| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Heinbockel J.H. — Introduction to tensor calculus and continuum mechanics | 86, 87, 201, 203 |
| Apostol T.M. — Calculus (vol 1) | 545 (Exercise 19) |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 12 |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 1) | 125 |
| Morse P., Feshbach H. — Methods of Theoretical Physics (part 2) | 125 |
| Borisenko A.I., Tarapov I.E. — Vector and Tensor Analysis with Applications | 45 |
| Acheson David — From calculus to chaos | 70, 147 |
| Hayek S.I. — Advanced mathematical methods in science and engineering | 117 |
| Meirovitch L. — Methods of analytical dynamics | 43, 108 |
| Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 1, The basis) | 119 |
| Rosch W. — Winn L. Rosch Hardware Bible, Sixth Edition | |
| Clift R., Grace J.R., Weber M.E. — Bubbles, drops, and particles | 259, 261 |
| Mukamel S. — Principles of Nonlinear Optical Spectroscopy | 449 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 256—257, 264—266, 283, 293, 304, 306, 276—277 (prob) |
| Serre D. — Handbook of Mathematical Fluid Dynamics, Vol. 1 | 47 |
| Coffin D. — Calculus on the HP-48G/GX | 254 |
| Kanatani K. — Statistical Optimization for Geometric Computation: Theory and Practice | 37 |
| McCarthy J.M., Wiggins S. (Ed), Sirovich L. — Geometric Design of Linkages | 36, 133, 202 |
| Rutherford D.E. — Vector Methods | 47 |
| Eringen A.C. — Mechanics of continua | 85,94 |
| Greiner W. — Classical mechanics. Point particles and relativity | 81, 230 |
| Arnold V.I., Khesin B.A. — Topological methods in hydrodynamics | 4, 15 |
| Elberly D.H., Shoemake K. — Game Physics | 25, 27 |
| Menzel D.H. — Mathematical Physics | 8, 66 |
| Mukamel S. — Principles of nonlinear spectroscopy | 449 |
| Sokolnikoff I.S. — Higher Mathematics for Engineers and Physicists | 61, 191, 236, 404, 424 |
| Sokolnikoff I.S. — Mathematics of Physics and Modern Engineering | 302, 399p |
| Schercliff J.A. — Vector Fields | 13, 60, 97, 200, 205, 230, 273, 284 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 247—249 |
| Greenberg M.D. — Advanced engineering mathematics | 708 |
| Apostol T.M. — Calculus: One-Variable Calculus with an Introduction to Linear Algebra, Vol. 1 | 545; (Exercise 19) |
| Audin M. — Spinning Tops: A Course on Integrable Systems | 16 |
| Karman T., Biot A.M. — Mathematical Methods in Engineering | 74 |
| Feodosiev V.I. — Advanced Stress and Stability Analysis | 316 |
| Forsythe W.E. — Smithsonian Physical Tables | 4 |
| Brocker Th., Dieck T.T. — Representations of Compact Lie Groups | 22 |
| Libai A., Simmonds J.G. — The Nonlinear Theory of Elastic Shells | see “Velocity, angular” |
| Fulling S. — Aspects of Quantum Field Theory in Curved Spacetime | 269 |
| Ardema M.D. — Newton-Euler Dynamics | 18, 71, 83 |
| Kleppner D., Kolenkow R. — An introduction to mechanics | 289 |
| Kulish V.V. — Hierarchical Methods: Hierarchy and Hierarchical Asymptotic Methods In Electrodynamics, Volume 1 | 30, 34, 35 |
| Love A.E. — Theoretical Mechanics, an Introductory Treatise on the Principles of Dynamics: With Applications and Numerous Examples | 24, 205 |
| Allen H.C., Cross P.C. — Molecular Vib-Rotors: the Theory and Interpretation of High Resolution Infrared Spectra | 3 |
| Desloge E.A. — Classical Mechanics. Volume 1 | 33 — 36 |
| Ardema M.D. — Analytical Dynamics: Theory and Applications | 9, 18 |
| Gray C.G., Gubbins K.E. — Theory of molecular fluids | 210, 609, 615 |
| Strelkov S.P. — Mechanics | 82, 161, 179 |
| D'Inverno R. — Introducing Einstein's Relatvity | 133, 253 |
| Stewart I.W. — The Static and Dynamic Continuum Theory of Liquid Crystals: A Mathematical Introduction | 134 |
| Bluman G.W. — Problem Book for First Year Calculus | 100, (11.32; III.13, 14), [11.48, 82, 84-87; III.19-23, 53] |
| Houston W.V. — Principles of Mathematical Physics | 112 |
| Montenbruck O. — Practical Ephemeris Calculations | 53 |
| Weyl H. — Space, Time, Matter | 47 |
| Andrzejewski R., Awrejcewicz J. — Nonlinear Dynamics Of A Wheeled Vehicle | 16, 17, 24, 140, 282—284 |
| Arya A.P. — Introduction to Classical Mechanics | 198 |
| Carmeli M. — Classical Fields: General Gravity and Gauge Theory | 212, 213 |
| Kimball A.I. — A college textbook of physics | 89 |
| Rutherford D.E. — Vector methods. Applied to differential geometry, mechanics, and potential theory | 47 |
| United States NAVY — Mathematics, Trigonometry (Navy course) | 3-8 to 3-11, 3-32 |
| Thomas T. Y. — The elementary theory of tensors with applications to geometry and mechanics. | 77 |
| Selig J.M. — Introductory robotics | 68—71, 103 |
| Synge J.L. — Relativity: The general theory | 117, 140, 407 |
| Belotserkovsky S.M., Lifanov I.K. — Method of Discrete Vortices | 328 |
| Scarborough J.B. — The gyroscope: Theory and applications | 13 |
| Morse P.M. — Methods of theoretical physics | 125 |
| McKeague C. P. — Trigonometry | 151, 164 |
| Richards P.I. — Manual of Mathematical Physics | 7, 293 |
| Lauterborn W., Kurz T. — Coherent optics | 139 |
| Lauterborn W., Kurz T. — Coherent optics | 139 |
| Collins G.W. — The virial theorem in stellar astrophysics | 34 |
| Schutz B.F. — A first course in general relativity | 280 |
| Hademenos G.J. — Applied physics | 42—43 |
| Jeffreys H. — Methods Of Mathematical Physics | 79, 81, 97 |
| Greiner W. — Classical mechanics. Systems of particles and hamiltonian dynamics | 5, 7 |
| Librescu L., Song O. — Thin-Walled Composite Beams:Theory and Application | 438 |
| Franklin P. — Differential and integral calculus | 170 |
| Giles R. — Mathematical foundation of thermodynamics | 136, 178 |
| Johnson W.C. — Mathematical and physical principles of engineering analysis | 21, 57 |
| Lyons L. — All You Wanted to Know about Mathematics but Were Afraid to Ask - Mathematics for Science Students. Volume 1 | 57—58, 69, 78, 107—108 |
| Greenberg M. — Advanced engineering mathematics | 708 |
| Cercignani C. — Rarefied Gas Dynamics | 210 |
| Bourg D. — Physics for Game Developers | 50—56, 86 |
| Zorich V.A., Cooke R. — Mathematical analysis II | 69—70 |
| Zorich V. — Mathematical Analysis | 69—70 |
| Conger D. — Physics modelling for game programming | 205, 214—215, 221, 223 |
| Ichimaru S. — Statistical Plasma Physics, Volume I: Basic Principles (Frontiers in Physics, Vol 87) (v. 1) | 351 |
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