| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Taylor M.E. — Partial Differential Equations. Basic theory (vol. 1) | 58, 95 |
| Greiner W., Muller B., Rafelski J. — Quantum electrodynamics of strong fields | 225, 525 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 130.A |
| Collin R.E. — Foundations for Microwave Engineerings | 17—18 |
| Bird R.B., Lightfoot E.N., Stewart W.E. — Transport Phenomena | 784, 799 |
| Felsager B. — Geometry, particles and fields | 4 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 22, 131, 237, 350 |
| Landsman N.P. — Mathematical topics between classical and quantum mechanics | 242 |
| Biscamp D. — Magnetohydrodynamic turbulence | 11 |
| Debnath L. — Nonlinear water waves | 101—102 |
| Wilson A.H. — Thermodynam Mechanics | 290 |
| Guenther R.D. — Modern optics | 36—37 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 199, 508, 537—539 |
| Marmo G., Skagerstam B.S., Stern A. — Classical topology and quantum states | 38 |
| Torretti R. — Relativity and Geometry | 43, 113, 116, 323 note 2 |
| Edminister J.A. — Schaum's outline of electromagnetics | 155 |
| Krupkova O. — The Geometry of Ordinary Variational Equations | 14, 122, 226 |
| Greiner W. — Quantum mechanics. An introduction | 205 |
| Kwok K.Ng. — Complete guide to semiconductor devices | 576 |
| Thaller B. — Visual quantum mechanics | 208 |
| Lounesto P., Hitchin N.J. (Ed), Cassels J.W. (Ed) — Clifford Algebras and Spinors | 100 |
| Bamberg P.G. — A Course in Mathematics for Students of Physics, Vol. 2 | 700 |
| Fripp A., Fripp J., Fripp M. — Just-in-Time Math for Engineers | 301—302 |
| Walecka J.D. — Fundamentals of statistical mechanics | 149 |
| Arnold V.I., Khesin B.A. — Topological methods in hydrodynamics | 50, 120 |
| Rammer J. — Quantum transport theory | 179 |
| Ziman J.M. — Elements of Advanced Quantum Theory | 180, 200 |
| Planck M. — Introduction to Theoretical Physics | 240 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 130.A |
| Collins G.W. — Fundamentals of Stellar Astrophysics | 183 |
| Konopinski E.J. — Electromagnetic fields and relativistic particles | 106 |
| Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids | 2, 29, 257 |
| Beyer H.F., Shevelko V.P. — Introduction to the Physics of Highly Charged Ions | 94 |
| Schercliff J.A. — Vector Fields | 18, 22, 23, 256 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 864 |
| Heitler W. — The Quantum Theory of Radiation | 1, 12, 45 |
| Born M. — Atomic Physics | 26, 226, 272 |
| Thirring W.E. — Classical Mathematical Physics: Dynamical Systems and Field Theories | 214, 320 |
| Koerber G.G. — Properties of Solids | 239 |
| Stephani H. — Relativity: an introduction to special and general relativity | 51, 55, 56 |
| De Felice F., Clarke C.J.S. — Relativity on curved manifolds | 298, 300 |
| Thirring W.E. — Course in Mathematical Physics: Classical Dynamical System, Vol. 1 by Walter E. Thirring | 186 |
| Bube R.H. — Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 222. 360 |
| Seitz F. — Modern Theory of Solids | 170, 213, 317 |
| Atkinson D., Johnson P.W. — Exercises in Quantum Field Theory: A Self-Contained Book of Questions and Answers | 22 |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.2) | II-13-1, II-15-14 |
| Nayfeh M.H., Brussel M.K. — Electricity and Magnetism | 244 |
| Kubo R. — Statistical Mechanics: An Advanced Course with Problems and Solutions | 255 |
| Mercier A. — Analytical and canonical formalism in physics | 47, 88 |
| Dutra S.M. — Cavity quantum electrodynamics | 154, 276 |
| Mattheij R.M.M., Molenaar J. — Ordinary Differential Equations in Theory and Practice (Classics in Applied Mathematics) (No. 43) | 282 |
| Englert B.G. (Ed) — Quantum Mechanics | 322, 339 |
| Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 37, 46 |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | 82 |
| Jackson J.D. — Classical electrodynamics | 191 |
| Cercignani C. — Theory and Application of the Boltzman Equation | 11 |
| Desloge E.A. — Classical Mechanics. Volume 1 | 561, 741 |
| Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids | 244, 245 |
| Ziman J.M. — Electrons and Phonons: The Theory of Transport Phenomena in Solids | 96, 486, 512 |
| Beaurepaire E., Bulou H., Scheurer F. — Magnetism: A Synchrotron Radiation Approach | 282 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 37, 46 |
| ter Haar D. — Elements of Statistical Mechanics | 54 |
| Greiner W., Reinhardt J. — Quantum electrodynamics | 268 |
| Greiner W. — Classical electrodynamics | 191 |
| Shore S.N. — The Tapestry of Modern Astrophysics | 47, 80 |
| Greiner W. — Quantum mechanics: special chapters | 21,28 |
| Mattheij R.M.M. — Partial differential equations: modeling, analysis, computation | 125 |
| Greiner W., Mueller B. — Quantum mechanics: symmetries | 16 |
| Neff H.P.Jr. — Introductory electromagnetics | 129 |
| Lawden D.F. — An Introduction to Tensor Calculus, Relativity and Cosmology | 79 |
| Basdevant J.-L., Dalibard J. — Quantum Mechanics | 301 |
| Prigogine I. — Proceedings of the International Symposium on Transport. Processes in Statistical Mechanics, held in Brussels,. August 27-31, 1956 | 181 |
| Likharev K.K. — Dynamics of Josephson junctions and circuits | 255, 288, 291, 509, 513 |
| Hercules Proceedings (Vol. I) (unknown book) | 272 |
| Phillips P. — Advanced Solid State Physics | 356, 360 |
| Ashcroft N.W., Mermin N.D. — Solid State Physics | 12 |
| Landau L.D., Lifshitz E.M. — The classical theory of fields | 51 |
| Bertotti G. — Hysteresis in Magnetism: For Physicists, Materials Scientists, and Engineers | 76, 96 |
| Azaroff L.V. — Introduction to Solids | 383, 414 |
| Zakrzewski W.J. — Low Dimensional Sigma Models | 176 |
| Tinkham M. — Introduction to superconductivity | 13, 155, 163—167, 177, 354 |
| Ohanian H.C. — Classical Electrodynamics | 244 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. 1. Relativity and cosmology | 13 |
| Schwartz M. — Principles of electrodynamics | 131 |
| Shu F.H. — The Physical Universe: An Introduction to Astronomy | 18 |
| Rogers L. — Its ONLY Rocket Science. An Introduction in Plain English (Astronomers Universe) | 130, 292 |
| Amoroso R.L. (ed.), Hunter G. (ed.), Vigier J.-P. (ed.) — Gravitation and Cosmology: From the Hubble Radius to the Planck Scale | 440 |
| Zhang K., Li D. — Electromagnetic Theory for Microwaves and Optoelectronics | 4 |
| Sommerfeld A., Ramberg Edward G. (translator) — Electrodynamics. Lectures on theoretical physics, Vol. III | 238 |
| Ugarov V.A. — Special Theory of Relativity | 147, 182, 199 |
| Goldsmid H.J. (ed.) — Problems in solid state physics | 11.7, 11.19, 13.11, 13.14 |
| Podgorsak E. — Radiation Physics for Medical Physicists | 102 |
| Tzenov S.I. — Contemporary Accelerator Physics | 175 |
| Biskamp D. — Magnetic Reconnection in Plasmas | 30 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 182, 183, 191, 331, 378 |
| Lounesto P. — Clifford algebras and spinors | 100 |
| Wiedemann H. — Particle accelerator physics II | 51 |
| Choquet-Bruhat Y. — General Relativity and the Einstein Equations | 23 |
| Marder M.P. — Condensed matter physics | 676 |
| Hinrichsen D., Pritchard A. — Mathematical Systems Theory I: Modelling, State Space Analysis, Stability and Robustness | 44 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 204, 222 |
| Frankel T. — The geometry of physics: an introduction | 119 |
| Collins G.W. — The virial theorem in stellar astrophysics | 12, 34 |
| Cole G.H.A., Woolfson M.M. — Planetary science. The science of planets around stars | 369 |
| Davies J.H. — The physics of low-dimensional semiconductors : an introduction | 217, 235 |
| Datta S. — Electronic transport in mesoscopic systems | 37 |
| Biskamp D. — Magnetohydrodynamic Turbulence | 11 |
| Anderson J.L. — Principles of Relativity Physics | 228 |
| Ashby N., Miller S.C. — Principles of modern physics | 3 |
| Greiner W. — Relativistic quantum mechanics. Wave equations | 124 |
| Kruegel E. — The Physics of Interstellar Dust | 2, 36, 176, 373 |
| Ketterson J.B., Song S. — Superconductivity | 113 |
| Barut A.O. — Electrodynamics and Classical Theory of Fields and Particles | 54, 55, 62, 63, 88 |
| Haag R. — Local quantum physics: fields, particles, algebras | 20 |
| Greiner W. — Classical mechanics. Systems of particles and hamiltonian dynamics | 324 |
| Kravens T.E. — Physic of Solar System Plasmas | 1—2, 12, 24, 43, 464 |
| Sakurai J.J. — Modern quantum mechanics | 131, 139 |
| Snygg J. — Clifford algebra: a computational tool for physicists | 138, 142 |
| Dolan T.J. — Fusion Research: Principles, Experiments and Technology | 107 |
| ter Haar D. — Elements of Statistical Mechanics | 54 |
| Slater J., Frank N. — Introduction to Theoretical Physics | 240 |
| Mattheij R.M. — Partial differential equations | 125 |
| Kirk J., Melrose D., Priest E. — Plasma astrophysics | 21 |
| Frankel T. — The geometry of physics: An introduction | 119
Lorentz force, covector |
| Sturrock P. — Plasma Physics: An Introduction to the Theory of Astrophysical, Geophysical and Laboratory Plasmas | 4, 53 |
| Feynman R., Leighton R., Sands M. — Lectures on Physics 2 | II-13-1, II-15-14 |
| Sexl R., Urbantke H.K. — Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 91 |
| Snygg J. — Clifford algebra: a computational tool for physicists | 138, 142 |
| Wiedemann H. — Particle Accelerator Physics I: Basic Principles and Linear Beam Dynamics | 2, 17, 26, 55, 75, 76, 231, 387 |
| Yao W-M — Review of particle physics | 106 |
| Springford M. — Electrons at Fermi surface | 16—17 |
| Guillemin V., Sternberg S. — Symplectic techniques in physics | 140 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 37, 46 |
| Ichimaru S. — Statistical Plasma Physics, Volume I: Basic Principles (Frontiers in Physics, Vol 87) (v. 1) | 31, 231 |
| Foster J., Nightingale J. — A Short Course in General Relativity (Longman mathematical texts) | 183 |
| Jackson J.D. — Classical electrodynamics | 3, 260, 553, 579 |
| Thirring W., Harrell E.M. — Classical mathematical physics. Dynamical systems and field theory | 214, 320 |
| Corciovei A., Costache G., Dederichs P.H. — Solid State Physics | 126 |
| Lipparini E. — Modern many-particle physics: atomic gases, quantum dots and quantum fluids | 139, 417 |
| Kalckar J. — Foundations of Quantum Physics I (1926 - 1932), Volume 6 | 309, 334, 339, 341 |
| Kittel C., Knight W., Ruderman M. — Berkeley physics course 1. Mechanics | 72, 154 |
| Biskamp D. — Nonlinear Magnetohydrodynamics | 9 |
| Ferziger J.H., Kaper H.G. — Mathematical theory of transport processes in gases | 429 |
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