Fluid MechanicsThis text on intermediate fluids is aimed at the civil, agricultural and oceanography markets. It gives a grounding in fluid mechanics, including systematic and parallel development of the equations of fluid mechanics in integral and differential form. There is also extensive coverage of free surface flow. The book's applications are directed at shallow-water hydraulics, oceanography and wave mechanics, circulation in large bodies of water and transport. Examples, problems and historical notes are also included. |
Contents
BASIC DEFINITIONS AND INTRODUCTION | 1 |
LILLE 8 | 69 |
RELATION BETWEEN STRESS AND RATE OF STRAIN | 98 |
Copyright | |
10 other sections not shown
Common terms and phrases
acceleration acting applied assumed axis body boundary layer Calculate components considered constant continuity control surface control volume coordinates cylinder density derivative differential dimensional dimensions direction element energy equal equation Example exit expression flow field fluid fluid particle force ft/sec function given gives grad gradient heat incompressible indicated integral laminar length mass material meaning MICHIGAN momentum motion moving normal noted nozzle Obtain passing physical pipe plate positive potential pressure problem quantity reduced referred relation relative requires respect result shear stress Show shown in Fig Solution specific steady stream streamlines Substituting temperature turbulent uniform unit V₁ V₂ variables vector velocity field velocity profile viscosity wall written yields zero др ду дх