Loading...

Fluid Mechanics

Pijush Kundu

  • Bindwijze: Hardcover
  • Taal: en
  • Categorie: Wetenschap & Natuur
  • ISBN: 9780124059351
Inhoud
Taal:en
Bindwijze:Hardcover
Oorspronkelijke releasedatum:04 juni 2015
Aantal pagina's:928
Illustraties:Nee
Betrokkenen
Hoofdauteur:Pijush Kundu
Tweede Auteur:Pijush K. Kundu
Co Auteur:David R. Dowling
Co Auteur:David R. Dowling
Vertaling
Originele titel:Fluid Mechanics
Overige kenmerken
Editie:6
Extra groot lettertype:Nee
Product breedte:197 mm
Product hoogte:80 mm
Product lengte:240 mm
Studieboek:Ja
Verpakking breedte:202 mm
Verpakking hoogte:58 mm
Verpakking lengte:246 mm
Verpakkingsgewicht:2399 g
Overige kenmerken
Editie:6
Extra groot lettertype:Nee
Product breedte:197 mm
Product hoogte:80 mm
Product lengte:240 mm
Studieboek:Ja
Verpakking breedte:202 mm
Verpakking hoogte:58 mm
Verpakking lengte:246 mm
Verpakkingsgewicht:2399 g

Samenvatting

The classic textbook on fluid mechanics is revised and updated by Dr. David Dowling to better illustrate this important subject for modern students. With topics and concepts presented in a clear and accessible way, Fluid Mechanics guides students from the fundamentals to the analysis and application of fluid mechanics, including compressible flow and such diverse applications as aerodynamics and geophysical fluid mechanics. Its broad and deep coverage is ideal for both a first or second course in fluid dynamics at the graduate or advanced undergraduate level, and is well-suited to the needs of modern scientists, engineers, mathematicians, and others seeking fluid mechanics knowledge.
  • Over 100 new examples designed to illustrate the application of the various concepts and equations featured in the text
  • A completely new chapter on computational fluid dynamics (CFD) authored by Prof. Gretar Tryggvason of the University of Notre Dame. This new CFD chapter includes sample MatlabTM codes and 20 exercises
  • New material on elementary kinetic theory, non-Newtonian constitutive relationships, internal and external rough-wall turbulent flows, Reynolds-stress closure models, acoustic source terms, and unsteady one-dimensional gas dynamics
  • Plus 110 new exercises and nearly 100 new figures