.A. — Electromagnetic Theory | 122, 125, 126, 133 |
| Yang W. — Fluidization, Solids Handling, and Processing: Industrial Applications | 538 |
| Northolt M.G. — Separation Techniques Thermodynamics Liquid Crystal | 155 |
| Haken H. — Synergetics: an introduction | 182 |
| Gallavotti G. — Foundations of fluid mechanics | 268, 272, 276, 279, 280, 391, 432 |
| Soares C. — Process Engineering Equipment Handbook | A-41 |
| Bridgman P.W. — The Nature of Thermodynamics | 61, 63 |
| Chaikin P., Lubensky T. — Principles of condensed matter physics | 171, 673 |
| Goldsmid H.J. (ed.) — Problems in solid state physics | 9.15 |
| Saito Y. — Statistical physics of crystal growth | 109 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 172 |
| Brewer D.F. — Progress in Low Temperature Physics. Volume X | 67 |
| Gould H., Tobochnik J., Christian W. — An introduction to computer simulation methods | 624 |
| Acheson D.J. — Elementary Fluid Dynamics | 332, 345 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 364, 980 |
| Coffey W.T., Kalmykov Yu.P., Waldron J.T. — The Langevin equation | 128 |
| Davis H.T. — Introduction to nonlinear differential and integral equations | 99 |
| Slater J.C., Frank N.H. — Electromagnetism | 73—77 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 13, 19 |
| Callen H.B. — Thermodynamics | 239 |
| Cole G.H.A., Woolfson M.M. — Planetary science. The science of planets around stars | 402 |
| Griffits D.J. — Introductions to electrodynamics | 280—281 |
| Hademenos G.J. — Applied physics | 101 |
| Boyd R.W. — Nonlinear Optics | 345 |
| Langhaar H.R. — Energy Methods in Applied Mechanics | 11 |
| Langhaar H.R. — Energy Methods in Applied Mechanics | 11 |
| Worsnop B.L., Flint H.T. — Advanced Practical Physics for Students | 448 |
| Giles R. — Mathematical foundation of thermodynamics | 126—128 |
| Haus H.A. — Waves and Fields in Optoelectronics | 288 |
| Kardar M. — Statistical physics of fields | 14, 262 |
| Ericksen J.L. — Introduction to the Thermodynamics of Solids | 47—48 |
| Johnson W.C. — Mathematical and physical principles of engineering analysis | 30 |
| Ruelle D. — Elements of Differentiable Dynamics and Bifurcation Theory | 44 |
| Akenine-Möller T. — Real-Time Rendering | see "Level of detail" |
| Addison P.S. — Fractals and chaos | 146 |
| Cercignani C. — Rarefied Gas Dynamics | 236 |
| Davies P. — The New Physics | 323, 325 |
| Meyer-Ortmanns H., Reisz T. — Principles of phase structures in particle physics | 124, 557 |
| Springford M. — Electrons at Fermi surface | 129, 140, 489, 490, 503 |
| Blin-Stoyle R.J. — Eureka! Physics of particles, matter and the universe | 99 |
| Kittel C. — Introduction to solid state physics | 475 |
| Bell J., Kearsley M., Pitaevskii L. — Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media | 142 |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | 142 |
| Bell J.S., Kearsley M.J. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | 142 |
| L.D. Landau, E.M. Lifshitz — Electrodynamics of Continuous Media | 142 |
| L.D. Landau — Electrodynamics of Continuous Media | 142 |
| L. D. LANDAU, E. M. LIFSHITZ — ELECTRODYNAMICS OF CONTINUOUS MEDIA | 142 |
|
|
Î ïðîåêòå