Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics) :: Электронная библиотека попечительского совета мехмата МГУ

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Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics)

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Название: Fluid Mechanics: Vol 6 (Course of Theoretical Physics)

Авторы: Landau L., Sykes J.

Аннотация:

This is the most comprehensive introductory graduate or advanced undergraduate text in fluid mechanics available. It builds up from the fundamentals, often in a general way, to widespread applications, to technology and geophysics.

New to this second edition are discussions on the universal dimensions similarity scaling for the laminar boundary layer equations and on the generalized vector field derivatives. In addition, new material on the generalized streamfunction treatment shows how streamfunction may be used in three-dimensional flows. Finally, a new Computational Fluid Dynamics chapter enables compulations of some simple flows and provides entry to more advanced literature.
Read more at http://ebookee.org/Fluid-Mechanics-Second-Edition-Course-of-Theoretical-Physics-Volume-6-_970226.html#x3Ogo57ayLuk7RZ7.99

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1987

Количество страниц: 539

Добавлена в каталог: 12.09.2014

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Superfluids, dynamics of, dissipative processes in      523—526
Superfluids, dynamics of, equations of motion for      518—254
Superfluids, dynamics of, propagation of sound in      526—531
Superfluids, dynamics of, properties of      515—517
Superfluids, dynamics of, thermo-mechanical effect in      517—118
Supersonic flow      313
Supersonic flow past a conical obstacle      432—434
Supersonic flow past a wing      476—479
Supersonic flow past bodies      467—470
Supersonic flow past pointed bodies      470—474
Supersonic flow round an angle      427—432
Surface phenomena      (VII) 238—250
Surface pressure      238
Surface pressure, Laplace's formula for      239
Surface-tension coefficient      238
Suspension      73
Suspension, diffusion of      235—237
Suspension, viscosity of      73—75
Taub adiabatic      511
Taylor vortices      101
Thermal explosion      198—199
Thermo-mechanical effect in ordinary fluids      517n
Thermo-mechanical effect in superfluids      517—518
Transition line      452 see
Transitional surface      447
Transonic flow      437 447
Transonic similarity, law of      479—481
Turbulence      (III) 95—156
Turbulence sound excitation by      289—291
Turbulence, fully developed      129—135
Turbulence, onset of      96—98 108—129
Turbulence, scales of      130
Turbulent boundary layer      178—183
Turbulent boundary layer on a plate      178—179
Turbulent conduction      211
Turbulent flow      108—113
Turbulent flow in pipes      176—179
Turbulent flow region of      147
Turbulent jet      147—152 220
Turbulent region      147
Turbulent temperature fluctuations      212—213
Turbulent viscosity      131
Turbulent wake      152—153 155—156
Turbulent wake, contraction of      181
Turn-over      380n
Two-dimensional flow      19
Two-dimensional flow of gas      (XII) 435—466
Velocity potential      16 20
Velocity, circulation      12
Velocity, circulation conservation of      13
Velocity, complex      20
Velocity, correlation      135—145 214
Velocity, hodograph      418
Vibrations, characteristic      266—269
Vibrations, forced      267
Vibrations, free      267
Virtual mass      31
viscosity      44
Viscosity of suspensions      73—75
Viscosity, coefficients of      45—46 195

Viscosity, dynamic      46
Viscosity, kinematic      46
Viscosity, second      45 308—312
Viscosity, second, dispersion of      309
Viscosity, turbulent      131
Viscous flow      (II) 44—94
Viscous sublayer      174
von Karman constant      173
Vortex sheets      see "Discontinuities tangential"
Vorticity      13
Vorticity in turbulent flow      146
Wake, laminar      67—72
Wake, turbulent      152—153 155—156
Wake, turbulent, contraction of      181
Wave amplitude      253
Wave drag      29 471 478
Wave equation      35 252
Wave equation, general solution of      275
Wave length      32
wave number      32 254 295 311
Wave packet      257 262 359
Wave phase      253
Wave profile      378
Wave region      283 472
Wave train      257
Wave vector      254
Waves gravity      31—37
Waves gravity in an incompressible fluid      37—39
Waves gravity, capillary      245
Waves gravity, damping of      92—94
Waves gravity, long      33—35
Waves in a rotating fluid      40—43
Waves plane      252
Waves plane of arbitrary amplitude      378—385
Waves plane, stationary      268
Waves plane, travelling      252
Waves simple one-dimensional (non-steady)      380 395
Waves simple one-dimensional (non-steady), centred      391 402
Waves simple one-dimensional (non-steady), characteristics for      391
Waves simple one-dimensional (non-steady), relativistic      510
Waves simple two-dimensional (steady)      439
Waves simple two-dimensional (steady), centred      439
Waves, bow      467
Waves, capillary      245—248
Waves, capillary damping coefficient for      247 250
Waves, cylindrical      271—273
Waves, Fourier components of      254
Waves, inertial      41
Waves, lateral      277
Waves, longitudinal      252
Waves, monochromatic      253
Waves, monochromatic components      254
Waves, spectral resolution of      254
Waves, spherical      269—271
Waves, stationary      268
Waves, thermal      207 305n
Waves, travelling      267
Wing      153 183 189—191 456 474—479
Yaw, angle of      478
Zhukovskiy's theorem      155

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