![]() On the other hand the pressure on the sides of the container is not uniformly distributed. ![]() As a result the resultant force will pass through the centroid of the area. For the image above the pressure is uniformly distributed over the bottom of the container. Next a resultant force and where that resultant force is located will need to be determined to show how the pressure field will effect the surface of the container. If the outside of the container is surrounded by atmospheric pressure then the pressure fields inside the container can be calculated using the following equation. Due this fact the resulting pressure fields will result on the walls of a container. In addition we know that the pressure caused by the fluid will change linearly in relation to the depth of the fluid. As a result the forces caused by the pressure will perpendicular to the surface. When a fluid is at rest there will be no shearing stresses present within the fluid. It is also useful to determine the force required to open a gate that is controlling the water level of a reservoir. Well the reason why is to prevent objects like dams, storage tanks, and ships from failing. Now why are we interested in hydrostatic force on a plane. For this article will be looking at hydrostatic force on a plane. This is due to the pressure that is exerted on the object. If you were to submerge an on object into a fluid forces will develop onto the surface of the object.
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