Explores incompressible fluid mechanics, covering viscosity, pressure distribution, force balance, and neglecting shearing faces.
Explores fluid flow, Bernoulli's theorem violation, viscosity, and necessary force for rotating cylinders with different fluids.
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Explores viscosity in Newtonian fluids, discussing shear stress, shear strain rate, and compressibility, with examples of shear thickening and shear thinning behaviors.
Explores evaluating properties of substances, including liquids, solids, ideal gases, and real gases, emphasizing specific heat and enthalpy.
Covers the hydrostatic law, dynamics, laws of Newton, momentum, pressure, fluids, energy conservation, and states of matter.
Explores pressure in fluids, hydrostatic paradox, and atmospheric pressure measurement with the mercury barometer.
Introduces fluid statics basics, covering pressure, compressibility, forces on volume elements, and fundamental relations in thermodynamics.
