Verfügbarkeit: Vector mechanics of fluids and magnetofluids

Vector mechanics of fluids and magnetofluids:

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Bibliographische Detailangaben
1. Verfasser:	Eskinazi, Salamon 1922- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Acad. Pr. 1967
Schlagworte:	Analyse vectorielle Fluides, Mécanique des Magnétohydrodynamique Vloeistofmechanica Fluid mechanics Magnetohydrodynamics Vector analysis Flüssigkeit Vektor
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 499 S. Ill., graph. Darst. 25 cm

Internformat

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Datensatz im Suchindex

_version_	1804121282302705664
adam_text	VECTOR MECHANICS OF FLUIDS AND MAGNETOFLUIDS SALAMON ESKINAZI DEPARTMENT OF MECHANICAL AND AEROSPACE ENGINEERING SYRACUSE UNIVERSITY SYRACUSE, NEW YORK 1967 ACADEMIC PRESS NEW YORK AND LONDON CONTENTS PREFACE VII LIST OF SYMBOLS XVI 1 FUNDAMENTAL CONCEPTS 1.1 SOLID, LIQUID, AND GAS .. .. .. .. .. .. .. .. 1 1.2 SYSTEM, PROPERTY, AND STATE .. .. .. .. .. .. .. 3 1.3 PROPERTIES IN A CONTINUUM .. .. .. .. .. .. .. 4 1.4 MASS AND FORCE 6 1.5 DIMENSIONS IN NEWTON S LAW OF INERTIA 9 1.6 DIMENSIONAL SYSTEMS IN ELECTROMAGNETISM .. .. .. .. .. 12 1.7 DENSITY, SPECIFIC WEIGHT, SPECIFIC GRAVITY, AND SPECIFIC VOLUME .. .. 15 1.8 THE EQUATION OF STATE 16 1.9 COEFFICIENT OF COMPRESSIBILITY, COEFFICIENT OF THERMAL EXPANSION, AND COEFFICIENT OF TENSION 18 1.10 COMPRESSIBLE AND INCOMPRESSIBLE FLUIDS 20 1.11 VISCOSITY AND SHEARING STRESS 22 1.12 FRICTIONLESS MOTION .. .. .. .. .. .. .. .. .. 28 1.13 PERFECT FLUID 29 1.14 REAL FLUIDS 29 1.15 SURFACE TENSION OF LIQUIDS 31 2 BASIC CONCEPTS IN VECTOR ANALYSIS 2.1 SCALARS AND VECTORS 33 2.2 VECTORS IN ORTHOGONAL COORDINATE AXES .. . . . . 34 2.3 ADDITION AND SUBTRACTION OF VECTORS 36 2.4 MULTIPLICATION OF A VECTOR WITH A SCALAR .. .. .. .. .. .. 37 2.5 LINEAR RELATION OF COPLANAR VECTORS 38 2.6 UNIT VECTOR AND VECTOR ADDITION OF COMPONENTS 38 2.7 THE PRODUCT OF VECTORS 40 2.8 THE SCALAR PRODUCT 41 2.9 THE VECTOR PRODUCT 42 2.10 THE TRIPLE SCALAR PRODUCT 46 2.11 THE TRIPLE VECTOR PRODUCT 47 2.12 VECTOR FUNCTION OF A SCALAR 49 2.13! DIFFERENTIATION WITH RESPECT TO A SCALAR VARIABLE 50 2.14 DIFFERENTIATION RULES 51 2.15 THE GRADIENT OF A SCALAR FUNCTION 52 2.16 THE DOT PRODUCT OF A VECTOR WITH THE OPERATION V 56 XI XII CONTENTS 2.17 THE CROSS PRODUCT OF A VECTOR AND THE OPERATOR V 56 2.18 THE DIVERGENCE OF A VECTOR 57 2.19 THE CURL OF A VECTOR 59 2.20 INVARIANCE OF THE VECTOR OPERATOR .. .. .. .. .. .. 61 2.21 CONDITION FOR A VECTOR TO BE THE GRADIENT OF A SCALAR FUNCTION .. .. 62 2.22 THE LINE INTEGRAL 62 2.23 ORIENTED SURFACE 63 2.24 STOKES THEOREMLINE AND SURFACE INTEGRALS .. 64 2.25 THE DIVERGENCE THEOREMGAUSS S THEOREM 66 2.26 CONSEQUENCES OF GAUSS S THEOREM 68 2.27 THE INDEFINITE OF DYADIC PRODUCT 69 3 STATICS 3.1 STATIC EQUILIBRIUM 74 3.2 CONCEPT OF FORCES ACTING ON FLUID BODIES .. .. .. .. .. 75 3.3 SURFACE FORCES ON A BODY 76 3.4 THE STRESS VECTOR ON ANY ARBITRARY SURFACE .. .. .. .. .. 78 3.5 THE CONCEPT OF PRESSURE 80 3.6 THE HYDROSTATIC EQUATION 80 3.7 STABILITY OF STATIC EQUILIBRIUM 86 3.8 EQUILIBRIUM OF THE ATMOSPHERE .. .. .. .. .. .. .. 87 3.9 THERMODYNAMIC EQUILIBRIUM OF A GAS .. .. .. .. .. .. 88 3.10 THE POLYTROPIC ATMOSPHERE 89 3.11 STABILITY OF THE ATMOSPHERE 91 3.12 THE ISOTHERMAL ATMOSPHERE . 93 3.13 FORCES ON SUBMERGED SURFACES .. .. 95 3.14 BUOYANT FORCES ON SUBMERGED BODIES 104 3.15 FLOATING BODIESMETACENTER AND METACENTRIC HEIGHT 104 3.16 THE PERIOD OF ROLLING 108 3.17 SURFACE TENSION 109 3.18 CONTOUR OF A LIQUID INTERFACE UNDER THE ACTION OF GRAVITY 112 3.19 THE CAPILLARY COLUMN IN A NARROW CYLINDRICAL TUBE 115 3.20 EQUILIBRIUM OF A HANGING DROP 116 3.21 EQUILIBRIUM OF A DROP ON A FLAT SOLID SURFACE .. 118 4 KINEMATICS OF FLUIDS 4.1 INTRODUCTION .. .. .. .. .. .. .. .. .. 122 4.2 CLASSIFICATION OF TYPES OF MOTION .. 123 4.3 STEADY AND UNSTEADY MOTION 125 4.4 UNIFORM FLOW. ONE-, TWO-, THREE-DIMENSIONAL FLOW 126 4.5 GEOMETRY OF THE RATE OF DEFORMATION FIELD 127 4.6 THE CONCEPT OF FLUID ROTATION AND RATE OF STRAIN .. 132 4.7 THE TIME RATE OF CHANGE 138 4.8 THE ACCELERATION 142 4.9 THE VORTICITY AND ITS KINEMATICAL RELATIONS .. 146 4.10 THE EULERIAN ACCELERATION IN TERMS OF THE VORTICITY 157 4.11 THE SYSTEM AND CONTROL VOLUMELAGRANGIAN AND EULERIAN VIEWPOINTS CONSERVATION OF MASS 160 4.12 PATHLINE, STREAMLINE, AND STREAKLINE 164 CONTENTS 4.13 STREAM FILAMENT, STREAM TUBE, AND STREAM SURFACE .. .. .. .. 169 4.14 THE STREAM FUNCTION 171 4.15 STAGNATION STREAMLINESTAGNATION POINT 174 4.16 THE TIME RATE OF CHANGE OF VORTICITYPERMANENCE OF VORTICITY .. .. 175 4.17 THE MOTION OF A FLUID REFERRED TO MOVING COORDINATES* RELATIVE MOTION .. 179 4.18 SOURCES AND VORTICES 188 5 GENERAL PRINCIPLES OF FLUID DYNAMICS 5.1 INTRODUCTION 194 5.2 DYNAMICAL EQUATIOND ALEMBERT S EQUILIBRIUM 195 5.3 STRESS-RATE OF DEFORMATION RELATIONSHIPNEWTON S VISCOSITY POSTULATE .. 200 5.4 SPECIAL FORMS OF THE EQUATION OF MOTION 205 5.5 THE EQUATION OF MOTION IN VORTICITY FORM .. .. .. .. .. 207 5.6 THE EQUATION OF MOTION IN TERMS OF THE STREAM FUNCTION .. .. .. 211 5.7 NEWTON S SECOND LAW APPLIED TO A CONTROL VOLUMELINEAR MOMENTUM .. 212 5.8 THE LINEAR MOMENTUM IN MOVING COORDINATES .. .. .. .. .. 220 5.9 MOMENT OF MOMENTUMANGULAR MOMENTUM .. .. .. .. 222 5.10 APPLICATION OF ANGULAR MOMENTUM TO TURBOMACHINES .. .. .. 224 5.11 BOUNDARY CONDITIONS .. 224 5.12 SIMILARITY IN FLUID MOTION 225 5.13 FORCES ON IMMERSED BODIES .. .. .. .. .. .. .. 231 6 ENERGY CONSIDERATIONS 6.1 INTRODUCTION 236 6.2 THE MECHANICAL POWER EQUATION 237 6.3 THE THERMODYNAMIC RATE OF ENERGY TRANSFER .. .. 245 6.4 THE HEAT EQUATION 249 6.5 NATURAL CONVECTION OWING TO TEMPERATURE GRADIENTS .. .. .. .. 253 6.6 SIMILARITY IN THE ENERGY TRANSFER .. .. .. .. .. .. .. 256 6.7 SIMILARITY IN HEAT AND VORTICITY TRANSFER .. 264 7 DYNAMICS OF AN INVISCID FLUID 7.1 FRICTIONLESS MOTION .. .. .. .. .. .. .. .. 266 7.2 GENERAL CONSIDERATIONS 266 7.3 DYNAMICAL PRINCIPLES 267 7.4 THE STREAM FUNCTION AND THE POTENTIAL FUNCTION IN AN INVISCID MOTION .. 269 7.5 THE BOUNDARY CONDITIONS 271 7.6 SPECIAL FORMS OF EULER S EQUATION AND ITS INTEGRATION .. .. .. 272 7.7 THE MECHANICAL ENERGY EQUATION .. .. .. .. .. .. 277 7.8 THE TIME RATE OF CHANGE OF VORTICITY AND CIRCULATION IN AN INVISCID FLUID 280 7.9 FORCES ON IMMERSED BODIES 282 7.10 METHOD OF SOURCES, SINKS, AND VORTICES IN SOLUTIONS OF INVISCID FLOWS .. 278 7.11 THE POINT SOURCE 286 7.12 SUPERPOSITION OF POINT SOURCES ON A FINITE LINE SEGMENT 290 CONTENTS 7.13 THE TWO-DIMENSIONAL RECTILINEAR SOURCE. THE LINE SOURCE .. .. 294 7.14 FLOW FROM TWO LINE SOURCES 295 7.15 A LINE SOURCE NEAR AWALL 298 7.16 A LINE SOURCE AND A LINE SINK PLACED AT A FINITE DISTANCE APART .. .. 301 7.17 THE UNIFORM STREAM 303 7.18 A LINE SOURCE IN A UNIFORM STREAM 304 7.19 THE POINT SOURCE IN A UNIFORM STREAM 308 7.20 LINE SOURCE AND LINE SINK IN A UNIFORM STREAM .. .. .. .. 311 7.21 THE POINT SOURCE AND THE POINT SINK IN A UNIFORM STREAM 314 7.22 UNIFORM FLOW AROUND A CYLINDER .. 316 7.23 FLOW AROUND A SPHERE 320 7.24 THE FREE VORTEX 323 7.25 FLOW AROUND THE CYLINDER WITH CIRCULATION .. .. .. .. .. 324 7.26 THE LIFT ON THE CYLINDER, KUTTA-JOUKOWSKI S THEOREM 326 7.27 THE APPARENT OR VIRTUAL MASS 329 7.28 METHODS OF CONFORMAL TRANSFORMATIONS IN PERFECT FLUIDS 331 7.29 ORDINARY MAPPING 332 7.30 VECTORIAL REPRESENTATION OF A COMPLEX NUMBER 335 7.31 SOME BASIC PROPERTIES OF FUNCTIONS OF COMPLEX VARIABLES 338 7.32 SOME SIMPLE TRANSFORMATIONS 340 7.33 THE LINEAR TRANSFORM WITH REAL COEFFICIENTS 341 7.34 LINEAR TRANSFORMS WITH COMPLEX COEFFICIENTS 341 7.35 HIGHER-ORDER TRANSFORMS 342 7.36 THE LINE DOUBLET AND THE FLOW PAST A CYLINDER 344 7.37 THE LINE SOURCE AND VORTEX 346 7.38 THE EXPONENTIAL TRANSFORM 348 7.39 THE FLOW WITH CIRCULATION PAST A CYLINDER .. 350 7.40 THE JOUKOWSKI TRANSFORM AND THE FLOW PAST A FLAT PLATE 351 7.41 FLOW PAST AN ELLIPSOIDAL CYLINDER .. .. .. .. .. .. 352 7.42 THE JOUKOWSKI AIRFOIL 357 7.43 GRAPHICAL CONSTRUCTION OF THE JOUKOWSKI AIRFOIL .. 358 7.44 AN ANALYTIC EXAMPLE OF A JOUKOWSKI TRANSFORMATION .. .. .. .. 361 7.45 THE FORCE ON AN AIRFOIL, BLASIUS THEOREM .. .. .. .. .. 365 8 VORTEX MOTION 8.1 GENERAL CONSIDERATIONS .. .. .. .. .. .. .. .. 368 8.2 THE BASIC LAWS OF VORTEX MOTION 369 8.3 THE INDUCED VELOCITY FIELD OWING TO A VORTEX. BIOT-SAVART LAW .. .. 376 8.4 VORTEX MOTION PAST A WING 381 8.5 THE INDUCED VELOCITY FROM THE WING-VORTEX SYSTEM 384 8.6 FORCE ON A LIFTING WING 388 8.7 THE RECTILINEAR VORTEX 392 8.8 MULTIPLE RECTILINEAR VORTICES 393 8.9 INVISCID VORTEX SYSTEMS 398 8.10 VORTEX RINGS 404 8.11 INTERACTION OF TWO VORTEX RINGS 406 8.12 THE RECTILINEAR VORTICES IN A UNIFORM STREAM .. 407 8.13 THE VISCOUS RECTILINEAR VORTEX 410 8.14 THE VISCOUS VORTEX STREET 414 8.15 THE VISCOUS TRAILING VORTICES 417 8.16 VORTEX IN A COMPRESSIBLE FLOW 419 CONTENTS XV 9 ELEMENTS OF ELECTROMAGNETISM 9.1 INTRODUCTION .. 421 9.2 THE ELECTRIC FIELD IN VACUUM 421 9.3 CONDUCTORS AND DIELECTRICS 426 9.4 ELECTROSTATICS IN DIELECTRIC MEDIA .. .. .. .. .. .. .. 427 9.5 TWO-DIMENSIONAL POTENTIAL FIELD: LINES OF FORCE OR STREAMLINES .. .. 436 9.6 THE BODY FORCE IN A DIELECTRIC MATERIAL .. - 437 9.7 ELECTROSTATIC PRESSURE IN FLUIDS 440 9.8 CONSERVATION OF CHANGES. ELECTRIC CURRENT 440 9.9 MAGNETIC FIELD FROM STEADY CURRENTS IN VACUUM 444 9.10 THE MAGNETIC INDUCTION .. .. .. .. .. .. .. .. 446 9.11 MAGNETIC PROPERTIES OF MATTER. MAGNETIC SUSCEPTIBILITY .. .. .. 450 9.12 LORENTZ FORCE*FARADAY S LAW OF INDUCTION AND MAGNETIC ENERGY .. .. 451 9.13 MAGNETIC ENERGY 453 9.14 MAXWELL S FIELD EQUATIONS 455 9.15 MAXWELL S EQUATIONS IN A MOVING MEDIUM 457 10 ESSENTIALS OF MAGNETOFLUID MECHANICS 10.1 GENERAL CONSIDERATIONS .. .. . . . . .. .. .. .. 461 10.2 THE EQUATIONS OF MAGNETOFLUID MECHANICS 461 10.3 THE EQUATIONS OF MOTION 461 10.4 THE CONSERVATION OF MASS AND CHARGES 462 10.5 OHM S LAW 462 10.6 THE ENERGY EQUATION AND THE EQUATION OF STATE 463 10.7 ORDER OF MAGNITUDES IN MAGNETOFLUID MECHANICS 465 10.8 SPECIAL SOLUTIONS OF MAGNETOFLUID MECHANICS EQUATIONS .. .. .. 470 10.9 THE MAGNETIC FIELD EQUATION IN AN ISOCHORIC FLOW .. .. .. .. 470 10.10 THE ONE-DIMENSIONAL INVISCID, MAGNETOFLUID MOTION 473 10.11 GENERAL DISCUSSION ON SOLUTIONS OF THE ONE-DIMENSIONAL PROBLEM .. .. 476 10.12 SPECIFIC APPLICATIONS OF ONE-DIMENSIONAL FLOWS. COUETTE FLOW .. .. 479 10.13 THE SLIPPER BEARING IN MAGNETOFLUIDS 481 10.14 POISEUILLE FLOW .. 483 10.15 THE TWO-DIMENSIONAL LAMINAR BOUNDARY LAYER ... .. .. .. 485 INDEX 493
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spelling	Eskinazi, Salamon 1922- Verfasser (DE-588)140442510 aut Vector mechanics of fluids and magnetofluids Salamon Eskinazi New York [u.a.] Acad. Pr. 1967 XVII, 499 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Analyse vectorielle Fluides, Mécanique des Magnétohydrodynamique Vloeistofmechanica gtt Fluid mechanics Magnetohydrodynamics Vector analysis Flüssigkeit (DE-588)4017621-6 gnd rswk-swf Vektor (DE-588)4202708-1 gnd rswk-swf Flüssigkeit (DE-588)4017621-6 s Vektor (DE-588)4202708-1 s DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=004517202&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Eskinazi, Salamon 1922- Vector mechanics of fluids and magnetofluids Analyse vectorielle Fluides, Mécanique des Magnétohydrodynamique Vloeistofmechanica gtt Fluid mechanics Magnetohydrodynamics Vector analysis Flüssigkeit (DE-588)4017621-6 gnd Vektor (DE-588)4202708-1 gnd
subject_GND	(DE-588)4017621-6 (DE-588)4202708-1
title	Vector mechanics of fluids and magnetofluids
title_auth	Vector mechanics of fluids and magnetofluids
title_exact_search	Vector mechanics of fluids and magnetofluids
title_full	Vector mechanics of fluids and magnetofluids Salamon Eskinazi
title_fullStr	Vector mechanics of fluids and magnetofluids Salamon Eskinazi
title_full_unstemmed	Vector mechanics of fluids and magnetofluids Salamon Eskinazi
title_short	Vector mechanics of fluids and magnetofluids
title_sort	vector mechanics of fluids and magnetofluids
topic	Analyse vectorielle Fluides, Mécanique des Magnétohydrodynamique Vloeistofmechanica gtt Fluid mechanics Magnetohydrodynamics Vector analysis Flüssigkeit (DE-588)4017621-6 gnd Vektor (DE-588)4202708-1 gnd
topic_facet	Analyse vectorielle Fluides, Mécanique des Magnétohydrodynamique Vloeistofmechanica Fluid mechanics Magnetohydrodynamics Vector analysis Flüssigkeit Vektor
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=004517202&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT eskinazisalamon vectormechanicsoffluidsandmagnetofluids

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