Fluid Mechanics - Hydrostatic Pressure
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Topics: Hydrostatic Forces on Surface Submerged in Liquid a). Vertical Plane Surface b). Horizontal Plane Surface c). Inclined Plane Surface
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Fluid Mechanics - Hydrostatic Pressure
- 1. HYDROSTATIC PRESSURE (FLUID MECHANICS) UNIT – I Dr. Rambabu Palaka, ProfessorJuly-2020
- 3. Syllabus Unit 1: Fluid Statics CO1: Calculate Pressure and Hydrostatic forces on different plane surfaces Unit 2: Fluid Kinematics CO2: Solve the fluid flow problems using Continuity equation. Unit 3: Fluid Dynamics CO3: Calculate the discharges through the Venturi meter, Orifice meter and Pitot tube using Bernoulli’s equation Unit 4: Flow through Pipes CO4: Calculate major and minor losses in closed conduits for different connection pattens. Unit 5: Dimensional Analysis and Hydraulic Similitude CO5: Apply the concept of Dimensional Analysis for solving the fluid flow problems and Model Analysis. Unit 6: Boundary Layer Theory
- 4. Unit 1: Fluid Statics 1. Introduction (1 Period) a) Fluid Statics b) Fluid Kinematics c) Fluid Dynamics d) Application of Fluid Mechanics in Civil Engineering 2. Properties of Fluids (3 Periods) a) Density b) Specific Weight c) Specific Volume d) Specific Gravity e) Kinematic and Dynamic Viscosity f) Surface Tension g) Capillarity
- 5. Learning Objectives 3. Introduction Fluid Statics (2 Periods) a). Fluid Pressure b). Pascal’s Law c). Hydrostatics Law c). Pressure variation in a Fluid at Rest 4. Measurement of Pressure (2 Periods) a). Manometers b). Mechanical Gauges 5. Hydrostatic Forces on Surface Submerged in Liquid (2 Periods) a). Vertical Plane Surface b). Horizontal Plane Surface c). Inclined Plane Surface
- 6. Hydrostatic Forces on Surface Submerged in Liquid A plate exposed to a liquid, such as a gate valve in a dam, the wall of a liquid storage tank, is subjected to fluid pressure distributed over its surface. Hydrostatic forces form a system of parallel forces. We need to determine the magnitude of the force; and its point of application (Centre of Pressure). The submerged surfaces may be 1. Vertical Plane Surface 2. Horizontal Plane Surface 3. Inclined Plane Surface, and 4. Curved Plane Surface
- 8. Pressure = Force/Area Force = Pressure x Area Where, Pressure, p = gh Pressure at Base = gh, Pressure at top = 0 Average Pressure = ½ (gh+0) = gh/2 Area = Unit length x height = 1 x h = h Hydrostatic Force, F = (gh/2)(h) = ½ Hydrostatic Force on Submerged Plane Surface Horizontal Plane Vertical Plane F h/3
- 10. Vertical Plane Surface Submerged in Liquid
- 30. Weight = mg = (V) g Density = Mass/Volume Mass = Density x Volume
- 32. Weight = mg = (V) g Density = Mass/Volume Mass = Density x Volume
- 33. Reference Chapter 1-3 (Page 1- 129) A Textbook of Fluid Mechanics and Hydraulic Machines Dr. R. K. Bansal Laxmi Publications