Pascal's Principle states "a change in the pressure of an enclosed incompressible fluid is conveyed undiminished to every part of the fluid and to the surfaces of its container." This can be applied to filling a balloon or shooting water out of the hose.
Pressure applied to a fluid is transmitted eqally to every poin tof the container. The equation for this is f1/a1=f2/a2. It can be used in water and container.
Pascal's Principle states that pressure applied to a fluid in a closed container is transmitted equally to every point of the fluid and to the walls of the container. It can be used in baloons. It is Force1/Area1=Force2/Area2.
it states a change in pressure of an elclosed imcompressable flid, is conveyedundiminished to every partof the fluid and to the surfaces of its container.
Pascals principle is that a change in pressure in a container is transmitted equally through out the container. This was made up by Pascal. Its equations is f1/a1=f2/a2.
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Pascal's Principle states "a change in the pressure of an enclosed incompressible fluid is conveyed undiminished to every part of the fluid and to the surfaces of its container." This can be applied to filling a balloon or shooting water out of the hose.
Pressure applied to a fluid is transmitted eqally to every poin tof the container. The equation for this is f1/a1=f2/a2. It can be used in water and container.
Pascal's Principle states that pressure applied to a fluid in a closed container is transmitted equally to every point of the fluid and to the walls of the container. It can be used in baloons. It is Force1/Area1=Force2/Area2.
it states a change in pressure of an elclosed imcompressable flid, is conveyedundiminished to every partof the fluid and to the surfaces of its container.
Pascals principle is that a change in pressure in a container is transmitted equally through out the container. This was made up by Pascal. Its equations is f1/a1=f2/a2.
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