Aaradhya Institute of Civil Engineering
Welcome to Aaradhya Institute of Civil Engineering — we help you to pass the civil engineering subjects with confidence by transforming complex civil engineering subjects into simple, easy-to-understand lessons.
"This channel is designed to help Civil Engineering students master difficult topics through simple and clear explanations. We focus on building strong fundamentals and guiding you toward exam success."
📚 What you’ll find here:
✔️ Simplified explanations of Civil Engineering subjects
✔️ Step-by-step solutions to common problems
✔️ Exam-oriented guidance and tips
✔️Highly focused subjects in civil engineering - Fluid Mechanics , Hydraulics and Engineering Mechanics.
Whether you’re preparing for exams or looking forward to improve your understanding, Aaradhya Institute of Civil Engineering is here to make your learning journey easier and more effective.
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Open channel flow book and exam oriented questions discussion
Laminar flow in circular inclined pipeline ( shear stress and velocity distribution)
Continuity Equation for unsteady flow in pipeline derivation
Unsteady flow Pressure time diagram problem Part II
Unsteady flow Pressure time diagram problem Part I
Energy and Momentum principle in sharp crested weir
Force on a concrete block ( Momentum Principle )
Hydrostatic force on curved surface ( Sluice Gate Problem in fluid mechanics )
Continuity equation in cylindrical polar coordinate system
Continuity equation In Cartesian coordinate system in three dimension
Problem involving addition of single pipeline to increase discharge hydraulics
Energy and momentum equation on sluice gate followed by a concrete block
Expansion and contraction case discharge calculation numerical from hydraulics
Problem of pump from pipe flow ( Turbulent flow and head loss )
Pitot tube with U tube manometer connected to the pipeline problem
U - tube rotating on a disc problem IOE exam question
Streamline Equation for a three dimensional flow field
Specific Energy Important Numerical hydraulics
Establishment of flow numerical ( Unsteady flow in pipes )
Three reservoir problem and pipe network numerical type III
Numerical on Direct Integration Method or Bresse's Method ( Curve Distance Calculation)
Darcy - Weisbach equation Derivation ( Loss of head due to friction in turbulent flow in pipe )
Stability of sediment particle on a side of a channel ( Mobile boundary channel)
@fluidmechanics#hydrostaticforceoncurvedsurfaces