- Introduction to Fluid Mechanics
- What Are Properties of Fluids
- Problem No. 1 on Properties of Fluid
- Problem No. 2 on Properties of Fluid
- Definition of Viscosity or Dynamic Viscosity
- Definition of Kinematic Viscosity
- Newton's Law of Viscosity
- What Are Types of Fluids
- How to Determine Fluid Viscosity Between Two Plates
- How to Determine the Power Required
- Problem on Shear Stress of Fluid Oil
- Problem to Determine Dynamic Viscosity of Oil
- Problem to Determine Kinematic Viscosity of Oil
- Problem to Determine the Power Lost in the Bearing (Sleeve)
- What Is Definition of Surface Tension
- How to Determine Diameter of Droplet of Water
- Problem to Determine Surface Tension
- Definition of Capillarity with Expressions for Capillary Rise and Capillary Fall
- Problem on Capillary Rise and Fall
- Definition of Vapour Pressure and Cavitation Phenomenon
- Newton's Law of Viscosity and It's Significance

- Concept of Fluid Pressure at a Point
- What Is Pascal's Law
- What is Pressure Variation in a Fluid at Rest
- Problems on Weight Lifted by Hydraulic Pressure
- Problem on Force Required at the Plunger
- Problem to Determine Pressure Intensity
- Problem on Load Lifted by Large Piston of Hydraulic Jack
- What is Definitions of Absolute Pressure, Guage Pressure, Atmospheric Pressure, Vaccum Pressure
- Measurement of Pressure or Pressure Measuring Devices
- Pressure Measurement by U-Tube Manometer
- Problem No. 1 on Simple U-Tube Monometer
- Problem No. 2 on Simple U-Tube Manometer (Vaccum Pressure Measurement)
- Construction and Description of Differential Manometer
- Problem No. 1 on Differential U-Tube Manometer [Problem on Difference in Pressure]
- Problem No. 2 on Differential U-Tube Manometer [Problem on Intensity of Pressure in Pipeline ]
- Construction and Description of Inverter Differential Manometer
- Problem on Inverted U-Tube Manometer

- Introduction to Hydrostatic Forces on Surfaces
- Definition of Centre of Pressure
- Definition of Total Pressure
- Problem on Vertical Rectangular Plane Immerged in Water.
- Problem on Vertical Circular Plate Immersed in Water.
- Problem on Vertical Triangular Plate Immersed in Oil.
- Problem on Square Plate Used as a Gate for a Tank
- Problem on Trapezoidal Channel
- Problem on Total Pressure and Centre of Pressure on One Side of Tank.
- Problem on Inclined Rectangular Plane Immersed in water
- Problem on Inclined Circular Plate Immersed in water
- Problem on Inclined Hollow Circular plate Immersed in water.

- Eulerian and Lagrangian Approach of Fluid Kinematics
- Steady and Unsteady Flow
- Uniform and Non Uniform Flow
- One - Dimensional, Two - Dimensional, Three - Dimensional Flow
- Laminar Flow and Turbulent Flow
- Compressible Flow and Incompressible Flow
- Sonic, Subsonic and Supersonic Flow
- Critical, Sub Critical and Super Critical Flow
- Continuity Equation of Fluid Flow
- Continuity Equation - Problem 1
- Continuity Equation - Problem 2
- Continuity Equation - Problem 3
- Continuity Equation - Problem 4
- Continuity Equation in Rectangular Coordinate
- Continuity Equation in Cylindrical Coordinate
- Rotation Flow and Irrotational Flow
- Irrotational Flow and Rotational Flow Problem 1
- Derivation of Rotational Flow and Irrotational Flow
- Streamline Function
- Streamline Body and Bluff Body
- Velocity Potential Function
- Relation Between Velocity Potential Function and Streamline Function
- Constant Velocity Potential : Equipotential Surface
- Constant Streamline
- Problem No. 1 on Velocity Potential Function and Streamline Function
- Problem No. 2 on Velocity Potential Function and Streamline Function
- Problem No. 3 on Velocity Potential Function and Streamline Function
- Streamline Function and Velocity Potential Function in Rectangular Coordinate
- Streamline Function and Velocity Potential Function in Cylindrical Coordinate
- Type of Potential Flow and Uniform Flow(uniform Part 1)
- Type of Potential Flow and Uniform Flow(uniform Part 2)
- Define Source Flow
- Pressure Distribution in Source Flow
- Problem Based on Source Flow
- Sink Flow
- Streamline Function,streamline Function, Pathline Function
- Rankine Flow
- Doublet
- Problem No. 1 on Bends
- Problem No. 2 on Bends
- Problem No. 3 on Bends
- Problem No. 4 on Bends
- Problem No. 5 on Bends
- Problem No. 6 on Bends

- Introduction to Fluid Dynamics
- Integral Equation for the Control Volume
- Reynold's Transport Theorem
- Conservation of Mass in Fluid Mechanics
- Conservation of Energy in Fluid Mechanics
- Conservation of Momentum in Fluid Mechanics
- Euler Equation of Motion
- Bernoulli's Equation from Euler Equation
- Bernoulli's Equation for Real Fluid
- Bernoulli's Equation - Problem 1
- Bernoulli's Equation - Problem 2
- Bernoulli's Equation - Problem 3
- Bernoulli's Equation - Problem 4
- Bernoulli's Equation - Problem 5
- Bernoulli's Equation - Problem 6
- Application of Bernoulli's Equation
- Flow Measuring Instrument Venturimeter
- Venturimeter - Problem 1
- Venturimeter - Problem 2
- Venturimeter - Problem 3
- Venturimeter - Problem 4
- Venturimeter - Problem 5
- Venturimeter - Problem 6
- Venturimeter - Problem 7
- Venturimeter - Problem 8
- Orifice Meter or Orifice Plate
- Orifice Meter - Problem 1
- Orifice Meter - Problem 2
- Orifice Meter - Problem 3
- Pitot Tube - Concept
- Pitot Tube - Problem 1
- Pitot Tube - Problem 2
- Pitot Tube - Problem 3
- Derivation and Equation Navier Stoke
- Solution of Navier Stoke Equation
- Equation to Viscous Laminar Flow
- Couette Flow
- Couette Flow - Problem 1
- Couette Flow - Problem 2
- Couette Flow - Problem 3
- Hagen Poiseuille Flow
- Hagen Poiseuille Flow - Problem 1
- Hagen Poiseuille Flow - Problem 2
- Hagen Poiseuille Flow - Problem 3

- Definition of Reynold Number
- Laminar Flow Through a Pipe
- Introduction to Laminar Flow
- Shear Stress in Laminar Flow
- Velocity Profile in Laminar Flow
- Discharge in Laminar Flow
- Drop in Pressure Over and Entire Length of the Pipe
- Formulae List
- Laminar Flow - Problem 1
- Laminar Flow - Problem 2
- Laminar Flow - Problem 3
- Laminar Flow - Problem 4
- Laminar Flow - Problem 5
- Laminar Flow - Problem 6
- Laminar Flow - Problem 7
- Eddy Viscosity
- Prandtl Mixing Flow
- Velocity Profile for Turbulent Flows
- 1/7th Power Law
- Velocity Profile Through Smooth Pipes
- Moody Diagram
- Darcy Weisbach Equation Friction Factor
- Darcy Coefficient of Friction in Terms of Shear Stress
- Pipes in Series
- Pipes in Parallel
- Major and Minor Losses
- Hydraulic Gradient Line and Total Energy Line
- Fluid Flow Through Pipes - Problem 1
- Fluid Flow Through Pipes - Problem 2
- Fluid Flow Through Pipes - Problem 3
- Fluid Flow Through Pipes - Problem 4
- Fluid Flow Through Pipes - Problem 5
- Fluid Flow Through Pipes - Problem 6

- Boundary Layer Flow - Concept and Growth of Boundary Layer
- Boundary Layer Flow and Growth of Boundary Layer - Definition
- Displacement Thickness
- Momentum Thickness
- Energy Thickness
- Laminar and Turbulent Boundary Layer
- Laminar Sub - Layer
- Von Karman Momentum Integral
- Equation for Boundary Layer
- Boundary Layer - Problem 1
- Boundary Layer - Problem 2
- Boundary Layer - Problem 3
- Boundary Layer - Problem 4
- Analysis of Laminar and Turbulent Layer
- Drag on Bodies
- Boundary Layer Separation
- Methods to Control Boundary Layer Separation
- Streamline Bodies and Bluff Bodies
- Aerofoil Theory and Stalling of Aerofoil
- Definition of Aerofoil
- Lift and Drag
- Lift and Drag - Problem No 1
- Lift and Drag - Problem No 2
- Lift and Drag - Problem No 3
- Lift and Drag - Problem No 4
- Induced Drag

- Continuity Equation of Compressible Fluid Flow
- Bernoulli's Equation of Compressible Fluid Flow
- Continuity Equation and Bernoulli's Equation - Problem 1
- Continuity Equation and Bernoulli's Equation - Problem 2
- Continuity Equation and Bernoulli's Equation - Problem 3
- Pressure Wave and Sound Wave
- Mach Number and Propagation of Pressure Wave in a Compressible Fluid Flow
- Stagnation Pressure
- Stagnation Temperature
- Stagnation Density
- Stagnation Pressure, Temperature and Density Problem 1
- Stagnation Pressure, Temperature and Density Problem 2
- Properties of Thermodynamics
- Mach Number - Problem 1
- Mach Number - Problem 2
- Mach Number - Problem 3
- Application of Continuity, Momentum and Energy Equation Steady State
- Steady Flow Through Nozzle and Critical Pressure Ratio
- Flow Through Nozzle and Orifice - Problem 1
- Flow Through Nozzle and Orifice - Problem 2
- Flow Through Nozzle and Orifice - Problem 3
- Flow Through Nozzle and Orifice - Problem 4
- Normal Shock
- Basic Equation of Normal Shock and Change of Properties Across Normal Shock
- Normal Shock - Problem 1
- Normal Shock - Problem 2
- Normal Shock - Problem 3
- Steady Flow Through Nozzle - Problem 1
- Steady Flow Through Nozzle - Problem 2
- Steady Flow Through Nozzle - Problem 3
- Steady Flow Through Nozzle - Problem 4

Professor Ninad Mahadeshwar is dedicated to share his deep knowledge in all the subjects related to Mechanical Engineering. As he earned his B.E in Mechanical Engineering from Mumbai University followed by his M.Tech in Energy Engineering and thus he is passionate about teaching all the core concepts related to Mechanical branch.

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