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Fluid dynamics : theoretical and computational approaches / Z.U.A. Warsi.

By: Warsi, Z. U. A.
Publisher: Boca Raton : Taylor & Francis, c2006Edition: 3rd ed.Description: 845 p. : ill. ; 27 cm.ISBN: 0849333970 (hbk.).Subject(s): Fluid dynamicsDDC classification: 532.05
Contents:
Ch. 1. Kinematics of fluid motion. Ch. 2. The conservation laws and the kinetics of flow. Ch. 3 The Navier-Stokes equations. Ch. 4. Flow of inviscid fluids. - Pt. I Inviscid incompressible flow. - Pt. II Inviscid compressible flow. Ch. 5. Laminar viscous flow. - Pt. I. Exact solutions. - Pt. II. Boundary layers. - Pt. III. Navier-Stokes formulation. Ch. 6. Turbulent flow. - Pt. I. Stability theory and the statistical description of turbulence. - Pt. II. Development of averaged equations. - Pt. III. Basic empirical and boundary layer results in turbulence. - Pt. IV. Turbulence modeling. Mathematical exposition 1 : base vectors and various representations. - Mathematical exposition 2 : theorems of Gauss, Green, and Stokes. - Mathematical exposition 3 : geometry of space and plane curves. - Mathematical exposition 4 : formulas for coordinate transformation. - Mathematical exposition 5 : potential theory. - Mathematical exposition 6 : singularities of the first-order ODEs. - Mathematical exposition 7 : geometry of surfaces. - Mathematical exposition 8 : finite difference approximation applied to PDEs. - Mathematical exposition 9 : frame invariancy. - Index.
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532.05 WAR (Browse shelf) 1 Available SOExx,07016,03,GR 5000060016 Please fill up online form at https://taylorslibrary.taylors.edu.my/services/external_storage1

Ch. 1. Kinematics of fluid motion. Ch. 2. The conservation laws and the kinetics of flow. Ch. 3 The Navier-Stokes equations. Ch. 4. Flow of inviscid fluids. - Pt. I Inviscid incompressible flow. - Pt. II Inviscid compressible flow. Ch. 5. Laminar viscous flow. - Pt. I. Exact solutions. - Pt. II. Boundary layers. - Pt. III. Navier-Stokes formulation. Ch. 6. Turbulent flow. - Pt. I. Stability theory and the statistical description of turbulence. - Pt. II. Development of averaged equations. - Pt. III. Basic empirical and boundary layer results in turbulence. - Pt. IV. Turbulence modeling. Mathematical exposition 1 : base vectors and various representations. - Mathematical exposition 2 : theorems of Gauss, Green, and Stokes. - Mathematical exposition 3 : geometry of space and plane curves. - Mathematical exposition 4 : formulas for coordinate transformation. - Mathematical exposition 5 : potential theory. - Mathematical exposition 6 : singularities of the first-order ODEs. - Mathematical exposition 7 : geometry of surfaces. - Mathematical exposition 8 : finite difference approximation applied to PDEs. - Mathematical exposition 9 : frame invariancy. - Index.