10 meters of water depth equals about 1 atmosphere.
For each 33 feet of depth in water the pressure increases approximately 1 atmosphere. So 100 meters is approximately 330 ft divide by 33 equals 10 atmosphere.
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)
Meters is a unit of length, bar is a unit of pressure. You can't convert between the two.
The standard atmosphere (symbol: atm) is a unit of pressure and is defined as being equal to 101.325 kPa.
A pascal is an SI unit of pressure = 1 newton / m2. An atmosphere is equal to the air pressure at sea level, which is 101325 pascals. Many barometers for measuring air pressure may have a scale for kilopascals, so 1 ATM = 101.325 kPa
For each 33 feet of depth in water the pressure increases approximately 1 atmosphere. So 100 meters is approximately 330 ft divide by 33 equals 10 atmosphere.
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).
I'm not quite sure, but I would say that pressure does increase as you near the center of the Earth. Some argue that when you reach the center, there would be no pressure because of the equal amount of weight on each side. My question is...is the weight equal on every side. If not, then there would be pressure inside the core of the Earth.
The pressure at the bottom of the ocean can be determined by the formula P = dgh, where d = 1025 kg per cubic meter, g is the acceleration due to gravity and h is the depth of the water in meters. At the bottom of the Marianas Trench (11034 meters), the pressure would be 1.11 E5 kPa, or 1095 times normal air pressure at sea level.
One atmosphere is 14.7 psi (rounded)
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)
Assuming the experiment is conducted at 1 atmosphere, sea level, then the ambient pressure is 14.7lbs/square inch. In water the pressure increases linearly by 1 atmosphere for every 33 feet of depth. So the pressure 120mm under water is (1 +(120 mm/33 feet)) x 14.7 lbs/square inch. About 15 PSI.
In water, every 10 meters you go down, the pressure increases by 1 bar, approximately. To this you must add the air pressure, which is also approximately 1 bar (depending on whether you want gauge pressure or absolute pressure).
all solvent has vapour pressure properties is there when the vapor pressure is equal to atmosphere at that patricular temperature is boiling point
Our atmospheric pressure is the pressure at any given point in the Earth's atmosphere. In most circumstances atmospheric pressure is closely approximated by the hydrostatic pressure caused by the weight of air above the measurement point.Formula: Pressure p = force F / area APressure p in pascals (Pa)Force F in newtons / square meters (m²)Area A in sqare meters (m)The standard atmosphere, symbol: atm, is a unit of pressure and is defined as being precisely equal to 101325 pascals.
Our bodies have an internal pressure equal to that of the atmosphere (101000 pascals). Once the external pressure on you body exceeds this internal pressure enough your body will implode. This external pressure can be provided by water. Depending on how you go about going that far below water and the specific tolerances of your body a deadly depth can be from 500 to 1200 feet.
30 to 60 kms