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Forces are exerted on a submerged object due to water pressure not being balanced due to buoyancy. This is when the pressure at the bottom of the submerged object is greater than the fluid on the top of the object, thus projecting the object upward.
at the ocean and going deeper into it
Thank you. You're very kind. Each square centimeter of the flat bottom has (1 x 400) = 400 cubic centimeters of water standing over it. The mass of 400 cm3 of water is 400 grams = 0.4 kilogram. Its weight is 3.92 newtons, or about 0.88 pounds. The pressure is -- 3.92 newtons per square centimeter -- 0.88 pounds per square centimeter -- 5.69 pounds per square inch (all rounded)
The pressure exerted by the pressure head of liquid steel in a container at bottom surface of the container is known as ferro static pressure.
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A= actually its fluid pressure and fluid pressure is any kind of fluid(gas,liquid,air,are all fluid. Fluid Pressure is any fluid that is exerted on the surface, to calculate fluid pressure divide the force by the area over which it is applied.
The horizontal dimensions of the container ... like length and width ... don't make any difference. But the pressure at the bottom is directly proportional to the depth of the liquid, which is ultimately limited by the height of the container.
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pressure is force/area 6500/ (5 x 1) = 1300 newtons per square meter
The pressure exerted on the hull of the sub will get too great and crush it.
Forces are exerted on a submerged object due to water pressure not being balanced due to buoyancy. This is when the pressure at the bottom of the submerged object is greater than the fluid on the top of the object, thus projecting the object upward.
Because weight exerts pressure as it 'accumulates'. There is little weight at the top of the container, but as gravity attracts the liquid towards the bottom of the container, so the pressure is greatest there. Put some water into a balloon and see where the pressure of the water pushes on the skin of the balloon.
This question does not provide enough information on the relevant parameters to even attempt an answer. One would assume that if the hole is at the bottom of the container (and not on the side at the bottom) and the liquid is coming out of the hole only due to gravity that the the container would remain stationary. If there is internal pressure in the container, then the initial pressure becomes important as does the time since the water began to flow. If the hole is on the side of the container, then friction between the container and the surface it is resting on become significant. If the container is not circular in cross section, then the location of the hole along the side helps determine whether the container moves laterally or spins.
at the ocean and going deeper into it
1,000×2.75×9.8=26,950