4.3psi assuming fresh water
10 ft X 10 ft square tank will hold 1000 cubic feet of water or 7480.51 gallons 10 ft round tank will hold 785 cubic feet of water or 5872.207 gallons
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.
This is a really fiendish problem, but we may have outsmarted it.Ordinarily, the dimensions of the pool wouldn't matter, because the pressure onlydepends on the depth of the water ... you always find the same pressure at thesame depth below the surface, whether you're in a pond, a lake, a bathtub, anocean, or a swimming pool. So our first instinct was to calculate the pressure at6-ft down, since your pool is 6-ft deep.But wait! Why is the quantity of water given ? Could it be that the pool is notcompletely full and sloshing over the rim ?Volume of the full pool = (12 x 30 x 6) = 2,160 cubic feet = 16,157.9 gallons.Ah hah! The pool is not full!Those 11,500 gallons fill it to only (11,500/16,157.9) x (6-ft) = 4.2704 feet. (rounded)The pressure under 4.2704-ft of water is 1.841 psi(rounded)(Using 5 psi = 11.6 ft of water, which we found somewhere on the www.)
An aquarium is 10 ft long, 3 ft wide, and is filled with water to a depth of 7 ft. Water weighs 62.4 pounds per cubic foot. What is the volume and weight of the water in the tank
10 * 10 = 100 square feet!
the fluid pressure 10 ft under water is
"If you are 15 ft. under water, the pressure will be the same no matter how large the body of water is" is a true statements about fluid pressure.
One foot is a unit of distance. One atmosphere is a unit of pressure (force per unit area). 10 atmospheres is equivalent to about 21,162 lb/ft^2 (pounds per square foot). At 339 feet under water, the pressure is approximately 10 atmospheres (assuming water density is 1000 kg/m^3).
133.64psi
Because the water is forcing bubbles from you and it is sucking all the air out of your ears which causes the pressure to hurt.
10 feet x 0.433 psi/ft = 4.33 psi at the base of the cylinder.
Roughly 4.3 psig or 29 kPag on Earth near sea level ("g" meaning gauge pressure, additional to atmospheric pressure).
'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.
About 415psi at 900ft
2.31 feet of water depth exerts a presssure of one pound per square inch. A column of water 10 ft high exerts 4.33 PSI (static pressure) To prove take 4.33 times it by 2.31 = 10.00 ft
Boiling point is consistant with the given air pressure. At 760 mmHg air pressure (STP) then the boiling point of water is 100 oC. Water boils at 99.97 °C (211.95 °F) under standard pressure at sea level, but at 93.4 °C (200.1 °F) at 1,905 metres (6,250 ft).
The pressure of rarefied air is strongly different from the pressure of a big layer of water.