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| Авторизация |
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| Hayes W.D., Probstein R.F. — Hypersonic Flow Theory |
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| Предметный указатель |
Krasheninnikova, N.L. 53
Krasheninnikova, N.L. 53
Kraus S. 48 265—274 283
Kraus, S. 48 265—274 283
Kraus, S. 48, 265—274, 283
Kubota T. 42 52 53 56 61 62 64 364 368
Kubota, T. 42 52 53 56 61 62 64 364 368
Kubota, T. 42, 52, 53, 56, 61, 62, 64, 364, 368
Kuehn D.M. 335
Kuehn, D.M. 335
Kuehn, D.M. 335
Kuhlthau A.R. 387
Kuhlthau, A.R. 387
Kuhlthau, A.R. 387
Kuo Y.H. 286 341 342
Kuo, Y.H. 286 341 342
Kuo, Y.H. 286, 341, 342
Lagrangian coordinate in similar solutions 59
Lagrangian coordinate in similar solutions 59
Lai S. 318
Lai, S. 318
Lal, S. 318
Laminar boundary layers 288—325
Laminar boundary layers 288—325
Laminar layer model 76 79 80 113—115
Laminar layer model 76, 79, 80, 113—115
Laminar sublayer 330 331
Laminar sublayer 330, 331
Landahl M.T. 68
Landahl, M.T. 68
Landahl, M.T. 68
Laplace equation as example 232 233 245—247
Laplace equation as example 232, 233, 245—247
Larson H.K. 335
Larson, H.K. 335
Larson, H.K. 335
Latter R. 52
Latter, R. 52
Latter, R. 52
Law of plane sections 36
Law of plane sections 36
Lees L. 52 53 56 74 279 281 286 290 301 310 311 313—315 336 337 341 342 348 353 354 357 360 366 368 374
Lees, L. 52 53 56 74 279 281 286 290 301 310 311 313—315 336 337 341 342 348 353 354 357 360 366 368 374
Lees, L. 52, 53, 56, 74, 279, 281, 286, 290, 301, 310, 311, 313—315, 336, 337, 341, 342, 348, 353, 354, 357, 360, 366, 368, 374
Levy 8 290 299 307
Levy, S. 290 299 307
Levy, S. 290, 299, 307
Lewis — Semenov number 287—290 295
Lewis — Semenov number 287—290, 295
Lewis — Semenov number influence in cooled turbulent boundary layers 332
Lewis — Semenov number influence in frozen solutions 310 311
Lewis — Semenov number influence in stagnation point solutions 302 303
Lewis — Semenov number influence, in cooled turbulent boundary layers 332
Lewis — Semenov number influence, in cooled turbulent boundary layers 332
Lewis — Semenov number influence, in frozen solutions 310 311
Lewis — Semenov number influence, in frozen solutions 310, 311
Lewis — Semenov number influence, in stagnation point solutions 302 303
Lewis — Semenov number influence, in stagnation point solutions 302, 303
Lewis — Semenov number, turbulent 327
Lewis — Semenov number, turbulent 327
Li T.Y. 156 161 299 307 339 353 359 360 366 367 372 394
Li, T.Y. 156 161 299 307 339 353 359 360 366 367 372 394
Li, T.Y. 156, 161, 299, 307, 339, 353, 359, 360, 366, 367, 372, 394
Libby P.A. 339
Libby, P.A. 339
Libby, P.A. 339
Lieberstein H.M. 234 245—252
Lieberstein, H.M. 234 245—252
Lieberstein, H.M. 234, 245—252
Liepmann H.W. 328 329 375 376
Liepmann, H.W. 328 329 375 376
Liepmann, H.W. 328, 329, 375, 376
Lift coefficient in free molecule similitude 409
Lift coefficient in hypersonic similitude 40
Lift coefficient in Newtonian flow 79
Lift coefficient, in free molecule similitude 409
Lift coefficient, in free molecule similitude 409
Lift coefficient, in hypersonic similitude 40
Lift coefficient, in hypersonic similitude 40
Lift coefficient, in Newtonian flow 79
Lift coefficient, in Newtonian flow 79
Lighthiil M.J. 24 37 67 68 150 153 158—160 239 242 244 268 269 341 388
Lighthill, M.J. 24 37 67 68 150 153 158—160 239 242 244 268 269 341 388
Lighthill, M.J. 24, 37, 67, 68, 150, 153, 158—160, 239, 242, 244, 268, 269, 341, 388
Limiting characteristic 178 202 203 208
Limiting characteristic 178, 202, 203, 208
Limiting characteristic, analogue of in method of integral relations 223
Limiting characteristic, analogue of in method of integral relations 223
Limiting density ratio across shock 13
Limiting density ratio across shock 13
Limiting line 231
Limiting line 231
Limiting perfect gas model 76 86
Limiting perfect gas model 76, 86
Lin C.C. 35 49 67 68 230 231 246 253
Lin S.C 52 53
Lin T.C. 351
Lin, C.C. 35 49 67 68 230 231 246 253
Lin, C.C. 35, 49, 67, 68, 230, 231, 246, 253
Lin, S.C 52, 53
Lin, S.C. 52 53
Lin, T.C. 351
Lin, T.C. 351
Line of sonic singular points 223
Line of sonic singular points 223
Linearized flow 9 10
Linearized flow 9, 10
Linearized flow in small-disturbance theory 31 34 36
Linearized flow, in small-disturbance theory 31 34 36
Linearized flow, in small-disturbance theory 31, 34, 36
Linearized flow, Prandtl — Glauert similitude for 38 42
Linearized flow, Prandtl — Glauert similitude for 38, 42
Linearized flow, strip theory in 46
Linearized flow, strip theory in 46
Linnell R.D. 30 47 279
Linnell, R.D. 30 47 279
Linnell, R.D. 30, 47, 279
Litvak M.M. 297
Litvak, M.M. 297
Litvak, M.M. 297
Lobb R.K. 328 330
Lobb, R.K. 328 330
Lobb, R.K. 328, 330
Local similarity concept for boundary layers 312—316
Local similarity concept for boundary layers 312—316
Local similarity in stagnation region 157 165 388
Local similarity in stagnation region 157, 165, 388
Locally similar solutions 293 306 307 314 315
Locally similar solutions 293, 306, 307, 314, 315
Lock C.N.H. 254
Lock, C.N.H. 254
Lock, C.N.H. 254
Locus of entering streamlines 76 112—117 120 121
Locus of entering streamlines 76, 112—117, 120, 121
Locus of entering streamlines for general stagnation point 127 163 164
Locus of entering streamlines for oscillating flat plate 136
Locus of entering streamlines for straight axis of symmetry 124
Locus of entering streamlines in constant-density solution 164
Locus of entering streamlines in cylindrical flow 123
Locus of entering streamlines in drain trough problem 116
Locus of entering streamlines in roller coaster problem 113
Locus of entering streamlines in unsteady Newtonian flow 134 135
Locus of entering streamlines, for general stagnation point 127 163 164
Locus of entering streamlines, for general stagnation point 127, 163, 164
Locus of entering streamlines, for oscillating flat plate 136
Locus of entering streamlines, for oscillating flat plate 136
Locus of entering streamlines, for straight axis of symmetry 124
Locus of entering streamlines, for straight axis of symmetry 124
Locus of entering streamlines, in constant-density solution 164
Locus of entering streamlines, in constant-density solution 164
| Locus of entering streamlines, in cylindrical flow 123
Locus of entering streamlines, in cylindrical flow 123
Locus of entering streamlines, in drain trough problem 116
Locus of entering streamlines, in drain trough problem 116
Locus of entering streamlines, in roller coaster problem 113
Locus of entering streamlines, in roller coaster problem 113
Locus of entering streamlines, in unsteady Newtonian flow 134 135
Locus of entering streamlines, in unsteady Newtonian flow 134, 135
Longitudinal coefficient of viscosity 389
Longitudinal coefficient of viscosity 389
Longitudinal curvature effect, on boundary layers 334
Longitudinal curvature effect, on boundary layers 334
Longitudinal Prandtl number 391
Longitudinal Prandtl number 391
Low Reynolds number flows see "Rarefied gas flows; Boundary layer interaction"
Low Reynolds number flows see “Rarefied gas flows, Boundary layer interaction”
Low-density flows see "Rarefied gas flows"
Low-density flows see “Rarefied gas flows”
Lubonski J. 386
Lubonski, J. 386
Lubonski, J. 386
Lunc M. 386
Lunc, M. 386
Lunc, M. 386
Maccoll J.W. 36 147 148 226 281
Maccoll, J.W. 36 147 148 226 281
Maccoll, J.W. 36, 147, 148, 226, 281
Mach angle 4 31 39 257 259
Mach angle 4, 31, 39, 257, 259
Mach number independence principle 24—26
Mach number independence principle for blunt bodies in free molecule flow 415
Mach number independence principle in blunt-body flows 226 238
Mach number independence principle in hypersonic similitude 41
Mach number independence principle in infinite speed ratio flows 406
Mach number independence principle in similar solutions 63
Mach number independence principle, assumption underlying 10 25
Mach number independence principle, assumption underlying 10, 25
Mach number independence principle, for blunt bodies in free molecule flow 415
Mach number independence principle, in blunt-body flows 226, 238
Mach number independence principle, in hypersonic similitude 41
Mach number independence principle, in infinite speed ratio flows 406
Mach number independence principle, in similar solutions 63
Mach number independence principle, Newton's equivalent to 72
Mach number independence principle, Newton's equivalent to 72
Mach number, assumption underlying 10 25
Mach number, connection of with speed ratio 400
Mach number, connection of with speed ratio 400
Mach number, for blunt bodies in free molecule flow 415
Mach number, free stream 2 3
Mach number, free stream 2, 3
Mach number, in blunt-body flows 226 238
Mach number, in hypersonic similitude 41
Mach number, in infinite speed ratio flows 406
Mach number, in similar solutions 63
Mach number, independence principle 24—26
Mach number, independence principle 24—26
Mach number, Newton's equivalent to 72
Mach number, normal 13
Mach number, normal 13
Mach wave interaction see "Pressure interaction"
Mach wave interaction see “Pressure interaction”
Magnetohydrodynamic flow on blunt body 157
Magnetohydrodynamic flow on blunt body 157
Mahony J.J. 272 273 282
Mahony, J.J. 272 273 282
Mahony, J.J. 272, 273, 282
Mangier factor for axisymmetric stagnation region 301
Mangier factor for cone 297 352
Mangier K.W. 234 236
Mangier transformation 290
Mangier transformation in hypersonic solutions 305
Mangier transformation in strong interaction 363 364
Mangier transformation in weak interaction 352
Mangier transformation, in hypersonic solutions 305
Mangier transformation, in strong interaction 363 364
Mangier transformation, in weak interaction 352
Mangier, K.W. 234 236
Mangler factor for axisymmetric stagnation region 301
Mangler factor for cone 297, 352
Mangler transformation 290
Mangler transformation, in hypersonic solutions 305
Mangler transformation, in strong interaction 363, 364
Mangler transformation, in weak interaction 352
Mangler, K.W. 234, 236
Marching-ahead procedure 171 177 232—236
Marching-ahead procedure 171, 177, 232—236
Mark R.M. 300 303 372
Mark, R.M. 300 303 372
Mark, R.M. 300, 303, 372
Maslen S.H. 174 195 210 232 341 342 348
Maslen, S.H. 174 195 210 232 341 342 348
Maslen, S.H. 174, 195, 210, 232, 341, 342, 348
Mass flow vector in Newtonian flow 118 134
Mass flow vector in Newtonian flow 118, 134
Mass fraction of diffusing component 289
Mass fraction of diffusing component 289
Mass fraction of diffusing component, integrals for 294
Mass fraction of diffusing component, integrals for 294
Maximum enthalpy in boundary layer 311
Maximum enthalpy in boundary layer 311
Maximum velocity 217
Maximum velocity 217
Maxwell J.C. 397
Maxwell, J.C. 397
Maxwell, J.C. 397
Maxwellian velocity distribution 395—403
Maxwellian velocity distribution 395—403
McCall F. 226
McCall, F. 226
McCall, F. 226
McLean F.E. 295
McLean, F.E. 295
McLean, F.E. 295
Mean free path 26—28 284 375
Mean free path 26—28, 284, 375
Mean free path in free stream 376 377
Mean free path, at body 377 379
Mean free path, at body 377, 379
Mean free path, behind shock wave 377 382
Mean free path, behind shock wave 377, 382
Mean free path, in free stream 376 377
Mean free path, in free stream 376, 377
Mean free path, maximum value of 382
Mean free path, maximum value of 382
Mean free path, of re-emitted molecules 384
Mean free path, of re-emitted molecules 384
Mean specific heat of mixture 287 290
Mean specific heat of mixture 287, 290
Mean-surface approximation 33 38 45 67
Mean-surface approximation 33, 38, 45, 67
Merged layer 385—391
Merged layer 385—391
Method of characteristics 253—259
Method of characteristics 253—259
Method of characteristics in complex domain 234 246
Method of characteristics in three dimensions 254
Method of characteristics with relaxation 254
Method of characteristics, choice of dependent variables in 257 258
Method of characteristics, choice of dependent variables in 257, 258
Method of characteristics, in complex domain 234 246
Method of characteristics, in complex domain 234, 246
Method of characteristics, in three dimensions 254
Method of characteristics, in three dimensions 254
Method of characteristics, mixed flow region, downstream of 203
Method of characteristics, mixed flow region, downstream of 203
Method of characteristics, numerical procedures for 257
Method of characteristics, numerical procedures for 257
Method of characteristics, with relaxation 254
Method of characteristics, with relaxation 254
Method of integral relations 214—226
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