| Книга | Страницы для поиска |
| Taylor M.E. — Partial Differential Equations. Basic theory (vol. 1) | 161 |
| Weinberger H.F. — First course in partial defferential equations with complex variables and transform methods | 7, 336, 362 |
| Cohen B.J. — Medical terminology: an illustrated guide | 502 |
| Anderson J.D. — Modern Compressible Flow: With Historical Perspective | See Speed of sound |
| Nayfeh A.H., Mook D.T. — Nonlinear Oscillations | 566 see also Speed, of sound |
| Wesson J. — Tokamaks | 96 |
| Akmajian A., Demers R.A., Farmer A.K. — Linguistics. An Introduction to Language and Communications | 66 |
| Capriz G. (ed.), Giovine P. (ed.), Mariano P.M. (ed.) — Mathematical Models of Granular Matter | 91, 94, 98, 104 |
| Newman J.R. — The World of Mathematics, Volume 2 | 865 |
| Rockmore D. — Stalking the Riemann Hypothesis: The Quest to Find the Hidden Law of Prime Numbers | 85—86 |
| Walecka J.D. — Fundamentals of statistical mechanics | 133, 137, 210 |
| Frank J., King A., Raine D.J. — Accretion Power in Astrophysics | 12 |
| Carlson N.R. — Physiology of Behavior | 201, 201f |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 1:182, 2:1367, 3:2157, 5:3716—3717, 6:4155—4156, 6:4156f, 6:4164 |
| Eddington A. — Relativity Theory of Protons and Electrons | 245 |
| Huey E.G. — What makes the wheels go round? A first-time physics | 128, 129, 141 |
| Schercliff J.A. — Vector Fields | 187, 191, 201 |
| Wolf-Gladrow D.A. — Lattice-gas cellular automata and lattice Boltzmann models | 83 |
| Koerber G.G. — Properties of Solids | 167, 188 |
| Newman J.R. (ed.) — The World of Mathematics, Volume 4 | 865, 2280—2283 |
| Rickayzen G. — Green's functions and condensed matter | 90, 256 |
| Landau L.D., Lifschitz E.M. — Fluid Mechanics. Vol. 6 | 251—281 |
| Stone M. — The physics of quantum fields | 124 |
| Rockmore D. — Stalking the Riemann Hypothesis | 85—86 |
| Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) | see “Finite amplitude waves” |
| Courant R., Hilbert D. — Methods of Mathematical Physics, Vol. 2 | 430 |
| ter Haar D. — Elements of Statistical Mechanics | 289 |
| Padmanabhan T. — Theoretical Astrophysics: Volume 1, Astrophysical Processes | 386 |
| Pathria P.K. — Statistical Mechanics | 172—178, see also "Phonons" |
| Greene B. — The elegant univerce | 90, 90, 93, 143, 145 |
| Arya A.P. — Introduction to Classical Mechanics | 645 |
| Eliezer Sh., Ghatak A., Hora H. — Fundamentals of Equations of State | 169 |
| Padmanabhan T. — Cosmology and Astrophysics through Problems | 41, 239 |
| Sutton O.G. — Mathematics in action | 91, 92, 98, 124, 128, 218 |
| Noble B. — Methods based on the Wiener-Hopf technique for the solution of PDEs | (see Duct, Half-planes, etc.) |
| Knight J. — Science of everyday things (volume 4). Real-life earth science | 2:259 |
| Rauch J. — Partial differential equations | 21, 57, 117 |
| Stibitz G.R., Larrivee J.A. — Mathematics and Computers | 101 |
| Collatz L. — The numerical treatment of differential equations | 452 |
| Marder M.P. — Condensed matter physics | 294, 301 |
| Wynn C.M., Wiggins A.W. — Quantum leaps in the wrong direction | 148, 152 |
| Moore F. — Elements of Computer Music | 18 |
| Hademenos G.J. — Applied physics | 67—69 |
| Ashby N., Miller S.C. — Principles of modern physics | 347, 349 |
| Freidberg J.P. — Plasma Physics and Fusion Energy | see "MHD waves" |
| Kravens T.E. — Physic of Solar System Plasmas | 124—128, 170 |
| ter Haar D. — Elements of Statistical Mechanics | 289 |
| Cercignani C. — Rarefied Gas Dynamics | 129, 135, 137, 138 |
| Kleinert H. — Gauge fields in condensed matter (part 2) | 226 |
| Zelkowitz M. — Advances in Computers, Volume 55 | 54 |
| Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics) | 251—281 |
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