Standard atmosphere (unit): Difference between revisions
It is not sometimes, it is always used to calibrate instruments. Tag: Reverted |
Undid revision 1106385064 by Avi8tor (talk) Not supported by bodsy of article per WP:LEAD and indeed, contrary to it. It is used as a reference pressure far more widely than in calibrating instruments eg physical & chemical properties properties, describing quantities of gas in terms or Normal or Standard volumes - and a wide range of instruments are not calibrated against a reference pressure of 101325 Pa |
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The '''standard atmosphere''' (symbol: '''atm''') is a [[measurement unit|unit]] of [[pressure]] defined as {{val|101325}} [[pascal (unit)|Pa]]. It is used as a ''reference pressure'' or ''standard pressure'' |
The '''standard atmosphere''' (symbol: '''atm''') is a [[measurement unit|unit]] of [[pressure]] defined as {{val|101325}} [[pascal (unit)|Pa]]. It is sometimes used as a ''reference pressure'' or ''standard pressure''. It is approximately equal to [[Earth]]'s average [[atmospheric pressure]] at [[sea level]]{{fact|date=February 2022}}. |
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==History== |
==History== |
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Revision as of 10:18, 24 August 2022
| Atmosphere | |
|---|---|
| Unit of | Pressure |
| Symbol | atm |
| Conversions | |
| 1 atm in ... | ... is equal to ... |
| SI units | 101.325 kPa |
| US customary units | 14.69595 psi |
| other metric units | 1.013250 bar |
The standard atmosphere (symbol: atm) is a unit of pressure defined as 101325 Pa. It is sometimes used as a reference pressure or standard pressure. It is approximately equal to Earth's average atmospheric pressure at sea level[citation needed].
History
The standard atmosphere was originally defined as the pressure exerted by 760 mm of mercury at 0 °C and standard gravity (gn = 9.80665 m/s2).[1] It was used as a reference condition for physical and chemical properties, and was implicit in the definition of the Celsius temperature scale, which defined 100 °C as the boiling point of water at this pressure. In 1954, the 10th General Conference on Weights and Measures (CGPM) adopted standard atmosphere for general use and affirmed its definition of being precisely equal to 1013250 dynes per square centimetre (101325 Pa).[2] This defined both temperature and pressure independent of the properties of particular substance. In addition, the CGPM noted that there had been some misapprehension that it "led some physicists to believe that this definition of the standard atmosphere was valid only for accurate work in thermometry."[2]
In chemistry and in various industries, the reference pressure referred to in standard temperature and pressure (STP) was commonly 1 atm (101.325 kPa) but standards have since diverged; in 1982, the International Union of Pure and Applied Chemistry (IUPAC) recommended that for the purposes of specifying the physical properties of substances, standard pressure should be precisely 100 kPa (1 bar).[3]
Pressure units and equivalencies
| Pascal | Bar | Technical atmosphere | Standard atmosphere | Torr | Pound per square inch | |
|---|---|---|---|---|---|---|
| (Pa) | (bar) | (at) | (atm) | (Torr) | (lbf/in2) | |
| 1 Pa | — | 1 Pa = 10−5 bar | 1 Pa = 1.0197×10−5 at | 1 Pa = 9.8692×10−6 atm | 1 Pa = 7.5006×10−3 Torr | 1 Pa = 0.000145037737730 lbf/in2 |
| 1 bar | 105 | — | = 1.0197 | = 0.98692 | = 750.06 | = 14.503773773022 |
| 1 at | 98066.5 | 0.980665 | — | 0.9678411053541 | 735.5592401 | 14.2233433071203 |
| 1 atm | ≡ 101325 | ≡ 1.01325 | 1.0332 | — | 760 | 14.6959487755142 |
| 1 Torr | 133.322368421 | 0.001333224 | 0.00135951 | 1/760 ≈ 0.001315789 | — | 0.019336775 |
| 1 lbf/in2 | 6894.757293168 | 0.068947573 | 0.070306958 | 0.068045964 | 51.714932572 | — |
A pressure of 1 atm can also be stated as:
- ≡ 101325 pascals (Pa)
- ≡ 1.01325 bar
- ≈ 1.033 kgf/cm2
- ≈ 1.033 technical atmosphere
- ≈ 10.33 m H2O, 4 °C[n 1]
- ≈ 760 mmHg, 0 °C, subject to revision as more precise measurements of mercury's density become available[n 1][n 2]
- ≡ 760 torr (Torr)[n 3]
- ≈ 29.92 inHg, 0 °C, subject to revision as more precise measurements of mercury's density become available[n 2]
- ≈ 406.782 in H2O, 4 °C[n 1]
- ≈ 14.6959 pounds-force per square inch (lbf/in2)
- ≈ 2116.22 pounds-force per square foot (lbf/ft2)
- = 1 ata (atmosphere absolute).
The ata unit is used in place of atm to indicate the total pressure of the system, compared to a vacuum.[4] For example, underwater pressure of 3 ata would mean that this pressure includes 1 atm of air pressure and thus 2 atm due to the water.
Notes
- ^ a b c This is the customarily accepted value for cm–H2O, 4 °C. It is precisely the product of 1 kg-force per square centimeter (one technical atmosphere) times 1.013 25 (bar/atmosphere) divided by 0.980 665 (one gram-force). It is not accepted practice to define the value for water column based on a true physical realization of water (which would be 99.997 495% of this value because the true maximum density of Vienna Standard Mean Ocean Water is 0.999 974 95 kg/l at 3.984 °C). Also, this "physical realization" would still ignore the 8.285 cm–H2O reduction that would actually occur in a true physical realization due to the vapor pressure over water at 3.984 °C.
- ^ a b NIST value of 13.595 078(5) g/ml assumed for the density of Hg at 0 °C
- ^ Torr and mm-Hg, 0°C are often taken to be identical. For most practical purposes (to 5 significant digits), they are interchangeable.
See also
- Standard conditions for temperature and pressure
- Atmospheric pressure
- International Standard Atmosphere
References
- ^ Resnick, Robert; Halliday, David (1960). Physics for Students of Science and Engineering Part 1. New York: Wiley. p. 364.
- ^ a b "BIPM - Resolution 4 of the 10th CGPM". www.bipm.org.
- ^ IUPAC.org, Gold Book, Standard Pressure
- ^ "The Difference Between An ATM & An ATA". Scuba Diving & Other Fun Activities. March 2, 2008.