Programme général
Chapter 1: Introduction to Fluid Mechanics and Fluid Statics
Part 1: Introduction to Fluid Mechanics 1.
Introduction: 2. definitions
3. Physical characteristics
4. Conclusion
Part 2 : Fluid Statics
1. Introduction
2. Concept of pressure at a point of a fluid
3. Fundamental relationship of hydrostatic
4. Pascal’s theoram
5. Push of a fluid on a vertical wall
6. Archimedes’ Principle
Chapter 2: Dynamics of Incompressible Fluids – Ideal and Real
Part 1: Ideal Incompressible Fluids
1. Introduction
2. Steady Flow
3. Continuity Equation
4. Concept of Flow Rate
5. Bernoulli’s Theorem – Case of Flow without Work Exchange
6. Bernoulli’s Theorem – Case of Flow with Work Exchange
7. Euler’s Theorem
Part 2: Real Incompressible Fluids
1. Real Fluid
2. Flow Regimes – Reynolds Number
3. Head Losses
4. Bernoulli’s Theorem Applied to a Real Fluid
Chapter 3: Dynamics of Compressible Fluids
1. Introduction
2. Equations of State of a Perfect Gas
3. Classification of Flows
4. Continuity Equation
5. Saint-Venant Equation
6. Generating State
