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10 meters of water depth equals about 1 atmosphere.
You get a pressure of about 1 atmosphere (or bar) for every 10 meters.Note:The pressure has nothing to do with the volume of water behind it.It only depends on the depth or head.1 meter = 9,794.7 pa35 meters = 342.815 kpa35 meters = 114.83 feet = 49.72 psiThese figures are only for water in the tank.
The 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.
Water has a weight. The more you stack up the more it weighs. There fore if you stack up 10 meters or 20 meters it makes a big difference.
You can't convert meters to bars, or bars to meters. The two are utterly incompatible. Meters is a unit of length, bars is a unit of pressure. if you mean depth of water then 20 bar = 200 metres (close)
Pressure at a given depth of water can be calculated using a formula like, "#1 #1kgf/cm2." Therefore, water pressure at 2000 meters below sea level will be around 1.2 bar.
Air pressure (at sea level) is about 1 bar; every 10 meters below the water surface, pressure increases by about 1 bar - that gives a total of 1 + 0.4 = 1.4 bar. (1 bar is about 1 atmosphere.)
The pressure at 100 meters below the surface of sea water with a density of 1150kg is 145.96 psi.
Atmospheric pressure exerts more force on you if you are deeper than 10 meters. At 10m below sea level the atmospheric pressure is double that of on land and it increase with every 10 metres that you descend
1 Bar represents one atmosphere of air pressure. 10 Bar is approximately equal to 100 Meters of water depth. 1 meter = 3.28083989501 feet. It follows that 100 meters = 328.083989501 feet. Therefore, 10 Bar is approximately equal to the expected pressure at 328.083989501 feet of water depth (not sea level).
Less pressure because ocean water is salty and therefore denser.
For any body of water near sea level, the pressure increases by 1 ATM per 33 feet below the surface.
1 ATM is actually equal to mean sea level itself. Now if you filled a balloon with air and put it under the water, you would notice that the volume will decrease. This decrement will increase as you go further down. Since the volume is decreasing, pressure must be building up inside (PV=nRT), assuming that the temperature doesn't change. Thus undersea pressure will be higher than 1 ATM.AdditionFor water pressure alone, 10 meters of water is equivalent to 1 atmosphere of air pressure.
795.0
a borehole into the lower stratum below the water level so that pressure forces the water upwards
1 atm (atmosphere) is the air pressure at the earths surface. It is equivalent to the pressure of a 10.3323m water column. So 5atm = 5x10.3323m = 51.6615m (of water).
That's the Dead Sea.