About ten and (1/3) meters.
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.
Since liquid pressure is function of density,acceleration due to gravity and depth of liquid level so here density of sea water is greater than that of river water ,so liquid pressure in sea must be more.
The pressure at 20 meters below sea level is approximately 3 atmospheres, which is equivalent to about 2,942 millibars or 294.2 kPa. This pressure is due to the weight of the water above exerting force on the area at that depth.
Right at the surface of the ocean, the pressure is just the same as the air pressure at sea level; that is, one "atmosphere", or about 14.7 PSI (Pounds per Square Inch). But water pressure increases with increasing depth: For each foot of depth, the water pressure increases by 0.445 PSI. SCUBA divers, who need to be very aware their depth because of this pressure effect, often use this rule: Every 33 feet of depth, water pressure increases by one "atmosphere" (14.7 PSI). So, for example, at 66 feet the pressure on a diver is three atmospheres: There's one atmosphere of pressure from the air, and two atmospheres from the water.
The pressure at 500 meters below sea level is approximately 5 atm (atmospheres), which is equivalent to about 73 psi (pounds per square inch). This pressure increases by approximately 1 atm for every 10 meters of depth.
Below sea level atmospheric pressure increases with depth. Air pressure at sea level is about 14.7 psia. Air pressure below sea level would be slightly higher.
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.
Since liquid pressure is function of density,acceleration due to gravity and depth of liquid level so here density of sea water is greater than that of river water ,so liquid pressure in sea must be more.
Sea level pressure, sometimes as mean sea level pressure.
Pressure 1 mile below sea level is approximately 1,525 pounds per square inch (psi). This is due to the weight of the water column above exerting pressure on the depth below.
At sea level, atmospheric pressure is around 101,325 Pascals. For every 10 meters of depth in water, pressure increases by about 1000 Pascals. So, at 500 meters below sea level, the pressure would be approximately 111,325 Pascals.
The pressure at 20 meters below sea level is approximately 3 atmospheres, which is equivalent to about 2,942 millibars or 294.2 kPa. This pressure is due to the weight of the water above exerting force on the area at that depth.
Right at the surface of the ocean, the pressure is just the same as the air pressure at sea level; that is, one "atmosphere", or about 14.7 PSI (Pounds per Square Inch). But water pressure increases with increasing depth: For each foot of depth, the water pressure increases by 0.445 PSI. SCUBA divers, who need to be very aware their depth because of this pressure effect, often use this rule: Every 33 feet of depth, water pressure increases by one "atmosphere" (14.7 PSI). So, for example, at 66 feet the pressure on a diver is three atmospheres: There's one atmosphere of pressure from the air, and two atmospheres from the water.
It depends where in the ocean you mean! To work this out: At sea level, the Earth's atmosphere exerts a pressure of 1 bar. Then each 10 meter depth of Sea Water also exerts a pressure of 1 bar. So take your ocean bottom depth (in meters) divide it by 10 and add 1. This will give you the pressure at that depth of ocean. alot
Sea level pressure.
10 m depth is 2 bar pressure.
No, sea-level pressure and station pressure are not the same. Station pressure is the atmospheric pressure measured at a specific location, while sea-level pressure is the station pressure adjusted to sea level using a standard formula to account for differences in elevation.