Fundamentals of Fluid MechanicsA first course in fluid mechanics presenting the classical principles and supported by numerous analyses of fluid flow phenomena. Presents more material than can be covered in one term, so the instructor has flexibility in choice of topics. Employs both the British gravitational system and the International system of units. Contains over 160 examples worked out in detail, and over 1,200 homework problems. |
Common terms and phrases
acceleration acting applied approximately Assume atmospheric body boundary layer channel Chapter coefficient combination component conservation of mass considered constant contains control volume cylinder density depends depth Determine developed diameter difference direction discussed distribution drag effects elevation energy equal equation example expressed field FIGURE fixed flow flowrate fluid follows force ft/s function gate give given head horizontal illustrated important incompressible increase indicated integral involved laminar length liquid loss mass measured mechanics momentum motion moving needed normal Note nozzle obtain P₁ particle pipe plate pressure problems produce relative Reynolds number rotation shaft shear stress shown in Fig similarity SOLUTION specific speed steady stream streamline surface surface tension Table tank temperature tube turbulent uniform unit variables velocity vertical viscous wall weight zero
References to this book
Robot Grippers Gareth J. Monkman,Stefan Hesse,Ralf Steinmann,Henrik Schunk No preview available - 2007 |