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Авторизация |
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Hayes W.D., Probstein R.F. — Hypersonic Flow Theory |
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Предметный указатель |
Shock layer m scale, on circular cylinder 111, 155
Shock layer m scale, on cone 148
Shock layer m scale, on cone 148
Shock layer m scale, on conical body 126
Shock layer m scale, on conical body 126
Shock layer m scale, on oscillating flat plate 136
Shock layer m scale, on oscillating flat plate 136
Shock layer m scale, on sphere 110 111 160
Shock layer m scale, on sphere 110, 111, 160
Shock layer m scale, on wedge 142
Shock layer m scale, on wedge 142
Shock layer m scale, on yawed cone 126
Shock layer m scale, on yawed cone 126
Shock layer m scale, on yawed cylinder 125
Shock layer m scale, on yawed cylinder 125
Shock layer structure in Newtonian flow 79 110 111 118—129
Shock layer structure in Newtonian flow 79, 110, 111, 118—129
Shock layer structure in thin shock layers 167 174—176 179—181
Shock layer structure in thin shock layers 167, 174—176, 179—181
Shock layer structure in unsteady Newtonian flow 134 135
Shock layer structure in unsteady Newtonian flow 134, 135
Shock layer structure with relaxation 394 395
Shock layer structure with relaxation 394, 395
Shock layer structure, with relaxation 394 395
Shock layer thickness 28 176 182 197 see
Shock layer thickness compared with boundary layer thickness 284 285
Shock layer thickness compared with boundary layer thickness 284, 285
Shock layer thickness on cone 148—150
Shock layer thickness on cone 148—150
Shock layer thickness on wedge 142 Stand-off
Shock layer thickness on wedge 142
Shock layer thickness see also “Stand-off distance”, 28, 176, 182, 197
Shock layer thickness, compared with boundary layer thickness 284 285
Shock layer thickness, on cone 148—150
Shock layer thickness, on wedge 142
Shock layer, definition of 3
Shock layer, definition of 3
Shock reflection coefficient 268—270 283
Shock reflection coefficient 268—270, 283
Shock shape, attached to blunt ogives of revolution 189—196
Shock shape, attached to blunt ogives of revolution 189—196
Shock shape, equation for 184 185 197
Shock shape, equation for 184, 185, 197
Shock shape, for flat-nosed body 186 199 200
Shock shape, for flat-nosed body 186, 199, 200
Shock tail 3 4 10 26
Shock tail 3, 4, 10, 26
Shock wave relations 11—24
Shock wave relations 11—24
Shock wave relations, similar solutions 56
Shock wave relations, similar solutions 56
Shock wave relations, small-disturbance theory 33
Shock wave relations, small-disturbance theory 33
Shock wave structure 375 385—387 391
Shock wave structure 375, 385—387, 391
Shock wave thickness 28 278 382
Shock wave thickness 28, 278, 382
Shock wave, curved 4 22—24
Shock wave, curved 4, 22—24
Shock wave, normal 11—20
Shock wave, normal 11—20
Shock wave, oblique 21 22 140 141 269
Shock wave, oblique 21, 22, 140, 141, 269
Shock-expansion method 258 265—277
Shock-expansion method 258, 265—277
Shock-expansion method in axisymmetric flow 273—276
Shock-expansion method in interaction problems 342
Shock-expansion method in three-dimensional flow 273 275
Shock-expansion method, analytical formulation of 273 282
Shock-expansion method, analytical formulation of 273, 282
Shock-expansion method, effect of in 272
Shock-expansion method, effect of in 272
Shock-expansion method, in axisymmetric flow 273—276
Shock-expansion method, in axisymmetric flow 273—276
Shock-expansion method, in interaction problems 342
Shock-expansion method, in interaction problems 342
Shock-expansion method, in three-dimensional flow 273 275
Shock-expansion method, in three-dimensional flow 273, 275
Shock-expansion method, successive approximations improving 282 283
Shock-expansion method, successive approximations improving 282, 283
Shock-oriented coordinate system 171 235
Shock-oriented coordinate system 171, 235
Shoulder, choking phenomenon at 186
Shoulder, choking phenomenon at 186
Shower-bath analogy 172 173
Shower-bath analogy 172, 173
Sibulkin M. 300
Sibulkin, M. 300
Sibulkin, M. 300
Siegel K.M. 375
Siegel, K.M. 375
Siegel, K.M. 375
Similar boundary layers, constant-pressure solutions for 293—298
Similar boundary layers, constant-pressure solutions for 293—298
Similar boundary layers, frozen solutions for 307 310 311
Similar boundary layers, frozen solutions for 307, 310, 311
Similar boundary layers, hypersonic solutions for 293 303—306 354—357
Similar boundary layers, hypersonic solutions for 293, 303—306, 354—357
Similar boundary layers, Pr = 1 solutions for 306 307
Similar boundary layers, Pr=1 solutions for 306 307
Similar boundary layers, Pr=1 solutions for 306, 307
Similar boundary layers, stagnation point solutions for 293 298—303
Similar boundary layers, stagnation point solutions for 293, 298—303
Similar boundary layers, with vorticity interaction 372
Similar boundary layers, with vorticity interaction 372
Similar boundary layers, with vortieity interaction 372
Similar solutions for laminar boundary layers 290 292—312
Similar solutions for laminar boundary layers 290, 292—312
Similar solutions of small-disturbance theory 52—67
Similar solutions of small-disturbance theory 52—67
Similar solutions of small-disturbance theory, assumptions underlying 10
Similar solutions of small-disturbance theory, assumptions underlying 10
Similar solutions of small-disturbance theory, Lagrangian coordinate in 59
Similar solutions of small-disturbance theory, Lagrangian coordinate in 59
Similar solutions of small-disturbance theory, Russian work in 53
Similar solutions of small-disturbance theory, Russian work in 53
Similar solutions of small-disturbance theory, with strong interaction 354 356 363 364
Similar solutions of small-disturbance theory, with strong interaction 354, 356, 363, 364
Similarity line 55
Similarity line 55
Singular point 198 199 220
Singular point 198, 199, 220
Singularities of flow field, fundamental 232 234 247 249
Singularities of flow field, fundamental 232, 234, 247, 249
Skeat P.R. 272 273 282
Skeat, P.R. 272 273 282
Skeat, P.R. 272, 273, 282
Skin friction 286
Skin friction 286
Skin friction coefficient 296
Skin friction coefficient 296
Skin friction coefficient in constant-pressure solutions 295 296
Skin friction coefficient in free molecule similitude 408
Skin friction coefficient in locally similar solutions 307 309
Skin friction coefficient in Pr = 1 solutions 307 308
Skin friction coefficient in strong interaction 358 359
Skin friction coefficient in turbulent boundary layers 328—332
Skin friction coefficient in weak interaction 348
Skin friction coefficient, by integral methods 321
Skin friction coefficient, by integral methods 321
Skin friction coefficient, in constant-pressure solutions 295 296
Skin friction coefficient, in constant-pressure solutions 295, 296
Skin friction coefficient, in free molecule similitude 408
Skin friction coefficient, in free molecule similitude 408
Skin friction coefficient, in locally similar solutions 307 309
Skin friction coefficient, in locally similar solutions 307, 309
Skin friction coefficient, in Pr=1 solutions 307 308
Skin friction coefficient, in Pr=1 solutions 307, 308
Skin friction coefficient, in strong interaction 358 359
Skin friction coefficient, in strong interaction 358, 359
| Skin friction coefficient, in turbulent boundary layers 328—332
Skin friction coefficient, in turbulent boundary layers 328—332
Skin friction coefficient, in weak interaction 348
Skin friction coefficient, in weak interaction 348
Skin friction coefficient, modified 408
Skin friction coefficient, modified 408
Skin friction coefficient, with transverse curvature 353 364
Skin friction coefficient, with transverse curvature 353, 364
Skin friction coefficient, with vorticity interaction 372 373
Skin friction coefficient, with vorticity interaction 372, 373
Slender-body assumption 9 31 34 38
Slender-body assumption 9, 31, 34, 38
Slender-body flows 6 28 30—69
Slender-body flows 6, 28, 30—69
Slender-body flows, rarefied 381—383 389
Slender-body flows, rarefied 381—383, 389
Slender-body theory, subsonic, transonic or supersonic 35 36
Slender-body theory, subsonic, transonic or supersonic 35, 36
Slender-body theory, subsonic, transonic, or supersonic 35 36
Slip phenomena 27 340 379 387
Slip phenomena 27, 340, 379, 387
Slip phenomena in axisymmetric stagnation region 380
Slip phenomena, in axisymmetric stagnation region 380
Slip phenomena, in axisymmetric stagnation region 380
Slip phenomena, on slender body 383
Slip phenomena, on slender body 383
Small density ratio assumption 9
Small density ratio assumption 9
Small density ratio assumption in constant-density solutions 139 145 153 160
Small density ratio assumption in Newtonian flow 73 74 88
Small density ratio assumption, in constant-density solutions 139 145 153 160
Small density ratio assumption, in constant-density solutions 139, 145, 153, 160
Small density ratio assumption, in Newtonian flow 73 74 88
Small density ratio assumption, in Newtonian flow 73, 74, 88
Small density ratio assumption, with thin shock layers 166 173 181 195
Small density ratio assumption, with thin shock layers 166, 173, 181, 195
Small-disturbance theory 10 30—69
Small-disturbance theory 10, 30—69
Small-disturbance theory, examples from 47—52
Small-disturbance theory, examples from 47—52
Small-disturbance theory, similar solutions in 52—67
Small-disturbance theory, similar solutions in 52—67
Small-disturbance theory, unsteady 67—69
Small-disturbance theory, unsteady 67—69
Small-disturbance theory, with strip theory 44—47
Small-disturbance theory, with strip theory 44—47
Smith A.M.O. 313
Smith, A.M.O. 313
Smith, A.M.O. 313
Smoothing process 233—236 247
Smoothing process 233—236, 247
Sonic line 202—208 223 229 249
Sonic line 202—208, 223, 229, 249
Sonic point in shock layer, average 198
Sonic point in shock layer, average 198
Sonic point on body 204—206 221—223
Sonic point on body 204—206, 221—223
Sonic point on shock 22 207
Sonic point on shock 22, 207
Sonic singular point 220—223
Sonic singular point 220—223
Southwell R.V. 226 228
Southwell, R.V. 226 228
Southwell, R.V. 226, 228
Sparrow E.M. 323
Sparrow, E.M. 323
Sparrow, E.M. 323
Specific heat at constant pressure 263 264
Specific heat at constant pressure 263, 264
Specular reflection 397 398
Specular reflection 397, 398
Specular reflection in infinite speed ratio flows 404
Specular reflection, hypersonic similitude with 407
Specular reflection, hypersonic similitude with 407
Specular reflection, in infinite speed ratio flows 404
Specular reflection, in infinite speed ratio flows 404
Specular reflection, Newton's model with 73
Specular reflection, Newton's model with 73
Speed of sound 13 27
Speed of sound 13, 27
Speed ratio 400
Speed ratio 400
Sphere constant-density solution for 158—162 238 239 244 388
Sphere constant-density solution for 158—162, 238, 239, 244, 388
Sphere constant-density solution for, flow about 242—244
Sphere constant-density solution for, in free molecule flow 414 415
Sphere constant-density solution for, Newtonian solution for 82 110 111
Sphere flow about 242—244
Sphere in free molecule flow 414 415
Sphere in free molecule flow 414, 415
Sphere Newtonian solution for 82, 110, 111
Sphere, constant-density solution for 158—162 238 239 244 388
Sphere, flow about 242—244
Sphere, Newtonian solution for 82 110 111
Spherical shock wave, solutions with 236—242
Spherical shock wave, solutions with 236—242
Squire H.B. 300
Squire, H.B. 300
Squire, H.B. 300
Stability of inverse solution procedure 230—234 246 247
Stability of inverse solution procedure 230—234, 246, 247
Stability of iteration, scheme 178 214
Stability of iteration, scheme 178, 214
Stagnation point boundary layer solutions 293 298—303
Stagnation point boundary layer solutions 293, 298—303
Stagnation region, difficulty in 171 177
Stagnation region, difficulty in 171, 177
Stagnation temperature in terms of speed ratio 405
Stagnation temperature in terms of speed ratio 405
Stalder J.R. 396 406
Stalder, J.R. 396 406
Stalder, J.R. 396, 406
Stand-off distance at critical point 185 187
Stand-off distance at critical point 185, 187
Stand-off distance at general stagnation point 164
Stand-off distance at general stagnation point 164
Stand-off distance in method of integral relations 221 222
Stand-off distance in method of integral relations 221, 222
Stand-off distance on blunt bodies of revolution 159 160 162 184 197 238 249 250
Stand-off distance on blunt bodies of revolution 159, 160, 162, 184, 197, 238, 249, 250
Stand-off distance on blunt two-dimensional bodies 152 155—158 197 224
Stand-off distance on blunt two-dimensional bodies 152, 155—158, 197, 224
Stand-off distance on flat-nosed body 186 200 201
Stand-off distance on flat-nosed body 186, 200, 201
Stand-off distance, at critical point 185 187
Stand-off distance, at general stagnation point 164
Stand-off distance, on blunt bodies of revolution 159 160 162 184 197 238 249 250
Stand-off distance, on blunt two-dimensional bodies 152 155—158 197 224
Stand-off distance, on flat-nosed body 186 200 201
Stanton number 297 see "Nusselt
Stanton number in constant-pressure solutions 297
Stanton number in free molecule similitude 409
Stanton number in strong interaction 358 359
Stanton number see “Heat transfer to body; Nusselt number”, 297
Stanton number, in constant-pressure solutions 297
Stanton number, in constant-pressure solutions 297
Stanton number, in free molecule similitude 409
Stanton number, in free molecule similitude 409
Stanton number, in strong interaction 358 359 Heat
Stanton number, in strong interaction 358, 359
Stanton number, modified 409
Stanton number, modified 409
Stanyukovich K.P. 53
Stanyukovich, K.P. 53
Stanyukovich, K.P. 53
Stark W.I. 303 304
Stark, W.I. 303 304
Stark, W.I. 303, 304
Stevens V.I. 30
Stevens, V.I. 30
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