Università Roma Tre

Physical properties of fluids
• Density and Compressibility
• Vapor pressure
• Viscosity
• Surface tension
Statics of Fluids
• Stress in one point and dependence on position
• Fundamental equation of fluid statics
• Equilibrium of a finite mass of fluid at rest
• Hydrostatic thrust on a flat surface
• Hydrostatic thrust on a curved surface
Fluid kinematics
• The material derivative
• Reynolds' theorem
• The velocity field around a point
Fluid dynamics
• Mass conservation equation
• Constitutive relationships
• Equation of conservation of momentum
• Conservation of total energy in a non-ideal fluid
• Angular-Momentum conservation equation
Applications of Bernoulli theorem and of the momentum conservation equation in integral form
• Applications of Bernoulli theorem
• Applications of the momentum conservation equation in integral form
Dimensionless form of the equations of motion
Ideal fluids
• Equations of motion
• Irrotational motion
• Flow around 2D and 3D bodies
Viscous fluids
Motions at low Reynolds numbers
• Motion between flat parallel plates
• Hydrodynamic lubrication
• Motion between concentric cylinders
Motions at moderate Reynolds numbers
• Boundary layer: Prandtl theory
• Separation of boundary layer
• Oseen equation
• Flow around a cylinder and a sphere as the Reynolds number increases
Compressible fluids
• Water Hammer and Surge Pressures

Cengel, Cimbala, fluid mechanics

Landau, Lifshitz, fluid mechanics

Physical properties of fluids
• Density and Compressibility
• Vapor pressure
• Viscosity
• Surface tension
Statics of Fluids
• Stress in one point and dependence on position
• Fundamental equation of fluid statics
• Equilibrium of a finite mass of fluid at rest
• Hydrostatic thrust on a flat surface
• Hydrostatic thrust on a curved surface
Fluid kinematics
• The material derivative
• Reynolds' theorem
• The velocity field around a point
Fluid dynamics
• Mass conservation equation
• Constitutive relationships
• Equation of conservation of momentum
• Conservation of total energy in a non-ideal fluid
• Angular-Momentum conservation equation
Applications of Bernoulli theorem and of the momentum conservation equation in integral form
• Applications of Bernoulli theorem
• Applications of the momentum conservation equation in integral form
Dimensionless form of the equations of motion
Ideal fluids
• Equations of motion
• Irrotational motion
• Flow around 2D and 3D bodies
Viscous fluids
Motions at low Reynolds numbers
• Motion between flat parallel plates
• Hydrodynamic lubrication
• Motion between concentric cylinders
Motions at moderate Reynolds numbers
• Boundary layer: Prandtl theory
• Separation of boundary layer
• Oseen equation
• Flow around a cylinder and a sphere as the Reynolds number increases
Compressible fluids
• Water Hammer and Surge Pressures

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