Jump to content

List of conversion factors: Difference between revisions

From Wikipedia, the free encyclopedia
Content deleted Content added
tweaks
 
(5 intermediate revisions by 4 users not shown)
Line 41: Line 41:
|-
|-
| [[astronomical unit]] || au
| [[astronomical unit]] || au
| ≡ {{val|149597870700|u=m}}<br>≈ Distance from Earth to Sun
| ≡ {{val|149597870700|u=m}}{{br}}≈ Distance from Earth to Sun
| ≡ {{val|149597870700|u=m}} <ref>{{cite journal|author=jobs |url=http://www.nature.com/news/the-astronomical-unit-gets-fixed-1.11416 |title=The astronomical unit gets fixed : Nature News & Comment |journal=Nature |doi=10.1038/nature.2012.11416 |publisher=Nature.com |date=September 14, 2012|s2cid=123424704 |access-date=August 31, 2013}}</ref>
| ≡ {{val|149597870700|u=m}} <ref>{{cite journal|author=jobs |url=http://www.nature.com/news/the-astronomical-unit-gets-fixed-1.11416 |title=The astronomical unit gets fixed : Nature News & Comment |journal=Nature |doi=10.1038/nature.2012.11416 |publisher=Nature.com |date=September 14, 2012|s2cid=123424704 |access-date=August 31, 2013}}</ref>
|-
|-
Line 48: Line 48:
| ≡ {{val|1|e=-18|u=m}}
| ≡ {{val|1|e=-18|u=m}}
|-
|-
| [[Barleycorn (unit)|barleycorn]] (H) || &nbsp;
| [[Barleycorn (unit)|barleycorn]] (H) ||
| = {{frac|3}} [[inch|in]] (see note above about rounding)
| = {{frac|3}} [[inch|in]] (see note above about rounding)
| = 8.4{{overline|6}}{{e|-3}} m
| = 8.4{{overline|6}}{{e|-3}} m
Line 56: Line 56:
| ≈ {{val|5.2917721092|(17)|e=-11|u=m}}<ref>"[http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0 NIST Reference on Constants, Units, and Uncertainty."](2010). [[National Institute of Standards and Technology]]. Retrieved October 17, 2014.</ref>
| ≈ {{val|5.2917721092|(17)|e=-11|u=m}}<ref>"[http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0 NIST Reference on Constants, Units, and Uncertainty."](2010). [[National Institute of Standards and Technology]]. Retrieved October 17, 2014.</ref>
|-
|-
| cable length (imperial) || &nbsp;
| cable length (imperial) ||
| ≡ 608 [[foot (unit)|ft]]
| ≡ 608 [[foot (unit)|ft]]
| ≈ 185.3184 m
| ≈ 185.3184 m
|-
|-
| [[cable length]] (International) || &nbsp;
| [[cable length]] (International) ||
| ≡ {{frac|10}} [[nautical mile|nmi]]
| ≡ {{frac|10}} [[nautical mile|nmi]]
| ≡ 185.2 m
| ≡ 185.2 m
|-
|-
| cable length (US) || &nbsp;
| cable length (US) ||
| ≡ 720 [[foot (unit)|ft]]
| ≡ 720 [[foot (unit)|ft]]
| = 219.456 m
| = 219.456 m
Line 72: Line 72:
| ≈ {{val|20.11684|u=m}}
| ≈ {{val|20.11684|u=m}}
|-
|-
| [[cubit]] (H) || &nbsp;
| [[cubit]] (H) ||
| ≡ Distance from fingers to elbow ≈ 18 in
| ≡ Distance from fingers to elbow ≈ 18 in
| ≈ 0.5 m
| ≈ 0.5 m
Line 92: Line 92:
| ≡ {{val|1|e=-15|u=m}}
| ≡ {{val|1|e=-15|u=m}}
|-
|-
| finger || &nbsp;
| finger ||
| ≡ {{frac|7|8}} in
| ≡ {{frac|7|8}} in
| = {{val|0.022225|u=m}}
| = {{val|0.022225|u=m}}
|-
|-
| finger (cloth) || &nbsp;
| finger (cloth) ||
| ≡ {{frac|4|1|2}} in
| ≡ {{frac|4|1|2}} in
| = 0.1143 m
| = 0.1143 m
Line 104: Line 104:
| ≈ {{val|0.304799735|u=m}}
| ≈ {{val|0.304799735|u=m}}
|-
|-
| foot (Cape) (H) || &nbsp;
| foot (Cape) (H) ||
|Legally defined as 1.033 English feet in 1859
|Legally defined as 1.033 English feet in 1859
| ≈ {{val|0.314858|u=m}}
| ≈ {{val|0.314858|u=m}}
Line 145: Line 145:
| = 201.168 m
| = 201.168 m
|-
|-
| [[hand (unit)|hand]] || &nbsp;
| [[hand (unit)|hand]] ||
| ≡ 4 in <ref name=CRC71/>
| ≡ 4 in <ref name=CRC71/>
| ≡ 0.1016 m
| ≡ 0.1016 m
Line 157: Line 157:
| ≈ {{val|4828|u=m}}
| ≈ {{val|4828|u=m}}
|-
|-
| [[light-day]] || &nbsp;
| [[light-day]] ||
| ≡ 24 light-hours
| ≡ 24 light-hours
| ≡ {{val|2.59020683712|e=13|u=m}}
| ≡ {{val|2.59020683712|e=13|u=m}}
|-
|-
| [[light-hour]] || &nbsp;
| [[light-hour]] ||
| ≡ 60 light-minutes
| ≡ 60 light-minutes
| ≡ {{val|1.0792528488|e=12|u=m}}
| ≡ {{val|1.0792528488|e=12|u=m}}
|-
|-
| [[light-minute]] || &nbsp;
| [[light-minute]] ||
| ≡ 60 light-seconds
| ≡ 60 light-seconds
| ≡ {{val|1.798754748|e=10|u=m}}
| ≡ {{val|1.798754748|e=10|u=m}}
|-
|-
| [[light second|light-second]] || &nbsp;
| [[light second|light-second]] ||
| ≡ Distance light travels in one second in vacuum
| ≡ Distance light travels in one second in vacuum
| ≡ {{val|299792458|u=m}}
| ≡ {{val|299792458|u=m}}
Line 195: Line 195:
| ([[SI base unit]])
| ([[SI base unit]])
|-
|-
| mickey || &nbsp;
| mickey ||
| ≡ {{frac|200}} in
| ≡ {{frac|200}} in
| = {{val|1.27|e=-4|u=m}}
| = {{val|1.27|e=-4|u=m}}
Line 231: Line 231:
| ≈ {{val|1609.347219|u=m}}
| ≈ {{val|1609.347219|u=m}}
|-
|-
| nail (cloth) || &nbsp;
| nail (cloth) ||
| ≡ {{frac|2|1|4}} in <ref name=CRC71/>
| ≡ {{frac|2|1|4}} in <ref name=CRC71/>
| = {{val|0.05715|u=m}}
| = {{val|0.05715|u=m}}
Line 243: Line 243:
| = {{val|5556|u=m}}
| = {{val|5556|u=m}}
|-
|-
| nautical mile (Admiralty) || NM&#8239;(Adm);<br>nmi&#8239;(Adm)
| nautical mile (Admiralty) || NM&nbsp;(Adm);{{br}}nmi&nbsp;(Adm)
| = {{val|6080|u=ft}}
| = {{val|6080|u=ft}}
| = {{val|1853.184|u=m}}
| = {{val|1853.184|u=m}}
Line 255: Line 255:
| ≡ 1853.248 m
| ≡ 1853.248 m
|-
|-
| pace || &nbsp;
| pace ||
| ≡ 2.5&nbsp;ft <ref name=CRC71/>
| ≡ 2.5&nbsp;ft <ref name=CRC71/>
| = 0.762 m
| = 0.762 m
|-
|-
| [[Palm (length)|palm]] || &nbsp;
| [[Palm (length)|palm]] ||
| ≡ 3 in <ref name=CRC71/>
| ≡ 3 in <ref name=CRC71/>
| = 0.0762 m
| = 0.0762 m
Line 267: Line 267:
| ≈ {{val|30856775814913700|u=m}}<ref name=Seidelmann>P. Kenneth Seidelmann, Ed. (1992). ''Explanatory Supplement to the Astronomical Almanac.'' Sausalito, CA: University Science Books. p. 716 and s.v. parsec in Glossary.</ref>
| ≈ {{val|30856775814913700|u=m}}<ref name=Seidelmann>P. Kenneth Seidelmann, Ed. (1992). ''Explanatory Supplement to the Astronomical Almanac.'' Sausalito, CA: University Science Books. p. 716 and s.v. parsec in Glossary.</ref>
|-
|-
| [[Pica (typography)|pica]] || &nbsp;
| [[Pica (typography)|pica]] ||
| ≡ 12 points
| ≡ 12 points
| Dependent on point measures.
| Dependent on point measures.
Line 292: Line 292:
| = 0.00{{overline|{{gaps|0|351|4598}}}} m
| = 0.00{{overline|{{gaps|0|351|4598}}}} m
|-
|-
| quarter || &nbsp;
| quarter ||
| ≡ {{frac|4}} yd
| ≡ {{frac|4}} yd
| = 0.2286 m
| = 0.2286 m
Line 308: Line 308:
| ≈ 0.303 0303 m
| ≈ 0.303 0303 m
|-
|-
| span (H) || &nbsp;
| span (H) ||
| ≡ 9 in <ref name=CRC71/>
| ≡ 9 in <ref name=CRC71/>
| = 0.2286 m
| = 0.2286 m
Line 316: Line 316:
| ≡ {{val|1|e=12|u=m}}
| ≡ {{val|1|e=12|u=m}}
|-
|-
| stick (H) || &nbsp;
| stick (H) ||
| ≡ 2 in
| ≡ 2 in
| = 0.0508 m
| = 0.0508 m
|-
| soot ||
| ≡ 1/8 in
| = 0.0031 m
|-
|-
| [[toise]] (French, post 1667) (H) || T
| [[toise]] (French, post 1667) (H) || T
Line 345: Line 349:
|}
|}


==Area==
== Area ==
{| class="wikitable"
{| class="wikitable"
|+ [[Surface area|Area]]
|+ [[Surface area|Area]]
Line 369: Line 373:
| ≡ 10<sup>−28</sup>&nbsp;m<sup>2</sup>
| ≡ 10<sup>−28</sup>&nbsp;m<sup>2</sup>
|-
|-
| barony || &nbsp;
| barony ||
| ≡ {{val|4000}}&nbsp;ac
| ≡ {{val|4000}}&nbsp;ac
| ≡ {{val|1.61874256896|e=7|u=m2}}
| ≡ {{val|1.61874256896|e=7|u=m2}}
Line 377: Line 381:
| ≡ {{val|7.74192|e=-3|u=m2}}
| ≡ {{val|7.74192|e=-3|u=m2}}
|-
|-
| boiler horsepower equivalent direct radiation || bhp EDR
| style="max-width:0" | boiler horsepower equivalent direct radiation || bhp EDR
| ≡ 1&nbsp;ft<sup>2</sup> × 1&nbsp;bhp / (240&nbsp;BTU<sub>IT</sub>/h)
| ≡ 1&nbsp;ft<sup>2</sup> × 1&nbsp;bhp / (240&nbsp;BTU<sub>IT</sub>/h)
| ≈ {{val|12.958174|u=m2}}
| ≈ {{val|12.958174|u=m2}}
Line 389: Line 393:
| ≈ {{val|5.067075|e=-10|u=m2}}
| ≈ {{val|5.067075|e=-10|u=m2}}
|-
|-
| cord || &nbsp;
| cord ||
| ≡ 192&nbsp;bd
| ≡ 192&nbsp;bd
| ≡ {{val|1.48644864|u=m2}}
| ≡ {{val|1.48644864|u=m2}}
Line 397: Line 401:
| ≡ {{val|3930.395625|u=m2}}
| ≡ {{val|3930.395625|u=m2}}
|-
|-
| [[dunam]] || &nbsp;
| [[dunam]] ||
| ≡ {{val|1000|u=m2}}
| ≡ {{val|1000|u=m2}}
| ≡ {{val|1000|u=m2}}
| ≡ {{val|1000|u=m2}}
|-
|-
| [[guntha]] (India) || &nbsp;
| [[guntha]] (India) ||
| ≡ 121&nbsp;sq&nbsp;yd
| ≡ 121&nbsp;sq&nbsp;yd
| ≈ 101.17&nbsp;m<sup>2</sup>
| ≈ 101.17&nbsp;m<sup>2</sup>
Line 409: Line 413:
| ≡ {{val|10000|u=m2}}
| ≡ {{val|10000|u=m2}}
|-
|-
| [[hide (unit)|hide]] || &nbsp;
| [[hide (unit)|hide]] ||
| ≈ 120 ac (variable)<!-- Definition is "amount of land required to support one peasant family" -->
| ≈ 120 ac (variable)<!-- Definition is "amount of land required to support one peasant family" -->
| ≈ {{val|5|e=5|u=m2}}
| ≈ {{val|5|e=5|u=m2}}
Line 425: Line 429:
| = {{val|2.589988110336|e=6|u=m2}}
| = {{val|2.589988110336|e=6|u=m2}}
|-
|-
| [[shed (physics)|shed]] || &nbsp;
| [[shed (physics)|shed]] ||
| ≡ 10<sup>−52</sup>&nbsp;m<sup>2</sup>
| ≡ 10<sup>−52</sup>&nbsp;m<sup>2</sup>
| = 10<sup>−52</sup>&nbsp;m<sup>2</sup>
| = 10<sup>−52</sup>&nbsp;m<sup>2</sup>
Line 493: Line 497:
| ≡ {{val|0.83612736|u=m2}}
| ≡ {{val|0.83612736|u=m2}}
|-
|-
| [[stremma]] || &nbsp;
| [[stremma]] ||
| ≡ {{val|1000|u=m2}}
| ≡ {{val|1000|u=m2}}
| = {{val|1000|u=m2}}
| = {{val|1000|u=m2}}
|-
|-
| [[survey township|township]] || &nbsp;
| [[survey township|township]] ||
| ≡ 36 sq mi (US)
| ≡ 36 sq mi (US)
| ≈ {{val|9.323994|e=7|u=m2}}
| ≈ {{val|9.323994|e=7|u=m2}}
|-
|-
| [[virgate|yardland]] || &nbsp;
| [[virgate|yardland]] ||
| ≈ 30 ac
| ≈ 30 ac
| ≈ {{val|1.2|e=5|u=m2}}
| ≈ {{val|1.2|e=5|u=m2}}
|}
|}


==Volume==
== Volume ==
{| class="wikitable"
{| class="wikitable"
|+ [[Volume]]
|+ [[Volume]]
Line 518: Line 522:
| = {{val|1233.48183754752|u=m3}}
| = {{val|1233.48183754752|u=m3}}
|-
|-
| acre-inch || &nbsp;
| acre-inch ||
| ≡ 1 ac × 1 in
| ≡ 1 ac × 1 in
| = {{val|102.79015312896|u=m3}}
| = {{val|102.79015312896|u=m3}}
|-
|-
| [[barrel (unit)|barrel]] (imperial) || bl (imp)
| style="max-width:0" | [[barrel (unit)|barrel]] (imperial) || bl (imp)
| ≡ 36 gal (imp)
| ≡ 36 gal (imp)
| = {{val|0.16365924|u=m3}}
| = {{val|0.16365924|u=m3}}
Line 558: Line 562:
| = {{val|0.03523907016688|u=m3}}
| = {{val|0.03523907016688|u=m3}}
|-
|-
| [[butt (unit)|butt]], pipe || &nbsp;
| [[butt (unit)|butt]], pipe ||
| ≡ 126 gal (US) (wine)
| ≡ 126 gal (US) (wine)
| = {{val|0.476961884784|u=m3}}
| = {{val|0.476961884784|u=m3}}
|-
|-
| [[coomb (unit)|coomb]] || &nbsp;
| [[coomb (unit)|coomb]] ||
| ≡ 4 bu (imp)
| ≡ 4 bu (imp)
| = {{val|0.14547488|u=m3}}
| = {{val|0.14547488|u=m3}}
|-
|-
| cord ([[Cord Measure|firewood]]) || &nbsp;
| cord ([[Cord Measure|firewood]]) ||
| ≡ {{nowrap|8 ft × 4 ft × 4 ft}}
| ≡ {{nowrap|8 ft × 4 ft × 4 ft}}
| = {{val|3.624556363776|u=m3}}
| = {{val|3.624556363776|u=m3}}
|-
|-
| cord-foot || &nbsp;
| cord-foot ||
| ≡ 16 cu ft
| ≡ 16 cu ft
| = {{val|0.453069545472|u=m3}}
| = {{val|0.453069545472|u=m3}}
Line 598: Line 602:
| ≡ {{val|0.764554857984|u=m3}}
| ≡ {{val|0.764554857984|u=m3}}
|-
|-
| [[cup (unit)|cup]] (breakfast) || &nbsp;
| [[cup (unit)|cup]] (breakfast) ||
| ≡ 10 fl oz (imp)
| ≡ 10 fl oz (imp)
| = {{val|284.130625|e=-6|u=m3}}
| = {{val|284.130625|e=-6|u=m3}}
Line 618: Line 622:
| = {{val|2.4|e=-4|u=m3}}
| = {{val|2.4|e=-4|u=m3}}
|-
|-
| dash (imperial) || &nbsp;
| dash (imperial) ||
| ≡ {{frac|192}} gi (imp) = 1/8 tsp (imp)
| ≡ {{frac|192}} gi (imp) = 1/8 tsp (imp)
| = {{gaps|739.923|502|604|1{{overline|6}}}}{{e|−9}} m<sup>3</sup>
| = {{gaps|739.923|502|604|1{{overline|6}}}}{{e|−9}} m<sup>3</sup>
|-
|-
| dash (US) || &nbsp;
| dash (US) ||
| ≡ {{frac|48}} US fl oz = 1/8 US tsp
| ≡ {{frac|48}} US fl oz = 1/8 US tsp
| = {{val|616.11519921875|e=-9|u=m3}}
| = {{val|616.11519921875|e=-9|u=m3}}
|-
|-
| [[dessertspoon]] (imperial) || &nbsp;
| [[dessertspoon]] (imperial) ||
| ≡ {{frac|12}} gi (imp)
| ≡ {{frac|12}} gi (imp)
| = {{gaps|11.838|776|041{{overline|6}}}}{{e|−6}} m<sup>3</sup>
| = {{gaps|11.838|776|041{{overline|6}}}}{{e|−6}} m<sup>3</sup>
Line 638: Line 642:
| ≈ {{val|77.886684|e=-9|u=m3}}
| ≈ {{val|77.886684|e=-9|u=m3}}
|-
|-
| drop (medical) || &nbsp;
| drop (medical) ||
| ≡ {{frac|12}} mL
| ≡ {{frac|12}} mL
| = 83.{{overline|3}}{{e|−9}} m<sup>3</sup>
| = 83.{{overline|3}}{{e|−9}} m<sup>3</sup>
|-
|-
| drop (metric) || &nbsp;
| drop (metric) ||
| ≡ {{frac|20}} mL
| ≡ {{frac|20}} mL
| = {{val|50.0|e=-9|u=m3}}
| = {{val|50.0|e=-9|u=m3}}
Line 658: Line 662:
| ≈ {{val|51.34293326823|e=-9|u=m3}}
| ≈ {{val|51.34293326823|e=-9|u=m3}}
|-
|-
| fifth || &nbsp;
| fifth ||
| ≡ {{frac|5}} US gal
| ≡ {{frac|5}} US gal
| = {{val|757.0823568|e=-6|u=m3}}
| = {{val|757.0823568|e=-6|u=m3}}
|-
|-
| [[English brewery cask units#Firkin|firkin]] || &nbsp;
| [[English brewery cask units#Firkin|firkin]] ||
| ≡ 9 gal (imp)
| ≡ 9 gal (imp)
| = {{val|0.04091481|u=m3}}
| = {{val|0.04091481|u=m3}}
Line 710: Line 714:
| = {{val|0.238480942392|u=m3}}
| = {{val|0.238480942392|u=m3}}
|-
|-
| [[jigger (bartending)]] || &nbsp;
| [[jigger (bartending)]] ||
| ≡ {{frac|1|1|2}} US fl oz
| ≡ {{frac|1|1|2}} US fl oz
| ≈ {{val|44.36|e=-6|u=m3}}
| ≈ {{val|44.36|e=-6|u=m3}}
|-
|-
| [[kilderkin]] || &nbsp;
| [[kilderkin]] ||
| ≡ 18 gal (imp)
| ≡ 18 gal (imp)
| = {{val|0.08182962|u=m3}}
| = {{val|0.08182962|u=m3}}
Line 722: Line 726:
| = {{val|1|e=-9|u=m3}}
| = {{val|1|e=-9|u=m3}}
|-
|-
| [[last (unit)|last]] || &nbsp;
| [[last (unit)|last]] ||
| ≡ 80 bu (imp)
| ≡ 80 bu (imp)
| = {{val|2.9094976|u=m3}}
| = {{val|2.9094976|u=m3}}
Line 730: Line 734:
| ≡ 0.001 m<sup>3</sup>
| ≡ 0.001 m<sup>3</sup>
|-
|-
| load || &nbsp;
| load ||
| ≡ 50 cu ft
| ≡ 50 cu ft
| = {{val|1.4158423296|u=m3}}
| = {{val|1.4158423296|u=m3}}
Line 766: Line 770:
| = {{val|0.700841953152|u=m3}}
| = {{val|0.700841953152|u=m3}}
|-
|-
| pinch (imperial) || &nbsp;
| pinch (imperial) ||
| ≡ {{frac|384}} gi (imp) = {{frac|2}} dash (imp)
| ≡ {{frac|384}} gi (imp) = {{frac|2}} dash (imp)
| = {{gaps|369.961|751|302|08{{overline|3}}}}{{e|−9}} m<sup>3</sup>
| = {{gaps|369.961|751|302|08{{overline|3}}}}{{e|−9}} m<sup>3</sup>
|-
|-
| pinch (US) || &nbsp;
| pinch (US) ||
| ≡ {{frac|96}} US fl oz = {{frac|2}} US dash
| ≡ {{frac|96}} US fl oz = {{frac|2}} US dash
| = {{val|308.057599609375|e=-9|u=m3}}
| = {{val|308.057599609375|e=-9|u=m3}}
Line 786: Line 790:
| = {{val|473.176473|e=-6|u=m3}}
| = {{val|473.176473|e=-6|u=m3}}
|-
|-
| pony || &nbsp;
| pony ||
| ≡ {{frac|3|4}} US fl oz
| ≡ {{frac|3|4}} US fl oz
| = {{val|22.180147171875|e=-6|u=m3}}
| = {{val|22.180147171875|e=-6|u=m3}}
|-
|-
| pottle; quartern || &nbsp;
| pottle; quartern ||
| ≡ {{frac|2}} gal (imp) = 80 fl oz (imp)
| ≡ {{frac|2}} gal (imp) = 80 fl oz (imp)
| = {{val|2.273045|e=-3|u=m3}}
| = {{val|2.273045|e=-3|u=m3}}
Line 806: Line 810:
| = {{val|946.352946|e=-6|u=m3}}
| = {{val|946.352946|e=-6|u=m3}}
|-
|-
| quarter; pail || &nbsp;
| quarter; pail ||
| ≡ 8 bu (imp)
| ≡ 8 bu (imp)
| = {{val|0.29094976|u=m3}}
| = {{val|0.29094976|u=m3}}
|-
|-
| register ton || &nbsp;
| register ton ||
| ≡ 100 cu ft
| ≡ 100 cu ft
| = {{val|2.8316846592|u=m3}}
| = {{val|2.8316846592|u=m3}}
|-
|-
| sack (US) || &nbsp;
| sack (US) ||
| ≡ 3 bu (US lvl)
| ≡ 3 bu (US lvl)
| = {{val|0.10571721050064|u=m3}}
| = {{val|0.10571721050064|u=m3}}
|-
|-
| seam || &nbsp;
| seam ||
| ≡ 8 bu <ref name=howmany/>
| ≡ 8 bu <ref name=howmany/>
| = {{val|0.29095|u=m3}}
| = {{val|0.29095|u=m3}}
|-
|-
| shot (US) || &nbsp;
| shot (US) ||
| usually 1.5 US fl oz<ref name=howmany/>
| usually 1.5 US fl oz<ref name=howmany/>
| ≈ {{val|44.4|e=-6|u=m3}}
| ≈ {{val|44.4|e=-6|u=m3}}
|-
|-
| strike (imperial) || &nbsp;
| strike (imperial) ||
| ≡ 2 bu (imp)
| ≡ 2 bu (imp)
| = {{val|0.07273744|u=m3}}
| = {{val|0.07273744|u=m3}}
|-
|-
| strike (US) || &nbsp;
| strike (US) ||
| ≡ 2 bu (US lvl)
| ≡ 2 bu (US lvl)
| = {{val|0.07047814033376|u=m3}}
| = {{val|0.07047814033376|u=m3}}
|-
|-
| [[tablespoon]] (Australian metric) || &nbsp;
| [[tablespoon]] (Australian metric) ||
|
|
| ≡ {{val|20.0|e=-6|u=m3}}
| ≡ {{val|20.0|e=-6|u=m3}}
Line 846: Line 850:
| = {{val|17.7581640625|e=-6|u=m3}}
| = {{val|17.7581640625|e=-6|u=m3}}
|-
|-
| tablespoon (metric) || &nbsp;
| tablespoon (metric) ||
|
|
| ≡ {{val|15|e=-6|u=m3}}
| ≡ {{val|15|e=-6|u=m3}}
Line 866: Line 870:
| = {{gaps|5.919|388|020|8{{overline|3}}}}{{e|−6}} m<sup>3</sup>
| = {{gaps|5.919|388|020|8{{overline|3}}}}{{e|−6}} m<sup>3</sup>
|-
|-
| teaspoon (metric) || &nbsp;
| teaspoon (metric) ||
| ≡ {{val|5.0|e=-6|u=m3}}
| ≡ {{val|5.0|e=-6|u=m3}}
| ≡ {{val|5.0|e=-6|u=m3}}
| ≡ {{val|5.0|e=-6|u=m3}}
Line 878: Line 882:
| = {{val|5|e=-6|u=m3}}
| = {{val|5|e=-6|u=m3}}
|-
|-
| [[timber foot]] || &nbsp;
| [[timber foot]] ||
| ≡ 1 cu ft
| ≡ 1 cu ft
| = {{val|0.028316846592|u=m3}}
| = {{val|0.028316846592|u=m3}}
|-
|-
| [[ton]] (displacement) || &nbsp;
| [[ton]] (displacement) ||
| ≡ 35 cu ft
| ≡ 35 cu ft
| = {{val|0.99108963072|u=m3}}
| = {{val|0.99108963072|u=m3}}
|-
|-
| ton (freight) || &nbsp;
| ton (freight) ||
| ≡ 40 cu ft
| ≡ 40 cu ft
| = {{val|1.13267386368|u=m3}}
| = {{val|1.13267386368|u=m3}}
|-
|-
| ton (water) || &nbsp;
| ton (water) ||
| ≡ 28 bu (imp)
| ≡ 28 bu (imp)
| = {{val|1.01832416|u=m3}}
| = {{val|1.01832416|u=m3}}
|-
|-
| [[ton|tun]] || &nbsp;
| [[ton|tun]] ||
| ≡ 252 gal (wine)
| ≡ 252 gal (wine)
| = {{val|0.953923769568|u=m3}}
| = {{val|0.953923769568|u=m3}}
|-
|-
| [[wey (unit)|wey]] (US) || &nbsp;
| [[wey (unit)|wey]] (US) ||
| ≡ 40 bu (US lvl)
| ≡ 40 bu (US lvl)
| = {{val|1.4095628066752|u=m3}}
| = {{val|1.4095628066752|u=m3}}
|}
|}


==Plane angle==
== Plane angle ==
{| class="wikitable"
{| class="wikitable"
|+ [[Angle|Plane angle]]
|+ [[Angle|Plane angle]]
Line 951: Line 955:
| {{nowrap|≈ {{val|15.707963|e=-3|u=rad}}}} <!-- used nowrap here to prevent wrapping of units for entire column -->
| {{nowrap|≈ {{val|15.707963|e=-3|u=rad}}}} <!-- used nowrap here to prevent wrapping of units for entire column -->
|-
|-
| [[octant (plane geometry)|octant]] || &nbsp;
| [[octant (plane geometry)|octant]] ||
| ≡ 45°
| ≡ 45°
| ≈ {{val|0.785398|u=rad}}
| ≈ {{val|0.785398|u=rad}}
|-
|-
| [[Circular sector|quadrant]] || &nbsp;
| [[Circular sector|quadrant]] ||
| ≡ 90°
| ≡ 90°
| ≈ {{val|1.570796|u=rad}}
| ≈ {{val|1.570796|u=rad}}
|- style="background:#dfd;"
|- style="background:#dfd;"
| [[radian]] (SI&nbsp;unit) || rad
| [[radian]] (SI&nbsp;unit) || rad
| The angle subtended at the center of a circle by an arc whose length is equal to the circle's radius.<br>One full revolution encompasses 2π radians.
| The angle subtended at the center of a circle by an arc whose length is equal to the circle's radius.{{br}}One full revolution encompasses 2π radians.
| = 1 rad
| = 1 rad
|-
|-
| sextant || &nbsp;
| sextant ||
| ≡ 60°
| ≡ 60°
| ≈ {{val|1.047198|u=rad}}
| ≈ {{val|1.047198|u=rad}}
|-
|-
| sign || &nbsp;
| sign ||
| ≡ 30°
| ≡ 30°
| ≈ {{val|0.523599|u=rad}}
| ≈ {{val|0.523599|u=rad}}
|}
|}


==Solid angle==
== Solid angle ==
{| class="wikitable"
{| class="wikitable"
|+ [[Solid angle]]
|+ [[Solid angle]]
Line 989: Line 993:
|- style="background:#dfd;"
|- style="background:#dfd;"
| [[steradian]] (SI&nbsp;unit) || sr
| [[steradian]] (SI&nbsp;unit) || sr
| The solid angle subtended at the center of a sphere of radius ''r'' by a portion of the sphere having an area ''r''<sup>2</sup>.<br>A sphere subtends 4π&nbsp;sr.<ref name="howmany"/>
| The solid angle subtended at the center of a sphere of radius ''r'' by a portion of the sphere having an area ''r''<sup>2</sup>.{{br}}A sphere subtends 4π&nbsp;sr.<ref name="howmany"/>
| = 1 sr
| = 1 sr
|}
|}


==Mass==
== Mass ==
Notes:
Notes:
* See [[Weight]] for detail of mass/weight distinction and conversion.
* See [[Weight]] for detail of mass/weight distinction and conversion.
Line 1,008: Line 1,012:
| [[unified atomic mass unit|atomic mass unit, unified]] || u; AMU
| [[unified atomic mass unit|atomic mass unit, unified]] || u; AMU
|Same as ''dalton'' (see below)
|Same as ''dalton'' (see below)
| ≈&nbsp;{{physconst|mu}}
| ≈ {{val|1.660539040|(20)|e=-27|u=kg}}<ref name="physics.nist.gov"/>
|-
|-
| [[atomic units|atomic unit of mass]], [[electron]] rest mass || ''m''<sub>e</sub>
| [[atomic units|atomic unit of mass]], [[electron]] rest mass || ''m''<sub>e</sub>
|
|
| ≈ {{physconst|aumass}}
| ≈ {{val|9.10938291|(40)|e=-31|u=kg}}<ref>[http://physics.nist.gov/cgi-bin/cuu/Value?ttme|search_for=atomic+unit+of+mass ''CODATA Value: atomic unit of mass.''] (2010). [[National Institute of Standards and Technology]]. Retrieved 29 May 2015.</ref>
|-
|-
| bag ([[coffee]]) || &nbsp;
| bag ([[coffee]]) ||
| ≡ 60&nbsp;kg
| ≡ 60&nbsp;kg
| = 60&nbsp;kg
| = 60&nbsp;kg
|-
|-
| bag ([[Portland cement]])|| &nbsp;
| bag ([[Portland cement]])||
| ≡ 94&nbsp;lb av
| ≡ 94&nbsp;lb av
| = {{val|42.63768278|u=kg}}
| = {{val|42.63768278|u=kg}}
|-
|-
| barge || &nbsp;
| barge ||
| ≡ {{frac|22|1|2}} short ton
| ≡ {{frac|22|1|2}} short ton
| = {{val|20411.65665|u=kg}}
| = {{val|20411.65665|u=kg}}
Line 1,034: Line 1,038:
| = 200&nbsp;mg
| = 200&nbsp;mg
|-
|-
| [[clove (weight)|clove]] || &nbsp;
| [[clove (weight)|clove]] ||
| ≡ 8&nbsp;lb av
| ≡ 8&nbsp;lb av
| = {{val|3.62873896|u=kg}}
| = {{val|3.62873896|u=kg}}
|-
|-
| crith || &nbsp;
| crith ||
| ≡ mass of 1 L of hydrogen gas at [[Standard temperature and pressure|STP]]
| ≡ mass of 1 L of hydrogen gas at [[Standard temperature and pressure|STP]]
| ≈ 89.9349&nbsp;mg
| ≈ 89.9349&nbsp;mg
Line 1,044: Line 1,048:
| [[dalton (unit)|dalton]] || Da
| [[dalton (unit)|dalton]] || Da
| 1/12 the mass of an [[Chemical bond|unbound]] neutral atom of [[carbon-12]] in its nuclear and electronic [[ground state]] and [[invariant mass|at rest]]
| 1/12 the mass of an [[Chemical bond|unbound]] neutral atom of [[carbon-12]] in its nuclear and electronic [[ground state]] and [[invariant mass|at rest]]
| ≈ {{physconst|mu}}
| ≈ {{val|1.660538921|(73)|e=-27|u=kg}}<ref name="physics.nist.gov"/>
|-
|-
| [[dram (unit)|dram]] (apothecary; [[troy weight|troy]]) || dr t
| [[dram (unit)|dram]] (apothecary; [[troy weight|troy]]) || dr t
Line 1,083: Line 1,087:
|- style="background:#dfd;"
|- style="background:#dfd;"
| [[kilogram]]<br /><small>(kilogramme)</small>|| kg
| [[kilogram]]<br /><small>(kilogramme)</small>|| kg
| ≈ mass of the prototype near Paris<br>≈ mass of 1&nbsp;litre of water
| ≈ mass of the prototype near Paris{{br}}≈ mass of 1&nbsp;litre of water
| ([[SI base unit]])<ref name="sibaseunits"/>
| ([[SI base unit]])<ref name="sibaseunits"/>
|-
|-
Line 1,090: Line 1,094:
| = {{val|453.59237|u=kg}}
| = {{val|453.59237|u=kg}}
|-
|-
| [[mark (unit)|mark]] || &nbsp;
| [[mark (unit)|mark]] ||
| ≡ 8 oz t
| ≡ 8 oz t
| = {{val|248.8278144|u=g}}
| = {{val|248.8278144|u=g}}
|-
|-
| mite || &nbsp;
| mite ||
| ≡ {{frac|20}} gr
| ≡ {{frac|20}} gr
| = {{val|3.2399455|u=mg}}
| = {{val|3.2399455|u=mg}}
|-
|-
| mite (metric) || &nbsp;
| mite (metric) ||
| ≡ {{frac|20}} g
| ≡ {{frac|20}} g
| = 50&nbsp;mg
| = 50&nbsp;mg
Line 1,118: Line 1,122:
| = {{val|1.55517384|u=g}}
| = {{val|1.55517384|u=g}}
|-
|-
| [[point (gemstone)|point]] || &nbsp;
| [[point (gemstone)|point]] ||
| ≡ {{frac|100}} ct
| ≡ {{frac|100}} ct
| = 2&nbsp;mg
| = 2&nbsp;mg
Line 1,126: Line 1,130:
| ≡ {{val|0.45359237|u=kg}}
| ≡ {{val|0.45359237|u=kg}}
|-
|-
| [[pound (mass)|pound (metric)]] || &nbsp;
| [[pound (mass)|pound (metric)]] ||
| ≡ 500 g
| ≡ 500 g
| = 500 g
| = 500 g
Line 1,134: Line 1,138:
| = {{val|0.3732417216|u=kg}}
| = {{val|0.3732417216|u=kg}}
|-
|-
| quarter (imperial) || &nbsp;
| quarter (imperial) ||
| ≡ {{frac|4}} long cwt = 2 st = 28&nbsp;lb av
| ≡ {{frac|4}} long cwt = 2 st = 28&nbsp;lb av
| = {{val|12.70058636|u=kg}}
| = {{val|12.70058636|u=kg}}
|-
|-
| quarter (informal)|| &nbsp;
| quarter (informal)||
| ≡ {{frac|4}} short ton
| ≡ {{frac|4}} short ton
| = {{val|226.796185|u=kg}}
| = {{val|226.796185|u=kg}}
|-
|-
| quarter, long (informal)|| &nbsp;
| quarter, long (informal)||
| ≡ {{frac|4}} long ton
| ≡ {{frac|4}} long ton
| = {{val|254.0117272|u=kg}}
| = {{val|254.0117272|u=kg}}
Line 1,154: Line 1,158:
| = {{val|1.2959782|u=g}}
| = {{val|1.2959782|u=g}}
|-
|-
| sheet || &nbsp;
| sheet ||
| ≡ {{frac|700}}&nbsp;lb av
| ≡ {{frac|700}}&nbsp;lb av
| = 647.9891&nbsp;mg
| = 647.9891&nbsp;mg
Line 1,186: Line 1,190:
| = {{val|1000|u=kg}}
| = {{val|1000|u=kg}}
|-
|-
| [[wey (unit)|wey]] || &nbsp;
| [[wey (unit)|wey]] ||
| ≡ 252&nbsp;lb = 18 st
| ≡ 252&nbsp;lb = 18 st
| = {{val|114.30527724|u=kg}} (variants exist)
| = {{val|114.30527724|u=kg}} (variants exist)
Line 1,264: Line 1,268:
|}
|}


==Time==
== Time ==
{| class="wikitable"
{| class="wikitable"
|+ [[Time]]
|+ [[Time]]
Line 1,276: Line 1,280:
| ≈ {{val|2.418884254|e=-17|u=s}}
| ≈ {{val|2.418884254|e=-17|u=s}}
|-
|-
| [[Callippic cycle]] || &nbsp;
| [[Callippic cycle]] ||
| ≡ 441 mo (hollow) + 499 mo (full) = 76 a of 365.25 d
| ≡ 441 mo (hollow) + 499 mo (full) = 76 a of 365.25 d
| = {{val|2.396736|u=Gs}} or {{val|2.3983776|u=Gs}}<ref group=note>see [[Callippic cycle]] for explanation of the differences</ref>
| = {{val|2.396736|u=Gs}} or {{val|2.3983776|u=Gs}}<ref group=note>see [[Callippic cycle]] for explanation of the differences</ref>
Line 1,282: Line 1,286:
| [[century]] || c
| [[century]] || c
| ≡ 100 years (100 a)
| ≡ 100 years (100 a)
| =&nbsp;{{val|3.1556952|u=Gs}}<ref group=note name=avegreg>This is based on the average Gregorian year. See above for definition of year lengths.</ref><ref group=note name=leapsec>Where [[UTC]] is observed, the length of this unit may increase or decrease<br>depending on the number of [[leap second]]s which occur during the time interval in question.</ref>
| =&nbsp;{{val|3.1556952|u=Gs}}<ref group=note name=avegreg>This is based on the average Gregorian year. See above for definition of year lengths.</ref><ref group=note name=leapsec>Where [[UTC]] is observed, the length of this unit may increase or decrease{{br}}depending on the number of [[leap second]]s which occur during the time interval in question.</ref>
|-
|-
| [[day]] || d
| [[day]] || d
Line 1,304: Line 1,308:
| = 3.{{overline|3}} s
| = 3.{{overline|3}} s
|-
|-
| [[Hipparchic cycle]] || &nbsp;
| [[Hipparchic cycle]] ||
| ≡ 4 Callippic cycles - 1 d
| ≡ 4 Callippic cycles - 1 d
| = {{val|9.593424|u=Gs}}
| = {{val|9.593424|u=Gs}}
Line 1,320: Line 1,324:
| = 10 ms
| = 10 ms
|-
|-
| [[Traditional Chinese timekeeping|kè]] (quarter of an hour) || &nbsp;
| [[Traditional Chinese timekeeping|kè]] (quarter of an hour) ||
| ≡ {{frac|4}} h = {{frac|96}} d = 15 min
| ≡ {{frac|4}} h = {{frac|96}} d = 15 min
| = 900 s
| = 900 s
|-
|-
| kè (traditional) || &nbsp;
| kè (traditional) ||
| ≡ {{frac|100}} d = 14.4 min
| ≡ {{frac|100}} d = 14.4 min
| = 864 s
| = 864 s
|-
|-
| lustre; lūstrum || &nbsp;
| lustre; lūstrum ||
| ≡ 5 a of 365 d<ref group=note>The length of ancient lustral cycles was not constant; see [[Lustrum]] for more details</ref>
| ≡ 5 a of 365 d<ref group=note>The length of ancient lustral cycles was not constant; see [[Lustrum]] for more details</ref>
| = {{val|157.68|u=Ms}}
| = {{val|157.68|u=Ms}}
|-
|-
| [[Metonic cycle]]; enneadecaeteris || &nbsp;
| [[Metonic cycle]]; enneadecaeteris ||
| ≡ 110 mo (hollow) + 125 mo (full) = 6940 d ≈ 19 a
| ≡ 110 mo (hollow) + 125 mo (full) = 6940 d ≈ 19 a
| = {{val|599.616|u=Ms}}
| = {{val|599.616|u=Ms}}
|-
|-
| [[millennium]] || &nbsp;
| [[millennium]] ||
| ≡ {{val|1000}} years ({{val|1000|u=a}})
| ≡ {{val|1000}} years ({{val|1000|u=a}})
| =&nbsp;{{val|31.556952|u=Gs}}<ref group=note name=avegreg /><ref group=note name=leapsec />
| =&nbsp;{{val|31.556952|u=Gs}}<ref group=note name=avegreg /><ref group=note name=leapsec />
Line 1,348: Line 1,352:
| = 60 s<ref group=note name=leapsec />
| = 60 s<ref group=note name=leapsec />
|-
|-
| [[Moment (unit)|moment]] || &nbsp;
| [[Moment (unit)|moment]] ||
| ≡ 90 s
| ≡ 90 s
| = 90 s
| = 90 s
Line 1,368: Line 1,372:
| ≈ {{val|2.551|u=Ms}}
| ≈ {{val|2.551|u=Ms}}
|-
|-
| [[octaeteris]] || &nbsp;
| [[octaeteris]] ||
| = 48 mo (full) + 48 mo (hollow) + 3 mo (full)<ref>{{Citation | last=Richards | first=E.G. | title=Mapping Time | year=1998 | pages=[https://archive.org/details/mappingtimecalen00rich/page/94 94–95] | publisher=Oxford University Press | isbn=0-19-850413-6 | url=https://archive.org/details/mappingtimecalen00rich/page/94 }}</ref><ref>{{Citation | last=Steel | first=Duncan | title=Marking Time | year=2000 | page=[https://archive.org/details/markingtimeepicq00stee_0/page/46 46] | publisher=John Wiley & Sons | isbn=0-471-29827-1 | url=https://archive.org/details/markingtimeepicq00stee_0/page/46 }}</ref> = 8 a of 365.25 d = 2922 d
| = 48 mo (full) + 48 mo (hollow) + 3 mo (full)<ref>{{Citation | last=Richards | first=E.G. | title=Mapping Time | year=1998 | pages=[https://archive.org/details/mappingtimecalen00rich/page/94 94–95] | publisher=Oxford University Press | isbn=0-19-850413-6 | url=https://archive.org/details/mappingtimecalen00rich/page/94 }}</ref><ref>{{Citation | last=Steel | first=Duncan | title=Marking Time | year=2000 | page=[https://archive.org/details/markingtimeepicq00stee_0/page/46 46] | publisher=John Wiley & Sons | isbn=0-471-29827-1 | url=https://archive.org/details/markingtimeepicq00stee_0/page/46 }}</ref> = 8 a of 365.25 d = 2922 d
| = {{val|252.4608|u=Ms}}<ref group=note name=leapsec />
| = {{val|252.4608|u=Ms}}<ref group=note name=leapsec />
|-
|-
| [[Planck time]] || &nbsp;
| [[Planck time]] ||
| ≡ ({{frac|[[gravitational constant|''G'']][[reduced Planck constant|''ℏ'']]|[[speed of light|''c'']]<sup>5</sup>}})<sup>{{frac|2}}</sup>
| ≡ ({{frac|[[gravitational constant|''G'']][[reduced Planck constant|''ℏ'']]|[[speed of light|''c'']]<sup>5</sup>}})<sup>{{frac|2}}</sup>
| ≈ {{val|5.39116|e=-44|u=s}}<ref>{{Cite web|url=https://physics.nist.gov/cgi-bin/cuu/Value?plkt|title=CODATA Value: Planck time|website=physics.nist.gov|access-date=2018-06-20}}</ref>
| ≈ {{val|5.39116|e=-44|u=s}}<ref>{{Cite web|url=https://physics.nist.gov/cgi-bin/cuu/Value?plkt|title=CODATA Value: Planck time|website=physics.nist.gov|access-date=2018-06-20}}</ref>
Line 1,380: Line 1,384:
| ([[SI base unit]])
| ([[SI base unit]])
|-
|-
| [[Shake (time)|shake]] || &nbsp;
| [[Shake (time)|shake]] ||
| ≡ 10<sup>−8</sup> s
| ≡ 10<sup>−8</sup> s
| = 10 ns
| = 10 ns
|-
|-
| sigma || &nbsp;
| sigma ||
| ≡ 10<sup>−6</sup> s
| ≡ 10<sup>−6</sup> s
| = 1 μs
| = 1 μs
|-
|-
| [[Sothic cycle]] || &nbsp;
| [[Sothic cycle]] ||
| ≡ {{val|1461}} a of 365 d
| ≡ {{val|1461}} a of 365 d
| = {{val|46.074096|u=Gs}}
| = {{val|46.074096|u=Gs}}
Line 1,423: Line 1,427:
|}
|}


==Frequency==
== Frequency ==
{| class="wikitable"
{| class="wikitable"
|+ Frequency
|+ Frequency
Line 1,456: Line 1,460:
|}
|}


==Speed or velocity==
== Speed or velocity ==
{| class="wikitable"
{| class="wikitable"
|+ [[Speed]]
|+ [[Speed]]
Line 1,476: Line 1,480:
| = {{val|3.048|e=-1|u=m/s}}
| = {{val|3.048|e=-1|u=m/s}}
|-
|-
| [[furlong]] per [[fortnight]] || &nbsp;
| [[furlong]] per [[fortnight]] ||
| ≡ furlong/fortnight
| ≡ furlong/fortnight
| ≈ {{val|1.663095|e=-4|u=m/s}}
| ≈ {{val|1.663095|e=-4|u=m/s}}
Line 1,505: Line 1,509:
|-
|-
| [[mach number]] || ''M''
| [[mach number]] || ''M''
| Ratio of the speed to the speed of sound{{#tag:ref|The speed of sound varies especially with temperature and pressure from about {{val|340|u=m/s}} ({{convert|1225|km/h|mph kn |disp=or|abbr=on}})<br>in air at sea level to about {{val|300|u=m/s}} ({{convert|1062|km/h|mph kn|disp=or|abbr=on}}) at jet altitudes ({{convert|12200|m|ft|comma=gaps|disp=or|abbr=on}}).<ref>Tom Benson. (2010.) [http://www.grc.nasa.gov/WWW/K-12/airplane/mach.html "Mach Number"] {{Webarchive|url=https://web.archive.org/web/20060410140252/http://www.grc.nasa.gov/WWW/K-12/airplane/mach.html |date=2006-04-10 }} in ''Beginner's Guide to Aeronautics''. [[NASA]].</ref>|name=sound|group=note}} in the medium (unitless).
| Ratio of the speed to the speed of sound{{#tag:ref|The speed of sound varies especially with temperature and pressure from about {{val|340|u=m/s}} ({{convert|1225|km/h|mph kn |disp=or|abbr=on}}){{br}}in air at sea level to about {{val|300|u=m/s}} ({{convert|1062|km/h|mph kn|disp=or|abbr=on}}) at jet altitudes ({{convert|12200|m|ft|comma=gaps|disp=or|abbr=on}}).<ref>Tom Benson. (2010.) [http://www.grc.nasa.gov/WWW/K-12/airplane/mach.html "Mach Number"] {{Webarchive|url=https://web.archive.org/web/20060410140252/http://www.grc.nasa.gov/WWW/K-12/airplane/mach.html |date=2006-04-10 }} in ''Beginner's Guide to Aeronautics''. [[NASA]].</ref>|name=sound|group=note}} in the medium (unitless).
| ≈ 340&nbsp;m/s in air at sea level<br/> ≈ 295&nbsp;m/s in air at jet altitudes
| ≈ 340&nbsp;m/s in air at sea level<br/> ≈ 295&nbsp;m/s in air at jet altitudes
|- style="background:#dfd;"
|- style="background:#dfd;"
Line 1,538: Line 1,542:
A [[velocity]] consists of a speed combined with a direction; the speed part of the velocity takes units of speed.
A [[velocity]] consists of a speed combined with a direction; the speed part of the velocity takes units of speed.


==Flow (volume)==
== Flow (volume) ==
{| class="wikitable"
{| class="wikitable"
|+ [[Volumetric flow rate]]
|+ [[Volumetric flow rate]]
Line 1,592: Line 1,596:
|}
|}


==Acceleration==
== Acceleration ==
{| class="wikitable"
{| class="wikitable"
|+ [[Acceleration]]
|+ [[Acceleration]]
Line 1,649: Line 1,653:
|}
|}


==Force==
== Force ==
{{See also|Weight#Mass|Mass versus weight}}
{{See also|Weight#Mass|Mass versus weight}}


Line 1,708: Line 1,712:
|}
|}


==Pressure or mechanical stress==
== Pressure or mechanical stress ==
{| class="wikitable"
{| class="wikitable"
|+ [[Pressure]]
|+ [[Pressure]]
Line 1,728: Line 1,732:
| ≡ 10<sup>5</sup> Pa
| ≡ 10<sup>5</sup> Pa
|-
|-
| barye ([[CGS&nbsp;unit]]) || &nbsp;
| barye ([[CGS&nbsp;unit]]) ||
| ≡ 1 dyn/cm<sup>2</sup>
| ≡ 1 dyn/cm<sup>2</sup>
| = 0.1 Pa
| = 0.1 Pa
Line 1,764: Line 1,768:
| ≈ {{val|6.894757|e=6|u=Pa}}<ref name=press811/>
| ≈ {{val|6.894757|e=6|u=Pa}}<ref name=press811/>
|-
|-
| long [[ton]] per square [[foot (unit)|foot]] || &nbsp;
| long [[ton]] per square [[foot (unit)|foot]] ||
| ≡ 1 long ton × {{math|''g''<sub>0</sub>}} / 1 sq ft
| ≡ 1 long ton × {{math|''g''<sub>0</sub>}} / 1 sq ft
| ≈ {{val|1.0725178011595|e=5|u=Pa}}
| ≈ {{val|1.0725178011595|e=5|u=Pa}}
Line 1,800: Line 1,804:
| ≈ {{val|1.488164|u=Pa}}<ref name=press811/>
| ≈ {{val|1.488164|u=Pa}}<ref name=press811/>
|-
|-
| short [[ton]] per square [[foot (unit)|foot]] || &nbsp;
| short [[ton]] per square [[foot (unit)|foot]] ||
| ≡ 1 short ton × {{math|''g''<sub>0</sub>}} / 1 sq ft
| ≡ 1 short ton × {{math|''g''<sub>0</sub>}} / 1 sq ft
| ≈ {{val|9.5760518|e=4|u=Pa}}
| ≈ {{val|9.5760518|e=4|u=Pa}}
Line 1,809: Line 1,813:
|}
|}


==Torque or moment of force==<!-- not equivalent to energy -->
== Torque or moment of force <!-- not equivalent to energy --> ==
{| class="wikitable"
{| class="wikitable"
|+ [[Torque]]
|+ [[Torque]]
Line 1,838: Line 1,842:
|}
|}


==Energy==<!--work, heat, etc. not torque -->
== Energy <!--work, heat, etc. not torque --> ==
{{see also|Units of energy}}
{{see also|Units of energy}}
{| class="wikitable"
{| class="wikitable"
Line 1,924: Line 1,928:
| = {{val|2.8692044809344|e=3|u=J}}
| = {{val|2.8692044809344|e=3|u=J}}
|-
|-
| cubic foot of natural gas || &nbsp;
| cubic foot of natural gas ||
| ≡ {{val|1000|u=BTU<sub>IT</sub>}}
| ≡ {{val|1000|u=BTU<sub>IT</sub>}}
| = {{val|1.05505585262|e=6|u=J}}
| = {{val|1.05505585262|e=6|u=J}}
Line 1,984: Line 1,988:
| = {{val|101.325|u=J}}
| = {{val|101.325|u=J}}
|-
|-
| [[quad (energy)|quad]] || &nbsp;
| [[quad (energy)|quad]] ||
| ≡ 10<sup>15</sup> BTU<sub>IT</sub>
| ≡ 10<sup>15</sup> BTU<sub>IT</sub>
| = {{val|1.05505585262|e=18|u=J}}
| = {{val|1.05505585262|e=18|u=J}}
Line 1,992: Line 1,996:
| ≈ {{val|2.179872|e=-18|u=J}}
| ≈ {{val|2.179872|e=-18|u=J}}
|-
|-
| [[therm]] (E.C.) || &nbsp;
| [[therm]] (E.C.) ||
| ≡ {{val|100000|u=BTU<sub>IT</sub>}}
| ≡ {{val|100000|u=BTU<sub>IT</sub>}}
| = {{val|105.505585262|e=6|u=J}}
| = {{val|105.505585262|e=6|u=J}}
|-
|-
| [[therm]] (US) || &nbsp;
| [[therm]] (US) ||
| ≡ {{val|100000|u=BTU<sub>59&nbsp;°F</sub>}}
| ≡ {{val|100000|u=BTU<sub>59&nbsp;°F</sub>}}
| = {{val|105.4804|e=6|u=J}}
| = {{val|105.4804|e=6|u=J}}
Line 2,025: Line 2,029:
|}
|}


==Power or heat flow rate==
== Power or heat flow rate ==
{| class="wikitable"
{| class="wikitable"
|+ [[Power (physics)|Power]]
|+ [[Power (physics)|Power]]
Line 2,125: Line 2,129:
| ≈ {{val|70.337057|u=W}}
| ≈ {{val|70.337057|u=W}}
|-
|-
| [[ton]] of air conditioning || &nbsp;
| [[ton]] of air conditioning ||
| ≡ {{val|2000|u=lb}} of ice melted / 24 h
| ≡ {{val|2000|u=lb}} of ice melted / 24 h
| ≈ {{val|3504|u=W}}
| ≈ {{val|3504|u=W}}
|-
|-
| ton of refrigeration (imperial) || &nbsp;
| ton of refrigeration (imperial) ||
| ≡ {{val|2240|u=lb}} × ice<sub>IT</sub> / 24 h: ice<sub>IT</sub> = 144&nbsp;°F × 2326 J/kg⋅°F
| ≡ {{val|2240|u=lb}} × ice<sub>IT</sub> / 24 h: ice<sub>IT</sub> = 144&nbsp;°F × 2326 J/kg⋅°F
| ≈ {{val|3.938875|e=3|u=W}}
| ≈ {{val|3.938875|e=3|u=W}}
|-
|-
| [[ton of refrigeration]] (IT) || &nbsp;
| [[ton of refrigeration]] (IT) ||
| ≡ {{val|2000|u=lb}} × ice<sub>IT</sub> / 24 h: ice<sub>IT</sub> = 144&nbsp;°F × 2326 J/kg⋅°F
| ≡ {{val|2000|u=lb}} × ice<sub>IT</sub> / 24 h: ice<sub>IT</sub> = 144&nbsp;°F × 2326 J/kg⋅°F
| ≈ {{val|3.516853|e=3|u=W}}
| ≈ {{val|3.516853|e=3|u=W}}
Line 2,142: Line 2,146:
|}
|}


==Action==
== Action ==
{| class="wikitable"
{| class="wikitable"
|+ Action
|+ Action
Line 2,155: Line 2,159:
|}
|}


==Dynamic viscosity==
== Dynamic viscosity ==
{| class="wikitable"
{| class="wikitable"
|+ Dynamic [[viscosity]]
|+ Dynamic [[viscosity]]
Line 2,209: Line 2,213:
|}
|}


==Electric current==
== Electric current ==
{| class="wikitable"
{| class="wikitable"
|+ [[Electric current]]
|+ [[Electric current]]
Line 2,230: Line 2,234:
|}
|}


==Electric charge==
== Electric charge ==
{| class="wikitable"
{| class="wikitable"
|+ [[Electric charge]]
|+ [[Electric charge]]
Line 2,263: Line 2,267:
|}
|}


==Electric dipole==
== Electric dipole ==
{| class="wikitable"
{| class="wikitable"
|+ [[Electric dipole]]
|+ [[Electric dipole]]
Line 2,272: Line 2,276:
|-
|-
| atomic unit of electric dipole moment || ''[[elementary charge|e]]''[[Bohr radius|''a''<sub>0</sub>]]
| atomic unit of electric dipole moment || ''[[elementary charge|e]]''[[Bohr radius|''a''<sub>0</sub>]]
| &nbsp;
|
| ≈ {{val|8.47835281|e=-30|u=C⋅m}}<ref>{{citation | url=http://physics.nist.gov/cgi-bin/cuu/Value?auedm | year=2006 | title=The NIST Reference on Constants, Units, and Uncertainty | access-date=August 26, 2009}}</ref>
| ≈ {{val|8.47835281|e=-30|u=C⋅m}}<ref>{{citation | url=http://physics.nist.gov/cgi-bin/cuu/Value?auedm | year=2006 | title=The NIST Reference on Constants, Units, and Uncertainty | access-date=August 26, 2009}}</ref>
|- style="background:#dfd;"
|- style="background:#dfd;"
| coulomb-meter || C⋅m
| coulomb-meter || C⋅m
| &nbsp;
|
| = 1 C⋅m
| = 1 C⋅m
|-
|-
Line 2,284: Line 2,288:
|}
|}


==Electromotive force, electric potential difference==
== Electromotive force, electric potential difference ==
{| class="wikitable"
{| class="wikitable"
|+ [[Voltage]], electromotive force
|+ [[Voltage]], electromotive force
Line 2,305: Line 2,309:
|}
|}


==Electrical resistance==
== Electrical resistance ==
{| class="wikitable"
{| class="wikitable"
|+ [[Electrical resistance]]
|+ [[Electrical resistance]]
Line 2,318: Line 2,322:
|}
|}


==Capacitance==
== Capacitance ==
{| class="wikitable"
{| class="wikitable"
|+ [[Capacitor]]'s ability to store [[electric charge|charge]]
|+ [[Capacitor]]'s ability to store [[electric charge|charge]]
Line 2,332: Line 2,336:
|}
|}


==Magnetic flux==
== Magnetic flux ==
{| class="wikitable"
{| class="wikitable"
|+ [[Magnetic flux]]
|+ [[Magnetic flux]]
Line 2,351: Line 2,355:
|}
|}


==Magnetic flux density==
== Magnetic flux density ==
{| class="wikitable"
{| class="wikitable"
|+ What physicists call [[magnetic field]] is called [[magnetic flux]] density by electrical engineers and magnetic induction by applied mathematicians and electrical engineers.
|+ What physicists call [[magnetic field]] is called [[magnetic flux]] density by electrical engineers and magnetic induction by applied mathematicians and electrical engineers.
Line 2,368: Line 2,372:
|}
|}


==Inductance==
== Inductance ==
{| class="wikitable"
{| class="wikitable"
|+ [[Inductance]]
|+ [[Inductance]]
Line 2,381: Line 2,385:
|}
|}


==Temperature==
== Temperature ==
{{further|Conversion of units of temperature}}
{{further|Conversion of units of temperature}}
{| class="wikitable"
{| class="wikitable"
Line 2,427: Line 2,431:
|}
|}


==Information entropy==
== Information entropy ==


{| class="wikitable"
{| class="wikitable"
Line 2,480: Line 2,484:
Modern standards (such as [[ISO 80000]]) prefer the [[shannon (unit)|shannon]] to the bit as a unit for a quantity of information entropy, whereas the (discrete) storage space of digital devices is measured in bits. Thus, uncompressed redundant data occupy more than one bit of storage per shannon of information entropy. The multiples of a bit listed above are usually used with this meaning.
Modern standards (such as [[ISO 80000]]) prefer the [[shannon (unit)|shannon]] to the bit as a unit for a quantity of information entropy, whereas the (discrete) storage space of digital devices is measured in bits. Thus, uncompressed redundant data occupy more than one bit of storage per shannon of information entropy. The multiples of a bit listed above are usually used with this meaning.


==Luminous intensity==
== Luminous intensity ==
The candela is the preferred nomenclature for the SI unit.
The candela is the preferred nomenclature for the SI unit.
{| class="wikitable"
{| class="wikitable"
Line 2,506: Line 2,510:
|}
|}


==Luminance==
== Luminance ==
{| class="wikitable"
{| class="wikitable"
|+ [[Luminance]]
|+ [[Luminance]]
Line 2,546: Line 2,550:
|}
|}


==Luminous flux==
== Luminous flux ==
{| class="wikitable"
{| class="wikitable"
|+ [[Luminous flux]]
|+ [[Luminous flux]]
Line 2,561: Line 2,565:
|}
|}


==Illuminance==
== Illuminance ==
{| class="wikitable"
{| class="wikitable"
|+ [[Illuminance]]
|+ [[Illuminance]]
Line 2,591: Line 2,595:
|}
|}


==Radiation==
== Radiation ==


===Radiation – source activity===
=== Radiation – source activity ===
{| class="wikitable"
{| class="wikitable"
|+ [[Radioactivity]]
|+ [[Radioactivity]]
Line 2,616: Line 2,620:
Although becquerel (Bq) and hertz (Hz) both ultimately refer to the same SI base unit (s<sup>−1</sup>), Hz is used only for periodic phenomena (i.e. repetitions at regular intervals), and Bq is only used for stochastic processes (i.e. at random intervals) associated with radioactivity.<ref name=sibrochure222>{{citation|url=http://www.bipm.org/en/si/si_brochure/chapter2/2-2/table3.html |title=The International System of Units, Section 2.2.2., Table 3 |edition=8 |publisher=[[Bureau International des Poids et Mesures]] |year=2006 |access-date=August 27, 2009 |url-status=dead |archive-url=https://web.archive.org/web/20070618123613/http://www.bipm.org/en/si/si_brochure/chapter2/2-2/table3.html |archive-date=June 18, 2007 }}</ref>
Although becquerel (Bq) and hertz (Hz) both ultimately refer to the same SI base unit (s<sup>−1</sup>), Hz is used only for periodic phenomena (i.e. repetitions at regular intervals), and Bq is only used for stochastic processes (i.e. at random intervals) associated with radioactivity.<ref name=sibrochure222>{{citation|url=http://www.bipm.org/en/si/si_brochure/chapter2/2-2/table3.html |title=The International System of Units, Section 2.2.2., Table 3 |edition=8 |publisher=[[Bureau International des Poids et Mesures]] |year=2006 |access-date=August 27, 2009 |url-status=dead |archive-url=https://web.archive.org/web/20070618123613/http://www.bipm.org/en/si/si_brochure/chapter2/2-2/table3.html |archive-date=June 18, 2007 }}</ref>


===Radiation – exposure===
=== Radiation – exposure ===
{| class="wikitable"
{| class="wikitable"
|+ Radiation – exposure
|+ Radiation – exposure
Line 2,631: Line 2,635:
The roentgen is not an SI unit and the [[National Institute of Standards and Technology|NIST]] strongly discourages its continued use.<ref>{{citation | url=http://physics.nist.gov/Pubs/SP811/sec05.html#5.2 | title=The NIST Guide to the SI (Special Publication 811), section 5.2 | journal=NIST | year=2008 | access-date=August 27, 2009}}</ref>
The roentgen is not an SI unit and the [[National Institute of Standards and Technology|NIST]] strongly discourages its continued use.<ref>{{citation | url=http://physics.nist.gov/Pubs/SP811/sec05.html#5.2 | title=The NIST Guide to the SI (Special Publication 811), section 5.2 | journal=NIST | year=2008 | access-date=August 27, 2009}}</ref>


===Radiation – absorbed dose===
=== Radiation – absorbed dose ===
{| class="wikitable"
{| class="wikitable"
|+ Radiation – [[absorbed dose]]
|+ Radiation – [[absorbed dose]]
Line 2,649: Line 2,653:
|}
|}


===Radiation – equivalent dose===
=== Radiation – equivalent dose ===
{| class="wikitable"
{| class="wikitable"
|+ Radiation – [[equivalent dose]]
|+ Radiation – [[equivalent dose]]
Line 2,670: Line 2,674:
where ''H'' is the equivalent dose, ''D'' is the absorbed dose, and ''Q'' is a dimensionless quality factor. Thus, for any quantity of ''D'' measured in Gy, the numerical value for ''H'' measured in Sv may be different.<ref>{{citation | url=http://www.bipm.org/en/CIPM/db/2002/2/ | title=Comité international des poids et mesures, 2002, Recommendation 2 | access-date=August 27, 2009}}</ref>
where ''H'' is the equivalent dose, ''D'' is the absorbed dose, and ''Q'' is a dimensionless quality factor. Thus, for any quantity of ''D'' measured in Gy, the numerical value for ''H'' measured in Sv may be different.<ref>{{citation | url=http://www.bipm.org/en/CIPM/db/2002/2/ | title=Comité international des poids et mesures, 2002, Recommendation 2 | access-date=August 27, 2009}}</ref>


==Notes==
== Notes ==
{{reflist|group=Converter}}
{{reflist|group=Converter}}


== External links ==
==References==
* [https://onlinecalculator.onl/soot-to-mm/ Soot to mm Converter]
* [https://onlinecalculator.onl/soot-to-inch/ Soot to Inch Calculator]

== References ==
{{reflist}}
{{reflist}}



Latest revision as of 18:23, 15 September 2024

This article gives a list of conversion factors for several physical quantities. A number of different units (some only of historical interest) are shown and expressed in terms of the corresponding SI unit. Conversions between units in the metric system are defined by their prefixes (for example, 1 kilogram = 1000 grams, 1 milligram = 0.001 grams) and are thus not listed in this article. Exceptions are made if the unit is commonly known by another name (for example, 1 micron = 10−6 metre). Within each table, the units are listed alphabetically, and the SI units (base or derived) are highlighted.

The following quantities are considered: length, area, volume, plane angle, solid angle, mass, density, time, frequency, velocity, volumetric flow rate, acceleration, force, pressure (or mechanical stress), torque (or moment of force), energy, power (or heat flow rate), action, dynamic viscosity, kinematic viscosity, electric current, electric charge, electric dipole, electromotive force (or electric potential difference), electrical resistance, capacitance, magnetic flux, magnetic flux density, inductance, temperature, information entropy, luminous intensity, luminance, luminous flux, illuminance, radiation.

Legend
Symbol Definition
exactly equal
approximately equal to
(exactly) corresponds to (different types of quantity describing the same phenomenon)
digits indicates that digits repeat infinitely (e.g. 8.294369 corresponds to 8.294369369369369...)
(H) of chiefly historical interest

Length

[edit]
Length
Name of unit Symbol Definition Relation to SI units
ångström Å 1×10−10 m ≡ 0.1 nm
astronomical unit au 149597870700 m
≈ Distance from Earth to Sun
149597870700 m [1]
attometre am 1×10−18 m 1×10−18 m
barleycorn (H) = 13 in (see note above about rounding) = 8.46×10−3 m
bohr, atomic unit of length a0 = Bohr radius of hydrogen 5.2917721092(17)×10−11 m[2]
cable length (imperial) ≡ 608 ft ≈ 185.3184 m
cable length (International) 110 nmi ≡ 185.2 m
cable length (US) ≡ 720 ft = 219.456 m
chain (Gunter's; Surveyor's) ch ≡ 66 ft (US) ≡ 4 rods[3] 20.11684 m
cubit (H) ≡ Distance from fingers to elbow ≈ 18 in ≈ 0.5 m
ell (H) ell ≡ 45 in [4] (In England usually) = 1.143 m
fathom ftm ≡ 6 ft [4] = 1.8288 m
femtometre fm 1×10−15 m 1×10−15 m
fermi fm 1×10−15 m[4] 1×10−15 m
finger 78 in = 0.022225 m
finger (cloth) 4+12 in = 0.1143 m
foot (Benoît) (H) ft (Ben) 0.304799735 m
foot (Cape) (H) Legally defined as 1.033 English feet in 1859 0.314858 m
foot (Clarke's) (H) ft (Cla) 0.3047972654 m
foot (Indian) (H) ft Ind 0.304799514 m
foot, metric mf ≡ 300 mm ≡ 0.3 m
foot, metric (Mesures usuelles) (H) 13 m ≡ 0.3 m
foot (International) ft ≡ 0.3048 m ≡ 13 yd ≡ 12 inches ≡ 0.3048 m
foot (Sear's) (H) ft (Sear) 0.30479947 m
foot (US Survey) ft (US) 12003937 m [5] 0.304800610 m
french; charriere F 13 mm = 0.3×10−3 m
furlong fur ≡ 10 chains = 660 ft = 220 yd [4] = 201.168 m
hand ≡ 4 in [4] ≡ 0.1016 m
inch (International) in ≡ 2.54 cm ≡ 136 yd ≡ 112 ft ≡ 0.0254 m
league (land) lea ≈ 1 hour walk, Currently defined in US as 3 Statute miles,[3] but historically varied from 2 to 9 km 4828 m
light-day ≡ 24 light-hours 2.59020683712×1013 m
light-hour ≡ 60 light-minutes 1.0792528488×1012 m
light-minute ≡ 60 light-seconds 1.798754748×1010 m
light-second ≡ Distance light travels in one second in vacuum 299792458 m
light-year ly ≡ Distance light travels in vacuum in 365.25 days [6] 9.4607304725808×1015 m
line ln 112 in [7] = 0.002116 m
link (Gunter's; Surveyor's) lnk 1100 ch [4] ≡ 0.66 ft (US) ≡ 7.92 in 0.2011684 m
link (Ramsden's; Engineer's) lnk ≡ 1 ft [4] = 0.3048 m
metre (SI base unit)
(meter)
m ≡ Distance light travels in 1299792458 of a second in vacuum.[8] (SI base unit)
mickey 1200 in = 1.27×10−4 m
micrometre (old: micron) μ; μm 1×10−6 m 1×10−6 m
mil; thou mil 1×10−3 in = 2.54×10−5 m
mil (Sweden and Norway) mil ≡ 10 km = 10000 m
mile (geographical) (H) 6082 ft = 1853.7936 m
mile (international) mi ≡ 80 chains ≡ 5280 ft1760 yd 1609.344 m
mile (tactical or data) 6000 ft 1828.8 m
mile (telegraph) (H) mi 6087 ft = 1855.3176 m
mile (US Survey) mi 5280 US Survey feet ≡ (5280 × 12003937) m 1609.347219 m
nail (cloth) 2+14 in [4] = 0.05715 m
nanometre nm 1×10−9 m 1×10−9 m
nautical league NL; nl ≡ 3 nmi [4] = 5556 m
nautical mile (Admiralty) NM (Adm);
nmi (Adm)
= 6080 ft = 1853.184 m
nautical mile (international) NM; nmi 1852 m[9] 1852 m
nautical mile (US pre 1954) ≡ 1853.248 m ≡ 1853.248 m
pace ≡ 2.5 ft [4] = 0.762 m
palm ≡ 3 in [4] = 0.0762 m
parsec pc Distant point with a parallax shift of one arc second from a base of one astronomical unit.
648000/π au[10][11]
30856775814913700 m[12]
pica ≡ 12 points Dependent on point measures.
picometre pm 1×10−12 m 1×10−12 m
point (American, English)[13][14] pt 172.272 in 0.000351450 m
point (Didot; European) [14][15] pt 112 × 172 of pied du roi;
After 1878:
5133 cm
0.00037597 m;
After 1878:
0.00037593985 m
point (PostScript) [13] pt 172 in = 0.0003527 m
point (TeX) [13] pt 172.27 in = 0.0003514598 m
quarter 14 yd = 0.2286 m
rod; pole; perch (H) rd 16+12 ft = 5.0292 m
rope (H) rope ≡ 20 ft [4] = 6.096 m
shaku (Japan) ≡ 10/33 m ≈ 0.303 0303 m
span (H) ≡ 9 in [4] = 0.2286 m
spat[16] 1×1012 m
stick (H) ≡ 2 in = 0.0508 m
soot ≡ 1/8 in = 0.0031 m
toise (French, post 1667) (H) T ≡ 27000/13853 m ≈ 1.949 0363 m
twip twp 11440 in = 1.7638×10−5 m
x unit; siegbahn xu 1.0021×10−13 m [4]
yard (International) yd ≡ 0.9144 m [5] ≡ 3 ft ≡ 36 in ≡ 0.9144 m
yoctometre ym 1×10−24 m 1×10−24 m
zeptometre zm 1×10−21 m 1×10−21 m

Area

[edit]
Area
Name of unit Symbol Definition Relation to SI units
acre (international) ac 1 ch × 10 ch = 4840 sq yd 4046.8564224 m2
acre (US survey) ac ≡ 10 sq ch = 4840 sq yd, also 43560 sq ft 4046.873 m2[17]
are a ≡ 100 m2 ≡ 100 m2
barn b ≡ 10−28 m2 ≡ 10−28 m2
barony 4000 ac 1.61874256896×107 m2
board bd 1 in × 1 ft 7.74192×10−3 m2
boiler horsepower equivalent direct radiation bhp EDR ≡ 1 ft2 × 1 bhp / (240 BTUIT/h) 12.958174 m2
circular inch circ in π4 sq in 5.067075×10−4 m2
circular mil; circular thou circ mil π4 mil2 5.067075×10−10 m2
cord ≡ 192 bd 1.48644864 m2
cuerda (PR Survey) cda ≡ 1 cda x 1 cda = 0.971222 acre 3930.395625 m2
dunam 1000 m2 1000 m2
guntha (India) ≡ 121 sq yd ≈ 101.17 m2
hectare ha 10000 m2 10000 m2
hide ≈ 120 ac (variable) 5×105 m2
rood ro 14 ac = 1011.7141056 m2
ping 2011 m × 2011 m 3.306 m2
section 1 mi × 1 mi = 2.589988110336×106 m2
shed ≡ 10−52 m2 = 10−52 m2
square (roofing) 10 ft × 10 ft = 9.290304 m2
square chain (international) sq ch 66 ft × 66 ft = 110 ac 404.68564224 m2
square chain (US Survey) sq ch 66 ft (US) × 66 ft (US) = 110 US survey acre 404.6873 m2
square foot sq ft 1 ft × 1 ft 9.290304×10−2 m2
square foot (US Survey) sq ft 1 ft (US) × 1 ft (US) 9.2903411613275×10−2 m2
square inch sq in 1 in × 1 in 6.4516×10−4 m2
square kilometre km2 ≡ 1 km × 1 km = 106 m2
square link (Gunter's)(International) sq lnk ≡ 1 lnk × 1 lnk ≡ 0.66 ft × 0.66 ft = 4.0468564224×10−2 m2
square link (Gunter's)(US Survey) sq lnk 1 lnk × 1 lnk0.66 ft (US) × 0.66 ft (US) 4.046872×10−2 m2
square link (Ramsden's) sq lnk ≡ 1 lnk × 1 lnk ≡ 1 ft × 1 ft = 0.09290304 m2
square metre (SI unit) m2 ≡ 1 m × 1 m = 1 m2
square mil; square thou sq mil ≡ 1 mil × 1 mil = 6.4516×10−10 m2
square mile sq mi ≡ 1 mi × 1 mi 2.589988110336×106 m2
square mile (US Survey) sq mi ≡ 1 mi (US) × 1 mi (US) 2.58999847×106 m2
square rod/pole/perch sq rd ≡ 1 rd × 1 rd = 25.29285264 m2
square yard (International) sq yd ≡ 1 yd × 1 yd 0.83612736 m2
stremma 1000 m2 = 1000 m2
township ≡ 36 sq mi (US) 9.323994×107 m2
yardland ≈ 30 ac 1.2×105 m2

Volume

[edit]
Volume
Name of unit Symbol Definition Relation to SI units
acre-foot ac ft ≡ 1 ac x 1 ft = 43560 cu ft = 1233.48183754752 m3
acre-inch ≡ 1 ac × 1 in = 102.79015312896 m3
barrel (imperial) bl (imp) ≡ 36 gal (imp) = 0.16365924 m3
barrel (petroleum); archaic blue-barrel bl; bbl ≡ 42 gal (US) 0.158987294928 m3
barrel (US dry) bl (US) ≡ 105 qt (US) = 105/32 bu (US lvl) = 0.115628198985075 m3
barrel (US fluid) fl bl (US) 31+12 gal (US) = 0.119240471196 m3
board-foot bdft ≡ 144 cu in 2.359737216×10−3 m3
bucket (imperial) bkt ≡ 4 gal (imp) = 0.01818436 m3
bushel (imperial) bu (imp) ≡ 8 gal (imp) = 0.03636872 m3
bushel (US dry heaped) bu (US) 1+14 bu (US lvl) = 0.0440488377086 m3
bushel (US dry level) bu (US lvl) 2150.42 cu in = 0.03523907016688 m3
butt, pipe ≡ 126 gal (US) (wine) = 0.476961884784 m3
coomb ≡ 4 bu (imp) = 0.14547488 m3
cord (firewood) 8 ft × 4 ft × 4 ft = 3.624556363776 m3
cord-foot ≡ 16 cu ft = 0.453069545472 m3
cubic fathom cu fm ≡ 1 fm × 1 fm × 1 fm = 6.116438863872 m3
cubic foot ft3 ≡ 1 ft × 1 ft × 1 ft 0.028316846592 m3
cubic inch in3 ≡ 1 in × 1 in × 1 in 16.387064×10−6 m3
cubic metre (SI unit) m3 ≡ 1 m × 1 m × 1 m ≡ 1 m3
cubic mile cu mi ≡ 1 mi × 1 mi × 1 mi 4168181825.440579584 m3
cubic yard yd3 ≡ 27 cu ft 0.764554857984 m3
cup (breakfast) ≡ 10 fl oz (imp) = 284.130625×10−6 m3
cup (Canadian) c (CA) ≡ 8 fl oz (imp) = 227.3045×10−6 m3
cup (metric) c 250.0×10−6 m3 250.0×10−6 m3
cup (US customary) c (US) ≡ 8 US fl oz ≡ 116 gal (US) = 236.5882365×10−6 m3
cup (US food nutrition labeling) c (US) ≡ 240 mL[18] = 2.4×10−4 m3
dash (imperial) 1192 gi (imp) = 1/8 tsp (imp) = 739.92350260416×10−9 m3
dash (US) 148 US fl oz = 1/8 US tsp = 616.11519921875×10−9 m3
dessertspoon (imperial) 112 gi (imp) = 11.8387760416×10−6 m3
drop (imperial) gtt 1288 fl oz (imp) = 98.6564670138×10−9 m3
drop (imperial) (alt) gtt 11824 gi (imp) 77.886684×10−9 m3
drop (medical) 112 mL = 83.3×10−9 m3
drop (metric) 120 mL = 50.0×10−9 m3
drop (US) gtt 1360 US fl oz = 82.14869322916×10−9 m3
drop (US) (alt) gtt 1456 US fl oz 64.85423149671×10−9 m3
drop (US) (alt) gtt 1576 US fl oz 51.34293326823×10−9 m3
fifth 15 US gal = 757.0823568×10−6 m3
firkin ≡ 9 gal (imp) = 0.04091481 m3
fluid drachm (imperial) fl dr 18 fl oz (imp) = 3.5516328125×10−6 m3
fluid dram (US); US fluidram fl dr 18 US fl oz = 3.6966911953125×10−6 m3
fluid scruple (imperial) fl s 124 fl oz (imp) = 1.18387760416×10−6 m3
gallon (beer) beer gal ≡ 282 cu in = 4.621152048×10−3 m3
gallon (imperial) gal (imp) 4.54609 L 4.54609×10−3 m3
gallon (US dry) gal (US) 18 bu (US lvl) = 4.40488377086×10−3 m3
gallon (US fluid; Wine) gal (US) ≡ 231 cu in 3.785411784×10−3 m3
gill (imperial); Noggin gi (imp); nog ≡ 5 fl oz (imp) = 142.0653125×10−6 m3
gill (US) gi (US) ≡ 4 US fl oz = 118.29411825×10−6 m3
hogshead (imperial) hhd (imp) ≡ 2 bl (imp) = 0.32731848 m3
hogshead (US) hhd (US) ≡ 2 fl bl (US) = 0.238480942392 m3
jigger (bartending) 1+12 US fl oz 44.36×10−6 m3
kilderkin ≡ 18 gal (imp) = 0.08182962 m3
lambda λ ≡ 1 mm3 = 1×10−9 m3
last ≡ 80 bu (imp) = 2.9094976 m3
litre
(liter)
L or l ≡ 1 dm3 [19] ≡ 0.001 m3
load ≡ 50 cu ft = 1.4158423296 m3
minim (imperial) min 1480 fl oz (imp) = 1/60 fl dr (imp) = 59.1938802083×10−9 m3
minim (US) min 1480 US fl oz = 160 US fl dr = 61.611519921875×10−9 m3
ounce (fluid imperial) fl oz (imp) 1160 gal (imp) 28.4130625×10−6 m3
ounce (fluid US customary) US fl oz 1128 gal (US) 29.5735295625×10−6 m3
ounce (fluid US food nutrition labeling) US fl oz ≡ 30 mL[18] 3×10−5 m3
peck (imperial) pk ≡ 2 gal (imp) = 9.09218×10−3 m3
peck (US dry) pk 14 US lvl bu = 8.80976754172×10−3 m3
perch per 16+12 ft × 1+12 ft × 1 ft = 0.700841953152 m3
pinch (imperial) 1384 gi (imp) = 12 dash (imp) = 369.961751302083×10−9 m3
pinch (US) 196 US fl oz = 12 US dash = 308.057599609375×10−9 m3
pint (imperial) pt (imp) 18 gal (imp) = 568.26125×10−6 m3
pint (US dry) pt (US dry) 164 bu (US lvl) ≡ 18 gal (US dry) = 550.6104713575×10−6 m3
pint (US fluid) pt (US fl) 18 gal (US) = 473.176473×10−6 m3
pony 34 US fl oz = 22.180147171875×10−6 m3
pottle; quartern 12 gal (imp) = 80 fl oz (imp) = 2.273045×10−3 m3
quart (imperial) qt (imp) 14 gal (imp) = 1.1365225×10−3 m3
quart (US dry) qt (US) 132 bu (US lvl) = 14 gal (US dry) = 1.101220942715×10−3 m3
quart (US fluid) qt (US) 14 gal (US fl) = 946.352946×10−6 m3
quarter; pail ≡ 8 bu (imp) = 0.29094976 m3
register ton ≡ 100 cu ft = 2.8316846592 m3
sack (US) ≡ 3 bu (US lvl) = 0.10571721050064 m3
seam ≡ 8 bu [16] = 0.29095 m3
shot (US) usually 1.5 US fl oz[16] 44.4×10−6 m3
strike (imperial) ≡ 2 bu (imp) = 0.07273744 m3
strike (US) ≡ 2 bu (US lvl) = 0.07047814033376 m3
tablespoon (Australian metric) 20.0×10−6 m3
tablespoon (Canadian) tbsp 12 fl oz (imp) = 14.20653125×10−6 m3
tablespoon (imperial) tbsp 58 fl oz (imp) = 17.7581640625×10−6 m3
tablespoon (metric) 15×10−6 m3
tablespoon (US customary) tbsp 12 US fl oz = 14.78676478125×10−6 m3
tablespoon (US food nutrition labeling) tbsp ≡ 15 mL[18] = 15×10−6 m3
teaspoon (Canadian) tsp 16 fl oz (imp) = 4.735510416×10−6 m3
teaspoon (imperial) tsp 124 gi (imp) = 5.91938802083×10−6 m3
teaspoon (metric) 5.0×10−6 m3 5.0×10−6 m3
teaspoon (US customary) tsp 16 US fl oz = 4.92892159375×10−6 m3
teaspoon (US food nutrition labeling) tsp ≡ 5 mL[18] = 5×10−6 m3
timber foot ≡ 1 cu ft = 0.028316846592 m3
ton (displacement) ≡ 35 cu ft = 0.99108963072 m3
ton (freight) ≡ 40 cu ft = 1.13267386368 m3
ton (water) ≡ 28 bu (imp) = 1.01832416 m3
tun ≡ 252 gal (wine) = 0.953923769568 m3
wey (US) ≡ 40 bu (US lvl) = 1.4095628066752 m3

Plane angle

[edit]
Plane angle
Name of unit Symbol Definition Relation to SI units
NATO mil (various) 6400 rad 0.981748×10−3 rad
Swedish streck 6300 rad 0.997302×10−3 rad
milliradian mrad 11000 rad 1×10−3 rad
Warsaw Pact mil 6000 rad 1.047167×10−3 rad
arcminute; MOA ' 60 0.290888×10−3 rad
arcsecond " 3600 4.848137×10−6 rad
centesimal minute of arc ' 1100 grad 0.157080×10−3 rad
centesimal second of arc " 110000 grad 1.570796×10−6 rad
degree (of arc) ° 1360 of a revolution ≡ π180 rad 17.453293×10−3 rad
grad; gradian; gon grad 1400 of a revolution ≡ π200 rad ≡ 0.9° 15.707963×10−3 rad
octant ≡ 45° 0.785398 rad
quadrant ≡ 90° 1.570796 rad
radian (SI unit) rad The angle subtended at the center of a circle by an arc whose length is equal to the circle's radius.
One full revolution encompasses 2π radians.
= 1 rad
sextant ≡ 60° 1.047198 rad
sign ≡ 30° 0.523599 rad

Solid angle

[edit]
Solid angle
Name of unit Symbol Definition Relation to SI units
spat ≡ 4π sr[16] – The solid angle subtended by a sphere at its centre. 12.56637 sr
square degree deg2; sq.deg.; (°)2 ≡ (π180)2 sr 0.30462×10−3 sr
steradian (SI unit) sr The solid angle subtended at the center of a sphere of radius r by a portion of the sphere having an area r2.
A sphere subtends 4π sr.[16]
= 1 sr

Mass

[edit]

Notes:

  • See Weight for detail of mass/weight distinction and conversion.
  • Avoirdupois is a system of mass based on a pound of 16 ounces, while Troy weight is the system of mass where 12 troy ounces equals one troy pound.
  • The symbol g0 is used to denote standard gravity in order to avoid confusion with the (upright) g symbol for gram.
Mass
Name of unit Symbol Definition Relation to SI units
atomic mass unit, unified u; AMU Same as dalton (see below) ≈ 1.66053906892(52)×10−27 kg[20]
atomic unit of mass, electron rest mass me 9.1093837139(28)×10−31 kg[21]
bag (coffee) ≡ 60 kg = 60 kg
bag (Portland cement) ≡ 94 lb av = 42.63768278 kg
barge 22+12 short ton = 20411.65665 kg
carat kt 3+16 gr = 205.1965483 mg
carat (metric) ct ≡ 200 mg = 200 mg
clove ≡ 8 lb av = 3.62873896 kg
crith ≡ mass of 1 L of hydrogen gas at STP ≈ 89.9349 mg
dalton Da 1/12 the mass of an unbound neutral atom of carbon-12 in its nuclear and electronic ground state and at rest 1.66053906892(52)×10−27 kg[20]
dram (apothecary; troy) dr t ≡ 60 gr = 3.8879346 g
dram (avoirdupois) dr av 27+1132 gr = 1.7718451953125 g
electronvolt mass-equivalent eV/c2 ≡ 1 eV / c2 = 1.78266184(45)×10−36 kg[3]
gamma γ ≡ 1 μg = 1 μg
grain gr 17000 lb av 64.79891 mg
grave gv grave was the original name of the kilogram ≡ 1 kg
hundredweight (long) long cwt or cwt ≡ 112 lb av = 50.80234544 kg
hundredweight (short); cental sh cwt ≡ 100 lb av = 45.359237 kg
hyl; metric slug ≡ 1 kgf / 1 m/s2 = 9.80665 kg
kilogram
(kilogramme)
kg ≈ mass of the prototype near Paris
≈ mass of 1 litre of water
(SI base unit)[8]
kip kip 1000 lb av = 453.59237 kg
mark ≡ 8 oz t = 248.8278144 g
mite 120 gr = 3.2399455 mg
mite (metric) 120 g = 50 mg
ounce (apothecary; troy) oz t 112 lb t = 31.1034768 g
ounce (avoirdupois) oz av 116 lb = 28.349523125 g
ounce (US food nutrition labelling) oz ≡ 28 g[18] = 28 g
pennyweight dwt; pwt 120 oz t = 1.55517384 g
point 1100 ct = 2 mg
pound (avoirdupois) lb av 0.45359237 kg = 7000 grains 0.45359237 kg
pound (metric) ≡ 500 g = 500 g
pound (troy) lb t 5760 grains = 0.3732417216 kg
quarter (imperial) 14 long cwt = 2 st = 28 lb av = 12.70058636 kg
quarter (informal) 14 short ton = 226.796185 kg
quarter, long (informal) 14 long ton = 254.0117272 kg
quintal (metric) q ≡ 100 kg = 100 kg
scruple (apothecary) s ap ≡ 20 gr = 1.2959782 g
sheet 1700 lb av = 647.9891 mg
slug; geepound slug g0 × 1 lb av × 1 s2/ft 14.593903 kg
stone st ≡ 14 lb av = 6.35029318 kg
ton, assay (long) AT ≡ 1 mg × 1 long ton ÷ 1 oz t = 32.6 g
ton, assay (short) AT ≡ 1 mg × 1 short ton ÷ 1 oz t = 29.16 g
ton, long long tn or ton 2240 lb = 1016.0469088 kg
ton, short sh tn 2000 lb = 907.18474 kg
tonne (mts unit) t 1000 kg = 1000 kg
wey ≡ 252 lb = 18 st = 114.30527724 kg (variants exist)
zentner Ztr. Definitions vary.[16][22]

Density

[edit]
Density
Name of unit Symbol Definition Relation to SI units
gram per millilitre g/mL ≡ g/mL = 1000 kg/m3
kilogram per cubic metre (SI unit) kg/m3 ≡ kg/m3 = 1 kg/m3
kilogram per litre kg/L ≡ kg/L = 1000 kg/m3
ounce (avoirdupois) per cubic foot oz/ft3 ≡ oz/ft3 1.001153961 kg/m3
ounce (avoirdupois) per cubic inch oz/in3 ≡ oz/in3 1.729994044×103 kg/m3
ounce (avoirdupois) per gallon (imperial) oz/gal ≡ oz/gal 6.236023291 kg/m3
ounce (avoirdupois) per gallon (US fluid) oz/gal ≡ oz/gal 7.489151707 kg/m3
pound (avoirdupois) per cubic foot lb/ft3 ≡ lb/ft3 16.01846337 kg/m3
pound (avoirdupois) per cubic inch lb/in3 ≡ lb/in3 2.767990471×104 kg/m3
pound (avoirdupois) per gallon (imperial) lb/gal ≡ lb/gal 99.77637266 kg/m3
pound (avoirdupois) per gallon (US fluid) lb/gal ≡ lb/gal 119.8264273 kg/m3
slug per cubic foot slug/ft3 ≡ slug/ft3 515.3788184 kg/m3

Time

[edit]
Time
Name of unit Symbol Definition Relation to SI units
atomic unit of time a.u. a0/(αc) 2.418884254×10−17 s
Callippic cycle ≡ 441 mo (hollow) + 499 mo (full) = 76 a of 365.25 d = 2.396736 Gs or 2.3983776 Gs[note 1]
century c ≡ 100 years (100 a) 3.1556952 Gs[note 2][note 3]
day d = 24 h = 1440 min = 86.4 ks[note 3]
day (sidereal) d ≡ Time needed for the Earth to rotate once around its axis, determined from successive transits of a very distant astronomical object across an observer's meridian (International Celestial Reference Frame) 86.1641 ks
decade dec ≡ 10 years (10 a) = 315.569520 Ms[note 2][note 3]
fortnight fn ≡ 2 wk = 1.2096 Ms[note 3]
helek 11080 h = 3.3 s
Hipparchic cycle ≡ 4 Callippic cycles - 1 d = 9.593424 Gs
hour h ≡ 60 min = 3.6 ks[note 3]
jiffy j 160 s = 16.6 ms
jiffy (alternative) ja 1100 s = 10 ms
(quarter of an hour) 14 h = 196 d = 15 min = 900 s
kè (traditional) 1100 d = 14.4 min = 864 s
lustre; lūstrum ≡ 5 a of 365 d[note 4] = 157.68 Ms
Metonic cycle; enneadecaeteris ≡ 110 mo (hollow) + 125 mo (full) = 6940 d ≈ 19 a = 599.616 Ms
millennium 1000 years (1000 a) 31.556952 Gs[note 2][note 3]
milliday md 11000 d = 86.4 s
minute min ≡ 60 s, due to leap seconds sometimes 59 s or 61 s, = 60 s[note 3]
moment ≡ 90 s = 90 s
month (full) mo ≡ 30 d[23] = 2.592×106 s[note 3]
month (Greg. av.) mo = 30.436875 d 2.6297 Ms[note 3]
month (hollow) mo ≡ 29 d[23] = 2.5056 Ms[note 3]
Month (synodic) mo Cycle time of moon phases ≈ 29.530589 d (average) 2.551 Ms
octaeteris = 48 mo (full) + 48 mo (hollow) + 3 mo (full)[24][25] = 8 a of 365.25 d = 2922 d = 252.4608 Ms[note 3]
Planck time ≡ (Gc5)12 5.39116×10−44 s[26]
second (SI base unit) s ≡ Time of 9192631770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium-133 atom at 0 K[8] (but other seconds are sometimes used in astronomy). Also that time it takes for light to travel a distance of 299792458 metres. (SI base unit)
shake ≡ 10−8 s = 10 ns
sigma ≡ 10−6 s = 1 μs
Sothic cycle 1461 a of 365 d = 46.074096 Gs
svedberg S ≡ 10−13 s = 100 fs
week wk ≡ 7 d = 168 h = 10080 min = 604.8 ks[note 3]
year (common) a, y, or yr 365 d = 31.536 Ms[note 3][27]
year (Gregorian) a, y, or yr = 365.2425 d average, calculated from common years (365 d) plus leap years (366 d) on most years divisible by 4. See leap year for details. = 31.556952 Ms[note 3]
year (Julian) a, y, or yr = 365.25 d average, calculated from common years (365 d) plus one leap year (366 d) every four years = 31.5576 Ms
year (leap) a, y, or yr 366 d = 31.6224 Ms[note 3][27]
year (mean tropical) a, y, or yr Conceptually, the length of time it takes for the Sun to return to the same position in the cycle of seasons, [Converter 1] approximately 365.24219 d, each day being 86400 SI seconds[28] 31.556925 Ms
year (sidereal) a, y, or yr ≡ Time taken for Sun to return to the same position with respect to the stars of the celestial sphere, approximately 365.256363 d 31.5581497632 Ms
Notes:
  1. ^ see Callippic cycle for explanation of the differences
  2. ^ a b c This is based on the average Gregorian year. See above for definition of year lengths.
  3. ^ a b c d e f g h i j k l m n o Where UTC is observed, the length of this unit may increase or decrease
    depending on the number of leap seconds which occur during the time interval in question.
  4. ^ The length of ancient lustral cycles was not constant; see Lustrum for more details

Frequency

[edit]
Frequency
Name of unit Symbol Definition Relation to SI units
actions per minute APM ≡ 1/60 Hz 0.0167 Hz
cycle per second cps ≡ 1 Hz = 1 cps = 1 Hz
degree per second deg/s ≡ 1 °/s ≡ 1/360 Hz = 0.0027 Hz
hertz (SI unit) Hz ≡ One cycle per second = 1 Hz = 1/s
radian per second rad/s ≡ 1/(2π) Hz 0.159155 Hz
revolution per minute rpm ≡ One rpm equals one rotation completed around a fixed axis in one minute of time. 0.104719755 rad/s

Speed or velocity

[edit]
Speed
Name of unit Symbol Definition Relation to SI units
foot per hour fph ≡ 1 ft/h = 8.46×10−5 m/s
foot per minute fpm ≡ 1 ft/min = 5.08×10−3 m/s
foot per second fps ≡ 1 ft/s = 3.048×10−1 m/s
furlong per fortnight ≡ furlong/fortnight 1.663095×10−4 m/s
inch per hour iph ≡ 1 in/h = 7.05×10−6 m/s
inch per minute ipm ≡ 1 in/min = 4.23×10−4 m/s
inch per second ips ≡ 1 in/s = 2.54×10−2 m/s
kilometre per hour km/h ≡ 1 km/h = 2.7×10−1 m/s
knot kn ≡ 1 nmi/h = 1.852 km/h = 0.514 m/s
knot (Admiralty) kn ≡ 1 NM (Adm)/h = 1.853184 km/h[29] = 0.514773 m/s
mach number M Ratio of the speed to the speed of sound[note 1] in the medium (unitless). ≈ 340 m/s in air at sea level
≈ 295 m/s in air at jet altitudes
metre per second (SI unit) m/s ≡ 1 m/s = 1 m/s
mile per hour mph ≡ 1 mi/h = 0.44704 m/s
mile per minute mpm ≡ 1 mi/min = 26.8224 m/s
mile per second mps ≡ 1 mi/s = 1609.344 m/s
speed of light in vacuum c 299792458 m/s = 299792458 m/s
speed of sound in air s 1225 to 1062 km/h (761–660 mph or 661–574 kn)[note 1] 340 to 295 m/s
Note
  1. ^ a b The speed of sound varies especially with temperature and pressure from about 340 m/s (1,225 km/h or 761 mph or 661 kn)
    in air at sea level to about 300 m/s (1,062 km/h or 660 mph or 573 kn) at jet altitudes (12200 m or 40000 ft).[30]

A velocity consists of a speed combined with a direction; the speed part of the velocity takes units of speed.

Flow (volume)

[edit]
Volumetric flow rate
Name of unit Symbol Definition Relation to SI units
cubic foot per minute CFM[citation needed] ≡ 1 ft3/min = 4.719474432×10−4 m3/s
cubic foot per second ft3/s ≡ 1 ft3/s = 0.028316846592 m3/s
cubic inch per minute in3/min ≡ 1 in3/min = 2.7311773×10−7 m3/s
cubic inch per second in3/s ≡ 1 in3/s = 1.6387064×10−5 m3/s
cubic metre per second (SI unit) m3/s ≡ 1 m3/s = 1 m3/s
gallon (US fluid) per day GPD[citation needed] ≡ 1 gal/d = 4.381263638×10−8 m3/s
gallon (US fluid) per hour GPH[citation needed] ≡ 1 gal/h = 1.051503273×10−6 m3/s
gallon (US fluid) per minute GPM[citation needed] ≡ 1 gal/min = 6.30901964×10−5 m3/s
litre per minute l/min or L/min ≡ 1 L/min = 1.6×10−5 m3/s

Acceleration

[edit]
Acceleration
Name of unit Symbol Definition Relation to SI units
foot per hour per second fph/s ≡ 1 ft/(h⋅s) = 8.46×10−5 m/s2
foot per minute per second fpm/s ≡ 1 ft/(min⋅s) = 5.08×10−3 m/s2
foot per second squared fps2 ≡ 1 ft/s2 = 3.048×10−1 m/s2
gal; galileo Gal ≡ 1 cm/s2 = 10−2 m/s2
inch per minute per second ipm/s ≡ 1 in/(min⋅s) = 4.23×10−4 m/s2
inch per second squared ips2 ≡ 1 in/s2 = 2.54×10−2 m/s2
knot per second kn/s ≡ 1 kn/s ≈ 5.14×10−1 m/s2
metre per second squared (SI unit) m/s2 ≡ 1 m/s2 = 1 m/s2
mile per hour per second mph/s ≡ 1 mi/(h⋅s) = 4.4704×10−1 m/s2
mile per minute per second mpm/s ≡ 1 mi/(min⋅s) = 26.8224 m/s2
mile per second squared mps2 ≡ 1 mi/s2 = 1.609344×103 m/s2
standard gravity g0 9.80665 m/s2 = 9.80665 m/s2

Force

[edit]
Force
Name of unit Symbol Definition Relation to SI units
atomic unit of force meα2c2a0 8.23872206×10−8 N[31]
dyne (CGS unit) dyn ≡ g⋅cm/s2 = 10−5 N
kilogram-force; kilopond; grave-force kgf; kp; gvf g0 × 1 kg = 9.80665 N
kip; kip-force kip; kipf; klbf g0 × 1000 lb = 4.4482216152605×103 N
milligrave-force, gravet-force mgvf; gvtf g0 × 1 g = 9.80665 mN
long ton-force tnf[citation needed] g0 × 1 long ton = 9.96401641818352×103 N
newton (SI unit) N A force capable of giving a mass of one kilogram an acceleration of one metre per second per second.[32] = 1 N = 1 kg⋅m/s2
ounce-force ozf g0 × 1 oz = 0.27801385095378125 N
pound-force lbf g0 × 1 lb = 4.4482216152605 N
poundal pdl ≡ 1 lb⋅ft/s2 = 0.138254954376 N
short ton-force tnf[citation needed] g0 × 1 short ton = 8.896443230521×103 N
sthene (mts unit) sn ≡ 1 t⋅m/s2 = 103 N

Pressure or mechanical stress

[edit]
Pressure
Name of unit Symbol Definition Relation to SI units
atmosphere (standard) atm 101325 Pa[33]
atmosphere (technical) at ≡ 1 kgf/cm2 = 9.80665×104 Pa[33]
bar bar 100000 Pa ≡ 105 Pa
barye (CGS unit) ≡ 1 dyn/cm2 = 0.1 Pa
centimetre of mercury cmHg 13595.1 kg/m3 × 1 cm × g0 1.33322×103 Pa[33]
centimetre of water (4 °C) cmH2O ≈ 999.972 kg/m3 × 1 cm × g0 98.0638 Pa[33]
foot of mercury (conventional) ftHg 13595.1 kg/m3 × 1 ft × g0 4.063666×104 Pa[33]
foot of water (39.2 °F) ftH2O ≈ 999.972 kg/m3 × 1 ft × g0 2.98898×103 Pa[33]
inch of mercury (conventional) inHg 13595.1 kg/m3 × 1 in × g0 3.386389×103 Pa[33]
inch of water (39.2 °F) inH2O ≈ 999.972 kg/m3 × 1 in × g0 249.082 Pa[33]
kilogram-force per square millimetre kgf/mm2 ≡ 1 kgf/mm2 = 9.80665×106 Pa[33]
kip per square inch ksi ≡ 1 kipf/sq in 6.894757×106 Pa[33]
long ton per square foot ≡ 1 long ton × g0 / 1 sq ft 1.0725178011595×105 Pa
micrometre of mercury μmHg 13595.1 kg/m3 × 1 μm × g0 ≈ 0.001 torr 0.1333224 Pa[33]
millimetre of mercury mmHg 13595.1 kg/m3 × 1 mm × g0 ≈ 1 torr 133.3224 Pa[33]
millimetre of water (3.98 °C) mmH2O ≈ 999.972 kg/m3 × 1 mm × g0 = 0.999972 kgf/m2 = 9.80638 Pa
pascal (SI unit) Pa ≡ N/m2 = kg/(m⋅s2) = 1 Pa[34]
pièze (mts unit) pz 1000 kg/m⋅s2 = 103 Pa = 1 kPa
pound per square foot psf ≡ 1 lbf/ft2 47.88026 Pa[33]
pound per square inch psi ≡ 1 lbf/in2 6.894757×103 Pa[33]
poundal per square foot pdl/sq ft ≡ 1 pdl/sq ft 1.488164 Pa[33]
short ton per square foot ≡ 1 short ton × g0 / 1 sq ft 9.5760518×104 Pa
torr torr 101325760 Pa 133.3224 Pa[33]

Torque or moment of force

[edit]
Torque
Name of unit Symbol Definition Relation to SI units
pound-force-foot lbf⋅ft g0 × 1 lb × 1 ft = 1.3558179483314004 N⋅m
poundal-ft pdl⋅ft ≡ 1 lb⋅ft2/s2 = 4.21401100938048×10−2 N⋅m
pound force-inch lbf⋅in g0 × 1 lb × 1 in = 0.1129848290276167 N⋅m
kilogram force-meter kgf⋅m g0 × N × m = 9.80665 N⋅m
newton-metre (SI unit) N⋅m ≡ N × m = kg⋅m2/s2 = 1 N⋅m

Energy

[edit]
Energy
Name of unit Symbol Definition Relation to SI units
barrel of oil equivalent boe 5.8×106 BTU59 °F 6.12×109 J
British thermal unit (ISO) BTUISO 1.0545×103 J = 1.0545×103 J
British thermal unit (International Table) BTUIT = 1.05505585262×103 J
British thermal unit (mean) BTUmean 1.05587×103 J
British thermal unit (thermochemical) BTUth 1.054350×103 J
British thermal unit (39 °F) BTU39 °F 1.05967×103 J
British thermal unit (59 °F) BTU59 °F 1.054804×103 J = 1.054804×103 J
British thermal unit (60 °F) BTU60 °F 1.05468×103 J
British thermal unit (63 °F) BTU63 °F 1.0546×103 J
calorie (International Table) calIT 4.1868 J = 4.1868 J
calorie (mean) calmean 1100 of the energy required to warm one gram of air-free water from 0 °C to 100 °C at a pressure of 1 atm 4.19002 J
calorie (thermochemical) calth ≡ 4.184 J = 4.184 J
Calorie (US; FDA) Cal ≡ 1 kcal = 1000 cal = 4184 J
calorie (3.98 °C) cal3.98 °C 4.2045 J
calorie (15 °C) cal15 °C ≡ 4.1855 J = 4.1855 J
calorie (20 °C) cal20 °C 4.1819 J
Celsius heat unit (International Table) CHUIT ≡ 1 BTUIT × 1 K/°R = 1.899100534716×103 J
cubic centimetre of atmosphere; standard cubic centimetre cc atm; scc ≡ 1 atm × 1 cm3 = 0.101325 J
cubic foot of atmosphere; standard cubic foot cu ft atm; scf ≡ 1 atm × 1 ft3 = 2.8692044809344×103 J
cubic foot of natural gas 1000 BTUIT = 1.05505585262×106 J
cubic yard of atmosphere; standard cubic yard cu yd atm; scy ≡ 1 atm × 1 yd3 = 77.4685209852288×103 J
electronvolt eV e × 1 V 1.602176634×10−19 J
erg (CGS unit) erg ≡ 1 g⋅cm2/s2 = 10−7 J
foot-pound force ft lbf g0 × 1 lb × 1 ft = 1.3558179483314004 J
foot-poundal ft pdl ≡ 1 lb⋅ft2/s2 = 4.21401100938048×10−2 J
gallon-atmosphere (imperial) imp gal atm ≡ 1 atm × 1 gal (imp) = 460.63256925 J
gallon-atmosphere (US) US gal atm ≡ 1 atm × 1 gal (US) = 383.5568490138 J
hartree, atomic unit of energy Eh ≡ meα2c2 (= 2 Ry) 4.359744×10−18 J
horsepower-hour hp⋅h ≡ 1 hp × 1 h = 2.684519537696172792×106 J
inch-pound force in lbf g0 × 1 lb × 1 in = 0.1129848290276167 J
joule (SI unit) J The work done when a force of one newton moves the point of its application a distance of one metre in the direction of the force.[32] = 1 J = 1 m⋅N = 1 kg⋅m2/s2 = 1 C⋅V = 1 W⋅s
kilocalorie; large calorie kcal; Cal 1000 calIT = 4.1868×103 J
kilowatt-hour; Board of Trade Unit kW⋅h; B.O.T.U. ≡ 1 kW × 1 h = 3.6×106 J
litre-atmosphere l atm; sl ≡ 1 atm × 1 L = 101.325 J
quad ≡ 1015 BTUIT = 1.05505585262×1018 J
rydberg Ry Rc 2.179872×10−18 J
therm (E.C.) 100000 BTUIT = 105.505585262×106 J
therm (US) 100000 BTU59 °F = 105.4804×106 J
thermie th ≡ 1 McalIT = 4.1868×106 J
tonne of coal equivalent TCE ≡ 7 Gcalth = 29.288×109 J
tonne of oil equivalent toe ≡ 10 GcalIT = 41.868×109 J
ton of TNT tTNT ≡ 1 Gcalth = 4.184×109 J
watt-hour W⋅h ≡ 1 W × 1 h = 3.6×103 J
watt-second W⋅s ≡ 1 J = 1×100 J

Power or heat flow rate

[edit]
Power
Name of unit Symbol Definition Relation to SI units
atmosphere-cubic centimetre per minute atm ccm[citation needed] ≡ 1 atm × 1 cm3/min = 1.68875×10−3 W
atmosphere-cubic centimetre per second atm ccs[citation needed] ≡ 1 atm × 1 cm3/s = 0.101325 W
atmosphere-cubic foot per hour atm cfh[citation needed] ≡ 1 atm × 1 cu ft/h = 0.79700124704 W
atmosphere-cubic foot per minute atm cfm[citation needed] ≡ 1 atm × 1 cu ft/min = 47.82007468224 W
atmosphere-cubic foot per second atm cfs[citation needed] ≡ 1 atm × 1 cu ft/s = 2.8692044809344×103 W
BTU (International Table) per hour BTUIT/h ≡ 1 BTUIT/h 0.293071 W
BTU (International Table) per minute BTUIT/min ≡ 1 BTUIT/min 17.584264 W
BTU (International Table) per second BTUIT/s ≡ 1 BTUIT/s = 1.05505585262×103 W
calorie (International Table) per second calIT/s ≡ 1 calIT/s = 4.1868 W
erg per second erg/s ≡ 1 erg/s = 10−7 W
foot-pound-force per hour ft⋅lbf/h ≡ 1 ft lbf/h 3.766161×10−4 W
foot-pound-force per minute ft⋅lbf/min ≡ 1 ft lbf/min = 2.259696580552334×10−2 W
foot-pound-force per second ft⋅lbf/s ≡ 1 ft lbf/s = 1.3558179483314004 W
horsepower (boiler) hp ≈ 34.5 lb/h × 970.3 BTUIT/lb 9809.5 W[35]
horsepower (European electrical) hp ≡ 75 kp⋅m/s = 736 W[citation needed]
horsepower (electrical) hp ≡ 746 W = 746 W[35]
horsepower (mechanical) hp ≡ 550 ft⋅lbf/s[35] = 745.69987158227022 W
horsepower (metric) hp or PS ≡ 75 m⋅kgf/s = 735.49875 W[35]
litre-atmosphere per minute L·atm/min ≡ 1 atm × 1 L/min = 1.68875 W
litre-atmosphere per second L·atm/s ≡ 1 atm × 1 L/s = 101.325 W
lusec lusec ≡ 1 L·μmHg/s [16] 1.333×10−4 W
poncelet p ≡ 100 m⋅kgf/s = 980.665 W
square foot equivalent direct radiation sq ft EDR ≡ 240 BTUIT/h 70.337057 W
ton of air conditioning 2000 lb of ice melted / 24 h 3504 W
ton of refrigeration (imperial) 2240 lb × iceIT / 24 h: iceIT = 144 °F × 2326 J/kg⋅°F 3.938875×103 W
ton of refrigeration (IT) 2000 lb × iceIT / 24 h: iceIT = 144 °F × 2326 J/kg⋅°F 3.516853×103 W
watt (SI unit) W The power which in one second of time gives rise to one joule of energy.[32] = 1 W = 1 J/s = 1 N⋅m/s = 1 kg⋅m2/s3

Action

[edit]
Action
Name of unit Symbol Definition Relation to SI units
atomic unit of action au 2π 1.05457168×10−34 J⋅s[36]

Dynamic viscosity

[edit]
Dynamic viscosity
Name of unit Symbol Definition Relation to SI units
pascal second (SI unit) Pa⋅s ≡ N⋅s/m2, kg/(m⋅s) = 1 Pa⋅s
poise (CGS unit) P ≡ 1 barye⋅s = 0.1 Pa⋅s
pound per foot hour lb/(ft⋅h) ≡ 1 lb/(ft⋅h) 4.133789×10−4 Pa⋅s
pound per foot second lb/(ft⋅s) ≡ 1 lb/(ft⋅s) 1.488164 Pa⋅s
pound-force second per square foot lbf⋅s/ft2 ≡ 1 lbf⋅s/ft2 47.88026 Pa⋅s
pound-force second per square inch lbf⋅s/in2 ≡ 1 lbf⋅s/in2 6894.757 Pa⋅s

Kinematic viscosity

[edit]
Kinematic viscosity
Name of unit Symbol Definition Relation to SI units
square foot per second ft2/s ≡ 1 ft2/s = 0.09290304 m2/s
square metre per second (SI unit) m2/s ≡ 1 m2/s = 1 m2/s
stokes (CGS unit) St ≡ 1 cm2/s = 10−4 m2/s

Electric current

[edit]
Electric current
Name of unit Symbol Definition Relation to SI units
ampere (SI base unit) A ≡ one coulomb of charge going past a given point per second.[37] (SI base unit)
electromagnetic unit; abampere (CGS unit) abamp ≘ 10 A = 10 A
esu per second; statampere (CGS unit) esu/s ≘ (10 A⋅cm/s) / c 3.335641×10−10 A

Electric charge

[edit]
Electric charge
Name of unit Symbol Definition Relation to SI units
abcoulomb; electromagnetic unit (CGS unit) abC; emu ≘ 10 C = 10 C
atomic unit of charge au e = 1.602176634×10−19 C
coulomb C ≡ charge of exactly 1/(1.602176634×10−19) elementary charges[37] = 1 C = 1 A⋅s
faraday F ≡ 1 mol × NAe 96485.3383 C
milliampere hour mA⋅h ≡ 0.001 A × 1 h = 3.6 C
statcoulomb; franklin; electrostatic unit (CGS unit) statC; Fr; esu ≘ (10 A⋅cm) / c 3.335641×10−10 C

Electric dipole

[edit]
Electric dipole
Name of unit Symbol Definition Relation to SI units
atomic unit of electric dipole moment ea0 8.47835281×10−30 C⋅m[38]
coulomb-meter C⋅m = 1 C⋅m
debye D ≡ 10−10 esu⋅Å 3.33564095×10−30 C⋅m[39]

Electromotive force, electric potential difference

[edit]
Voltage, electromotive force
Name of unit Symbol Definition Relation to SI units
abvolt (CGS unit) abV ≘ 10−8 V = 10−8 V
statvolt (CGS unit) statV c⋅(1 μJ/A⋅m) = 299.792458 V
volt (SI unit) V The difference in electric potential across two points along a conducting wire carrying one ampere of constant current when the power dissipated between the points equals one watt.[32] = 1 V = 1 W/A = 1 kg⋅m2/(A⋅s3) = 1 J/C

Electrical resistance

[edit]
Electrical resistance
Name of unit Symbol Definition Relation to SI units
ohm (SI unit) Ω The resistance between two points in a conductor when one volt of electric potential difference, applied to these points, produces one ampere of current in the conductor.[32] = 1 Ω = 1 V/A = 1 kg⋅m2/(A2⋅s3)

Capacitance

[edit]
Capacitor's ability to store charge
Name of unit Symbol Definition Relation to SI units
farad (SI unit) F The capacitance between two parallel plates that results in one volt of potential difference when charged by one coulomb of electricity.[32] = 1 F = 1 C/V = 1 A2⋅s4/(kg⋅m2)

Magnetic flux

[edit]
Magnetic flux
Name of unit Symbol Definition Relation to SI units
maxwell (CGS unit) Mx ≘ 10−8 Wb[35] = 10−8 Wb
weber (SI unit) Wb Magnetic flux which, linking a circuit of one turn, would produce in it an electromotive force of 1 volt if it were reduced to zero at a uniform rate in 1 second.[32] = 1 Wb = 1 V⋅s = 1 kg⋅m2/(A⋅s2)

Magnetic flux density

[edit]
What physicists call magnetic field is called magnetic flux density by electrical engineers and magnetic induction by applied mathematicians and electrical engineers.
Name of unit Symbol Definition Relation to SI units
gauss (CGS unit) G Mx/cm2 ≘ 10−4 T = 10−4 T [40]
tesla (SI unit) T Wb/m2 = 1 T = 1 Wb/m2 = 1 kg/(A⋅s2)

Inductance

[edit]
Inductance
Name of unit Symbol Definition Relation to SI units
henry (SI unit) H The inductance of a closed circuit that produces one volt of electromotive force when the current in the circuit varies at a uniform rate of one ampere per second.[32] = 1 H = 1 Wb/A = 1 kg⋅m2/(A⋅s)2

Temperature

[edit]
Temperature
Name of unit Symbol Definition Relation to SI units
degree Celsius °C [°C] ≡ [K] − 273.15 [K] ≡ [°C] + 273.15
degree Delisle °De [K] = 373.15 − [°De] × 23
degree Fahrenheit °F [°F] ≡ [°C] × 95 + 32 [K] ≡ ([°F] + 459.67) × 59
degree Newton °N [K] = [°N] × 10033 + 273.15
degree Rankine °R; [°R] ≡ [K] × 95 [K] ≡ [°R] × 5/9
degree Réaumur °Ré [K] = [°Ré] × 54 + 273.15
degree Rømer °Rø [K] = ([°Rø] − 7.5) × 4021 + 273.15
Regulo Gas Mark GM [°F] ≡ [GM] × 25 + 250 [K] ≡ [GM] × 1259 + 394.26
kelvin (SI base unit) K ≡ change in the thermodynamic temperature T that results in a change of thermal energy kT by 1.380 649 × 10−23 J.[41] (SI base unit)

Information entropy

[edit]
Information entropy
Name of unit Symbol Definition Relation to SI units Relation to bits
natural unit of information; nit; nepit nat
shannon Sh ≡ ln(2) × nat 0.693147 nat = 1 bit
hartley; ban Hart; ban ≡ ln(10) × nat 2.302585 nat
bit bit; b = 1 bit
nibble ≡ 4 bits = 22 bit
byte B ≡ 8 bits = 23 bit
kilobyte (decimal) kB 1000 B = 8000 bit
kibibyte (kilobyte) KiB 1024 B = 213 bit = 8192 bit

Modern standards (such as ISO 80000) prefer the shannon to the bit as a unit for a quantity of information entropy, whereas the (discrete) storage space of digital devices is measured in bits. Thus, uncompressed redundant data occupy more than one bit of storage per shannon of information entropy. The multiples of a bit listed above are usually used with this meaning.

Luminous intensity

[edit]

The candela is the preferred nomenclature for the SI unit.

Luminous intensity
Name of unit Symbol Definition Relation to SI units
candela (SI base unit) cd The luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540×1012 hertz and that has a radiant intensity in that direction of 1/683 watt per steradian.[37] (SI base unit)
candlepower (new) cp ≡ cd The use of candlepower as a unit is discouraged due to its ambiguity. = 1 cd
candlepower (old, pre-1948) cp Varies and is poorly reproducible.[42] Approximately 0.981 cd.[16] ≈ 0.981 cd

Luminance

[edit]
Luminance
Name of unit Symbol Definition Relation to SI units
candela per square foot cd/ft2 ≡ cd/ft2 10.763910417 cd/m2
candela per square inch cd/in2 ≡ cd/in2 1550.0031 cd/m2
candela per square metre (SI unit); nit (deprecated[16]) cd/m2 ≡ cd/m2 = 1 cd/m2
footlambert fL ≡ (1/π) cd/ft2 3.4262590996 cd/m2
lambert L ≡ (104/π) cd/m2 3183.0988618 cd/m2
stilb (CGS unit) sb ≡ 104 cd/m2 = 104 cd/m2

Luminous flux

[edit]
Luminous flux
Name of unit Symbol Definition Relation to SI units
lumen (SI unit) lm The luminous flux of a source that emits monochromatic radiation of frequency 540×1012 hertz and that has a radiant flux of 1/683 watt.[37] = 1 lm = 1 cd⋅sr

Illuminance

[edit]
Illuminance
Name of unit Symbol Definition Relation to SI units
footcandle; lumen per square foot fc ≡ lm/ft2 = 10.763910417 lx
lumen per square inch lm/in2 ≡ lm/in2 1550.0031 lx
lux (SI unit) lx ≡ lm/m2 = 1 lx = 1 lm/m2
phot (CGS unit) ph ≡ lm/cm2 = 104 lx

Radiation

[edit]

Radiation – source activity

[edit]
Radioactivity
Name of unit Symbol Definition Relation to SI units
becquerel (SI unit) Bq ≡ Number of disintegrations per second = 1 Bq = 1/s
curie Ci 3.7×1010 Bq[43] = 3.7×1010 Bq
rutherford (H) Rd ≡ 1 MBq = 106 Bq

Although becquerel (Bq) and hertz (Hz) both ultimately refer to the same SI base unit (s−1), Hz is used only for periodic phenomena (i.e. repetitions at regular intervals), and Bq is only used for stochastic processes (i.e. at random intervals) associated with radioactivity.[44]

Radiation – exposure

[edit]
Radiation – exposure
Name of unit Symbol Definition Relation to SI units
roentgen R 1 R ≡ 2.58×10−4 C/kg[35] = 2.58×10−4 C/kg

The roentgen is not an SI unit and the NIST strongly discourages its continued use.[45]

Radiation – absorbed dose

[edit]
Radiation – absorbed dose
Name of unit Symbol Definition Relation to SI units
gray (SI unit) Gy ≡ 1 J/kg[46] = 1 Gy = 1 J/kg = 1 m2⋅s2
rad rad ≡ 0.01 Gy[35] = 0.01 Gy

Radiation – equivalent dose

[edit]
Radiation – equivalent dose
Name of unit Symbol Definition Relation to SI units
Röntgen equivalent man rem ≡ 0.01 Sv = 0.01 Sv
sievert (SI unit) Sv ≡ 1 J/kg[44] = 1 Sv = 1 J/kg = 1 m2⋅s2

Although the definitions for sievert (Sv) and gray (Gy) would seem to indicate that they measure the same quantities, this is not the case. The effect of receiving a certain dose of radiation (given as Gy) is variable and depends on many factors, thus a new unit was needed to denote the biological effectiveness of that dose on the body; this is known as the equivalent dose and is shown in Sv. The general relationship between absorbed dose and equivalent dose can be represented as

H = QD

where H is the equivalent dose, D is the absorbed dose, and Q is a dimensionless quality factor. Thus, for any quantity of D measured in Gy, the numerical value for H measured in Sv may be different.[47]

Notes

[edit]
  1. ^ The technical definition of tropical year is the period of time for the ecliptic longitude of the Sun to increase 360 degrees. (Urban & Seidelmann 2013, Glossary, s.v. year, tropical)
[edit]

References

[edit]
  1. ^ jobs (September 14, 2012). "The astronomical unit gets fixed : Nature News & Comment". Nature. Nature.com. doi:10.1038/nature.2012.11416. S2CID 123424704. Retrieved August 31, 2013.
  2. ^ "NIST Reference on Constants, Units, and Uncertainty."(2010). National Institute of Standards and Technology. Retrieved October 17, 2014.
  3. ^ a b c "NIST - National Institute of Standards and Technology". NIST.
  4. ^ a b c d e f g h i j k l m n Lide, D. (Ed.). (1990). Handbook of Chemistry and Physics (71st ed). Boca Raton, FL: CRC Press. Section 1.
  5. ^ a b National Bureau of Standards. (June 30, 1959). Refinement of values for the yard and the pound. Federal Register, viewed September 20, 2006 at National Geodetic Survey web site.
  6. ^ "International Astronomical Union - IAU". www.iau.org.
  7. ^ Klein, Herbert Arthur. (1988). The Science of Measurement: a Historical Survey. Mineola, NY: Dover Publications 0-4862-5839-4.
  8. ^ a b c The International System of Units, Section 2.1 (8 ed.), Bureau International des Poids et Mesures, 2006, archived from the original on October 1, 2009, retrieved August 26, 2009
  9. ^ International System of Units, Archived August 21, 2008, at the Wayback Machine 8th ed. (2006), Bureau International des Poids et Mesures, Section 4.1 Table 8.
  10. ^ Cox, Arthur N., ed. (2000). Allen's Astrophysical Quantities (4th ed.). New York: AIP Press / Springer. Bibcode:2000asqu.book.....C. ISBN 0387987460.
  11. ^ Binney, James; Tremaine, Scott (2008). Galactic Dynamics (2nd ed.). Princeton, NJ: Princeton University Press. Bibcode:2008gady.book.....B. ISBN 978-0-691-13026-2.
  12. ^ P. Kenneth Seidelmann, Ed. (1992). Explanatory Supplement to the Astronomical Almanac. Sausalito, CA: University Science Books. p. 716 and s.v. parsec in Glossary.
  13. ^ a b c Whitelaw, Ian. (2007). A Measure of All Things: The Story of Man and Measurement. New York: Macmillan 0-312-37026-1. p. 152.
  14. ^ a b De Vinne, Theodore Low (1900). The practice of typography: a treatise on the processes of type-making, the point system, the names, sizes, styles and prices of plain printing types 2nd ed. New York: The Century Co. p. 142–150.
  15. ^ Pasko, Wesley Washington (1894). American dictionary of printing and bookmaking. (1894). New York: Howard Lockwood. p. 521.
  16. ^ a b c d e f g h i Rowlett, Russ (2005), How Many? A Dictionary of Units of Measurement
  17. ^ Thompson, A. and Taylor, B.N. (2008). Guide for the Use of the International System of Units (SI). National Institute of Standards and Technology Special Publication 811. p. 57.
  18. ^ a b c d e US Code of Federal Regulations, Title 21, Section 101.9, Paragraph (b)(5)(viii), archived from the original on August 13, 2009, retrieved August 29, 2009
  19. ^ Barry N. Taylor, Ed.,NIST Special Publication 330: The International System of Units (SI) (2001 Edition), Washington: US Government Printing Office, 43,"The 12th Conference Generale des Poids et Mesures (CGPM)...declares that the word "litre" may be employed as a special name for the cubic decimetre".
  20. ^ a b "2022 CODATA Value: atomic mass constant". The NIST Reference on Constants, Units, and Uncertainty. NIST. May 2024. Retrieved 2024-05-18.
  21. ^ "2022 CODATA Value: atomic unit of mass". The NIST Reference on Constants, Units, and Uncertainty. NIST. May 2024. Retrieved 2024-05-18.
  22. ^ The Swiss Federal Office for Metrology gives Zentner on a German language web page "Metas: Masseinheiten - SI-Einheiten". Archived from the original on 2006-09-28. Retrieved 2006-10-09. and quintal on the English translation of that page "OFMET: Units of measure - SI units". Archived from the original on 2001-03-09. Retrieved 2006-10-09.; the unit is marked "spécifiquement suisse !"
  23. ^ a b Pedersen O. (1983). "Glossary" in Coyne, G., Hoskin, M., and Pedersen, O. Gregorian Reform of the Calendar: Proceedings of the Vatican Conference to Commemorate its 400th Anniversary. Vatican Observatory. Available from Astrophysics Data System.
  24. ^ Richards, E.G. (1998), Mapping Time, Oxford University Press, pp. 94–95, ISBN 0-19-850413-6
  25. ^ Steel, Duncan (2000), Marking Time, John Wiley & Sons, p. 46, ISBN 0-471-29827-1
  26. ^ "CODATA Value: Planck time". physics.nist.gov. Retrieved 2018-06-20.
  27. ^ a b Richards, E. G. (2013). "Calendars" in S. E. Urban & P. K. Seidelmann, eds. Explanatory Supplement to the Astronomical Almanac. Mill Valley, CA: University Science Books.
  28. ^ Richards, E. G. (2013). "Calendars" in S. E. Urban & P. K. Seidelmann, eds. Explanatory Supplement to the Astronomical Almanac. Mill Valley, CA: University Science Books. p. 587.
  29. ^ Until 1970 the UK Admiralty (and until 1954 the US) used other definitions of the nautical mile and hence the knot. See also #Length
  30. ^ Tom Benson. (2010.) "Mach Number" Archived 2006-04-10 at the Wayback Machine in Beginner's Guide to Aeronautics. NASA.
  31. ^ CODATA Value: atomic unit of force. (2006). National Institute of Standards and Technology. Retrieved September 14, 2008.
  32. ^ a b c d e f g h Comité International des Poids et Mesures, Resolution 2, 1946, retrieved August 26, 2009
  33. ^ a b c d e f g h i j k l m n o p Barry N. Taylor, (April 1995), Guide for the Use of the International System of Units (SI) (NIST Special Publication 811), Washington, DC: US Government Printing Office, pp. 57–68.
  34. ^ Barry N. Taylor, (April 1995), Guide for the Use of the International System of Units (SI) (NIST Special Publication 811), Washington, DC: US Government Printing Office, p. 5.
  35. ^ a b c d e f g "NIST Guide to SI Units, Appendix B.9", NIST, 2 July 2009, retrieved August 27, 2009
  36. ^ International System of Units, Archived July 16, 2012, at the Wayback Machine 8th ed. (2006), Bureau International des Poids et Mesures, Section 4.1 Table 7.
  37. ^ a b c d "SI brochure (2019)" (PDF). SI Brochure. BIPM. p. 132. Retrieved May 23, 2019.
  38. ^ The NIST Reference on Constants, Units, and Uncertainty, 2006, retrieved August 26, 2009
  39. ^ Robert G. Mortimer Physical chemistry, Academic Press, 2000 ISBN 0-12-508345-9, page 677
  40. ^ Standard for the Use of the International System of Units (SI): The Modern Metric System IEEE/ASTM SI 10-1997. (1997). New York and West Conshohocken, PA: Institute of Electrical and Electronics Engineers and American Society for Testing and Materials. Tables A.1 through A.5.
  41. ^ "Mise en pratique" (PDF). BIPM.
  42. ^ The NIST Reference on Constants, Units, and Uncertainty, retrieved August 28, 2009
  43. ^ Ambler Thompson & Barry N. Taylor. (2008). Guide for the Use of the International System of Units (SI). Special Publication 811. Gaithersburg, MD: National Institute of Standards and Technology. p. 10.
  44. ^ a b The International System of Units, Section 2.2.2., Table 3 (8 ed.), Bureau International des Poids et Mesures, 2006, archived from the original on June 18, 2007, retrieved August 27, 2009
  45. ^ "The NIST Guide to the SI (Special Publication 811), section 5.2", NIST, 2008, retrieved August 27, 2009
  46. ^ Ambler Thompson & Barry N. Taylor. (2008). Guide for the Use of the International System of Units (SI). Special Publication 811. Gaithersburg, MD: National Institute of Standards and Technology. p. 5.
  47. ^ Comité international des poids et mesures, 2002, Recommendation 2, retrieved August 27, 2009