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| Hayes W.D., Probstein R.F. — Hypersonic Flow Theory |
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| Предметный указатель |
Effective body, with strong interaction 356
Effective body, with strong interaction 356
Eggers A.J., Jr. 72 93—95 265—276
Eggers, A.J., Jr. 72 93—95 265—276
Eggers, A.J., Jr. 72, 93—95, 265—276
Ehret D.M. 30
Ehret, D.M. 30
Ehret, D.M. 30
Ekistence of solution to inverse problem 230
Elliott D. 353 364 367
Elliott, D. 353 364 367
Elliott, D. 353, 364, 367
Ellipsoidal shock wave, solution with 251 252
Ellipsoidal shock wave, solution with 251, 252
Energy dissipation by drag 405
Energy dissipation by drag 405
Energy equation for boundary layer 289 291
Energy equation for boundary layer 289, 291
Energy equation for boundary layer, integrated form of 317 321 322
Energy equation for boundary layer, integrated form of 317, 321, 322
Energy transfer in free molecule flow 402 403
Energy transfer, in free molecule flow 402 403
Energy transfer, in free molecule flow 402, 403
Energy transfer, total 286 287 301
Energy transfer, total 286, 287, 301
Enthalpy at absolute zero temperature 19 261
Enthalpy at absolute zero temperature 19, 261
Enthalpy gradient, role of in energy transfer 287
Enthalpy gradient, role of in energy transfer 287
Enthalpy-defect thickness 317
Enthalpy-defect thickness 317
Enthalpy-defect thickness, dimensionless 317 320—322
Enthalpy-defect thickness, dimensionless 317, 320—322
Entropy gradient 4 23
Entropy gradient 4, 23
Entropy gradient, at body surface 204
Entropy gradient, at body surface 204
Entropy layer 7 272
Entropy layer 7, 272
Entropy wake 4 7
Entropy wake 4, 7
Entropy, constancy of along streamlines 170 174
Entropy, constancy of along streamlines 170, 174
Epstein P.S. 73 265 272
Epstein, P.S. 73 265 272
Epstein, P.S. 73, 265, 272
Equation of state 11 37 38 174 262
Equation of state 11, 37, 38, 174, 262
Equation of state, equilibrium 16 26
Equation of state, equilibrium 16, 26
Equation of state, frozen 16
Equation of state, frozen 16
Equations of motion for similar solutions 54
Equations of motion for thin shock layers 169
Equations of motion in intrinsic coordinates 255
Equations of motion in small-disturbance theory 32
Equations of motion, for similar solutions 54
Equations of motion, for similar solutions 54
Equations of motion, for thin shock layers 169
Equations of motion, for thin shock layers 169
Equations of motion, in intrinsic coordinates 255
Equations of motion, in intrinsic coordinates 255
Equations of motion, in small-disturbance theory 32
Equations of motion, in small-disturbance theory 32
Equilibrium air, thermodynamic properties of 17—19 298
Equilibrium air, thermodynamic properties of 17—19, 298
Equilibrium air, variation of  in 298
Equilibrium air, variation of in 298
Equilibrium air, viscosity of 297 298
Equilibrium air, viscosity of 297, 298
Equilibrium equation of state 16 26
Equilibrium equation of state 16, 26
Equivalence principle 30 32—35
Equivalence principle 30, 32—35
Equivalence principle in steady flow 35
Equivalence principle in strip theory 46
Equivalence principle in unsteady flow 67—69
Equivalence principle with similar solutions 53 61
Equivalence principle, in steady flow 35
Equivalence principle, in steady flow 35
Equivalence principle, in strip theory 46
Equivalence principle, in strip theory 46
Equivalence principle, in unsteady flow 67—69
Equivalence principle, in unsteady flow 67—69
Equivalence principle, Russian work with 36
Equivalence principle, Russian work with 36
Equivalence principle, with similar solutions 53 61
Equivalence principle, with similar solutions 53, 61
Equivalent body Effective body
Equivalent body see “Effective body”
Equivalent, body see "Effective body"
Estermann I. 396 398
Estermann, I. 396 398
Estermann, I. 396, 398
Evans M.E. 234 236
Evans, M.E. 234 236
Evans, M.E. 234, 236
Existence of solution to inverse problem 230
Existence of solution to inverse problem 230
Falkner — Skan parameter in hypersonic solutions 305
Falkner — Skan parameter in integral methods 321 322
Falkner — Skan parameter in locally similar solutions 307 315
Falkner — Skan parameter in stagnation point solutions 299 307
Falkner — Skan parameter in strong interaction 357 363
Falkner — Skan parameter with empirical density fitting 306 307
Falkner — Skan parameter with perfect gas 306
Falkner — Skan parameter, in hypersonic solutions 305
Falkner — Skan parameter, in hypersonic solutions 305
Falkner — Skan parameter, in integral methods 321 322
Falkner — Skan parameter, in integral methods 321, 322
Falkner — Skan parameter, in locally similar solutions 307 315
Falkner — Skan parameter, in locally similar solutions 307, 315
Falkner — Skan parameter, in stagnation point solutions 299 307
Falkner — Skan parameter, in stagnation point solutions 299, 307
Falkner — Skan parameter, in strong interaction 357 363
Falkner — Skan parameter, in strong interaction 357, 363
Falkner — Skan parameter, with empirical density fitting 306 307
Falkner — Skan parameter, with empirical density fitting 306, 307
Falkner — Skan parameter, with perfect gas 306
Falkner — Skan parameter, with perfect gas 306
Falkner — Skan solutions 290 359 364
Falkner — Skan solutions 290, 359, 364
Falkner-Skan solutions 290 359 364
Fall line direction 114
Fall line direction 114
Fay J.A. 285—289 297 301—303 310 311 372
Fay, J.A. 285—289 297 301—303 310 311 372
Fay, J.A. 285—289, 297, 301—303, 310, 311, 372
Feldman L. 91
Feldman S. 15 17 18 147 259 264 297
Feldman, L. 91
Feldman, L. 91
Feldman, S. 15 17 18 147 259 264 297
Feldman, S. 15, 17, 18, 147, 259, 264, 297
Ferrari C. 277 365 366
Ferrari, C. 277 365 366
Ferrari, C. 277, 365, 366
Ferri A. 191 234 253 339
Ferri, A. 191 234 253 339
Ferri, A. 191, 234, 253, 339
Finite counterpressure, with similar solutions 64 65
Finite counterpressure, with similar solutions 64, 65
Finite difference scheme 223 228
Finite difference scheme 223, 228
First-order collision theory regime, in flow classification 27 386
First-order collision theory regime, in flow classification 27, 386
Flat plate in free molecule flow 411—413
Flat plate in free molecule flow 411—413
Flat-nosed body 178
Flat-nosed body 178
| Flat-nosed body with constant-streamtube-area approximation 186 187
Flat-nosed body with Garabedian — Lieberstein method 251 252
Flat-nosed body with inverse method 251 252
Flat-nosed body with relaxation techniques 226
Flat-nosed body with variable-streamtube-area approximation 199—201
Flat-nosed body, with constant-streamtube-area approximation 186 187
Flat-nosed body, with constant-streamtube-area approximation 186, 187
Flat-nosed body, with Garabedian — Liebersteiri method 251, 252
Flat-nosed body, with Garabedian-Liebersteiri method 251 252
Flat-nosed body, with inverse method 251 252
Flat-nosed body, with inverse method 251, 252
Flat-nosed body, with relaxation techniques 226
Flat-nosed body, with relaxation techniques 226
Flat-nosed body, with variable-streamtube-area approximation 199—201
Flat-nosed body, with variable-streamtube-area approximation 199—201
Form factor for boundary layers 319—322
Form factor for boundary layers 319—322
Fourier heat conduction equation 385 386
Fourier heat conduction equation 385, 386
Fowler J.E. 281
Fowler, J.E. 281
Fowler, J.E. 281
Fraction of molecules dissociated 262
Fraction of molecules dissociated 262
Fraenkel L.E. 173 174 179
Fraenkel, L.E. 173 174 179
Fraenkel, L.E. 173, 174, 179
Free boundary 202 218 219 228 229
Free boundary 202, 218, 219, 228, 229
Free boundary, influence of 172 178
Free boundary, influence of 172, 178
Free molecule cold wall paradox 384 404
Free molecule cold wall paradox 384, 404
Free molecule flow 27 375 395—415
Free molecule flow 27, 375, 395—415
Free molecule flow regime, in flow classification 386
Free molecule flow regime, in flow classification 386
Free molecule flow, assumptions underlying 383 384 395
Free molecule flow, assumptions underlying 383, 384, 395
Free molecule similitude 408—413
Free molecule similitude 408—413
Free surface see "Free boundary"
Free surface see “Free boundary”
Freeman N.C. 88 152 156 173 174 177—180 395
Freeman, N.C. 88 152 156 173 174 177—180 395
Freeman, N.C. 88, 152, 156, 173, 174, 177—180, 395
French D.M. 281
French, D.M. 281
French, D.M. 281
Fried B.D. 66
Fried, B.D. 66
Fried, B.D. 66
Frozen boundary layer solutions 307 310 311
Frozen boundary layer solutions 307, 310, 311
Frozen equation of state 16
Frozen equation of state 16
Frozen equilibrium and frozen flow 16 254 262—264 286
Frozen equilibrium and frozen flow 16, 254, 262—264, 286
Fully merged layer regime, in flow classification 386 387
Fully merged layer regime, in flow classification 386, 387
Fundamental singularities of flow field 232 234 247 249
Fundamental singularities of flow field 232, 234, 247, 249
Gadd G.E. 335
Gadd, G.E. 335
Gadd, G.E. 335
Garabedian P.R. 234 245—252
Garabedian — Lieberste in method 245—252
Garabedian — Lieberstein method 245—252
Garabedian — Lieberstein method 245—252
Garabedian, P.R. 234 245—252
Garabedian, P.R. 234, 245—252
Gas constant, frozen 263
Gas constant, frozen 263
Gas constant, undissociated 262
Gas constant, undissociated 262
Geiger R.E. 156 161 394
Geiger, R.E. 156 161 394
Geiger, R.E. 156, 161, 394
General fluid 13
General fluid 13
General fluid in blunt-body flows 209
General fluid in hypersonic similitude 38—40
General fluid in Mach number independence principle 24
General fluid in small-disturbance theory 30
General fluid in theory of thin shock layers 166
General fluid, general scale similitude for 37
General fluid, general scale similitude for 37
General fluid, in blunt-body flows 209
General fluid, in blunt-body flows 209
General fluid, in hypersonic similitude 38—40
General fluid, in hypersonic similitude 38—40
General fluid, in Mach number independence principle 24
General fluid, in Mach number independence principle 24
General fluid, in small-disturbance theory 30
General fluid, in small-disturbance theory 30
General fluid, in theory of thin shock layers 166
General fluid, in theory of thin shock layers 166
General fluid, method of characteristics with 253 257
General fluid, method of characteristics with 253, 257
General fluid, Prandtl — Meyer flow in 258—262
General fluid, Prandtl — Meyer flow in 258—262
General fluid, similar boundary layers in 293
General fluid, similar boundary layers in 293
General stagnation point in Newtonian flow 127—129
General stagnation point, constant-density solution for 163—165
General stagnation point, constant-density solution for 163—165
General stagnation point, in Newtonian flow 127—129
General stagnation point, in Newtonian flow 127—129
Geodesic trajectories 76 77 115
Geodesic trajectories 76, 77, 115
Glauert M.B. 372
Glauert, M.B. 372
Glauert, M.B. 372
Goertler, H. 323
Goldstein S., editor 300
Goldstein, S., editor 300
Goldstein, S., editor 300
Goldsworthy F.A. 30
Goldsworthy, F.A. 30
Goldsworthy, F.A. 30
Gonor A.L. 104
Gonor, A.L. 104
Gonor, A.L. 104
Goodwin G. 406
Goodwin, G. 406
Goodwin, G. 406
Gortler H. 323
Gortler, H. 323
Green J.R. 228
Green, J.R. 228
Green, J.R. 228
Grodzovskii G.L. 53 61 364
Grodzovskii, G.L. 53 61 364
Grodzovskii, G.L. 53, 61, 364
Guderley G. 52 53 66 67
Guderley, G. 52 53 66 67
Guderley, G. 52, 53, 66, 67
Guiraud J.P. 64 273
Guiraud, J.P. 64 273
Guiraud, J.P. 64, 273
Hadamard J. 232 233 246
Hadamard J. 232, 233, 246
Hadamard, J. 232 233 246
Hamaker F.M. 30 41 42 67
Hamaker, F.M. 30 41 42 67
Hamaker, F.M. 30, 41, 42, 67
Hammerling P. 386
Hammerling, P. 386
Hammerling, P. 386
Hammitt A.G. 206 368 370
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