×
its time to be "SERIOUS".
--Your friends at LectureNotes
Close

Fluid Mechanics and Hydraulic Machines - FMHM

Course: B.TechGroup: Fluid Systems
FLUID MECHANICS AND HYDRAULIC MACHINES
Viscosity
Newtonian Fluid
Fluid
Non-Newtonian Fluid
Surface Tension
Capillarity
Compressibility and Bulk Modulus
Vapour Pressure
Acceleration
Tangetial and Normal Acceleration
Types of Flow
Steam line
Streak Line
Continuity Equation
Velocity Potential Function
Steam Function
Flow Net
Bernoulli's Equation
Euler's Equation
Venturimeter
Free Liquid Jet
Forced Vortex
Orifice Meter
Pitot Tube
Free Liquid Jet
Impulse momentum Equation
Forced Vortex
Free Vortex
Loss of Head Due to Sudden Enlargement
Loss of Head Due to Bend in the Pipe
Loss of Head in Various Pipe Fittings
Hydraulic Gradient and Total Energy Lines
Pipes in Series or Compound Pipes
Power transmission through pipes
Water Hammer in pipes
Instantaneous Closure of Valve , in rigid Pipes
Flow through an Orifice
Discharge through a large rectangular orifice
Discharge over a Rectangular Notch or Weir
Discharge over a triangular notch or weir
Force exerted by a flowing fluid on a body
Free Liquid Jet
Shear stresses in turbulent flow
Prandtl,s mixing length theory
Characteristics of turbulent flow
Darcy-Weishbach Formula
Loss of energy in pipes
Chezy's Formula for loss of head due to friction
Model Relationship
Cavitation
Work done and efficiency of a pelton wheel
Classification of Pumps
Losses in centrifugal pump
Kaplan Turbine
Draft tube
Fluid Mechanics and Hydraulic Machines