Fluid mechanics set
Function
Intended for experimental study, physics laboratory, and physics experiments on: Physics. Fluid mechanics. Atmospheric pressure. The Magdeburg hemispheres experiment and atmospheric pressure. What is meant by the Magdeburg hemispheres? Reducing internal pressure in disks. Balancing internal pressure in disks with atmospheric pressure. Hydrostatics. Pascal's principle, hydraulic lift. What is meant by fluid. The ratio that relates acting forces to the cross-sectional areas of cylinders. The free surfaces of a liquid within open, non-capillary communicating vessels. What are communicating vessels? Capillarity. Leveling points on a vertical screen. The pressure at a point in a liquid at equilibrium, Stevin's principle. How to read the depth of a submerged point. Measuring pressure at different depths of a liquid at rest. Stevin's principle, the fundamental principle of hydrostatics. The density of a liquid as a function of the known density of another liquid, immiscible liquids. Measuring the height of the oil column by difference. Measuring the height of the water column by difference in the branch that balances the oil column. What is meant by an isobaric surface? The hydrostatic buoyant force, a quantity with direction, sense, and magnitude (value). Scalar and vector quantities. The mass of a body does not change; it is a scalar quantity and one of the general properties of matter. The weight of a body can change; it depends on the location of the body. The relationship between the "apparent decrease in the weight of a body immersed in a liquid" and buoyant force. Determining the value, direction, and sense of the hydrostatic buoyant force. Archimedes' principle, buoyant force, and its relationship to the volume and density of the displaced liquid. The principle of impenetrability of matter. Calculating and determining the characteristics of the hydrostatic buoyant force. The relationship between buoyant force and the weight of the displaced liquid volume. The relationship between buoyant force and the volume, density of the displaced liquid, and the acceleration of gravity. The relationship between buoyancy and the volume and specific gravity of the displaced liquid. Determining the density of a steel solid using buoyancy. Determining the density of a brass solid using buoyancy. Determining the density of an aluminum solid using buoyancy. Determining the density of an irregular solid using buoyancy. Absolute density (specific mass) and relative density, etc.
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Key Experiments
- » The Magdeburg Hemisphere Experiment and Atmospheric Pressure. - 1032.093
- » Pascal's principle and the hydraulic elevator. - 1042.026C
- » The free surfaces of a liquid within open, noncapillary, communicating vessels. - 1042.004D
- » The pressure at a point in a liquid in equilibrium, Stevin's principle. - 1042.008C
- » The density of a liquid as a function of the known density of another liquid, immiscible liquids. - 1042.020C
- » The hydrostatic buoyant force, a quantity with direction, sense and module. - 1042.028D
- » Archimedes' principle, buoyancy and its relation to the volume and density of the displaced liquid - 1042.032D
- » Determining the density of a steel solid by buoyancy. - 1042.032D1
- » Determining the density of a brass solid by buoyancy. - 1042.032D2
- » Determining the density of an aluminum solid by buoyancy. - 1042.032D3
- » Determining the density of an irregular solid by buoyancy. - 1042.032D5
- » - 1032.093
- » - 1042.026C
- » - 1042.004D
- » - 1042.008C
- » - 1042.020C
- » - 1042.028D
- » - 1042.032D
- » - 1042.032D1
- » - 1042.032D2
- » - 1042.032D3
- » - 1042.032D5