Cidepe
Hydrostatic and hydrodynamic kit with interface and sensor
Function
Intended for study, physics laboratory, physics experiments on: Hydrostatics. The fundamental principle of hydrostatics, Stevin's principle, with a tube manometer. Measurement of pressure in mmH2O, on the open tube manometer. Measurement of the difference in level in mm, in the test tank. Measurement of pressure between two points at different levels in the test tank. The graph of pressure versus difference in level. Stevin's principle. The fundamental principle of hydrostatics, Stevin's principle, with a pressure sensor. Hydrodynamics. Fluid velocity through an orifice. Using the smallest orifice. Calculation of the time for a particle contained in the jet to fall. Calculation of the launch velocity in the orifice. Calculation of the flow rate. Using the largest orifice. Calculation of the time for a particle contained in the jet to fall. Calculation of the launch velocity in the orifice. Calculation of the flow rate. Fluid flow through three small, vertically positioned orifices. Volumetric flow in incompressible fluids, with pressure sensor. Calculation and analysis of Reynolds number, etc.
DetailsKey Experiments
- » The fundamental principle of hydrostatics, Stevin's principle, with tube pressure gauge. - 1042.101A
- » The fundamental principle of hydrostatics, Stevin's principle, with differential pressure sensor. - 1042.102A
- » Velocity of fluids through an orifice. - 1042.103A
- » Flow of fluid through three small, vertically positioned orifices. - 1042.103B
- » Volumetric flow rate in incompressible fluids, with differential pressure sensor. - 1042.104A
- » Calculation and analysis of Reynolds number. - 1042.105A
