Theory And Problems Of Fluid Dynamics

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Moreira, Olga
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Ashland : Arcler Press, 2019.
Temas:
Fluid dynamics.
Dynamique des fluides.
Fluid dynamics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Half Title Page; Title Page; Copyright Page; About the Editor; Table of Contents; List of Symbols; Peface; Chapter 1 Fluids; 1.1. Fluids Definition and Classification; 1.2. Density, Specific Weight, and Specific Gravity; 1.3. Pressure and Specific Volume; 1.4. Equations of State; 1.5. Bulk Modulus; 1.6. Dynamic and Kinematic Viscosity; 1.7. Surface Tension; 1.8. Capillary Action; 1.9. Vapor Pressure; 1.10. Exercises; Chapter 2 Fluid Statics; 2.1. Static Pressure and Variation Within a Fluid; 2.2. Pressure Variation In Compressible Fluids; 2.3. Forces Acting on Surfaces by Static Fluids
  • 2.4. Pressure Center2.5. Force Analysis In Case of Curved Surface Submerged in a Liquid; 2.6. How to Measure Pressure; 2.7. Manometers; 2.8. Buoyancy, Law of Floatation and Floating Bodies; 2.9. Relative Motion in Fluids; 2.10. Metacenter Height; 2.11. Exercises; Chapter 3 Kinematics of Flow; 3.1. Flow Variables and Classifications; 3.2. Steady Flow; 3.3. Uniform Flow; 3.4. Elements of a Particle In Motion; 3.5. Equation of Continuity; 3.6. Exercises; Chapter 4 Dynamics of Flow; 4.1. Forces; 4.2. Equation of Motion in Streamline Coordinates; 4.3. The Equation of Motion in an Inviscid Flow
  • 4.4. Velocity Potential4.5. Velocity Potential Versus Stream Function; 4.6. Flow Nets; 4.7. Exercises; Chapter 5 Bernoulli's Theorem; 5.1. Deduction of Bernoulli's Theorem, Modifications, and Application; 5.2. Coefficient of Flow; 5.3. Venturimeter and Orifice Meter; 5.4. Orifice Meter/Plate; 5.5. Inflow and Outflow; 5.6. Coefficient; 5.7. Time Relation in Discharging Liquids; 5.8. Loses of Head In Flowing Fluids; 5.9. Weirs and Notches; 5.10. Velocity of Approach; 5.11. Siphon Spillway (Figure 5.20); 5.12. Broad
  • Crested Weir; 5.13. Submerged Weir (Figure 5.22)
  • 5.14. Sluice Gates (Figure 5.23)5.15. Borda's Mouthpieces (Figure 5.24); Chapter 6 Force and Momentum; 6.1. Introduction; 6.2. Impact of Jets; 6.3. Forces on Bends; 6.4. Rockets Motion; 6.5. Jet Propulsion; 6.6. Loss of Energy in Pipe Expansion; 6.7. Lawn Sprinklers; 6.8. Pelton Wheel; 6.9. Reaction Turbines; Chapter 7 Irrotational Flow; 7.1. General Motion of a Fluid Element; 7.2. Uniform Flow; 7.3. Plane Potential Flow in Polar Coordinates; Chapter 8 Laminar Motion; 8.1. Introduction; 8.2. Shear Stresses; 8.3. Navier-Stokes Equations and Solutions
  • 8.4. Flow Between Horizontal Parallel Plates8.5. Flow Between Two Plates With X-Axis Along the Lower Plate; 8.6. Couette Flow; 8.7. Combined Hagen-Poiseuille and Couette Flows; 8.8. Hagen-Poiseuille Flow in Cylindrical Tubes; 8.9. Laminar Flow in an Annulus Area; 8.10. Rotating Cylinders; 8.11. Reynolds Number and Stability Parameters; 8.12. Stability Parameter; 8.13. Stability Curves; 8.14. Laminar Boundary Layer; 8.15. Boundary Layer Thickness; 8.16. Displacement Thickness; Chapter 9 Turbulent Flow; 9.1. Characteristics of Turbulence and Classification; 9.2. Reynolds Equation

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