Midterm
1. Introduction
- Preliminary Remarks
- The Concept of Fluid
- Dimension and Units
- Properties of the Velocity Field
- Properties of a Fluid
- Viscosity
- Types of Fluid Motion
2. Pressure Distribution in a Fluid Fuid states
- Pressure and Pressure Gradient
- Hydrostatic Pressure Distribution
- Application to Manometry
- Hydrostatic Forces on Plane Surfaces
- Hydrostatic Force on Curved Surfaces
- Buoyancy and Stability
3. Integral Relations for a Control Volume
- 3.1 Basic Physical Laws of Fluid Mech.
- 3.2 Reynolds Transport Theorem
- 3.3 Conservation of Mass
- 3.4 The Linear Momentum Equation
- 3.7 The Energy Equation
1. Introduction
- Preliminary Remarks
- The Concept of Fluid
- Dimension and Units
- Properties of the Velocity Field
- Properties of a Fluid
- Viscosity
- Types of Fluid Motion
2. Pressure Distribution in a Fluid Fuid states
- Pressure and Pressure Gradient
- Hydrostatic Pressure Distribution
- Application to Manometry
- Hydrostatic Forces on Plane Surfaces
- Hydrostatic Force on Curved Surfaces
- Buoyancy and Stability
3. Integral Relations for a Control Volume
- 3.1 Basic Physical Laws of Fluid Mech.
- 3.2 Reynolds Transport Theorem
- 3.3 Conservation of Mass
- 3.4 The Linear Momentum Equation
- 3.7 The Energy Equation
1. Viscous Flow in Ducts
- Laminar and Turbulent Flow
- Head Loss-Major Loss
- Three Types of Pipe Flow Problems
- Minor Losses in Pipe System
- Multiple Pipe Systems
2. Open Channel Flow
- Introduction
- Uniform Flow
- Energy Equation
- Momentum Equation
3. Dimensional Analysis and Similarity
- Introduction
- The Pi Theorem
- Modeling (Similitude)
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