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Авторизация |
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Поиск по указателям |
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Hayes W.D., Probstein R.F. — Hypersonic Flow Theory |
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Предметный указатель |
Stevens, V.I. 30
Stewartson K. 290 304 318 356 366
Stewartson — Illingworth transformation 304 318
Stewartson — Illingworth transformation 304, 318
Stewartson, K. 290 304 318 356 366
Stewartson, K. 290, 304, 318, 356, 366
Stocker P.M. 272
Stocker, P.M. 272
Stocker, P.M. 272
Stokes stream function see "Stream function"
Stokes stream function see “Stream function”
Stream function in constant-density solutions 150 154 158 160
Stream function in constant-density solutions 150, 154, 158, 160
Stream function in Newtonian flow 77
Stream function in Newtonian flow 77
Stream function in streamtube-continuity methods 212
Stream function in streamtube-continuity methods 212
Stream function in thin shock layers 169
Stream function in thin shock layers 169
Stream function with relaxation techniques 227
Stream function with relaxation techniques 227
Stream function, with relaxation techniques 227
Streamline interaction see "Vorticity interaction"
Streamline interaction see “Vorticity interaction”
Streamtube area 184 196 197
Streamtube area 184, 196, 197
Streamtube width 170
Streamtube width 170
Streamtube-continuity methods 210—214
Streamtube-continuity methods 210—214
Stress tensor in Newtonian sail 119
Stress tensor in Newtonian sail 119
Strip theory 44—47 69
Strip theory 44—47, 69
Strip theory in shock-expansion theory 273 275
Strip theory, in shock-expansion theory 273 275
Strip theory, in shock-expansion theory 273, 275
Strong attached shocks 22 190
Strong attached shocks 22, 190
Strong interaction 337—339 353—365
Strong interaction 337—339, 353—365
Strong interaction, cold vs. insulated wall in 360
Strong interaction, cold vs. insulated wall in 360
Strong interaction, experimental verification of theory of 361
Strong interaction, experimental verification of theory of 361
Strong interaction, on three-quarter power bodies 362—365
Strong interaction, on three-quarter power bodies 362—365
Strong shock assumption 9 25 63 404
Strong shock assumption 9, 25, 63, 404
Subcritical region 187—194
Subcritical region 187—194
Subsingular region 199
Subsingular region 199
Successive approximation scheme 171—176 202
Successive approximation scheme 171—176, 202
Successive approximation scheme, example of 179
Successive approximation scheme, example of 179
Successive approximation scheme, first stage 174 175
Successive approximation scheme, first stage 174, 175
Successive approximation scheme, second stage 175 176
Successive approximation scheme, second stage 175, 176
Successive approximation scheme, with thin shock layers 171 173—181
Successive approximation scheme, with thin shock layers 171, 173—181
Successive approximations improving shock expansion 282 283
Successive approximations improving shock expansion 282, 283
Supercritical region 187—194
Supercritical region 187—194
Supersingular region 199
Supersingular region 199
Sutherland's law for viscosity 295 297
Sutherland's law for viscosity 295, 297
Syvertson C.A. 265—278
Syvertson, C.A. 265—278
Syvertson, C.A. 265—278
Talbot L. 351 352
Talbot, L. 351 352
Talbot, L. 351, 352
Tangent-cone method 49 277 281
Tangent-cone method 49, 277, 281
Tangent-cone method in weak interaction 351 352
Tangent-cone method in weak interaction 351, 352
Tangent-wedge method 277—281
Tangent-wedge method 277—281
Tangent-wedge method in interaction problems 342 351
Tangent-wedge method in interaction problems 342, 351
Tangent-wedge method in inverse method 366
Tangent-wedge method in inverse method 366
Tangent-wedge method in strong interaction 354
Tangent-wedge method in strong interaction 354
Tangential accommodation coefficient 397 398 402
Tangential accommodation coefficient 397, 398, 402
Taylor G.I. 36 52 53 57 147 148 281
Taylor — Maccoll solutions 36 147 148 352
Taylor — Maccoll solutions 36, 147, 148, 352
Taylor, G.I. 36 52 53 57 147 148 281
Taylor, G.I. 36, 52, 53, 57, 147, 148, 281
Temperature jump phenomenon see "Slip phenomena"
Temperature jump phenomenon see “Slip phenomena”
Thermal accommodation coefficient 396 397 402
Thermal accommodation coefficient 396, 397, 402
thermal conductivity 287
Thermal conductivity 287
Thermal conductivity, turbulent 327
Thermal conductivity, turbulent 327
thermal diffusion 289
Thermal diffusion 289
Thermodynamic quasi-equilibrium 26 254 284 286 386
Thermodynamic quasi-equilibrium 26, 254, 284, 286, 386
Thickness ratio 31 38
Thickness ratio 31, 38
Thin shock layers 166—201
Thin shock layers 166—201
Thin shock layers, approximations for density in 180
Thin shock layers, approximations for density in 180
Thin shock layers, approximations for velocity in 180 181
Thin shock layers, approximations for velocity in 180, 181
Thin shock layers, basic assumption for 10 166 181 195
Thin shock layers, basic assumption for 10, 166, 181, 195
Thin shock layers, simplifying assumptions for 182 183
Thin shock layers, simplifying assumptions for 182, 183
Thwaites B. 318—321
Thwaites, B. 318—321
Thwaites, B. 318—321
Tomlinson R.C. 254
Tomlinson, R.C. 254
Tomlinson, R.C. 254
Total enthalpy, Becker integral 391
Total enthalpy, Becker integral 391
Total enthalpy, Becker integral for 391
Total enthalpy, Busemann integral for 293
Total enthalpy, Busemann integral for 293, 311, 327, 330
Total enthalpy, constancy of 170 174
Total enthalpy, constancy of 170, 174
Total enthalpy, Crocco integral for 293 311 327 330
Total enthalpy, Crocco integral for 293, 311, 327, 330
Transition, boundary layer 29
Transitional layer regime, in flow classification 27 386 387
Transitional layer regime, in flow classification 27, 386, 387
Translational energy transfer 396 402 403
Translational energy transfer 396, 402, 403
Transonic zone 178 203—208 223 226—229 249
Transonic zone 178, 203—208, 223, 226—229, 249
Transverse curvature effect 334
Transverse curvature effect 334
Transverse curvature effect, on blunt-nosed bodies 369
Transverse curvature effect, on blunt-nosed bodies 369
Transverse curvature effect, with strong interaction 364
Transverse curvature effect, with strong interaction 364
Transverse curvature effect, with weak interaction 352 353
Transverse curvature effect, with weak interaction 352, 353
| Truesdell C. 24
Truesdell, C. 24
Truesdell, C. 24
Trumpler P.R. 397
Trumpler, P.R. 397
Trumpler, P.R. 397
Tsien H.S. 10 30 33 67 68 366 375
Tsien, H.S. 10 30 33 67 68 366 375
Tsien, H.S. 10, 30, 33, 67, 68, 366, 375
Turbulent boundary layers 325—332
Turbulent boundary layers 325—332
Turbulent boundary layers, with body highly cooled 330—332
Turbulent boundary layers, with body highly cooled 330—332
Turbulent boundary layers, with body insulated 328 329
Turbulent boundary layers, with body insulated 328, 329
Turbulent diffusion coefficient 327
Turbulent diffusion coefficient 327
Turbulent fluctuations 326 327
Turbulent fluctuations 326, 327
Turbulent skin friction formula of Blasius 328
Turbulent skin friction formula of Blasius 328
Turning angle, Prandtl — Meyer 39 258—261
Turning angle, Prandtl — Meyer 39, 258—261
Two-dimensional 101—103 105
Uchida S. 210—214 223—225
Uchida, S. 210—214 223—225
Uchida, S. 210—214, 223—225
Unified hypersonic similarity parameter 43
Unified hypersonic similarity parameter 43
Unified hypersonic similrity parameter 43
Unified supersonic-hypersonic similitude 42—44
Unified supersonic-hypersonic similitude 42—44
Uniqueness of solution to inverse problem 230 233 234
Uniqueness of solutions to inverse problem 230 233 234
Uniqueness of solutions to inverse problem 230, 233, 234
Unsteady hypersonic similitude 67
Unsteady hypersonic similitude 67
Unsteady Newtonian flow 130—138
Unsteady Newtonian flow 130—138
Unsteady Newtonian flow, linearized perturbations of 137 138
Unsteady Newtonian flow, linearized perturbations of 137, 138
Unsteady similar solutions 52 61 63
Unsteady similar solutions 52, 61, 63
Unsteady small-disturbance theory 67—69
Unsteady small-disturbance theory 67—69
Vaglio — Laurin R. 234
Vaglio-Laurin, R. 234
Vaglio-Laurin, R. 234
Van der Waal gas 37
van der Waal gas 37
Van Driest E.R. 294 295
van Driest, E.R. 294 295
van Driest, E.R. 294, 295
Van Dyke, M.D. 10 30 34 43 44 47—51 68 225 231 234 236 242—244
van Dyke, M.D. 10, 30, 34, 43, 44, 47—51, 68, 225, 231, 234, 236, 242—244
Variable-streamtube-area approximationas 195—201
Variable-streamtube-area approximations 195—201
Variable-streamtube-area approximations 195—201
Variation in in equilibrium air 298
Variation in in equilibrium air 298
Variation in , in frozen solutions 311
Variation in , in frozen solutions 311
Variation in , in stagnation point solutions 301—303
Variation in , in stagnation point solutions 301—303
Variation in , influence of in constant-pressure solutions 295 297
Variation in , influence of in frozen solutions 311
Variation in , influence of in stagnation point solutions 301—303
Variation in , influence of, in constant-pressure solutions 295 297
Variation in , influence of, in constant-pressure solutions 295, 297
Variation in , influence of, on heat transfer 317 318
Variation in , on heat transfer 317 318
Variation in , on heat transfer 317, 318
Vas I.E. 206 368 370
Vas, I.E. 206 368 370
Vas, I.E. 206, 368, 370
Velocity of sound 13 27
Velocity of sound 13, 27
Velocity potential for cone 143
Velocity potential for cone 143
Velocity profile, Newtonian, for concave circular cylinder 111
Velocity profile, Newtonian, for concave circular cylinder 111
Velocity profile, Newtonian, for general stagnation point 128
Velocity profile, Newtonian, for general stagnation point 128
Velocity profile, Newtonian, for sphere 111
Velocity profile, Newtonian, for sphere 111
Vibrational energy transfer 15 16 263 264 396
Vibrational energy transfer 15, 16, 263, 264, 396
Violent explosion 52 53 57 63 64
Violent explosion 52, 53, 57, 63, 64
viscosity 27 284
Viscosity 27, 284
Viscosity coefficient 28 289 389
Viscosity coefficient 28, 289, 389
Viscosity coefficient, dilatational or bulk 389
Viscosity coefficient, dilatational or bulk 389
Viscosity coefficient, longitudinal 389
Viscosity coefficient, longitudinal 389
Viscosity coefficient, of equilibrium air 297
Viscosity coefficient, of equilibrium air 297
Viscosity coefficient, related to mean free path 376
Viscosity coefficient, related to mean free path 376
Viscosity coefficient, turbulent 327
Viscosity coefficient, turbulent 327
Viscous effects 27 284—288
Viscous effects 27, 284—288
Viscous hypersonic similitude 42
Viscous hypersonic similitude 42
Viscous layer 388—394
Viscous layer 388—394
Viscous layer regime, in flow classification 385
Viscous layer regime, in flow classification 385
Viscous layer, constant-pressure 392 393
Viscous layer, constant-pressure 392—393
Viscous wake 4
Viscous wake 4
von Karman T. 94 106 352
von Karman, T. 94 106 352
von Karman, T. 94, 106, 352
von Mises transformation 169 174
von Mises transformation 169, 174
Vorticity 4 23 24
Vorticity 4, 23, 24
Vorticity at body surface in axisymmetric case 158 205
Vorticity at body surface in two-dimensional case 151 204
Vorticity at body surface, for vorticity interaction 371
Vorticity at body surface, for vorticity interaction 371
Vorticity at body surface, in axisymmetric case 158 205
Vorticity at body surface, in axisymmetric case 158, 205
Vorticity at body surface, in two-dimentional case 151 204
Vorticity at body surface, in two-dimentional case 151, 204
Vorticity equation 153 177
Vorticity equation 153, 177
Vorticity in intrinsic coordinates 204
Vorticity in intrinsic coordinates 204
Vorticity interaction 285 333 334 339—341 370—374
Vorticity interaction 285, 333, 334, 339—341, 370—374
Vorticity interaction on flat plate 373 374
Vorticity interaction on flat plate 373, 374
Vorticity interaction outer boundary condition with 371 393 394
Vorticity interaction outer boundary condition with 371, 393, 394
Vorticity interaction parameter 339 340 370—374
Vorticity interaction parameter 339, 340, 370—374
Vorticity interaction parameter of axisymmetric stagnation region 372 384 393
Vorticity interaction parameter of axisymmetric stagnation region 372, 384, 393
Vorticity interaction parameter, for axisymmetric stagnation region 372 384 393
Vorticity interaction regime, in flow classification 384 385
Vorticity interaction regime, in flow classification 384, 385
Vorticity interaction, on flat plate 373 374
Vorticity interaction, outer boundary condition with 371 393 394
Waldman G.D. 268—273 282 283
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