Pressure in seawater at 100 feet is 44 psi. Or, .44 pounds per square inch per 1 foot. For Fresh water, it is .43 psi per foot.
I presume you mean at a depth of 180 feet. Since the weight of a cubic foot of water is approximately 65 pounds, the weight of water on a square foot at that depth is 65 times 180, which is 11,700 pounds. That is the pressure per square foot. Since there are 12 x 12 or 144 square inches in a square foot, the pressure in pounds per square inch would be 11,700 divided by 144, or about 81. This is in addition to the barometric pressure, which is about 14 pounds per square inch, for a total of 95 psi.Answer 1It's not possible for a water tank to be 180 feet. One of its dimensions could be, however.Sadly, since we don't know which dimension it is, nor do we know the height ofthe tank or the depth of the water in it, nor do we know at what level or in whichdirection you want the pressure measured, there's no way at all to even begin towork on a solution to this question.
At a depth of 1 mile (approximately 1,609 meters) in the ocean, the pressure increases significantly due to the weight of the water above. The pressure at this depth is roughly 4,000 pounds per square inch (psi) or about 276 atmospheres. This increase in pressure is primarily due to the water column, which exerts a force on everything below it.
The water pressure increases by approximately 0.43 pounds per square inch (psi) for every foot of water depth. Therefore, at 33 feet deep, the water pressure is about 14.2 psi (33 feet x 0.43 psi/foot). This is in addition to the atmospheric pressure at the surface, which is roughly 14.7 psi, bringing the total pressure to about 28.9 psi at that depth.
At a depth of 3,000 meters below water level, the pressure can be calculated using the formula: pressure = depth × density of water × gravitational acceleration. The average density of seawater is about 1,025 kg/m³, and gravitational acceleration is approximately 9.81 m/s². Thus, the pressure at this depth is roughly 30,000 kPa, or about 300 times atmospheric pressure (1 atm being approximately 101.3 kPa).
At a depth of 300 meters in water, the pressure can be calculated using the formula: pressure = depth × density of water × gravitational acceleration. The density of seawater is approximately 1,025 kg/m³, and gravitational acceleration is about 9.81 m/s². Therefore, the pressure at 300 meters is around 3,000 kilopascals (kPa) or 30 times atmospheric pressure, which is roughly equivalent to 30 bar.
The pressure at 1200 feet below sea level is approximately 517.2 pounds per square inch (psi). This value is calculated using the formula: pressure = depth × density of seawater × acceleration due to gravity.
1440
The gauge pressure of seawater at a depth of 250m is approximately 24.5 atm. This can be calculated using the formula P = ρgh, where P is pressure, ρ is density, g is acceleration due to gravity, and h is depth.
At 125 degrees Celsius, the pressure of seawater varies depending on the depth. On average, at a depth of 1000 meters, the pressure of seawater at this temperature would be around 111 times atmospheric pressure (approximately 1110 bar).
The water pressure at 3 kilometers depth is roughly 300 atmospheres, which is equivalent to around 4400 pounds per square inch (psi). At this depth, the weight of the water above creates significant pressure due to gravity.
The water pressure at 5000 feet depth is approximately 2200 pounds per square inch (psi). This pressure increases by 0.44 psi for every foot of depth.
Divide the difference in pressure by the difference in depth.
The water pressure at a depth of 2.3 miles underwater is approximately 3,216 pounds per square inch (psi). At this depth, the weight of the water above exerts a significant force, creating high pressure conditions that can be challenging for structures and equipment.
At 5,500 feet down, the pressure on the vessel would be 2,458.71 pounds per square inch.
The pressure of liquid acting on a container or other body increases at the rate of 1 atmosphere or about 14.7 lbs. per square inch for every increase of 33 feet in depth. So doing the math results in: 400ft./33ft. = 12.121. Multiplying that by 14.7 lbs. per square inch yields about 178 lbs. per square inch at 400 feet deep.
The water pressure at 1000 feet is approximately 433 pounds per square inch (psi). This is because for every 2.31 feet of depth in water, the pressure increases by 1 psi due to the weight of the water column above.
As depth increases, water pressure also increases due to the weight of the water column above exerting a force downwards. The increase in pressure is approximately 1 atmosphere (14.7 pounds per square inch) for every 10 meters of depth.