Verfügbarkeit: Fluid mechanics

Fluid mechanics: problems and solutions

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Bibliographische Detailangaben
1. Verfasser:	Spurk, Joseph H. 1932- (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	Berlin [u.a.] Springer 1997
Schlagworte:	Strömungsmechanik - Lehrbuch Fluid dynamics Fluid dynamics > Problems, exercises, etc Strömungsmechanik Aufgabensammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Dt. Ausg. u.d.T.: Spurk, Joseph H.: Aufgaben zur Strömungslehre
Beschreibung:	XVII, 601 S. graph. Darst.
ISBN:	3540616527

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MARC


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Datensatz im Suchindex

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adam_text	CONTENS 1 THE CONCEPT OF CONTINUUM AND KINEMATICS 1 1.2 KINEMATICS . 1 PROBLEM 1.2-1 CALCULATION OF MATERIAL COORDINATES FOR GIV EN PATHLINES . 1 PROBLEM 1.2-2 VELOCITY AND ACCELERATION IN MATERIAL AND SPATIAL COORDINATES WITH GIVEN PATHLINES . 2 PROBLEM 1.2-3 MATERIAL DESCRIPTION OF A POTENTIAL VORTEX FLOW . 5 PROBLEM 1.2-4 MATERIAL DESCRIPTION OF AN AXISYMMETRIC STAG NATION POINT FLOW . 7 PROBLEM 1.2-5 PATHLINES, STREAMLINES, AND STREAKLINES OF AN UNSTEADY FLOW FIELD . 9 PROBLEM 1.2-6 KINEMATICS OF AN IRROTATIONAL AND DIVER GENCE FREE FLOW FIELD . 14 PROBLEM 1.2-7 KINEMATICS OF AN UNSTEADY, PLANE STAGNA TION POINT FLOW . 19 PROBLEM 1.2-8 STREAKLINE OF A WATER JET . 23 PROBLEM 1.2-9 STREAMLINES AND STREAKLINES IN CYLINDRICAL COORDINATES . 26 PROBLEM 1.2-10 STREAMLINES AND PATHLINES OF STANDING GRAV ITY WAVES . 29 PROBLEM 1.2-11 CHANGE OF MATERIAL LINE ELEMENTS IN A COUETTE FLOW . 31 PROBLEM 1.2-12 CHANGE OF MATERIAL LINE ELEMENTS IN A THREE DIMENSIONAL FLOW . 34 PROBLEM 1.2-13 ANGULAR VELOCITY VECTOR AND THE CHANGE OF MATERIAL LINE ELEMENTS IN A TWO-DIMENSIONAL FLOW FIELD . 38 X CONTENS PROBLEM 1.2-14 RATE OF DEFORMATION AND SPIN TENSORS OF AN UNSTEADY TWO-DIMENSIONAL FLOW . 43 PROBLEM 1.2-15 TIME CHANGE OF THE KINETIC ENERGY OF A FLUID BODY . 45 2 FUNDAMENTAL LAWS OF CONTINUUM MECHANICS 50 2.1 CONSERVATION OF MASS, EQUATION OF CONTINUITY . 50 PROBLEM 2.1-1 ONE-DIMENSIONAL UNSTEADY FLOW WITH GIVEN DENSITY FIELD . 50 PROBLEM 2.1-2 PLANE, STEADY FLOW WITH A GIVEN DENSITY FIELD 52 PROBLEM 2.1-3 VELOCITY AT THE EXIT OF A CONTAINER . 54 PROBLEM 2.1-4 STEADY FLOW THROUGH A CIRCULAR CHANNEL . . 56 PROBLEM 2.1-5 SQUEEZE FILM FLOW . 58 PROBLEM 2.1-6 MOVING PISTON . 60 PROBLEM 2.1-7 FLOW BETWEEN TWO INCLINED FLAT PLATES . 63 PROBLEM 2.1-8 OSCILLATING JOURNAL BEARING . 65 PROBLEM 2.1-9 EFFECT OF BOUNDARY LAYER DISPLACEMENT THICK NESS . 68 PROBLEM 2.1-10 FLOW THROUGH A DIFFUSER WITH A LINEAR VE LOCITY CHANGE IN FLOW DIRECTION . 71 PROBLEM 2.1-11 TEMPERATURE BOUNDARY LAYER ALONG A COLD WALL . 73 PROBLEM 2.1-12 FLOW IN A LUBRICATION GAP . 74 2.2 BALANCE OF MOMENTUM . 78 PROBLEM 2.2-1 PRINCIPAL AXES OF A STRESS TENSOR . 78 PROBLEM 2.2-2 FLUID FORCES ON A MANIFOLD . 80 PROBLEM 2.2-3 CALCULATION OF DRAG FORCE . 82 PROBLEM 2.2-4 FORCE ON A SLENDER NOZZLE . 85 2.3 BALANCE OF ANGULAR MOMENTUM . 87 PROBLEM 2.3-1 TORQUE ON PIPE WITH SLOT . 87 PROBLEM 2.3-2 MOMENT EXERTED ON THE INLET GUIDE VANES OF A WATER TURBINE . 90 PROBLEM 2.3-3 CURVATURE RADIUS OF CIRCULAR ARC PROFILES OF A CIRCULAR CASCADE . 93 2.4 MOMENTUM AND ANGULAR MOMENTUM IN AN ACCELERATING FRAME 96 PROBLEM 2.4-1 FLUID SPRAYED ON A ROTATING DISK . 96 PROBLEM 2.4-2 VELOCITY OF A MOVING CONTAINER WITH A NOZZLELOO PROBLEM 2.4-3 ACCELERATION AND VELOCITY OF A ROCKET . . . 107 PROBLEM 2.4-4 THRUST REVERSAL . 109 PROBLEM 2.4-5 TORQUE ON A ROTATING BENT PIPE . ILL PROBLEM 2.4-6 THRUST OF A JET ENGINE . 114 CONTENS XI 2.5 APPLICATIONS TO TURBOMACHINES . 117 PROBLEM 2.5-1 CIRCULATION AROUND A BLADE PROFILE IN A CIR CULAR CASCADE 117 PROBLEM 2.5-2 AXIAL TURBINE STAGE . 119 PROBLEM 2.5-3 KAPLAN TURBINE . 121 PROBLEM 2.5-4 TORQUE CONVERTER . 125 PROBLEM 2.5-5 BALANCING OF AXIAL THRUST . 129 2.6 CONSERVATION OF ENERGY . 131 PROBLEM 2.6-1 CYLINDER WITH HEAT FLUX . 131 PROBLEM 2.6-2 ENERGY BALANCE IN AN AXIAL TURBINE STAGE . 134 3 CONSTITUTIVE EQUATIONS 138 PROBLEM 3-1 VELOCITY OF A RAFT . 138 PROBLEM 3-2 ENERGY BALANCE IN A JOURNAL BEARING . . . 140 PROBLEM 3-3 PRESSURE DRIVEN FLOW OF PAPER PULP . 144 PROBLEM 3-4 FLOW OF A NON-NEWTONIAN FLUID . 146 PROBLEM 3-5 EXTENSIONAL FLOW . 148 4 EQUATION OF MOTION FOR PARTICULAR FLUIDS 152 4.1 NEWTONIAN FLUIDS . 152 PROBLEM 4.1-1 POISEUILLE FLOW . 152 PROBLEM 4.1-2 TEMPERATURE DISTRIBUTION IN A POISEUILLE FLOWL56 PROBLEM 4.1-3 PRESSURE DRIVEN FLOW IN A CHANNEL WITH POROUS WALLS . 159 PROBLEM 4.1-4 BOUNDARY LAYER SUCTION . 161 PROBLEM 4.1-5 MIXING OF STREAMS OF FLUIDS . 165 PROBLEM 4.1-6 DRAG ON A FLAT PLATE . 168 PROBLEM 4.1-7 TWO-DIMENSIONAL WATER JET IMPINGING ON A WEDGE . 173 PROBLEM 4.1-8 RIGID BODY ROTATION AND POTENTIAL VORTEX 175 PROBLEM 4.1-9 ENERGY BALANCE IN A POTENTIAL VORTEX FLOW 180 4.2 INVISCID FLOW . 184 PROBLEM 4.2-1 PRESSURE AND ENERGY INCREASE OF FLUID IN A CENTRIFUGAL PUMP . 184 PROBLEM 4.2-2 PRESSURE DISTRIBUTION WITHIN A SPIRAL CASING 189 PROBLEM 4.2-3 FREE SURFACE IN A POTENTIAL VORTEX . 190 PROBLEM 4.2-4 CIRCULATION IN A COUETTE FLOW . 192 PROBLEM 4.2-5 VELOCITY INDUCED BY A VORTEX RING . 193 PROBLEM 4.2-6 TWO INFINITELY LONG VORTEX FILAMENTS NEAR A WALL . 194 XII CONTENS PROBLEM 4.2-7 WING WITH AN ELLIPTIC SPANWISE DISTRIBUTION OF CIRCULATION . 198 PROBLEM 4.2-8 AIRFOIL IN PARALLEL FLOW . 201 PROBLEM 4.2-9 JET ANGLE IN A BETZ DIFFUSER . 204 PROBLEM 4.2-10 CONTRACTION COEFFICIENT OF A BORDA MOUTH PIECE . 206 PROBLEM 4.2-11 PRESSURE DISTRIBUTION IN AN INVISCID AND AX ISYMMETRIC FLOW . 208 PROBLEM 4.2-12 INCREASE OF STATIC PRESSURE IN A BETZ DIFFUSER 210 PROBLEM 4.2-13 FLUID FLOWING OUT OF A TANK . 212 PROBLEM 4.2-14 AIR BUBBLE MOVING IN A CHANNEL . 214 PROBLEM 4.2-15 AIRCRAFT ABOVE THE GROUND . 217 PROBLEM 4.2-16 FLOW BETWEEN TWO ROTATING CYLINDERS, CIR CULATION AND VORTICITY . 223 PROBLEM 4.2-17 POWER OF A PELTON TURBINE . 225 4.3 INITIAL AND BOUNDARY CONDITIONS . 230 PROBLEM 4.3-1 OSCILLATION OF AN ELLIPTIC CYLINDER IN FLUID . 230 PROBLEM 4.3-2 FLAT PLATE WITH A PITCHING AND OSCILLATING MOTION . 231 PROBLEM 4.3-3 ROTATING CYLINDER MOVING THROUGH FLUID . 232 PROBLEM 4.3-4 VORTICAL FLOW INSIDE AN ELLIPTIC CYLINDER . . 234 5 HYDROSTATICS 236 5.1 HYDROSTATIC PRESSURE DISTRIBUTION . 236 PROBLEM 5.1-1 U-TUBE MANOMETER . 236 PROBLEM 5.1-2 HYDRAULIC SAFETY CLUTCH . 237 PROBLEM 5.1-3 ROTATING CONTAINER FILLED WITH FLUID . 239 PROBLEM 5.1-4 CENTRIFUGAL CASTING PROCESS . 241 PROBLEM 5.1-5 DEPTH GAUGE . 242 5.2 HYDROSTATIC LIFT, FORCE ON WALLS . 244 PROBLEM 5.2-1 FORCE AND MOMENT ON A THROTTLE VALVE . . 244 PROBLEM 5.2-2 HALF SPHERE CLOSING AN ORIFICE . 246 PROBLEM 5.2-3 FORCE ON A DAM . 248 PROBLEM 5.2-4 HALF SPHERE CUP SEALING BY ITS OWN WEIGHT 250 PROBLEM 5.2-5 CYLINDRICAL SUBMARINE . 252 PROBLEM 5.2-6 CAR UNDER WATER . 254 6 LAMINAR UNIDIRECTIONAL FLOW 257 PROBLEM 6-1 FLOW IN AN ANNULAR GAP . 257 PROBLEM 6-2 CRUDE OIL TRANSPORT THROUGH PIPELINE . . . 261 PROBLEM 6-3 OSCILLATING PIPE FLOW . 264 CONTENS XIII PROBLEM 6-4 COMPARISON OF A COUETTE-POISEUILLE FLOW OF A NEWTONIAN FLUID, A STOKES FLUID, AND A BINGHAM MATERIAL . 267 7 FUNDAMENTALS OF TURBULENT FLOWS 274 PROBLEM 7-1 TURBULENT COUETTE FLOW . 274 PROBLEM 7-2 VELOCITY DISTRIBUTION IN TURBULENT COUETTE FLOW WITH GIVEN REYNOLDS NUMBER . 277 PROBLEM 7-3 TURBULENT PIPE FLOW . 278 PROBLEM 7-4 CRYSTAL GROWTH ON PIPE WALLS . 280 PROBLEM 7-5 COMPARISON OF MOMENTUM AND ENERGY FLUX IN LAMINAR AND TURBULENT FLOW IN A PIPE . 282 PROBLEM 7-6 VELOCITY DISTRIBUTION IN A TURBULENT PIPE FLOW RESULTING FROM THE BLASIUS FRICTION LAW 285 PROBLEM 7-7 LOCATION OF A PIPE LEAKAGE . 287 PROBLEM 7-8 COOLING OF SUPERHEATED STEAM BY WATER IN JECTION . 289 8 HYDRO DYNAMIC LUBRICATION 293 PROBLEM 8-1 BEARING WITH STEP SLIDER . 293 PROBLEM 8-2 FRICTION TORQUE TRANSMITTED BY THE SHAFT TO THE JOURNAL . 297 PROBLEM 8-3 SLIDER LOAD IN SQUEEZE FLOW: COMPARISON BETWEEN DIFFERENT SLIDER GEOMETRIES . 299 9 STREAM FILAMENT THEORY 302 9.1 INCOMPRESSIBLE FLOW . 302 PROBLEM 9.1-1 ROTATING TUBE ACTING AS PUMP . 302 PROBLEM 9.1-2 VOLUME FLUX THROUGH AN ORIFICE . 305 PROBLEM 9.1-3 INJECTOR PUMP . . . . 306 PROBLEM 9.1-4 RADIAL PUMP . 308 PROBLEM 9.1-5 BULB TURBINE . 312 PROBLEM 9.1-6 COANDA EFFECT . 315 PROBLEM 9.1-7 PRINCIPLE OF A SHAPED CHARGE . 316 PROBLEM 9.1-8 PENSTOCK AND NOZZLE OF A PELTON TURBINE . 319 PROBLEM 9.1-9 OPERATING CHARACTERISTIC OF A FAN . 321 PROBLEM 9.1-10 WATER POWER PLANT . 325 PROBLEM 9.1-11 FLOW THROUGH AN EXHAUST GAS ANALYSER . . 328 PROBLEM 9.1-12 FLOW DEFLECTION THROUGH A SCREEN . 329 PROBLEM 9.1-13 HOVERCRAFT . 331 PROBLEM 9.1-14 WIND TURBINE . 333 XIV CONTEXTS PROBLEM 9.1-15 DISCHARGE PIPE OF A RESERVOIR: COMPARISON BETWEEN DIFFERENT PIPE GEOMETRIES . 337 PROBLEM 9.1-16 VIBRATING SYSTEM CONSISTING OF A FLUID COL UMN AND A SPRING SUSPENDED PISTON . . . 339 PROBLEM 9.1-17 UNSTEADY FLOW IN A TUBE WITH FLEXIBLE WALLS 343 PROBLEM 9.1-18 PLUNGER PUMP . 346 PROBLEM 9.1-19 FLOW WITHIN AN URETHRA PROTHESIS . 350 9.2 STEADY COMPRESSIBLE FLOW . 352 PROBLEM 9.2-1 FORCE ON A PLATE IN SUBSONIC FLOW . 352 PROBLEM 9.2-2 CHANNEL FLOW WITH HEAT ADDITION . 355 PROBLEM 9.2-3 NORMAL SHOCKS IN AN INLET GUIDE VANE . . . 358 PROBLEM 9.2-4 BLUNT BODY IN SUPERSONIC FLOW . 363 PROBLEM 9.2-5 SHOCK WAVES IN THE DIVERGENT PART OF A LAVAL NOZZLE . 365 PROBLEM 9.2-6 SUPERSONIC NOZZLE IN A SPINNERET . 367 PROBLEM 9.2-7 RAM JET IN SUBSONIC FLOW . 370 PROBLEM 9.2-8 HIGH SPEED TRAIN IN A TUNNEL . 373 PROBLEM 9.2-9 LABYRINTH SEAL OF A TURBOMACHINE . 376 PROBLEM 9.2-10 GAS FLOW THROUGH AN ORIFICE . 379 9.3 UNSTEADY COMPRESSIBLE FLOW . 381 PROBLEM 9.3-1 TRAVELING NORMAL SHOCK IN A PIPE . 381 PROBLEM 9.3-2 SHOCK TUBE . 383 PROBLEM 9.3-3 MOTION OF A PISTON IN A TUBE . 386 PROBLEM 9.3-4 REFLECTION OF A NORMAL SHOCK WAVE AT THE OPEN END OF A TUBE . 389 PROBLEM 9.3-5 PRINCIPLE OF AN EXPANSION TUBE . 392 PROBLEM 9.3-6 PROPAGATION OF ACOUSTIC WAVES IN A CLOSED TUBE . 394 10 POTENTIAL FLOW 399 10.3 INCOMPRESSIBLE POTENTIAL FLOW . 399 PROBLEM 10.3-1 EXPANDING SPHERE . 399 PROBLEM 10.3-2 SPHERE IN A TRANSLATIONAL FLOW . 402 PROBLEM 10.3-3 FLOW NEAR THE STAGNATION POINT OF A BODY IN PARALLEL FLOW . 406 PROBLEM 10.3-4 POINT SOURCE IN A ROTATIONALLY SYMMETRIC STAGNATION POINT FLOW . 409 PROBLEM 10.3-5 POINT SOURCE ABOVE AN IMPERMEABLE WALL . 412 PROBLEM 10.3-6 SOURCE DISTRIBUTION IN PARALLEL FLOW . 414 PROBLEM 10.3-7 EXPANDING SPHERE IN AN INVISCID AND IN A VISCOUS FLOW . 416 CONTENS XV PROBLEM 10.3-8 GROWTH OF A VAPOR FILLED CAVITY . 420 PROBLEM 10.3-9 CONTRACTION COEFFICIENT FOR A CIRCULAR ORIFICE 423 PROBLEM 10.3-10 SPHERE RISING IN WATER . 427 PROBLEM 10.3-11 UNSTEADY MOTION OF A CYLINDER PERPENDIC ULAR TO ITS AXIS . 430 PROBLEM 10.3-12 ROTOR OSCILLATING IN AN INVISCID FLUID . . . 432 10.4 PLANE POTENTIAL FLOW . 436 PROBLEM 10.4-1 FLOW IN THE SQUEEZE GAP BETWEEN A MOVING PISTON AND A WALL . 436 PROBLEM 10.4-2 SINK DISTRIBUTION IN A STAGNATION POINT FLOW 439 PROBLEM 10.4-3 CIRCLE THEOREM . 442 PROBLEM 10.4-4 HALF CYLINDER IN STAGNATION POINT FLOW . . 447 PROBLEM 10.4-5 DIPOL FLOW AROUND A CIRCULAR CYLINDER . . . 451 PROBLEM 10.4-6 FLOW AROUND A THIN PLATE . 454 PROBLEM 10.4-7 AIRFOIL OVER A FIXED WALL . 457 PROBLEM 10.4-8 SEMI INFINITE BODY IN A CHANNEL . 461 PROBLEM 10.4-9 KARMAN ' S VORTEX STREET . 464 PROBLEM 10.4-10 JOUKOWSKI MAPPING OF A CIRCULAR CYLINDER IN A UNIFORM FLOW . 467 PROBLEM 10.4-11 PLANE CIRCULAR CASCADE . 470 PROBLEM 10.4-12 SCHWARZ-CHRISTOFFEL TRANSFORMATION OF A WALL OF INFINITE EXTENT . 473 PROBLEM 10.4-13 SCHWARZ-CHRISTOFFEL TRANSFORMATION OF A CON VERGENT CHANNEL . 476 PROBLEM 10.4-14 CAVITATION IN A CHANNEL . 480 PROBLEM 10.4-15 REPRESENTATION OF A SLENDER BODY BY A SOURCE DISTRIBUTION . 483 PROBLEM 10.4-16 DISTRIBUTION OF VORTEX INTENSITY AND MEAN CAMBER LINE OF A SLENDER AIRFOIL . 488 PROBLEM 10.4-17 STRAIGHT CASCADE . 492 PROBLEM 10.4-18 VORTEX DISTRIBUTION OF A FLAT-PLATE CASCADE 497 PROBLEM 10.4-19 COMPRESSIBLE FLOW OVER A WAVY WALL . 503 11 SUPERSONIC FLOW 509 11.1 OBLIQUE SHOCK WAVES . 509 PROBLEM 11.1-1 WEDGE WITH A THIN PLATE IN FRONT OF IT . . 509 PROBLEM 11.1-2 INLET OF A PLANE CHANNEL . 511 11.3 REFLECTION OF OBLIQUE SHOCK WAVES . 514 PROBLEM 11.3-1 FLOW OVER A WEDGE IN A SUPERSONIC WIND TUNNEL . 514 PROBLEM 11.3-2 SUPERSONIC FLOW IN A CONVERGENT CHANNEL . 516 XVI CONTENS 11.5 PRANDTL-MEYER FLOW . 518 PROBLEM 11.5-1 CENTERED EXPANSION WAVE IN A DIVERGENT CHANNEL . 518 11.6 SHOCK EXPANSION THEORY . 522 PROBLEM 11.6-1 AIRFOIL IN SUPERSONIC FLOW . 522 PROBLEM 11.6-2 INLET OF A SUPERSONIC JET ENGINE . 526 12 BOUNDARY LAYER THEORY 530 PROBLEM 12-1 BOUNDARY LAYER MOMENTUM EQUATION . . . 530 PROBLEM 12-2 FLOW OVER A WEDGE . 533 PROBLEM 12-3 DIFFUSER WITH DISCONTINUOUS CHANGE OF THE CROSS-SECTION . 537 PROBLEM 12-4 DRAG COEFFICIENT OF A DIAMOND AIRFOIL . . . 543 A TENSOR CALCULUS 551 PROBLEM A-L . 551 PROBLEM A-2 551 PROBLEM A-3 552 PROBLEM A-4 553 PROBLEM A-5 554 PROBLEM A-6 555 PROBLEM A-7 555 PROBLEM A-8 556 PROBLEM A-9 557 PROBLEM A-10 558 PROBLEM A 11 560 B EXAMINATION PROBLEMS 562 PROBLEM B-L STREAMLINES AND PATHLINES . 562 PROBLEM B-2 DRAG OF A HALF CYLINDER SHELL . 563 PROBLEM B-3 AWNING IN A STORM . 564 PROBLEM B-4 STRETCHING OF A FOIL . 565 PROBLEM B-5 SINGLE STAGE, AXIAL BLOWER . 566 PROBLEM B-6 BLADE PROFILE FOR GIVEN PRESSURE DISTRIBUTION 567 PROBLEM B-7 COMBUSTION CHAMBER OF A PISTON ENGINE . 568 PROBLEM B-8 TWO-DIMENSIONAL OBLIQUE STAGNATION POINT FLOW . 569 PROBLEM B-9 GENERALIZED HAGEN-POISEUILLE FLOW . 570 PROBLEM B-10 INDUCED VELOCITY OF A HORSE-SHOE VORTEX . 571 PROBLEM B-LL OPEN CHANNEL FLOW THROUGH A WEIR . 572 PROBLEM B-12 SAFETY VALVE . 573 CONTENS XVII PROBLEM B-13 LIQUID IN CONTAINER . 574 PROBLEM B-14 SLUICE GATE . 575 PROBLEM B-15 PRESSURE DRIVEN FLOW IN THE RADIAL GAP BE TWEEN TWO CONCENTRIC RING PLATES . 576 PROBLEM B-16 PRESSURE DRIVEN CHANNEL FLOW WITH VARIABLE VISCOSITY . 577 PROBLEM B-17 TEMPERATURE INDUCED FLOW . 578 PROBLEM B-18 SHOCK ABSORBER . 579 PROBLEM B-19 FREQUENCY OF A HELMHOLTZ RESONATOR . . . 580 PROBLEM B-20 CHAMBER AND EXHAUST PIPE OF AN INTERNAL COMBUSTION ENGINE . 582 PROBLEM B-21 PUMP-TURBINE STORAGE PLANT . 583 PROBLEM B-22 OVEREXPANDED LAVAL NOZZLE . 584 PROBLEM B-23 NOZZLE INLET . 585 PROBLEM B-24 SOLID PROPELLANT ROCKET ENGINE . 586 PROBLEM B-25 RAM JET . 587 PROBLEM B-26 LUDWIEG-TUBE . 588 PROBLEM B-27 DIPOL ABOVE AN IMPERMEABLE WALL . 589 PROBLEM B-28 VIRTUAL MASS OF A THIN PLATE . 591 PROBLEM B-29 REMOVAL OF LIQUID THROUGH A PLANE CHANNEL 592 PROBLEM B-30 UNSTEADY FLOW OVER A WAVY WALL . 593 PROBLEM B-31 WING SECTION FOR GIVEN SOURCE AND VORTEX DISTRIBUTION . 594 PROBLEM B-32 INFINITELY THIN PLATE WITH AILERON . 595 PROBLEM B-33 SUPERSONIC INLET . 596 PROBLEM B-34 INFINITELY THIN, FLAT PLATE IN TWO-DIMENSIONAL SUPERSONIC FLOW . 598 PROBLEM B-35 GUIDE VANE CASCADE OF A SUPERSONIC COM PRESSOR . 599 PROBLEM B-36 BOUNDARY LAYER ON A FOIL . 600
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indexdate	2024-08-14T01:14:21Z
institution	BVB
isbn	3540616527
language	German
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physical	XVII, 601 S. graph. Darst.
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spelling	Spurk, Joseph H. 1932- Verfasser (DE-588)142703141 aut Fluid mechanics problems and solutions Joseph H. Spurk Berlin [u.a.] Springer 1997 XVII, 601 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Dt. Ausg. u.d.T.: Spurk, Joseph H.: Aufgaben zur Strömungslehre Strömungsmechanik - Lehrbuch Fluid dynamics Fluid dynamics Problems, exercises, etc Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf (DE-588)4143389-0 Aufgabensammlung gnd-content Strömungsmechanik (DE-588)4077970-1 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007612872&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Spurk, Joseph H. 1932- Fluid mechanics problems and solutions Strömungsmechanik - Lehrbuch Fluid dynamics Fluid dynamics Problems, exercises, etc Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4077970-1 (DE-588)4143389-0
title	Fluid mechanics problems and solutions
title_auth	Fluid mechanics problems and solutions
title_exact_search	Fluid mechanics problems and solutions
title_full	Fluid mechanics problems and solutions Joseph H. Spurk
title_fullStr	Fluid mechanics problems and solutions Joseph H. Spurk
title_full_unstemmed	Fluid mechanics problems and solutions Joseph H. Spurk
title_short	Fluid mechanics
title_sort	fluid mechanics problems and solutions
title_sub	problems and solutions
topic	Strömungsmechanik - Lehrbuch Fluid dynamics Fluid dynamics Problems, exercises, etc Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Strömungsmechanik - Lehrbuch Fluid dynamics Fluid dynamics Problems, exercises, etc Strömungsmechanik Aufgabensammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007612872&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT spurkjosephh fluidmechanicsproblemsandsolutions

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