Bar (unit): Difference between revisions
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{{dambigbox|text=This article is about Bar, a unit of [[pressure]]. For other usages, see [[Bar (disambiguation)]].}} | |||
The '''[[International System of Units|bar]]''' (symbol '''bar''') is widely used in many countries as a unit of [[pressure]]. It is not an [[International System of Units|SI]] unit, nor is it a [[Centimeter gram second system of units|cgs]] unit, but it is accepted for use with SI units by [[National Institute of Standards and Technology|NIST]].<ref name=NIST/> | |||
Except for the power of ten, the definition of bar fits in the sequence of SI pressure units ([[Pascal (unit)|Pa]], kPa, MPa), namely, 1 bar ≡ 100,000 Pa = 100 kPa = 0.1 MPa. This is in contrast to the well-known unit of pressure, [[atmosphere (unit)|atmosphere]], which now is ''defined'' to be 1.01325 bar exactly. As a rule of thumb, a bar is (almost) equal to an atmosphere. | |||
The bar and the millibar were introduced by the British [[meteorologist]] William Napier Shaw in 1909. William Napier Shaw was the director of the [[Meteorological Office]] in [[London]] from 1907 to 1920.<ref | The bar and the millibar were introduced by the British [[meteorologist]] William Napier Shaw in 1909. William Napier Shaw was the director of the [[Meteorological Office]] in [[London]] from 1907 to 1920.<ref name=jrank/> | ||
==Definition== | ==Definition== | ||
The bar, decibar (symbol ''dbar''), centibar (symbol ''cbar'') and millibar (symbol ''mbar'' or ''mb'') are defined as: | The bar, decibar (symbol ''dbar''), centibar (symbol ''cbar'') and millibar (symbol ''mbar'' or ''mb'') are defined as: | ||
* 1 bar = 10<sup>5</sup> Pa ([[Pascal (unit)|Pascals]]) = 10<sup>6</sup> dyn/cm<sup>2</sup> ([[dyne]]s per square [[centimetre]]) = 0.987 atm ([[Atmosphere (unit)|atmospheres]]) | * 1 bar = 10<sup>5</sup> Pa ([[Pascal (unit)|Pascals]]) = 10<sup>6</sup> dyn/cm<sup>2</sup> ([[dyne]]s per square [[centimetre]]) = 0.987 atm ([[Atmosphere (unit)|atmospheres]]) | ||
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* 1 mbar = 0.001 bar = 10<sup>2</sup> Pa = 1 hPa (hectopascal) | * 1 mbar = 0.001 bar = 10<sup>2</sup> Pa = 1 hPa (hectopascal) | ||
== Usage == | ==Usage== | ||
Although millibars are not an SI unit, meteorologists and weather reporters worldwide have long measured air pressure in millibars. After the advent of SI units, some meteorologists began using hectopascals (symbol hPa) which are numerically equivalent to millibars. For example, the weather office of [[Environment Canada]] uses hectopascals on their weather maps.<ref name=EnvCan/> | |||
Although millibars are not an SI unit, meteorologists and weather reporters worldwide have long measured air pressure in millibars. After the advent of SI units, some meteorologists began using hectopascals (symbol hPa) which are numerically equivalent to millibars. For example, the weather office of [[Environment Canada]] uses hectopascals on their weather maps.<ref | |||
[[Atmospheric pressure|Atmospheric air pressure]] is often expressed in millibars and sea level atmospheric air pressure is defined as 1013.25 mbar which is equivalent to 1 atm. | [[Atmospheric pressure|Atmospheric air pressure]] is often expressed in millibars and sea level atmospheric air pressure is defined as 1013.25 mbar which is equivalent to 1 atm. | ||
In water, there is an approximate numerical equivalence between the change in pressure in decibars and the change in depth from the sea surface in metres. Specifically, an increase of 1 decibar occurs for every 1.019716 metre increase in depth close to the surface. As a result, decibars are commonly used in [[oceanography]]. | In water, there is an approximate numerical equivalence between the change in pressure in decibars and the change in depth from the sea surface in [[Metre (unit)|metres]]. Specifically, an increase of 1 decibar occurs for every 1.019716 metre increase in depth close to the surface. As a result, decibars are commonly used in [[oceanography]]. | ||
Many engineers worldwide use the bar as a unit of pressure because, in much of their work, using pascals would involve using very large numbers. | Many engineers worldwide use the bar as a unit of pressure because, in much of their work, using pascals would involve using very large numbers. | ||
== Absolute pressure and gauge pressure == | ==Absolute pressure and gauge pressure== | ||
[[Bourdon tube]] [[pressure gauges]], vehicle tire gauges and many other types of pressure gauges are zero referenced to atmospheric pressure, which means that they measure the pressure above atmospheric pressure. However, absolute pressures are zero referenced to a complete vacuum. Thus, the absolute pressure of any system is the gauge pressure of the system plus atmospheric pressure. | [[Bourdon tube]] [[pressure gauges]], vehicle tire gauges and many other types of pressure gauges are zero referenced to atmospheric pressure, which means that they measure the pressure above atmospheric pressure. However, absolute pressures are zero referenced to a complete vacuum. Thus, the absolute pressure of any system is the gauge pressure of the system plus atmospheric pressure. | ||
Absolute pressures expressed in bar are often referred to as ''bara'', whereas gauge pressures expressed in bar are often referred to as ''barg''. | Absolute pressures expressed in bar are often referred to as ''bara'', whereas gauge pressures expressed in bar are often referred to as ''barg''. | ||
In the [[United States]], where pressures are still often expressed in pounds per square inch (symbol ''psi''), gauge pressures are referred to as ''psig'' and absolute pressures are referred to as ''psia''. | In the [[United States of America]], where pressures are still often expressed in pounds per square inch (symbol ''psi''), gauge pressures are referred to as ''psig'' and absolute pressures are referred to as ''psia''. Gauge pressure is also sometimes spelled as ''gage pressure''. | ||
Sometimes, the context in which the word pressure is used helps to identify it as meaning either absolute or gauge pressure. However, in truth, whenever a pressure is expressed in any units (bar, Pa, psi, atm, etc.), it should be denoted as being either absolute or gauge pressure to avoid any possible misunderstanding. One recommended way of doing so is to spell out what is meant, for example as ''bar (gauge)'' and ''kPa (absolute)'' or ''bar-gauge'' and ''kPa-absolute''.<ref name=NPL/><ref name=Jones/> This recommendation also applies to any other pressure units as well. | |||
==Other pressure units== | |||
{{pressure}}<br/> | |||
'''About the torr:''' There is no consensus in the technical literature about whether the name of the torr should be "Torr" or "torr". Nor is there any consensus about whether the symbol for that unit of pressure should be "Torr" or "torr". Both the [[United Kingdom]]'s [[National Physical Laboratory]] (see [http://www.npl.co.uk/reference/faqs/pressure-units Pressure Units]) and [[New Zealand]]'s [[Measurement Standards Laboratory]] (see [http://msl.irl.cri.nz/sites/all/files/training-manuals/TG19-July-2009.pdf Barometric Pressure Units]) use "torr" as the name and as the symbol. An extensive search of the website of the [[United States of America|U.S.]] [[National Institute of Standards and Technology]] found no such clear-cut definitions. Therefore, this table uses "torr" as both the name and the symbol. | |||
==References== | |||
{{reflist| refs= | |||
<ref name=NIST>[http://physics.nist.gov/cuu/Units/outside.html Units Outside of the SI, Table 7] (from the NIST website)</ref> | |||
= | <ref name=jrank>[http://encyclopedia.jrank.org/Cambridge/entries/061/Sir-William-Napier-Shaw.html Sir William Napier Shaw]</ref> | ||
<ref name=EnvCan>[http://www.weatheroffice.gc.ca/jet_stream/index_e.html Environment Canada Weather Map]</ref> | |||
<ref name=NPL>[http://www.npl.co.uk/server.php?controller=search&action=index&q=absolute%20and%20gauge%20pressure&resultsPerPage=&restrict=&restrictToCategory=&resultsPerPage=20 Search Results 1 and 2] (from the website of the National Physics Laboratory, United Kingdom)</ref> | |||
<ref name=Jones>{{cite book|author=Arnold Ivan Jones and Cornelius Wandmacher|title=Metric Units in Engineering:Going SI|edition=Revised Edition|publisher=American Society of Civil Engineers|year=2007|pages=page 147|id=ISBN 0-7844-0070-9}}</ref> | |||
}} | |||
Revision as of 10:47, 9 September 2023
The bar (symbol bar) is widely used in many countries as a unit of pressure. It is not an SI unit, nor is it a cgs unit, but it is accepted for use with SI units by NIST.[1]
Except for the power of ten, the definition of bar fits in the sequence of SI pressure units (Pa, kPa, MPa), namely, 1 bar ≡ 100,000 Pa = 100 kPa = 0.1 MPa. This is in contrast to the well-known unit of pressure, atmosphere, which now is defined to be 1.01325 bar exactly. As a rule of thumb, a bar is (almost) equal to an atmosphere.
The bar and the millibar were introduced by the British meteorologist William Napier Shaw in 1909. William Napier Shaw was the director of the Meteorological Office in London from 1907 to 1920.[2]
Definition
The bar, decibar (symbol dbar), centibar (symbol cbar) and millibar (symbol mbar or mb) are defined as:
- 1 bar = 105 Pa (Pascals) = 106 dyn/cm2 (dynes per square centimetre) = 0.987 atm (atmospheres)
- 1 dbar = 0.1 bar = 104 Pa = 10 kPa
- 1 cbar = 0.01 bar = 10 3 Pa = 1 kPa
- 1 mbar = 0.001 bar = 102 Pa = 1 hPa (hectopascal)
Usage
Although millibars are not an SI unit, meteorologists and weather reporters worldwide have long measured air pressure in millibars. After the advent of SI units, some meteorologists began using hectopascals (symbol hPa) which are numerically equivalent to millibars. For example, the weather office of Environment Canada uses hectopascals on their weather maps.[3]
Atmospheric air pressure is often expressed in millibars and sea level atmospheric air pressure is defined as 1013.25 mbar which is equivalent to 1 atm.
In water, there is an approximate numerical equivalence between the change in pressure in decibars and the change in depth from the sea surface in metres. Specifically, an increase of 1 decibar occurs for every 1.019716 metre increase in depth close to the surface. As a result, decibars are commonly used in oceanography.
Many engineers worldwide use the bar as a unit of pressure because, in much of their work, using pascals would involve using very large numbers.
Absolute pressure and gauge pressure
Bourdon tube pressure gauges, vehicle tire gauges and many other types of pressure gauges are zero referenced to atmospheric pressure, which means that they measure the pressure above atmospheric pressure. However, absolute pressures are zero referenced to a complete vacuum. Thus, the absolute pressure of any system is the gauge pressure of the system plus atmospheric pressure.
Absolute pressures expressed in bar are often referred to as bara, whereas gauge pressures expressed in bar are often referred to as barg.
In the United States of America, where pressures are still often expressed in pounds per square inch (symbol psi), gauge pressures are referred to as psig and absolute pressures are referred to as psia. Gauge pressure is also sometimes spelled as gage pressure.
Sometimes, the context in which the word pressure is used helps to identify it as meaning either absolute or gauge pressure. However, in truth, whenever a pressure is expressed in any units (bar, Pa, psi, atm, etc.), it should be denoted as being either absolute or gauge pressure to avoid any possible misunderstanding. One recommended way of doing so is to spell out what is meant, for example as bar (gauge) and kPa (absolute) or bar-gauge and kPa-absolute.[4][5] This recommendation also applies to any other pressure units as well.
Other pressure units
| pascal (Pa) |
bar (bar) |
atmosphere (atm) |
torr (torr) |
pound-force per square inch (psi) |
kilogram-force per square centimeter (kgf/cm2) | |
|---|---|---|---|---|---|---|
| 1 Pa | ≡ 1 N/m2 | 10−5 | 9.8692×10−6 | 7.5006×10−3 | 145.04×10−6 | 1.01972×10−5 |
| 1 bar | 100,000 | ≡ 106 dyn/cm2 | 0.98692 | 750.06 | 14.504 | 1.01972 |
| 1 atm | 101,325 | 1.01325 | ≡ 1 atm | 760 | 14.696 | 1.03323 |
| 1 torr | 133.322 | 1.3332×10−3 | 1.3158×10−3 | ≡ 1 torr ≈ 1 mmHg |
19.337×10−3 | 1.35951×10−3 |
| 1 psi | 6,894.76 | 68.948×10−3 | 68.046×10−3 | 51.715 | ≡ 1 lbf/in2 | 7.03059×10−2 |
| 1 kgf/cm2 | 98,066.5 | 0.980665 | 0.967838 | 735.5576 | 14.22357 | ≡ 1 kgf/cm2 |
Example reading: 1 Pa = 1 N/m2 = 10−5 bar = 9.8692×10−6 atm = 7.5006×10−3 torr, etc.
Note: mmHg is an abbreviation for millimetre of mercury
About the torr: There is no consensus in the technical literature about whether the name of the torr should be "Torr" or "torr". Nor is there any consensus about whether the symbol for that unit of pressure should be "Torr" or "torr". Both the United Kingdom's National Physical Laboratory (see Pressure Units) and New Zealand's Measurement Standards Laboratory (see Barometric Pressure Units) use "torr" as the name and as the symbol. An extensive search of the website of the U.S. National Institute of Standards and Technology found no such clear-cut definitions. Therefore, this table uses "torr" as both the name and the symbol.
References
- ↑ Units Outside of the SI, Table 7 (from the NIST website)
- ↑ Sir William Napier Shaw
- ↑ Environment Canada Weather Map
- ↑ Search Results 1 and 2 (from the website of the National Physics Laboratory, United Kingdom)
- ↑ Arnold Ivan Jones and Cornelius Wandmacher (2007). Metric Units in Engineering:Going SI, Revised Edition. American Society of Civil Engineers, page 147. ISBN 0-7844-0070-9.
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