000			04206nmm a22003015i 4500
005			20230705150648.0
008			121227s1997 gw | s |||| 0|eng d
020			_a9783642582776 _9978-3-642-58277-6
082			_a530 _223
100			_aSpurk, Joseph H. _921044
245			_aFluid Mechanics _h[electronic resource] : _bProblems and Solutions / _cby Joseph H. Spurk.
250			_a1st ed. 1997.
260			_aBerlin, Heidelberg : _bSpringer Berlin Heidelberg : _bImprint: Springer, _c1997.
300			_aXVII, 605 p. _bonline resource.
505			_a1 The Concept of Continuum and Kinematics -- 1.2 Kinematics -- 2 Fundamental Laws of Continuum Mechanics -- 2.1 Conservation of Mass, Equation of Continuity -- 2.2 Balance of Momentum -- 2.3 Balance of Angular Momentum -- 2.4 Momentum and Angular Momentum in an Accelerating Frame -- 2.5 Applications to Turbomachines -- 2.6 Conservation of Energy -- 3 Constitutive equations -- Problem 3-1 Velocity of a raft -- Problem 3-2 Energy balance in a journal bearing -- Problem 3-3 Pressure driven flow of paper pulp -- Problem 3-4 Flow of a non-Newtonian fluid -- Problem 3-5 Extensional flow -- 4 Equation of Motion for Particular Fluids -- 4.1 Newtonian Fluids -- 4.2 Inviscid flow -- 4.3 Initial and Boundary Conditions -- 5 Hydrostatics -- 5.1 Hydrostatic Pressure Distribution -- 5.2 Hydrostatic Lift, Force on Walls -- 6 Laminar Unidirectional Flow -- Problem 6-1 Flow in an annular gap -- Problem 6-2 Crude oil transport through pipeline -- Problem 6-3 Oscillating pipe flow -- Problem 6-4 Comparison of a Couette-Poiseuille flow of a Newtonian fluid, a Stokes fluid, and a Bingham material -- 7 Fundamentals of Turbulent Flows -- Problem 7-1 Turbulent Couette flow -- Problem 7-2 Velocity distribution in turbulent Couette flow with given Reynolds number -- Problem 7-3 Turbulent pipe flow -- Problem 7-4 Crystal growth on pipe walls -- Problem 7-5 Comparison of momentum and energy flux in laminar and turbulent flow in a pipe -- Problem 7-6 Velocity distribution in a turbulent pipe flow resulting from the Blasius friction law -- Problem 7-7 Location of a pipe leakage -- Problem 7-8 Cooling of superheated steam by water injection -- 8 Hydrodynamic Lubrication -- Problem 8-1 Bearing with step slider -- Problem 8-2 Friction torque transmitted by the shaft to the journal -- Problem 8-3 Slider load in squeeze flow: Comparison between different slider geometries -- 9 Stream filament theory -- 9.1 Incompressible Flow -- 9.2 Steady Compressible Flow -- 9.3 Unsteady Compressible Flow -- 10 Potential Flow -- 10.3 Incompressible Potential Flow -- 10.4 Plane Potential Flow -- 11 Supersonic Flow -- 11.1 Oblique Shock Waves -- 11.3 Reflection of Oblique Shock Waves -- 11.5 Prandtl-Meyer Flow -- 11.6 Shock Expansion Theory -- 12 Boundary Layer Theory -- Problem 12-1 Boundary layer momentum equation -- Problem 12-2 Flow over a wedge -- Problem 12-3 Diffuser with discontinuous change of the cross-section -- Problem 12-4 Drag coefficient of a diamond airfoil.
520			_ahis collection of over 200 detailed worked exercises adds to and complements the textbook Fluid Mechanics by the same author, and illustrates the teaching material through examples. In the exercises the fundamental concepts of Fluid Mechanics are applied to obtaining the solution of diverse concrete problems, and in doing this the student's skill in the mathematical modeling of practical problems is developed. In addition, 30 challenging questions without detailed solutions have been included, and while lecturers will find these questions suitable for examinations and tests, the student himself can use them to check his understanding of the subject.
650			_aPhysics. _921045
650			_aFluid mechanics. _921046
650			_aEngineering mathematics. _921047
650			_aEngineering-Data processing. _921048
650			_aEngineering. _921049
650			_aClassical and Continuum Physics. _921050
650			_aEngineering Fluid Dynamics. _921051
650			_aMathematical and Computational Engineering Applications. _921052
650			_aTechnology and Engineering. _921053
856			_uhttps://doi.org/10.1007/978-3-642-58277-6
942			_cEBK
999			_c13710 _d13710