![]() ![]() Any change in pressure is transmitted undiminished. ![]() In an enclosed fluid, since atoms of the fluid are free to move about, they transmit pressure to all parts of the fluid and to the walls of the container. Pascal’s principle (also known as Pascal’s law) states that when a change in pressure is applied to an enclosed fluid, it is transmitted undiminished to all portions of the fluid and to the walls of its container. A good example is the fluid at a depth depends on the depth of the fluid and the pressure of the atmosphere. Moreover, Pascal’s principle implies that the total pressure in a fluid is the sum of the pressures from different sources. Because of this, we often know more about pressure than other physical quantities in fluids. Pascal observed that a change in pressure applied to an enclosed fluid is transmitted undiminished throughout the fluid and to the walls of its container. Pascal’s observations-since proven experimentally-provide the foundation for hydraulics, one of the most important developments in modern mechanical technology. For a fluid in static equilibrium, the net force on any part of the fluid must be zero otherwise the fluid will start to flow. If the fluid is water, we say it is in hydrostatic equilibrium. When a fluid is not flowing, we say that the fluid is in static equilibrium. A static fluid is a fluid that is not in motion. In 1653, the French philosopher and scientist Blaise Pascal published his Treatise on the Equilibrium of Liquids, in which he discussed principles of static fluids.
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