| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Heinbockel J.H. — Introduction to tensor calculus and continuum mechanics | 191 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 130.A 442.D |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 1) | 53, 144, 1763 |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 2) | 53, 144, 1763 |
| Borisenko A.I., Tarapov I.E. — Vector and Tensor Analysis with Applications | 211, 228 |
| Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 1, The basis) | 156 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 20 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 439 |
| Landsman N.P. — Mathematical topics between classical and quantum mechanics | 149 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 525, 534 |
| Monk P. — Finite Element Methods for Maxwell's Equations | 61 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 74 |
| Tarantello G. — Self-Dual Gauge Field Vortices: An Analytical Approach | 3 |
| Strauss W.A. — Partial Differential Equations: An Introduction | 342 |
| Thaller B. — Visual quantum mechanics | 95 |
| Aitchison I.J.R., Hey A.J.G. — Gauge theories in particle physics. Volume 1: from relativistic quantum mechanics to QED | 57 |
| Shankar R. — Basic Training In Mathematics | 201 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis II: Integration | 539, 547 |
| Schey H.M. — DIV, Grad, Curl, and All That: An Informal Text on Vector Calculus | 154 |
| Kadanoff L.P. — Statistical physics | 361 |
| Planck M. — Introduction to Theoretical Physics | 241—244 |
| Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 248 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 130.A, 442.D |
| Menzel D.H. — Mathematical Physics | 264, 314 |
| Thaller B. — The Dirac equation | 108, 151, 173, 305, 310 |
| Heitler W. — The Quantum Theory of Radiation | 2, 48 |
| Cleland A.N. — Foundations of nanomechanics | 244 |
| Greenberg M.D. — Advanced engineering mathematics | 829 |
| Ting L., Klein R. — Viscous Vortical Flows (Lecture Notes in Physics) | $\rightarrow$ "Potential" |
| Yamamoto Y., Imamoglu A. — Mesoscopic quantum optics | 34 |
| Seitz F. — Modern Theory of Solids | 211 |
| Billingham J., King A.C. — Wave Motion | 144 |
| Povey M.J. — Ultrasonic Techniques for Fluids Characterization | 113 |
| Nayfeh M.H., Brussel M.K. — Electricity and Magnetism | see “Potential, scalar” |
| Mercier A. — Analytical and canonical formalism in physics | 124 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 1) | 384, 503 |
| Logan J.D. — Invariant Variational Principles | see “Four-potential” |
| Englert B.G. (Ed) — Quantum Mechanics | 437 |
| Achenbach J.D. — Wave propagation in elastic solids | 85, 89, 93, 116—119 |
| Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 289; see Higss potential |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | see “Electric” |
| Stoner E.C. — Magnetism and Atomic Structure with 56 diagrams | 32 |
| Desloge E.A. — Classical Mechanics. Volume 1 | 470 |
| Orlando T.P., Delin K.F. — Foundations of Applied Superconductivity | 231 |
| Kuttler K. — Calculus, Applications and Theory | 617 |
| Avery J. — Creation and Annihilation Operators | 99, 103, 104, 148, 163 |
| Beaurepaire E., Bulou H., Scheurer F. — Magnetism: A Synchrotron Radiation Approach | 204 |
| Stahl A. — Physics with tau leptons | 99, 103, 104, 148, 163 |
| Graff K.F. — Wave motion in elastic solids | 275 |
| Siegel W. — Fields | IIIA1 |
| Basdevant J.-L., Dalibard J. — Quantum Mechanics | 301, 337 |
| Auletta G. — Foundations and Interpretation of Quantum Mechanics | 694 |
| Measures R.M. — Laser remote sensing. Fundamentals and applications | 12 |
| Arya A.P. — Introduction to Classical Mechanics | 660 |
| Tsang L., Kong J.A., Ding K.- H. — Scattering of electromagnetic waves (Vol 2. Numerical simulations) | 19, 293, 294, 496 |
| Landau L.D., Lifshitz E.M. — The classical theory of fields | 48 |
| Baez J.C., Muniain J.P. — Gauge theories, knots, and gravity | 104 |
| Ohanian H.C. — Classical Electrodynamics | 271 |
| Hermann R. — Differential geometry and the calculus of variations | 185, 186 |
| Harman T.L., Dabney J.B., Richert N.J. — Advanced Engineering Mathematicas with MATLAB | 616 |
| Morse P.M. — Methods of theoretical physics | 53, 144, 1763 |
| Zhang K., Li D. — Electromagnetic Theory for Microwaves and Optoelectronics | 37 |
| Siegel W. — Fields | IIIA1 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 5 |
| Wiedemann H. — Particle accelerator physics II | 43, 44, 230 |
| Thaller B. — The Dirac equation | 108, 151, 173, 305, 310 |
| Wilson W.F.R.S. — Theoretical physics. Volume II. Electromagnetism and optics | 90, 214 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 2) | 384, 503 |
| Slater J.C., Frank N.H. — Electromagnetism | 14—18, 86—88 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 414 |
| Milonni P.W. — The quantum vacuum: introduction to quantum electrodynamics | 38, 116, 119, 318, 360 |
| Davies J.H. — The physics of low-dimensional semiconductors : an introduction | 207 |
| Griffits D.J. — Introductions to electrodynamics | 53, 416—442 |
| Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 351 |
| Greiner W. — Relativistic quantum mechanics. Wave equations | 234 |
| Adler S.L. — Quaternionic Quantum Mechanics and Quantum Fields | 40, 59n.3, 94—95, 98, 108, 239 |
| Abrikosov A.A., Gorkov L.P., Dzyalosliinski I.E. — Methods of quantum fields theory in statistical physics | 250 |
| Ticciati R. — Quantum field theory for mathematicians | 401 |
| Rektorys K. — Survey of Applicable Mathematics.Volume 2. | I 233 |
| Haus H.A. — Waves and Fields in Optoelectronics | 11, 159 |
| Abrikosov A.A., Gîr'kov L.P., Dzyalosiiinskh I.Yk. — Quantum field theoretical methods in statistical physics | 250 |
| Slater J., Frank N. — Introduction to Theoretical Physics | 241—244 |
| Zorich V.A., Cooke R. — Mathematical analysis II | 296 |
| Wiedemann H. — Particle Accelerator Physics I: Basic Principles and Linear Beam Dynamics | 86 |
| Zorich V. — Mathematical Analysis | 296 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 289, see also "Higss potential" |
| Jackson J.D. — Classical electrodynamics | 30, see also "Potential, electrostatic" |
|
|
Î ïðîåêòå