| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Wolf E.L. — Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Henrici P. — Applied and Computational Complex Analysis. I: Power Series, Integration, Conformal Mapping, Location of Zeros. | 506, 509 |
| Schmalzried H. — Chemical Kinetics of Solids | 172 |
| Konheim A.G. — Computer Security and Cryptography | 5 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 4 |
| Wahlin L. — Atmospheric electrostatics | 38, 40—45, 48—51 |
| Clarke L.J. — Surface crystallography: an introduction to low energy electron diffraction | 143, 263, 311—312, see also inner potential |
| Mayer J.E., Mayer M.G. — Statistical Mechanics | see also “Thermodynamic functions” |
| Cohen E.R. — Fundamental Constants of Physics | 145 |
| Galindo A., Pascual P. — Quantum Mechanics Two | I 5 |
| Pettifor D.G. — Bonding and structure of molecules and solids | 24 |
| Lanzcos C. — The Variational Principles of Mechanics | 27 |
| Beyer H.F., Shevelko V.P. — Introduction to the Physics of Highly Charged Ions | 64, 330 |
| Klinzing G.E. — Gas-Solid Transport | 33, 35 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 1115 |
| Adkins C.J. — Equilibrium Thermodynamics | 100 |
| Born M. — Atomic Physics | 219, 220 |
| Koerber G.G. — Properties of Solids | 235—236 |
| Banerjee P.P., Poon T.-C. — Principles of applied optics | 268 |
| Bube R.H. — Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 110 |
| Seitz F. — Modern Theory of Solids | 145ff., 166, 404 |
| Unertl W.N. — Physical Structure | 115, 262, 365, 382, 442, 449, 462, 466, 470, 478, 633 |
| Allen H.S. — Electrons and Waves | 103—104 |
| Kleppner D., Kolenkow R. — An introduction to mechanics | 502 |
| Galindo A., Pascual P. — Quantum Mechanics One | 5 |
| Raizer Yu.P. — Gas Discharge Physics | 68 |
| Love A.E. — Theoretical Mechanics, an Introductory Treatise on the Principles of Dynamics: With Applications and Numerous Examples | 80, 152Acceleration, Definition of |
| Griffits D. — Introduction to elementary particles | 15 |
| Dresselhaus M.S., Dresselhaus G., Avouris Ph. — Carbon nanotubes | 406 |
| Bube R.H. — Photoconductivity of Solids | 15, 111 |
| Wolf E.L. — Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 5, 28, 89, 90, 160 |
| Streetman B.G. — Solid State Electronic Devices | 31, 184—189, 301—302, 310—311 |
| Carrol B.W., Ostlie D.A. — An introduction to modern astrophysics | 117 |
| ter Haar D. — Elements of Statistical Mechanics | 141 |
| Greiner W. — Classical electrodynamics | 53 |
| Sears F.W. — Optics | 290 |
| Fogiel M. — The optics problem solver | 3—9, 3—10 |
| Kundt W. — Astrophysics. A Primer | 96 |
| Cotterill R.M.J. — Biophysics: An Introduction | 99, 344 |
| Gao W., Sammes N. — An Introduction to Electronic and Ionic Materials | 50 |
| Pathria P.K. — Statistical Mechanics | 214, 217 |
| Lim Y. (ed.) — Problems and solutions on solid state physics, relativity and miscellaneous topics | 1051 |
| Ashcroft N.W., Mermin N.D. — Solid State Physics | 354—360 |
| Mott N.F. — Elements of Wave Mechanics | 119 |
| Azaroff L.V. — Introduction to Solids | 339, 340 |
| Nouredine Z. — Quantum Mechanics: Concepts and Applications | 11 |
| Lanczos C. — Variational principles of mechanics | 27 |
| Seitz F. — The Physics of Metals | 237, 253 |
| Mayer J.E., Goeppert Mayer M. — Statistical mechanics | see also "Thermodynamic functions" |
| Appenzeller I. (ed.), Habing H.J. (ed.), Léna P. (ed.) — Evolution of Galaxies Astronomical Observations | 322 |
| Atkins P. — Molecular Quantum Mechanics | 4 |
| Wurfel P. — Physics of Solar Cells: From Principles to New Concepts | 57 |
| Goldsmid H.J. (ed.) — Problems in solid state physics | 11.5 |
| Podgorsak E. — Radiation Physics for Medical Physicists | 22, 23 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 1310 |
| Schreiber E. — Femtosecond real-time spectroscopy of small molecules and clusters | 37 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 4 |
| Gosser D.K. — Cyclic Voltammetry: Simulation and Analysis of Reaction Mechanisms | 1 |
| Milonni P.W. — The quantum vacuum: introduction to quantum electrodynamics | 313 |
| Davies J.H. — The physics of low-dimensional semiconductors : an introduction | 86 |
| Grosso G. (Ed), Parravicini G.P. (Ed) — Solid State Physics | 89, 490 |
| HarrisR. — Nonclassical physics: beyond Newton's view | 72, 376 |
| Ashby N., Miller S.C. — Principles of modern physics | 116, 326 |
| Gosser D.K.J. — Cyclic voltametry. Simulation and analysis of reaction mechanism | 1 |
| Attwood S.S. — Electric and Magnetic Fields | 174 |
| ter Haar D. — Elements of Statistical Mechanics | 141 |
| Carleton N. — Methods of experimental physics | 11 |
| Park R., Lagally M. — Methods of Experimental Physics.Volume 22.Solid State Physics:Surfaces. | 2, 8, 14, 19, 21, 128, 137, 141, 145, 148, 155, 167, 206, 350, 356, 359, 375, 397 |
| Halpern A., Erlbach E. — Beginning Physics II: Waves, Electromagnetism, Optics and Modern Physics | 455 |
| Kittel C. — Introduction to solid state physics | 560 |
| Liboff R.L. — Introductory quantum mechanics | 35 |
| Rosser W.G.V. — An introduction to statistical physics | 301 |
| Bell J., Kearsley M., Pitaevskii L. — Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media | 92 |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | 92 |
| Bell J.S., Kearsley M.J. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | 92 |
| L.D. Landau, E.M. Lifshitz — Electrodynamics of Continuous Media | 92 |
| L.D. Landau — Electrodynamics of Continuous Media | 92 |
| L. D. LANDAU, E. M. LIFSHITZ — ELECTRODYNAMICS OF CONTINUOUS MEDIA | 92 |
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