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| Faber T.E. — Fluid Dynamics for Physicists |
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| Предметный указатель |
Shear viscosity see viscosity
Shear, vorticity-free see vorticity-free
Ship waves 182—6 188—92
Shock fronts, detached 113 116
Shock fronts, expanding 105—7
Shock fronts, normal 93—9 101—5
Shock fronts, normal, velocity of 99 104
Shock fronts, oblique 107—9 111—18
Silly Putty 390
Simple waves, of sound 99 426
sinks see sources
Skin friction 264 275
Slugs, in pipe flow 353 4
Smoke rings see vortex rings
Solitary waves 179—82
Solitons see solitary waves
Sonic boom 99
Soret coefficient 324
Sound barrier 113—14
Sound, attenuation of, in gases 428—35
Sound, large amplitude effects in propagation of 93—7 101 425—8
Sound, momentum carried by 99—101
Sound, velocity of 79—82 425
Sources, forces experienced by 125—7
Sources, of flow 123 4
Span, of wing 274
Spheres, drag forces on 136—8 264—7
Spheres, flow past 133—7 227—32 258—62
Spin, effects of, on golfballs etc 283
Spinnability 401
Spreading, of wave groups 164—6 172
Spurt effect 405—6
Stagnation points 51 124 143 155
Stalling, of aircraft 274
Starting vortices 270—1 273
Steepness, of Stokes waves 178
Stokes waves 33 178—9 341
Stokes’s law 231 265
Stopping vortices 272—3
Streaklines 12
Streamlines 12
streamlining 268
Stress 2 4 6 mean)
Stress as a tensor 198—9
Stress in Newtonian fluid 195—200
Submerged jets 53 61—5 76—7 263 4 337 366—9
Suction, behind expanding shock front 105—7
Surface tension, effects of 54 59—61 66—7 173—6 293—302 322
Suspensions, of gas bubbles in liquids 235—6
Suspensions, of solid particles in liquids, flow alignment in 394 400
Suspensions, of solid particles in liquids, non — Newtonian effects in 407—9
Suspensions, of solid particles in liquids, viscosity of 232—6
Swing, of cricket ball etc 283
Swirls 382
Taylor model, for vortex line 224
Taylor number 330
| Taylor — Couette instability 328—31
Tealeavcs 283
Tension thickening 401
Thermal conductivity, of gas 84
Thermal convection core, of vortex line see vortex lines
Thermal convection, forccd 302 303
Thermal convection, natural 302—28 378—383 412—13
Thermals 382
Thixotropy 409
Tidal bores see bores
Tollmien — Schlichting instability 340 353
Tornadoes 153—4
Torricelli’s theorem 56
Trailing vortices 273 276—9
Trouton’s ratio 401
Turbulence 34 343—9
Turbulence in boundary layers 262 266—7 269—70 314 375—8 382—3
Turbulence in flow through a constriction 53 93
Turbulence in foaming fronts 69
Turbulence in pipe flow 34 351—4 374—5
Turbulence in submerged jets 65 263 366—9
Turbulence in thermal convection 314 321 378—83
Turbulence in two-dimensional shear flows 346—8 362—75
Two-fluid model, of Helium 2 418—19
Varicose deformation 295—6
Velocity 164—5
Velocity defect, in turbulent shear flows 362 373 375
Vena contractu 56—8 62
Venturi meter 51—3
Virtual mass of accelerating ellipsoid 138 140
Virtual mass of oscillating disc 212
Viscoelasticity 387—90 401—5
Viscometers, cone-and-plate type 405
Viscometers, Couette type 223 405
Viscometers, falling sphere type 231—2
Viscometers, oscillating disc type 212—13
viscosity 3 196
Viscosity of gas 359
Viscosity of uniaxial liquid 390—3
Viscous fingers 299—302
Viscous sublayer, in turbulent shear flow 370—1 374—5 377 381
Vortex lines 146—7 150—7 224—5 331—2
Vortex lines in Helium 2 421—2
Vortex rings 157—61 263
Vortex sheets 263 277 332—9
Vortex streets 259—60 337
Vorticity 22 200 240—3
Vorticity-free flow 21—2 35
Vorticity-free shear 200—1 393
Wakes 246 259—62 272 280 337—8 369
Wave resistance 186—8
Waves on surfaces see canals; dispersion relations; gravity waves; ripples; ship waves; solitary waves
Weirs 49—51
Weissenberg effect 403—5
Windmills 63 4
Zhukovskii aerofoil 272 274 440
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