Fluid Mechanics
BASIC CONCEPTS AND PROPERTIES
FLIUD KINEMATICS AND FLUID DYNAMICS
INCOMPRESSIBLE FLUID FLOW
HYDRAULIC PUMPS
Fluid Dynamics
- Fluids and continuum
- Fluid Statics
- FLUID KINEMATICS
- Laminar and Turbulent flow
- Laminar and Turbulent flow-1
- Physical Properties of Fluids
- VISCOSITY
- Newtonian and Non Newtonian Fluids
- SURFACE TENSION
- HYDROSTATIC FORCES ON SURFACES
- Buoyancy
- Dimensional Analysis
- Units and Dimensions
- Rayleigh's method
- Buckingham's theorem
- Dimensionless Numbers
- Ordinary Differential Equations
- Non-Linear Equation
- Second Order Differential equations
- Pascal's law
- Relations between height, pressure, density and temperature
- stability of submerged and floating bodies
- SOLID PARTICLES IN A CARRYING LIQUID
- CONTROL VOLUME APPROACH AND CONTINUITY PRINCIPLE
- The Control Volume and Mass Conservation
- CONTINUITY EQUATION
- Reynolds Transport Theorem
- Momentum Conservation for Control Volume
- Momentum For Steady State and Uniform Flow
- Momentum Equation Application
- Energy Conservation
- The First Law of Thermodynamics
- Approximation of Energy Equation
- Capillary Rise or Depression
- COMPRESSIBILITY AND BULK MODULUS
- VAPOUR PRESSURE
- Cavitation
- Rheology
- Ordinary Differential Equations
- Non-Linear Equation
- Second Order Differential equations
- CONTROL VOLUME APPROACH AND CONTINUITY PRINCIPLE
- The Reynolds Transport Theorem
- Gauss Theorem
- Cavitation
- Navier-Stokes Equations
- Euler's equation
- Bernoulli's Equation
- Pitot tube
- Venturi Meter
- Flow through Orifices
- Flow Through Mouthpieces
- Nozzles
- Notches
- Weirs
- Submerged Flow Below Sluice Gate
- Submereged flow
- The Flow through Pipes
- PIPE FLOW
- Variation of Resistance Coefficients
- The Hydraulic Gradient
- Momentum equation application
- Compressibility Effects in Pipe Flow
- Pressure Wave Transmission along theHuman Aorta
- Elementary concept of the uniform flow
- Flow rate
- Continuity
- The Bernoulli Equation - Work and Energy
- Bernoulli's Equation
- Flow over submerged bodies
- Drag Force and its Coefficient
- Drag on sphere
- Multi-Phase Flow
- Classification of Liquid-Liquid Flow Regimes
- Solid-Liquid Flow
- PIPE OR TUBE BENDING
- MASS, MOMENTUM , AND ENERGY EQUATIONS
- Flow Measurements
- DETERMINATION OF COEFFICIENT OF DISCHARGE
- Head Losses
- Laminar Flow
- Sudden Changes To Pipe Size Or Shape
- Sudden Contraction
- Flow Between Parallel Plates
- Introduction to Boundary Layer Analysis
- Boundary-layer thickness
- Two-dimensional Boundary Layer along a Flat Plate
- Laminar Boundary Layer Theory
- Turbulent Boundary Layer Theory
- The Laminar Sublayer
- Total drag
- Impulse-Momentum Principle
- Moment of Momentum Equation
- Momentum Equation
- Kinetic energy and Momentum correction factors
- Stokes' law
- Darcy's law
- Fluidization
- Viscosity Measurement
- Transition from laminar to turbulent flow
- introduction of Turbulent Flow
- Turbulence
- Equation for turbulent flow
- Reynolds stress
- BOUNDARY LAYER SEPARATION CONTROL
- Turbulent flow in pipes
- Velocity distribution over smooth and rough surface
- WATER HAMMER
- ANALYSIS AND DESIGN OF A SIMPLE SURGE TANK
- Flow in a sudden expansion
- Diffuser and Nozzle
- Introduction to Compressible Flow
- Ideal Fluid
- Free Vortex Flow
- Drag Classification
- Magnus effect