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Oertel H. — Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences)
Oertel H. — Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences)



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Название: Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences)

Автор: Oertel H.

Аннотация:

Ludwig Prandtl, with his fundamental contributions to hydrodynamics, aerodynamics, and gas dynamics, greatly influenced the development of fluid mechanics as a whole, and it was his pioneering research in the first half of the last century that founded modern fluid mechanics. His book Fuhrer durch die Stromungslehre, which appeared in 1942, originated from previous publications in 1913, Lehre von der Fliissigkeit und Gasbewegung, and 1931, Abrifi der Stromungslehre. The title Fuhrer durch die Stromungslehre, or Essentials of Fluid Mechanics, is an indication of PrandtFs intentions to guide the reader on a carefully thought-out path through the different areas of fluid mechanics. On his way, the author advances intuitively to the core of the physical problem, without extensive mathematical derivations. The description of the fundamental physical phenomena and concepts of fluid mechanics that are needed to derive the simplified models has priority over a formal treatment of the methods. This is in keeping with the spirit of Prandtl's research work...


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2nd edition

Год издания: 2004

Количество страниц: 735

Добавлена в каталог: 13.04.2014

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Gas, wall interaction      567 570
Gaster transformation      402
Gauss function      541
Gay-Lussac law      30
Geophysical fluid dynamics      571
Geostrophic flow      574
Geostrophic velocity      574
Gliding angle      269
Global reaction      505
Goertler instability      393
Goertler number      393
Gradient ansatz      535
Granulation      359
Grashof number      323 430
Gravity      64
Gravity waves      590 603
Greenhouse effect      608 609 612
Ground state      370 386
Groundwater flow      154
Group velocity      105 402
Gulf Stream      602 603
Hadley circulation      599
Hagen — Poiseuille law      119 177
Head wave      207
Heart flow      626 637
Heat conduction      429
Heat energy      195
Heat exchange      427 449
Heat flux      434 569
Heat shield      567
Heat transfer      427
Helicopter propeller      99
Helmholtz theorem      345
Helmholtz vortex laws      281
Helmholtz wave      108
Heterogeneous catalysis      531
High pressure regime      511
High-enthalpy flow      560
High-velocity flow      560
Hollow vortex      92
Homogeneous and isotropic turbulence      340
Homogeneous equilibrium model      489 491
Homogeneous liquid      25
Homogeneous model      466
Homogeneous reactor      555
Horizontal cylinder      437
Horseshoe vortex      58 151 281
Hugoniot curve      197
Hydraulically smooth      141
Hydraulics      64
Hydrocarbon combustion      520
Hydrocarbon emission      560
Hydrodynamics      64 80 91
Hydrostatic state of stress      22
Hydrostatics      24
Hyperbolic vibration differential equation      204
Hypersonic flight      312
Hypersonic flow      560
Impact loss      99
Induced drag      275
Inhibition      505
Inhomogeneous liquid      25 37
Instability      357 363 416 497 500
Instantaneous state      80
Intake flow      163 617
Integral length scale      534
Interaction equations      638
INTERFACE      77 107 145
Intermittency      351 540
Intermittent flow      460
Internal energy      607
Internal flow      615
Internal forces      18
Inviscid liquid      65 167
Inviscid stability      321
Irregular eddying motion      319
Irrotational      82
Isothermal boundary      371 374
Isothermal change of state      28
Isotropic turbulence      330 342
Jet flame      525 543
Jet pump      165
Jet stream      599
Jet, expansion      179
Jet, velocity      548
k-$\epsilon$ turbulence model      542
k-$\epsilon$-turbulence model      536
Karlovitz number      554
Karman constant      140
Karman vortex street      146 168 169 360 422 597
Kelvin — Helmholtz instability      459 497
Kinematic fundamental equations      48
Kinematic viscosity      122
Kinematics      47
kinetic energy      195
Kirchhoff flow past a plate      168
Knudsen number      560
Kolmogorov length scale      330 350 534
Kolmogorov velocity scale      330
Kolmogorov’s law      349
Kutta — joukowski condition      276
Kutta — Joukowski theorem      100 102
Lagrange integral method      544
Lamb solution      174
Laminar boundary layer      123
Laminar convection      431
Laminar motion      127
Laminar pipe flow      162
Laminar wing      296
Laminar-turbulent transition      134 321 325
Land-sea wind      587
Laplace equation      85 88
Large-Eddy Simulation      542
Large-scale turbulence      348
Laval nozzle      192 194
Lean combustion engine      560
Lee waves      592
Lee-side trough      579
Length scale      533
Leucocytes      625
Level surface      37
Lewis number      385
Lift      25 58 93 94 269 277
Lift, coefficient      271
Lift, distribution      279
Lift, line      282
Liftoff of turbulent flames      550
Lindemann mechanism      511
Lindemann model      510
Linear gasdynamic equation      204
Linear stability      321
Linear stability theory      321
Linear-eddy model      542
Liquid      17 47
Liquid column      74
Liquid friction      64 119
Liquid heavy      71
Liquid pressure      21
Local flame quenching      547
Local perturbations      366 416
Local stability      363
Logarithmic wall law      140 141
Logarithmic wind law      583
Long waves      605
Low-pressure region      511 595
Mach angle      188
Mach cone      188
Mach number      188 204 210
Mack modes      413
Magnus effect      93 94
Manometer      27
Marangoni convection      379 380
Marangoni number      381
Mariotte — Gay-Lussac law      28
Martinelli parameter      456
Mass, exchange      427 449 450
Mass, fraction      456
Mass, system      18 19
Mass, transfer      427
Master equations      564
Mean energy of fluctuation      341
Mean free path      560
Mean lifetime      509
Mean-field approximation      532
Meander      152
Methane-air flame      547 553
Method of multiple scales      397
Microcirculation      617
Minimal surface      39
Mitral valve      620
Mixing length      326 335 342
Mixing models      464
Mixing rate      546
Mixture fraction      527 544
Mixture layer      539
Molecularity      506
moment      269
Moment of momentum      102
Momentum equation      196
Momentum thickness      126
Monin — Obukhov length      583
Monte Carlo method      538 552
Moody model      491
Morton number      469
Multiphase flow      453
Muscle fiber      627
Navier — Stokes equation      118—120 533 637
Newtonian fluids      120
Newtonian media      118
Newton’s drag law      165
Newton’s equation      65
Newton’s principle      18
Nikuradse diagram      162
Nitrogen oxide formation      538
No-slip condition      118
Node      57
Non-Newtonian fluids      120
Non-Newtonian media      175
Nonlinear stability      323
Nonnormal stability      324
Nonpremixed flame      533 543 546
Normal shock wave      196
Nusselt number      368 429
Oblique shock      201
Oblique-varicose instability      379
Orifice      164
Orographic vortex      597
Orr — Sommerfeld equation      132 402
Oscillating bodies      153
Oscillation      74
Oscillation, frequency      509
Oscillatory, instability      379
Oscillatory, perturbation form      378
Outer law      142
Overall reaction      505
Overpressure manometer      33
Oxidizer      523
Ozone hole      612
Paint visualization      150
Parallel flow assumption      130 398
Partial equilibrium      512 514 515
Particle path      49
PDF, simulation      551
PDF, transport equations      538
PDF, turbulence model simulation      553
Peak plane      409
Peak-valley structure      409
Perfect mixing reactor      555
Perturbation      397
Perturbation development      363
Perturbation differential equations      381 386 392 397 406
Phase      399
Phase, coupled state      408
Phase, fraction      455
Phase, law      562
Phase, velocity      455
Physical atmosphere      34
Pipe flow      126 141 160 164 175 395 649
Pitot tube      70 71 76
Plasma reactor      529
Plasma-chemical processes      528
Plate boundary layer      395
Plate boundary layer, flow      169
Plug flow      457 459
Polar diagram      273
Polytropic stratification      32
Position height      66
potential energy      195
potential flow      80 82 86 92 167
Potential temperature      574
Potential vorticity      576 578
Potential vorticity, barrier      614
Prandtl number      323
Prandtl — Glauert rule      271 308 309
Prandtl — Meyer expansion      200
Prandtl, analogy      447
Prandtl, boundary-layer equation      125
Prandtl, layer      582
Prandtl, mixing length      137 138
Prandtl, rule      206
Prandtl, stagnation tube      76
Prandtl, wing theory      283 285
Prandtl’s mixing length      327
Preexponential factor      508
Premixed combustion      533
Premixed flame      517 533 554 557
Premixed flame, front      557
Premixed flame, methane      534
Pressure      21
Pressure, coefficient      661
Pressure, dependence      510
Pressure, distribution      309
Pressure, drag      166
Pressure, drag coefficient      168
Pressure, force      64
Pressure, height      66
Pressure, propagation      186
Pressure, waves      188
Primary instability      404
Principal stresses      20
Principle of solidification      18
Probability density function      538—540 545 551
Profile      269
Profile flow      269
Propane-oxygen flame      520
propeller      100
Pulmonary valve      620
PuLSE      617
Quasi-steady state      512 513
Rate coefficient      503 510
Rate equations      510
Rate law      503 507
Rate of formation      508
Rayleigh number      368 430
Rayleigh — Benard convection      367 427
Rayleigh — Benard instability      358
Rayleigh — Taylor instability      497
Reaction order      503
Reaction, flux analysis      528
Reaction, force      97
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