Verfügbarkeit: Fluid mechanics through problems

Fluid mechanics through problems:

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Bibliographische Detailangaben
1. Verfasser:	Garde, Ramchandra J. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Wiley 1989
Ausgabe:	1. publ.
Schlagworte:	Fluides, Mécanique des - Problèmes et exercices Fluides, mécanique des - problèmes et exercices Fluid mechanics > Problems, exercises, etc Strömungsmechanik Aufgabensammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 660 S. graph. Darst.
ISBN:	0470213329 8122401066

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Datensatz im Suchindex

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adam_text	■■Sigft h\| ■ ■ i#» •4 r ; •Si i - t i Contents Preface • ’ 1 A i- I Properties of Fluids 1 1 Introduction 1 , , 1 2 Mass Density, Specific Weight, Specific Volume, Relative Density, pressure 2 1 3 • Viscosity 2 A Bulk Modulus of Elasticity 4 V- s ’ 1 5 Gas Laws 4 1 6 Surface Tension and Capillarity 5 1 7 Flow Regimes 6 Illustrative Examples 7 Problems 15 Descriptive Questions /S ; U Kinematics of Fluid Flow 2 1 Velocity 21 ::: 2 2 Types of Flow 22 - 231 Stream Lines, Path Lines Streak Lines 22 2 4 Continuity Equation 22 , 2 5 Acceleration 23 2 6 Rotation, Vörticity, Circulation 24 2 7 Velocity Potential and Stream Function 26 2 8 Flow-Net 27 23 Relaxation Method for Drawing Flow-net 28 r Illustrative Examples 29 Problems 46 ‘ , Descriptive Questions 53 ’ / III Equations of Motion and Energy; Theorem / 3 1 Equations of Motion 57 ,v 21 :n 57 t » j i viii Contents 3 2 Integration of Euler’s Equation of Motion Along a Stream Line 58 3 3 Physical Meaning of Terms in Eq (3 4 a) and Applications 59 3 4 Energy Equation with Heat Transfer 60 Illustrative Examples 60 Problems 78 Descriptive Questions 82 IV Fluid Statics 85 4 1 Fluid Pressure 85 4 2 Pressure Variation in Static Compressible Fluid 85 4 3 Manometers 86 4 4 Forces on Immersed Plane Surfaces 87 4 5 Total Force on Immersed Curved Surfaces 88 4 6 Floating Bodies 89 4 7 Stability of Floating and Submerged Bodies 89 4 8 Fluid Mass Subjected to Uniform Acceleration 91 4 9 Stresses in Pipes Due to Internal Pressure 92 Illustrative Examples 92 Problems 118 Descriptive Questions 129 V Applications of Bernoulli’s Equation 131 5 1 Introduction 131 5 2 Pressure Distribution in Irrotational Flow 131 5 3 Hydraulic Grade Line and Total Energy Line 132 5 4 Cavitation 132 5 5 Flow Through Small and Large Orifices 132 5 6 Flow Through Mouthpieces 134 5 7 Two and Three Diwepsiojuil Orifices and Flow Measuring Devices in Pipes 135 5 8 Weirs 137 5 9 Flow Under a Sluice Gate 141 Illustrative Examples 142 Problems 161 Descriptive Questions 167 VI Momentum Equation and Its Applications 169 6 1 Linear Momentum Equation 169 • 6 2 Momentum Correction Factor ß 170 6 3 Applications 171 6 4 Angular Momentum 171 6 5 Applications of Energy and Momentum Equations 172 % Integration of Euler’s Equation of Motion Along a Stream Line 58 Physical Meaning of Terms in Eq (3 4 a) and Applications 59 Energy Equation with Heat Transfer 60 tive Examples 60 amp; 78 ive Questions 82 tatics 85 Fluid Pressure 85 Pressure Variation in Static Compressible Fluid 85 Manometers 86 Forces on Immersed Plane Surfaces 87 Total Force on Immersed Curved Surfaces 88 Floating Bodies 89 Stability of Floating and Submerged Bodies 89 «Fluid Mass Subjected to Uniform Acceleration 91 Stresses in Pipes Due to Internal Pressure 92 tive Examples 92 s 118 tive Questions 129 tions of Bernoulli s Equation 131 Introduction 131 Pressure Distribution in Irrotational Flow 131 Hydraulic Grade Line and Total Energy Line 132 Cavitation 132 Flow Through Small and Large Orifices 132 Flow Through Mouthpieces 134 Two and Three Dimensional Orifices and Flow Measuring Devices in Pipes 135 Weirs 137 Flow Under a Sluice Gate 141 tive Examples 142 s 161 ive Questions 167 turn Equation and Its Applications 169 Linear Momentum Equation 169 • Momentum Correction Factor ß 170 Applications 171 Angular Momentum 171 Applications of Energy and Momentum Equations 172 Illustrative Examples 172 Problems 200 Descriptive Questions 210 V1L Dimensional Analysis and Similitude 7 1 Dimensional Analysis 212 7 2 Buckingham’s 7c Theorem 212 7 3 Variables in Fluid Mechanics 212 7 4 Procedures of Dimensional Analysis 214 7 5 Similitude 214 7 6 Important Dimensionless Parameters 215 7 7 Model Scales 216 » i Illustrative Examples 217 Problems 239 Descriptive Questions 245 ix 212 VIII Laminar Flow 249 8 1 Introduction 249 8 2 Navier-Stokes* Equations 249 8 3 Hagen-Poiseuille’s Equation for Laminar Flow in Pipes 251 8 4 Stokes’Law for Fall Velocity 252 8 5 Darcy’s Law 254 8 6 Fluidization 254 8 7 Viscometers 255 8 8 Lubrication Mechanics 255 8 9 Transition from Laminar to Turbulent Flow 255 Illustrative Examples 256 Problems 282 Descriptive Questions 288 IX Boundary Layer Theory 291 91 Introduction 291 - 1 9 2 Boundary Layer Definitions and Characteristics 292 4‘ 9 3 Laminar Boundary Layer 293 9 4 Turbulent Boundary Layer 294 : /95 Hydrodynamically Smooth and Rough Surfaces 296 ■ amp;96 Application of Momentum Equation 296 9 7 Establishment of Flow in Pipes 297 :r5 £ 9 8 Separation and Its Control 298 Illustrative Examples 299 X Problems 318 Descriptive Questions 321 Turbulent Flow 10 1 Characteristics of Turbulent Flow 324 324 x Contents i 10 2 Turbulent Shear 326 10 3 Velocity Distribution in Turbulent Flow 327 10 4 Friction Factor Variation in Smooth and Rough Pipes 328 10 5 Friction Factors for Gommerdal Pipes 330 r 10 6 Noncircular Conduits $32 10 7 Aging of Pipes 332 Illustrative Examples 332 Problems550 Descriptive Questions 353 XI Problems in Pipe Flow 355 , 11 1 Introduction 355 11 2 Sudden Expansions and Diffusers 355 11 3 Contractions and Contracting Transitions 357 11 4 Flow in Pipe Bends 358 11 5 Loss Coefficients for Pipe Fittings 360 11 6 Equivalent Length of Pipe 361 11 7 Siphons 361 11 8 Pipe Flow Problems 362 11 9 Parallel Pipes 363 11 10 Branching Pipes 364 11 11 Pipe Net-Works 366 , ; : Illustrative Examples 367 Problems 394 Descriptive Questions 403 XII Forces on Immersed Bodies 407 12 1 Introduction 407 , _:r ~ 12 2 Deformation Drag, Friction Drag, Form Drag 408 e 12 3 Variation of CD with Re 409 :^: L » L cZi 12 4 Effects of Free Surface and Compressibility on ■ Drag 415 ■ 12 5 Lift 417 r-: ; ; Illustrative Examples 420 : Problems439 Descriptive Questions 444 ~ ■ XIII Open Channel Flow ’ 447 13 1 Some Definitions 447 : i! 13 2 Steady Uniform Flow 447 13 3 Most Efficient Channel Section 450 13 4 Specific Energy and Specific Force 450 13 5 Brink Depth, Broad Crested Weirs, Cohtracting- Transitions 451 1 turbulent Shear 326 elocity Distribution in Turbulent Flow 327 riction Factor Variation in Smooth and Roügh 328 riction Factors for Commercial Pipes 330 ; • oncircular Conduits- 332 • ging of Pipes 332 ve Examples 332 • • 350 ■ • ‘ve Questions 353 In Pipe Flow 355 troduction 355 • ; Sudden Expansions and Diffusers 355 ntractions and Contracting Transitions 357 ow in Pipe Bends 358 ss Coefficients for Pipe Fittings 360 ‘ Equivalent Length of Pipe 361 Siphons 361 ‘pe Flow Problems Parallel Pipes 363 Branching Pipes 364 Pipe Net-Works 366 , ve Examples 367 - s 394 v ‘ve Questions 403 Immersed Bodies r • 407 Introduction 407 r Deformation Drag, Friction Drag, Form Drag 408 Variation of CD with lie 409ury i • y, i s Effects of Free Surface and Compressibility on Drag 415 Lift 417 v : ive Examples 420 : S, 439 thee Questions 444 i nel Flow ‘ 447 Some Definitions 447 : ^ is Steady Uniform Flow 447 Most Efficient Channel Section 450 Specific Energy and Specific Force 450 Brink Depth, Broad Crested Weirs, Cofttractirig- Transitions‘4571 f n * 3SS* Contents xi 13 6 Hydraulic Jump 455 : : : 13 7 Flow in a Bend 456 13 8 Gradually Varied Flow 457 y 13 9 Surges and Gravity Waves 459 Illustrative Examples 461 Problems 507 Descriptive Questions 517 ^ XIV Compressible Flow 520 14 1 Effects of Compressibility 520 14 2 Perfect Gas Relationships 520 14 3 Internal Energy, Entropy and Enthafpy 521 ■ ; 14 4 Propagation of Elastic Wave and Flow Classification 522 14 5 Equations of Motion for One Dimensional Steady Compressible Flows 523 ^ r ^ 14 6 Normal Shock Waves 524’ -•* 14 7 Stagnation Pressure in Compressible Fluids 525 14 8 Flow through Nozzles, Orifices, Venturimeters 525 • • Illustrative Examples 527 I Problems 541 r Descriptive Questions 544 $y Pumps 547 15 1 Introduction 547 ?* 15 2 Pump Classification 547 15 3 Reciprocating Pumps 548 15 4 Air Vessels 550 15 5 Rotodynamic Pumps 551 15 6 Velocity Diagram 554 / 15 7 Specified Speed 555 j , 15 8 Pump Intakes and Sumps 556 15*9 Miscellaneous 556 • Illustrative Examples 557 Problems 575 Descriptive Questions 579 XVI Turbines 5gi 16 1 Introduction 581 16 2 Impulse Turbines: Pelton Wheel 581 16 3 Reaction Turbines 584 16 4 Francis Turbine 586 16 5 Kaplan Turbine 588 16 6 Selection of Turbines 590 Illustrative Examples 590 Problems 606 Descriptive Questions 610 xii Contents XVII Unsteady Flows 612 17 1 Types of Unsteady Flews 612 17 2 Equation of Motion 612 17 2 Propagation-of Pressure Wave, WaterHammer 613 17 4 Surges in Open Channels 616 17 5 Oscillations in U-Tube and Surge Tanks 616 17 6 Non-Periodic Flows 618 Illustrative Examples 619 Problems 635 Descriptive Questions 638 APPENDIX Appbndix A Properties of Some Common Fluids at 2ü°C and Atmospheric Pressure 646? Appbndix B Properties of Water at Different Temperatures 641 Appbndix C Properties of Air at Different Temperatures and at Atmospheric-Prestee 643 Appendix D Properties of Common Gases at 273 16 K and at Atmospheric Pressure 644 Appbndix E Properties of Standard Atmosphere 645 Appbndix F Properties of Areas 646 Notations 649 Greek Notations 654 Index 655
adam_txt	■■Sigft h\| ■ ■ i#» •4 r ; •Si i - t i Contents Preface • ’ 1 A i- I Properties of Fluids 1 1 Introduction 1 , , 1 2 Mass Density, Specific Weight, Specific Volume, Relative Density, pressure 2 1 3 • Viscosity 2 \A Bulk Modulus of Elasticity 4 V- 's ’ 1 5 Gas Laws 4 1 6 Surface Tension and Capillarity 5 1 7 Flow Regimes 6 Illustrative Examples 7 Problems 15 Descriptive Questions /S ; U Kinematics of Fluid Flow 2 1 Velocity 21 \ ::: 2 2 Types of Flow 22 - 231 Stream Lines, Path Lines Streak Lines 22 2 4 Continuity Equation 22 , 2 5 Acceleration 23 2 6 Rotation, Vörticity, Circulation 24 ' 2 7 Velocity Potential and Stream Function 26 2 8 Flow-Net 27 23 Relaxation Method for Drawing Flow-net 28 r Illustrative Examples 29 Problems 46 ‘ , Descriptive Questions ' 53 ' ’ / III Equations of Motion and Energy; Theorem / 3 1 Equations of Motion 57 ,v 21 :n 57 t » j i viii Contents 3 2 Integration of Euler’s Equation of Motion Along a Stream Line 58 3 3 Physical Meaning of Terms in Eq (3 4 a) and Applications 59 3 4 Energy Equation with Heat Transfer 60 Illustrative Examples 60 Problems 78 Descriptive Questions 82 IV Fluid Statics 85 4 1 Fluid Pressure 85 4 2 Pressure Variation in Static Compressible Fluid 85 4 3 Manometers 86 4 4 Forces on Immersed Plane Surfaces 87 4 5 Total Force on Immersed Curved Surfaces 88 4 6 Floating Bodies 89 4 7 Stability of Floating and Submerged Bodies 89 4 8 Fluid Mass Subjected to Uniform Acceleration 91 4 9 Stresses in Pipes Due to Internal Pressure 92 Illustrative Examples 92 Problems 118 Descriptive Questions 129 V Applications of Bernoulli’s Equation 131 5 1 Introduction 131 5 2 Pressure Distribution in Irrotational Flow 131 5 3 Hydraulic Grade Line and Total Energy Line 132 5 4 Cavitation 132 5 5 Flow Through Small and Large Orifices 132 5 6 Flow Through Mouthpieces 134 5 7 Two and Three Diwepsiojuil Orifices and Flow Measuring Devices in Pipes 135 5 8 Weirs 137 5 9 Flow Under a Sluice Gate 141 Illustrative Examples 142 Problems 161 Descriptive Questions 167 VI Momentum Equation and Its Applications 169 6 1 Linear Momentum Equation 169 • 6 2 Momentum Correction Factor ß 170 6 3 Applications 171 6 4 Angular Momentum 171 6 5 Applications of Energy and Momentum Equations 172 % Integration of Euler’s Equation of Motion Along a Stream Line 58 Physical Meaning of Terms in Eq (3 4 a) and Applications 59 Energy Equation with Heat Transfer 60 tive Examples 60 amp; 78 ive Questions 82 tatics 85 Fluid Pressure 85 Pressure Variation in Static Compressible Fluid 85 Manometers 86 Forces on Immersed Plane Surfaces 87 Total Force on Immersed Curved Surfaces 88 Floating Bodies 89 Stability of Floating and Submerged Bodies 89 «Fluid Mass Subjected to Uniform Acceleration 91 Stresses in Pipes Due to Internal Pressure 92 tive Examples 92 s 118 tive Questions 129 tions of Bernoulli's Equation 131 Introduction 131 Pressure Distribution in Irrotational Flow 131 Hydraulic Grade Line and Total Energy Line 132 Cavitation 132 Flow Through Small and Large Orifices 132 Flow Through Mouthpieces 134 Two and Three Dimensional Orifices and Flow Measuring Devices in Pipes 135 Weirs 137 Flow Under a Sluice Gate 141 tive Examples 142 s 161 ive Questions 167 turn Equation and Its Applications 169 Linear Momentum Equation 169 • Momentum Correction Factor ß 170 Applications 171 Angular Momentum 171 Applications of Energy and Momentum Equations 172 Illustrative Examples 172 Problems 200 Descriptive Questions 210 V1L Dimensional Analysis and Similitude 7 1 Dimensional Analysis 212 7 2 Buckingham’s 7c Theorem 212 7 3 Variables in Fluid Mechanics 212 7 4 Procedures of Dimensional Analysis 214 7 5 Similitude 214 7 6 Important Dimensionless Parameters 215 7 7 Model Scales 216 » i Illustrative Examples 217 Problems 239 Descriptive Questions 245 ix 212 VIII Laminar Flow 249 8 1 Introduction 249 8 2 Navier-Stokes* Equations 249 8 3 Hagen-Poiseuille’s Equation for Laminar Flow in Pipes 251 8 4 Stokes’Law for Fall Velocity 252 8 5 Darcy’s Law 254 8 6 Fluidization 254 8 7 Viscometers 255 8 8 Lubrication Mechanics 255 8 9 Transition from Laminar to Turbulent Flow 255 Illustrative Examples 256 Problems 282 Descriptive Questions 288 IX Boundary Layer Theory 291 91 Introduction 291 - 1 9 2 Boundary Layer Definitions and Characteristics 292 4‘ 9 3 Laminar Boundary Layer 293 9 4 Turbulent Boundary Layer 294 :'/95 Hydrodynamically Smooth and Rough Surfaces 296 ■' amp;96 Application of Momentum Equation 296 9 7 Establishment of Flow in Pipes 297 :r5 £ 9 8 Separation and Its Control 298 Illustrative Examples 299 X Problems 318 Descriptive Questions 321 Turbulent Flow 10 1 Characteristics of Turbulent Flow 324 324 x Contents i 10 2 Turbulent Shear 326 10 3 Velocity Distribution in Turbulent Flow 327 ' 10 4 Friction Factor Variation in Smooth and'Rough Pipes 328 10 5 Friction Factors for Gommerdal Pipes 330 r 10 6 Noncircular Conduits $32 ' 10 7 Aging of Pipes 332 Illustrative Examples 332 Problems550 Descriptive Questions 353 XI Problems in Pipe Flow 355 , 11 1 Introduction 355 11 2 Sudden Expansions and Diffusers 355 11 3 Contractions and Contracting Transitions 357 11 4 Flow in Pipe Bends 358 11 5 Loss Coefficients for Pipe Fittings 360 11 6 Equivalent Length of Pipe 361 11 7 Siphons 361 11 8 Pipe Flow Problems 362 11 9 Parallel Pipes 363 11 10 Branching Pipes 364 11 11 Pipe Net-Works 366 , ; : Illustrative Examples 367 Problems 394 Descriptive Questions 403 XII Forces on Immersed Bodies 407 12 1 Introduction 407 , _:r ~ 12 2 Deformation Drag, Friction Drag, Form Drag 408 e 12 3 Variation of CD with Re 409 :^: L » L cZi 12 4 Effects of Free Surface and Compressibility on ■ Drag 415 ■ 12 5 Lift 417 r-: ; ; Illustrative Examples 420 : Problems439 Descriptive Questions 444 ~ ■ XIII Open Channel Flow ’ 447 13 1 Some Definitions 447 : i! 13 2 Steady Uniform Flow 447 13 3 Most Efficient Channel Section 450 13 4 Specific Energy and Specific Force 450 13 5 Brink Depth, Broad Crested Weirs, Cohtracting- Transitions 451 1 turbulent Shear 326 elocity Distribution in Turbulent Flow 327 ' riction Factor Variation in Smooth and Roügh 328 riction Factors for Commercial Pipes ' 330' '; • oncircular Conduits- 332 • ging of Pipes 332 ve Examples 332 • • 350 ■ ' • ‘ve Questions 353 ' In Pipe Flow 355 troduction 355 • ; Sudden Expansions and Diffusers 355 ntractions and Contracting Transitions 357 ow in Pipe Bends 358 ' ss Coefficients for Pipe Fittings 360 ‘ Equivalent Length of Pipe 361 Siphons 361 ‘pe Flow Problems ' Parallel Pipes 363 Branching Pipes 364 Pipe Net-Works 366 , ve Examples 367 - s 394 v ‘ve Questions 403 Immersed Bodies r • 407 Introduction 407 r ' Deformation Drag, Friction Drag, Form Drag 408 Variation of CD with lie 409ury i • y, i s Effects of Free Surface and Compressibility on Drag 415 Lift 417 v : ive Examples 420 : S, 439 thee Questions 444 i nel Flow ‘ 447 Some Definitions 447 : ^ is Steady Uniform Flow 447 Most Efficient Channel Section 450 Specific Energy and Specific Force 450 Brink Depth, Broad Crested Weirs, Cofttractirig- Transitions‘4571 f n * 3SS* Contents xi 13 6 Hydraulic Jump 455 : : : 13 7 Flow in a Bend 456 13 8 Gradually Varied Flow 457 y 13 9 Surges and Gravity Waves 459 Illustrative Examples 461 Problems 507 Descriptive Questions 517 ^ XIV Compressible Flow 520 14 1 Effects of Compressibility 520 14 2 Perfect Gas Relationships 520 14 3 Internal Energy, Entropy and Enthafpy 521 ■ ; 14 4 Propagation of Elastic Wave and Flow Classification 522 14 5 Equations of Motion for One Dimensional Steady Compressible Flows 523 ^ r ^ 14 6 Normal Shock Waves 524’ -•* 14 7 Stagnation Pressure in Compressible Fluids 525 14 8 Flow through Nozzles, Orifices, Venturimeters 525 • • Illustrative Examples 527 I Problems 541 ' r Descriptive Questions 544 $y Pumps 547 15 1 Introduction 547 ?* 15 2 Pump Classification 547 15 3 Reciprocating Pumps 548 15 4 Air Vessels 550 15 5 Rotodynamic Pumps 551 15 6 Velocity Diagram 554 / 15 7 Specified Speed 555 j , 15 8 Pump Intakes and Sumps 556 15*9 Miscellaneous 556 • Illustrative Examples 557 Problems 575 Descriptive Questions 579 XVI Turbines 5gi 16 1 Introduction 581 16 2 Impulse Turbines: Pelton Wheel 581 16 3 Reaction Turbines 584 16 4 Francis Turbine 586 16 5 Kaplan Turbine 588 16 6 Selection of Turbines 590 Illustrative Examples 590 Problems 606 Descriptive Questions 610 xii Contents XVII Unsteady Flows 612 17 1 Types of Unsteady Flews 612 17 2 Equation of Motion 612 17 2 Propagation-of Pressure Wave, WaterHammer 613 17 4 Surges in Open Channels 616 17 5 Oscillations in U-Tube and Surge Tanks 616 17 6 Non-Periodic Flows 618 Illustrative Examples 619 Problems 635 Descriptive Questions 638 APPENDIX Appbndix A Properties of Some Common Fluids at 2ü°C and Atmospheric Pressure 646? Appbndix B Properties of Water at Different Temperatures 641 Appbndix C Properties of Air at Different Temperatures and at Atmospheric-Prestee 643 Appendix D Properties of Common Gases at 273 16 K and at Atmospheric Pressure 644 Appbndix E Properties of Standard Atmosphere 645 Appbndix F Properties of Areas 646 Notations 649 Greek Notations 654 Index 655
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spelling	Garde, Ramchandra J. Verfasser aut Fluid mechanics through problems R. J. Garde 1. publ. New York [u.a.] Wiley 1989 XII, 660 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fluides, Mécanique des - Problèmes et exercices Fluides, mécanique des - problèmes et exercices ram Fluid mechanics 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 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015110644&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Garde, Ramchandra J. Fluid mechanics through problems Fluides, Mécanique des - Problèmes et exercices Fluides, mécanique des - problèmes et exercices ram Fluid mechanics Problems, exercises, etc Strömungsmechanik (DE-588)4077970-1 gnd
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title	Fluid mechanics through problems
title_auth	Fluid mechanics through problems
title_exact_search	Fluid mechanics through problems
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title_full	Fluid mechanics through problems R. J. Garde
title_fullStr	Fluid mechanics through problems R. J. Garde
title_full_unstemmed	Fluid mechanics through problems R. J. Garde
title_short	Fluid mechanics through problems
title_sort	fluid mechanics through problems
topic	Fluides, Mécanique des - Problèmes et exercices Fluides, mécanique des - problèmes et exercices ram Fluid mechanics Problems, exercises, etc Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Fluides, Mécanique des - Problèmes et exercices Fluides, mécanique des - problèmes et exercices Fluid mechanics Problems, exercises, etc Strömungsmechanik Aufgabensammlung
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work_keys_str_mv	AT garderamchandraj fluidmechanicsthroughproblems

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