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Buoyancy and Fluid Forces: Definitions, Principles, and Calculations
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Related lectures (31)
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Turbulence: Numerical Flow Simulation
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Conservation Laws and Bernoulli Equation
Covers conservation laws in fluid dynamics, including the Venturi effect and Bernoulli equation.
Hydrostatics: Pressure and Archimedes' Principle
Explores hydrostatics, pressure units, forces in fluids, and Archimedes' principle, emphasizing buoyancy and upthrust force calculations.
Fluid Statics: Pressure and Hydraulic Machines
Explores pressure definition, hydraulic machines, hydrostatic equation, atmospheric pressure, and pressure measurements in fluids.
Buoyancy: Concepts of Fluid Mechanics
Explores pressure variation, buoyant force calculation, Archimedes' principle, pressure experiments, and height-dependent pressures in fluid mechanics.
Hydraulic Systems: Pressure and Equilibrium
Explores hydraulic systems, pressure calculations, and fluid equilibrium in closed systems.
Hydroacoustic Fundamentals: Equations and Modeling
Explores fundamental equations and modeling in hydroacoustics for hydroelectric installations, focusing on continuity, momentum, and wave propagation speed.
Hydrostatic Pressure: Theory and Applications
Explores hydrostatic pressure theory, Archimedes' principle, force density, and surface tension.
Pressure Drop in Closed-Flow Systems
Explores pressure drop in closed-flow systems, including minor losses and exercises on fluid transfer and pump power.
Pressure in Fluids
Explores pressure in fluids, hydrostatic paradox, and atmospheric pressure measurement with the mercury barometer.
