Standard air pressure at sea level is 760 millibars.
1 atmosphere = 1 013.25 millibars
1013 mb
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).
Standard air pressure at sea level is 1 atmosphere, or 1 atm. This is the adopted standard atmosphere value, but sea level pressure will not always equal to this value due to changes in weather. 1 atm = 101 325 pascals = 1.01325 bars.
Standard pressure is defined as 1atm, or 760mmHg. This is sea-level atmospheric pressure here on earth.
unless you are an alien from outerspace, i think you mean "our" atmosphere. this pressure varies with hight above ground. at sea level, the pressure is referred to as 1 atm. this is equivalent of the force of a column of 760 mm of mercury. if you were to go high in an airplane or on a very high mountain, you would notice a decrease in pressure. similarly, the lowest points on earth have the highest pressures.
The pressure of rarefied air is strongly different from the pressure of a big layer of water.
0.0009869 ATM for 1.0 millibars. as far as where... that pressure can be obtained about 320,000 feet above sea level
Standard air pressure at sea level is 1 atmosphere, or 1 atm. This is the adopted standard atmosphere value, but sea level pressure will not always equal to this value due to changes in weather. 1 atm = 101 325 pascals = 1.01325 bars.
It just means that the pressure you're measuring is approximately the same as Earth's air pressure at sea level.
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).
Standard air pressure at sea level is 1 atmosphere, or 1 atm. This is the adopted standard atmosphere value, but sea level pressure will not always equal to this value due to changes in weather. 1 atm = 101 325 pascals = 1.01325 bars.
The standard atmosphere (symbol: atm) is a unit of pressure and is defined as being precisely equal to 101.325 kPa Air Density decreases at a rate of 2.9% - 3.0% for each 1000 ft. of elevation above Sea Level. See Standard Atmosphere below for background information. 1 000 feet = 304.8 meters So in rough terms You will lose about 1% of the pressure for each 100 meters due to elevation increase 0m = 101.325 100m =101.32500 - (101.32500 * .01) = 100.31175 200m = 101.32500 - (101.32500 * .02) = 99.2985
ATM stands for atmosphere, such as in atmospheric pressure.
Atmospheric pressure refers to the force per unit area exerted against a surface by the weight of air above that surface in the Earth's atmosphere. The standard atmosphere (symbol: atm) is a unit of pressure at sea level and is equal to 101325 Pascal.
The pressure is one atmosphere (atm), equal to 1.01325 bar (1013.25 millibars or 101.325 kilopascals). This is about 14.7 psi (pounds per square inch) or 29.9213 inches (760 mm) of Mercury.
Because that is the definition of 1 atmosphere at standard temperature.
The standard atmospheric pressure is 14.7 psi which is equal to 1014 millibars and 760 mm Hg. Therefore 606 mm Hg = 606/760 of an atmosphere = 0.797 atm. Therefore in millibars it is 0.797 x 1014 = 808.5 mb. Now 1 mb = 100 Pa = 0.1 kPa, so 808.5 mb = 80.85 kPa.
1 ATM of pressure and 0 c is known as 'Standard temperature and pressure' (STP)