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∙ 11y agoThe water pressure depends only on the depth, not on the size or shape of the vessel. The pressure increases at about 1 atmosphere (or bar) every 10 meters.
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∙ 11y agoCylinder shape. A cylindrical shape that has a diameter of 24 feet and a depth of 4 feet has a volume of:Volume= 51.241 cubic meters= 51241000 cubic centimeters= 67.021 cubic yards= 1809.6 cubic feet= 3126900 cubic inches= 13536 U.S. gallons= 51241 liters
The formula for the volume of a cylinder isV = πr2h where r is the radius of the base and h is the height.Thus, the volume of water needed to fill said cylindrical pool to a depth of 6 feet would beV = π(7.5)2(6)V = 337.5π which approximately equals 1059.75 cubic feet.
Since the refrigerator is cubic, its width, height and depth are equal. Therefore, one of the refrigerator's sides is equal to the cube root of 25 = 2.92. Therefore, the width, height and depth of a 25 cubic feet refrigerator are 2.92 feet.
Technically, none. A square foot is a measure of area whereas it is the volume of water that is required. To convert from area to volume it is necessary to know the depth. A twelfth of a cubic foot will cover an area of one square foot to a depth of 1 inch. A cubic foot will cover it to a depth of 1 foot, 100 cubic feet will cover it to a depth of 100 feet.
The answer depends on the shape of the pool. If the pool is of uniform depth, then its volume is the surface area times the depth. If the surface area is measured in square feet, and the depth is measured in feet, then the volume is in cubic feet.1 cubic foot = 6.2288 Imperial gallons.
At 5,500 feet down, the pressure on the vessel would be 2,458.71 pounds per square inch.
approximately 0.8 bar
Cylinder shape. A cylindrical shape that has a diameter of 24 feet and a depth of 4 feet has a volume of:Volume= 51.241 cubic meters= 51241000 cubic centimeters= 67.021 cubic yards= 1809.6 cubic feet= 3126900 cubic inches= 13536 U.S. gallons= 51241 liters
A pressure detector placed in a vessel to measure liquid level uses the principle that the pressure at a specific depth in a liquid is proportional to the height of the liquid above it. By measuring the pressure at the bottom of the vessel, the detector can calculate the liquid level. This method is commonly used in industries such as oil and gas, chemical processing, and wastewater treatment.
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Approx. 62.42lbs and it all depends on the temperature, the salinity, at what depth and thus the pressure
The formula for depth in terms of pressure is given by: depth = (pressure)/(density*g), where pressure is the pressure at the depth, density is the density of the fluid, and g is the acceleration due to gravity. This formula is derived from the hydrostatic pressure equation.
Water pressure increases as depth increases.
The pressure of a fluid generally increases with depth. This therefore means that at a specific depth the pressure of a fluid is constant.
Pressure depends on depth, not volume. Pressure increases with increasing depth due to the weight of the overlying fluid pressing down. Volume can affect pressure indirectly by changing the depth of the fluid column.
Liquid pressure depends on depth. It can be calculated from liquid density times depth.
The formula for the volume of a cylinder isV = πr2h where r is the radius of the base and h is the height.Thus, the volume of water needed to fill said cylindrical pool to a depth of 6 feet would beV = π(7.5)2(6)V = 337.5π which approximately equals 1059.75 cubic feet.