every 33 feet equals 1 atmosphere
so about 60 atmospheres
At the altitude of 8,000 ft (2,438 m) the pressure is 1,572 pounds per square foot or 75 kilopascals.
What kind of tank? How much water is in it? Is there air in the tank? What fills the tank? What kind of pressure from where and what?answerIf the tank is gravity fed, multiply .431 times the altitude that the source is above the tank. For example, the reservoir supplying my domestic water system is approximately 200 feet higher than the valley floor I live on. My water pressure is slightly over 80 psi. If the tank is pump fed, and if you have no information on the pump, you will have to put a gauge on the system.
The boiling point of water in Dallas, Texas (elevation 430 ft) is approximately 212.1°F (100.1°C) at sea level pressure. However, this value can vary slightly based on changes in atmospheric pressure.
the deepest body of water in the united states is crater lake in oregon, in was formed when mt. mazama erupted and collapsed on itself. it averages 1150 ft deep, but at its deepest it is almost 2000 ft deep.
Atmospheric pressure is the force exerted by the weight of the air in the atmosphere, while water pressure is the force exerted by the weight of water in a body of water. Atmospheric pressure decreases with altitude, while water pressure increases with depth. Atmospheric pressure is measured in units like atm or pascals, while water pressure is typically measured in units like pounds per square inch (psi) or pascals.
The water pressure at a depth of 900 ft is approximately 390 psi.
No, the fluid pressure increases with depth underwater. The pressure at 10 ft underwater will be greater than the pressure at 5 ft underwater due to the weight of the water above exerting a greater force at greater depths.
133.64psi
4.3psi assuming fresh water
'Hydrostatic Pressure' is the Term used for 'the force exerted by a body of fluid at rest. The pressure increases with increase in depth.There are two ways to Calculate water (clean water) pressure at any depth (both yields almost same results):1. The Hydrostatic pressure of water is 0.433 Psi/ft (Pounds per square inch Per feet). So at 5000 feet, the pressure is: 0.433 Psi/ft. * 5000 ft = 2165 Psianother way to go about it is:2. Water pressure increases at 14.7 psi every 34 feet depth. Thus Pressure at 5000 ft will be: (5000 ft / 34 ft) * 14.7 psi = 2162 Psi.
2000 ft x 2000 ft = 91.83 acres, approx.
The pressure is only dependent on the height of water above the measuring point. 1 psi corresponds to a height of 2.3 ft, so 8 ft = 3.5 psi The pressure is only dependent on the height of water above the measuring point. 1 psi corresponds to a height of 2.3 ft, so 8 ft = 3.5 psi
5265'X62.4#=328,536#/sq. ft=27,378psi.
2000 mm of water
To convert a height of 33.11 feet to pressure in psi (pounds per square inch), you can use the formula that relates height in feet of water to pressure: 1 foot of water is approximately equal to 0.4335 psi. Therefore, 33.11 feet of water would be approximately 33.11 ft × 0.4335 psi/ft, which equals about 14.35 psi.
33 ft lbs of torque
Given that this stands out a mile as almost certainly a school homework question, to answer directly would be to make me complicit in cheating. So I will tell you how to calculate it, which would appear to be the point of the question: 1) The relationship between depth and pressure of water is linear. 2) If water X ft deep exerts a pressure of P lb/in2, then water of Y ft deep will obviously exert a pressure of P(Y/X) lbs/in2 Given thats information you can now solve the original question.