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{{Short description|none}}<!-- See WP:SDNONE -->
'''Strange and whimsical units''' are sometimes used by scientists, especially physicists and mathematicians, and other technically-minded people such as engineers and programmers, as bits of dry humor combined with putative practical convenience.
{{For-text|units of measure primarily used in countries where English is not the main language|the article specific to that country, a list of which can be found in the ] article|unusual units of measure invented primarily for amusement|]}}
{{Use dmy dates|date=February 2024}}


An '''unusual unit of measurement''' is a ] that does not form part of a coherent ], especially because its exact quantity may not be well known or because it may be an inconvenient multiple or fraction of a base unit.
==Attoparsec==


Many of the unusual units of measurements listed here are colloquial measurements, units devised to compare a measurement to common and familiar objects.
A nonstandard unit of length is the attoparsec. It comes in disguise and even has a proper abbreviation, "apc". It is, however, rarely used in the real world.


==Length<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->==
Parsecs are used in astronomy to measure enormous interstellar distances; a ] is approximately 3.26 ]s or 3.085&times;10<sup>16</sup>]. Combining it with the "]" prefix yields attoparsec, a conveniently human-scaled unit of 3.085 ] (about 1-7/32 inches) that has no obvious practical use.


=== Horizontal pitch ===
Interestingly, 1 attoparsec/microfortnight is nearly 1 ]/] (the actual figure is 1.0043 ] per ]); see ] for a list of similar facts.
Horizontal pitch (HP) is a unit of length defined by the Eurocard printed circuit board standard used to measure the horizontal width of rack mounted electronic equipment, similar to the rack unit (U) used to measure vertical heights of rack mounted equipment. One HP is 0.2 inches (1/5") or {{convert|1/5|in|mm|2|abbr=off|disp=out}} wide.


=== Hammer unit ===
== Barleycorns of Liquid Hot Magma ==
] ] game engine uses the ''Hammer unit'' as its base unit of length. This unit refers to Source's official map creation software, Hammer.<ref>{{cite web |url=https://developer.valvesoftware.com/Dimensions |title=Distance - Valve Developer Community |access-date=29 November 2020 |quote=Maps, architecture and prop models use a scale of 1 foot = 16 units.}}</ref> The exact definition varies from game to game, but a Hammer unit is usually defined as a sixteenth of a foot (16&nbsp;Hammer units = 1&nbsp;foot). This means that 1 Hammer unit is equal to exactly {{convert|1/16|ft|mm|2|abbr=off|disp=out}} or {{convert|1/16|ft|in|2|abbr=off|disp=out}} (3/4").


=== Ligne ===
]s of Liquid Hot Magma were first proposed as a new standard unit of ] in 2004 by the astrophysicist-turned-lawyer ], out of frustration with the diversity and irregularity of pressure units as compared to other quantities in common scientific usage. A barleycorn of liquid hot magma is approximately equal to 0.5 ] or 0.06 ], assuming 3.3 g/cm<sup>3</sup> as the density of liquid hot magma.
Button sizes are typically measured in ], which can be abbreviated as L. The measurement refers to the button diameter, or the largest diameter of irregular button shapes. There are 40 ligne in 1 inch.<ref>{{Cite web |date=2023-03-10 |title=Guide to Button Ligne Sizes - Minions of Craft |url=https://www.minionsofcraft.co.uk/blog/guide-to-button-ligne-sizes#:~:text=Button%20sizes%20are%20typically%20measured,25.4mm%20(2.54cm). |access-date=2024-11-02 |website=www.minionsofcraft.co.uk |language=en}}</ref><ref>{{Cite web |last=Anna |date=2018-05-17 |title=What is "Ligne"? The Insider's Guide to Buttons |url=https://www.theliningcompany.co.uk/blog/2018/05/ligne-the-insiders-guide-to-buttons/ |access-date=2024-11-02 |website=The Lining Company Blog}}</ref>


===Rack unit===
The redundant "liquid hot magma" is a reference to the movie ], in which the villain ] plans to "burn every city on the planet with liquid hot magma." The name of the unit is thus properly pronounced only when said in Doctor Evil's Voice.
]
{{Main|Rack unit}}
One ''rack unit'' (U) is {{convert|1.75|in|2}} and is used to measure rack-mountable audiovisual, computing and industrial equipment. Rack units are typically denoted without a space between the number of units and the 'U'. Thus, a 4U&nbsp;] enclosure (case) is {{convert|7|in|1|spell=in}} high, or more practically, built to occupy a vertical space seven inches high, with sufficient clearance to allow movement of adjacent hardware.


===Hand===
== Barn-megaparsec ==
{{main|Hand (unit)}}
The ''hand'' is a non-] unit of length equal to exactly {{convert|4|in|mm|1}}. It is normally used to measure the height of horses in some English-speaking countries, including Australia,<ref>{{cite web |url=http://www.equestrian.org.au/site/equestrian/national/downloads/content/attachments/rules/02%20Mch-Nat%20Measuring%20Rules.pdf |archive-url=https://web.archive.org/web/20060826125716/http://www.equestrian.org.au/site/equestrian/national/downloads/content/attachments/rules/02%20Mch-Nat%20Measuring%20Rules.pdf |archive-date=26 August 2006 |title=Equestrian Federation of Australia National Measuring Scheme Effective from 1 January 2002 and amended in March 2002 |author=<!--Staff writer(s); no by-line.--> |date=March 2002 |website=www.equestrian.org.au/ |publisher=Equestrian Federation of Australia |access-date=27 February 2014}}</ref> Canada, Ireland, the United Kingdom, and the United States. It is customary when measuring in hands to use a point to indicate ''inches'' (quarter-hands) and not ''tenths of a hand''. For example, 15.1 hands normally means 15 hands, 1 inch (5&nbsp;ft 1 in), rather than {{frac|15|1|10}} hands.<ref name=omafra>{{cite web|title=The "Hand" Measurement for Horses|url=http://www.omafra.gov.on.ca/english/livestock/horses/facts/info_hands.htm|publisher=Ministry of Agriculture, Food and Rural Affairs, Ontario, Canada|access-date=30 June 2011 |archive-url=https://web.archive.org/web/20110822161506/http://www.omafra.gov.on.ca/english/livestock/horses/facts/info_hands.htm|archive-date=22 August 2011}}</ref>


===Light-nanosecond===
This unit is similar in concept to the attoparsec, combining very large and small scales. A ] is a unit of cross-sectional area used in atomic physics, equal to 10<sup>-28</sup>]<sup>2</sup>. The "physical cross-section area" of the nucleus of an atom is approximately 1 Barn - a very small unit of area. When this is combined with the mega] - a very large unit of length - the result is a human-scaled unit of volume approximately equal to 2/3 of a teaspoon.
]
The light-nanosecond is defined as exactly 29.9792458&nbsp;cm. It was popularized in ] as a unit of distance by ] as the distance which a photon could travel in one billionth of a second (roughly 30&nbsp;cm or one foot): "The ] is one foot per nanosecond."<ref>{{cite web |url=http://cs-www.cs.yale.edu/homes/tap/Files/hopper-story.html |title=Rear Admiral Grace Murray Hopper|date=4 May 2006 |publisher=US Navy}}</ref><ref>{{Cite web|url=https://americanhistory.si.edu/collections/search/object/nmah_692464|title=Nanoseconds Associated with Grace Hopper|website=National Museum of American History}}</ref>


==Belgium== ===Metric foot===
{{Redirect2|Metric foot|Metric feet|the rhythmic unit in poetry|Metrical foot}}
Conservationists discussing the destruction of the ] rain forest often use "]" as a measure of how much forest is being lost. The area of the country of Belgium is 30,528 km².


A metric foot, defined as {{convert|300|mm|in|3|abbr=off|disp=x| (approximately }}), has been used occasionally in the UK but has never been an official unit.<ref>{{cite web | title=BBC TV Centre | website=History of Television Studios in London | url=https://www.tvstudiohistory.co.uk/studio-category/bbc-tv-centre/ | quote=Measurements are in metric feet (30cm)...}}</ref>
==Books and Bible==
When things started to take off for the ] version of the ], called ], journalists had to compare the amount of 650 MB disc space to something everyone could imagine. It turned out to measure the storage size of a CD-ROM with the amount of written text in the ], as most Western households have a Bible in their home to compare size. Nowadays, with high capacity media like ] and ], and high speed ] data transmission, measurements are done with "a truck full of books", etc. See ''Library of Congress'', listed below.


A ] is around one third of a metre, with the exact definition depending on jurisdiction.
==Coffee==
In ], a common monetary unit of measure is the cost of an ], which is approximately €0.70 (average cost). Mostly used by people trying to sell you something. Also common in ] - eg. "For less than the cost of a cup of coffee a day, you can have a brand new X in your home".


===Horse===
==Cut-lunch-and-a-water-bag==
{{main|Horse length}}
Horses are used to measure distances in ] – a ''horse length'' (shortened to merely a ''length'' when the context makes it obvious) equals roughly {{convert|8|ft|m|1|abbr=off|disp=or}}. Shorter distances are measured in fractions of a ''horse length''; also common are measurements of a full or fraction of a ''head'', a ''neck'', or a ''nose''.<ref>{{cite web | title=Horse Racing Spread Betting – Get Started | website=Spreadex | url=https://www.spreadex.com/sports/get-started/horse-racing-spread-betting/winning-distances/ | access-date=10 August 2019}}</ref>


===Boat length===
In ], a unit of distance used to describe any journey considered by the user to be of greater length than he/she would undertake in a normal day's routine - eg. "He lives where? Mate, that's a cut lunch and a water bag job."
In rowing races such as the ], the margin of victory and of defeat is expressed in fractions and multiples of ''boat lengths''. The length of a ] is about {{convert|62|ft|m}}. A shorter distance is the '']'', which is the length of the covered part of the boat between the bow and the bow oarsman. The ] also makes heavy use of boat lengths.


===Football field (length)===
==Distance==
<!--American football field (unit) redirects here. If you change the section heading please update the redirect
An old unit of measurement, and a strange definition. It's equal to 221,763 inches, or 3 miles 2640 feet 3 inches. (''Note, less common units have equivalents for the'' unit ''in parenthesis''). 1 distance = 3 ] + 3 ] (660 feet each) + 9 ] (66 feet) + 3 ] (16.5 feet) + 9 ] + 9 ] (6 ])+ 9 ] (4 inches) + 9 ] (1/3 inches).
-->A football field is often used as a comparative measurement of length when talking about distances that may be hard to comprehend when stated in terms of standard units.


An ] is usually understood to be {{convert|100|yd|m}} long, though it is technically {{convert|120|yd|m}} when including the two {{convert|10|yd|m|adj=on|abbr=on}} long end zones. The field is {{convert|160|ft|yd m|abbr=on}} wide.<ref>{{Cite web|url=http://operations.nfl.com/the-rules/2015-nfl-rulebook#rule-1.-the-field |archive-url=https://web.archive.org/web/20150824155322/http://operations.nfl.com/the-rules/2015-nfl-rulebook |archive-date=24 August 2015 |title=2015 NFL Rulebook |website=NFL Football Operations}}</ref>


An ] may vary within limits of {{convert|90|-|120|m|yd|abbr=on}} in length and {{convert|45|-|90|m|yd|abbr=on|sigfig=2}} in width. The recommended field size is {{convert|105|x|68|m|yd|abbr=on}} for major competitions such as the ], ] and ].
==FFF==
While most countries have ''Le Système International d&rsquo;Unités'' (]), this seems to be one more reason to delve into the '''Furlong/Firkin/Fortnight''' system of units of measurement which draws its attraction from being conservative and off-beat at the same time.


A ] is {{convert|65|yd|m|abbr=on}} wide and {{convert|150|yd|m|abbr=on}} long, including two {{convert|20|yd|m|adj=on|abbr=on}} long end zones.
===FFF Base units===
{| border=1 cellpadding=3 cellspacing=0
|-
|bgcolor=#E0E0E0 |<center> '''Unit'''
|bgcolor=#E0E0E0 |<center> '''of'''
|bgcolor=#E0E0E0 |<center> '''Conventional Imperial unit'''
|bgcolor=#E0E0E0 |<center> '''SI equivalence'''
|-
| ] || length || 1/8th of a ] || 210.168 ]
|-
| ] of ] || mass || 9 Imperial ]s (40.91481 ])
| <!-- assume at the temperature of waters highest density, where 1 kg occupies 1.000028 litres --> 40.91366 ]
|-
| ] || time || 14 days || 1,209,600 ]
|}


===Block===
Additionally, the ] is usually considered the unit of temperature in FFF.
In most US cities, a ] is between {{convert|1/16|and|1/8|mi|m|abbr=on}}. In ], the measurement "block" usually refers to a north–south block, which is {{convert|1/20|mi|m|abbr=on}}. Sometimes people living in places (like Manhattan) with a regularly spaced street grid will speak of ''long blocks'' and ''short blocks''. Within a typical large North American city, it is often only possible to travel along east–west and north–south streets, so travel distance between two points is often given in the number of blocks east–west plus the number north–south (known to mathematicians as the '']'').<ref>{{Cite web|url=https://xlinux.nist.gov/dads/HTML/manhattanDistance.html|title=Manhattan distance|website=xlinux.nist.gov}}</ref>


===FFF derived units=== ===Earth radius===
The globally-average ], generally given as 6,371&nbsp;kilometres (3,959&nbsp;miles), is often employed as a unit of measure to intuitively compare objects of planetary size.
====Furlong/fortnight====


===Lunar distance===
1 furlong/fortnight is very nearly 1 centimetre/minute (to within 1 part in 400). Besides having the meaning of "any obscure unit", furlongs per fortnight have also served frequently in the classroom as an example on how to reduce a units' fraction.
] (LD), the distance from the centre of Earth to the centre of the Moon, is a unit of measure in astronomy. The lunar distance is approximately {{cvt|384,400|km|mi}}, or 1.28 ]s; this is roughly 30 times ]. A little less than 400 lunar distances make up an ].


===Siriometer===
It is perhaps remotely notable that using the FFF system the ] may be expressed as being roughly 1.8 terafurlongs per fortnight.
The ] is an obsolete astronomical measure equal to one million ]s, i.e., one million times the average distance between the Sun and Earth.<ref name=charlier>{{cite book|last1=Charlier|first1=C. V. L.|author-link1=Carl Charlier|title=Lectures on Stellar Statistics|year=1921|url=https://www.gutenberg.org/files/22157/22157-h/22157-h.htm|bibcode=1921lss..book.....C}}</ref> This distance is equal to about 15.8&nbsp;]s, 149.6&nbsp;]m, or 4.8&nbsp;]s, and is about twice the distance from Earth to the star ].<!--Google test prefers US spelling--><ref name=beech>{{cite journal|last1=Beech|first1=Martin|title=The reluctant parsec and the overlooked light-year|journal=]|volume=128|page=489|year=2008|bibcode=2008Obs...128..489B}}</ref>


====Microfortnight==== ===Cubit===
The ] is, among others, a unit used in the Bible for measuring the size of ] and of the ]. Cubits of various lengths were used in Antiquity by various peoples, not only the Hebrews. One cubit is originally the length from someone's elbow to the tip of their middle finger; it usually translates to approximately half a metre ±10%, with an ancient Roman cubit being as long as 120&nbsp;cm.


One cubit was equal to 6–7 ], one palm being the width of a hand not including the thumb.
One very convenient unit deduced from this set is the 1-millionth part of the fundamental time unit of FFF, which equals 1.2096 seconds, and is a typical example of ] ] ]. As the story goes, "The ] ] has a lot of tuning parameters that you can set with the SYSGEN utility, and one of these is TIMEPROMPTWAIT, the time the system will wait for an operator to set the correct date and time at boot if it realizes that the current value is bogus. This time is specified in microfortnights."


===Vee===
The joke is in having a rather large, obsolete unit (fortnight) combined with a fractional SI prefix (]) to counteract that. The practical purpose is to discourage setting such parameters without some thought.
In ]/] and specifically in the included traditional manuscript macro set ''ms'', the vee (v) is a unit of vertical distance often—but not always—corresponding to the height of an ordinary line of text.<ref>{{cite web | url=https://www.gnu.org/software/groff/manual/groff.html#ms-basic-information | title=The GNU Troff Manual }}</ref>


====Other==== ==Area==
<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->
Further development of derived units, like ''firkin furlongs per fortnight squared'' for ], has yet to happen.


==Football field== === Barn ===
{{Main|Barn (unit)}}
This refers to the American ], which has a playing area 100 ]s long. This is often used by the ] public media for the sizes of large buildings or parks: easily walkable but non-trivial distances. Note that it is a unit of length and not area.
One barn is 10<sup>−28</sup>&nbsp;square metres, about the cross-sectional area of a uranium nucleus. The name probably derives from early neutron-deflection experiments, when the uranium nucleus was described, and the phrases "big as a barn" and "hit a barn door" were used. Barn are typically used for ]s in nuclear and particle physics. Additional units include the microbarn (or "outhouse")<ref>{{cite web |url=http://www.nuclearglossary.com/abcs/nuclearglossary_O.html#outhouse |title=An Exceptional Nuclear Glossary |publisher=Nuclearglossary.com |date=25 November 2006 |access-date=8 April 2011 |archive-date=27 June 2016 |archive-url=https://web.archive.org/web/20160627084654/http://www.nuclearglossary.com/abcs/nuclearglossary_O.html#outhouse }}</ref> and the yoctobarn (or "shed").<ref name="Rowlett">{{cite web |author= Russ Rowlett |date= 1 September 2004 |title= Units: S |url= http://www.unc.edu/~rowlett/units/dictS.html |website= How Many? A Dictionary of Units of Measurement |publisher= ] |access-date= 14 December 2009}}</ref><ref>{{cite book |last=Green|first=Jonathon|title=Dictionary of Jargon|url=https://books.google.com/books?id=P0QOAAAAQAAJ&pg=PA487|access-date=14 December 2009|date=December 1987|publisher=Routledge Kegan & Paul|isbn=978-0-7100-9919-8|page=487}}</ref>


==Gillette== === Kuang ===


A Kuang is a traditional Chinese unit of area used in ],{{Clarify|reason=How?|date=July 2024}} equal to 0.11 square metres or one square ].<ref>{{cite journal |last1=Moore |first1=Julia L |last2=Liang |first2=Liang |last3=Remais |first3=Justin V |title=Cautioning the use of degree-day models for climate change projections in the presence of parametric uncertainty. |journal=Ecological Applications |date=December 2012 |volume=22 |issue=1051–0761 |pages=2237–2247 |doi=10.1890/12-0127.1 |pmid=23387122 |pmc=3816756 |bibcode=2012EcoAp..22.2237M }}</ref>
A unit described by ] as an early measure of ] output power. The measure was simply the number of razor blades through which the laser could burn a hole. This measurement was especially convenient as the first Lasers were pulsed Ruby Lasers, making it otherwise difficult to measure the output power. Also, due to the relative uniformity of razor blades manufactured by ], it had some usefulness as a rough comparison.


===Brass or square===
Thus, scientists would brag about having a "4 Gillette" laser versus their competitor's puny "2 Gillette" laser. (For the record, Ted Maiman claims that the first laser was a "2 Gillette" laser.)
One brass is exactly {{convert|100|ft2|sigfig=3}} area (used in measurement of work done or to be done, such as plastering, painting, etc.). The same word is used, however, for {{convert|100|ft3|sigfig=3}} of estimated or supplied loose material, such as sand, gravel, rubble, etc. This unit is prevalent in the construction industry in ].<ref>{{cite news|url=http://gardentia.net/chart/|title=Chart|website=gardentia.net|date=20 August 2012 |access-date=1 May 2018}}</ref><ref>{{cite news|url=http://www.business-standard.com/article/economy-policy/mumbai-builders-hit-sand-trap-110021200018_1.html|title=Mumbai builders hit sand trap|first=Sanjay|last=Jog|date=12 February 2010|access-date=1 May 2018|via=Business Standard|newspaper=Business Standard India}}</ref>


The same area is called a '']'' in the construction industry in North America,<ref>{{cite web|url=http://www.p1m.com/um.htm|archive-url=https://web.archive.org/web/20031018185707/http://www.p1m.com/um.htm|archive-date=18 October 2003|title=Units of Measurements|date=18 October 2003|access-date=1 May 2018}}</ref> and was historically used in ] by real estate agents. A ]'s area may be calculated in square feet, then converted to squares.
==Helen==
The amount of beauty that can launch one thousand ships. Usually used as the '''millihelen''', the amount of beauty that can launch one ship.


===Cow's grass===
Named after ], from the '']''. Inspired by ]'s line from the play ], ''"Was this the face that launched a thousand ships...?"''.
In Ireland, before the 19th century, a "cow's grass" was a measurement used by farmers to indicate the size of their fields. A cow's grass was equal to the amount of land that could produce enough grass to support a cow.<ref>{{cite book |last=Kelly|first=John|title=The Graves are Walking: The Great Famine and Saga of the Irish People|page=15|publisher=Henry Holt & Co.|date=2012}}</ref><ref>{{Cite book|url=https://archive.org/details/lettersoncondit00fostgoog|title=Letters on the Condition of the People of Ireland|last=Foster|first=Thomas Campbell|date=1846|publisher=Chapman and Hall|language=en|quote=The land is not let by the acre, but by what is termed a "cow's grass" — so many "cows' grass" to a farm. A "cow's grass" is a measure of land; usually it means as much mountain grazing-land as will keep a cow during the summer, and as much arable-land as will keep the cow-house in fodder during the winter.|page=}}</ref>
<!--
No evidence of this can be found (in sources not derived from WP). CN tag is 2.5 years old.


A variation called a "cow field"{{clarify|reason=How big is a cow field, in standard units?|date=April 2016}} is still often used in the ], particularly ], where classified advertisements in the local newspaper ('']'') for land can be seen referring to "A plot of land measuring X cow fields." This is probably still used because an acre of land in Guernsey is rather unusual due to the small size of the island and therefore a cow-field is a more suitable unit of measurement.{{citation needed|date=April 2016}}
See also:


-->
==Jiffy==


===Football field (area)===
In ], the ] is the duration of one tick of the system timer interrupt. Typically, this time is 0.01 seconds, though in some earlier systems (such as the ] ] machines) the jiffy was defined as 1/60 of a second, roughly equal to the vertical blanking interval on ] video hardware (and the frequency of ] ] in North America).
].]]
A ], or field, can be used as a man-in-the-street unit of area.<ref>{{Cite news|url=http://news.bbc.co.uk/2/hi/africa/6097616.stm|title=Nigerian crash airline grounded|date=30 October 2006|via=news.bbc.co.uk}}</ref><ref>{{Cite news|url=http://news.bbc.co.uk/1/hi/england/hereford/worcs/5215118.stm|title=Grass fire strikes the Malverns|date=25 July 2006|via=news.bbc.co.uk}}</ref> The standard ] ] for international matches is {{convert|105|m|ft|abbr=on}} long by {{convert|68|m|ft|abbr=on}} wide ({{convert|7140|m2|ha acre|abbr=on|disp=or}}); FIFA allows for a variance of up to {{convert|5|m|ft|abbr=on|1}} in length in either direction and {{convert|7|m|ft|abbr=on|1}} more or {{convert|4|m|ft|abbr=on|1}} less in width (and larger departures if the pitch is not used for international competition), which generally results in the association football pitch generally only being used for ] comparisons.<ref>{{cite web | title=Goal-line technology put on ice | website=fifa.com | date=8 March 2008 | url=http://www.fifa.com/aboutfifa/federation/bodies/media/newsid%3D707751.html | archive-url=https://web.archive.org/web/20101223112215/http://www.fifa.com/aboutfifa/federation/bodies/media/newsid%3D707751.html | archive-date=23 December 2010 | access-date=10 August 2019}}</ref>


An ], including both end zones, is {{convert|360|by|160|ft|yd m|1|abbr=on}}, or {{convert|57600|sqft|m2}} ({{convert|0.535|ha|acre|disp=or}}). A ] is {{convert|65|yd|m}} wide and {{convert|110|yd|m}} long with end zones adding a combined {{convert|40|yd|m}} to the length, making it {{convert|87750|sqft|m2}} or {{convert|0.8215|ha|acre|abbr=on}}.
==Johm==
Named after ], a ] new age guru who alleged to be able to infuse water with positive energy (even when she was on TV and watchers would place a glass of water in front of their set). One johm is the amount of positive radiation that Jomanda can generate in one day. The average person supposedly has a far smaller capacity for creating positive radiation, usually measured in microjohms.


An ] may be approximately {{convert|150|m|yd}} (or more) long goal to goal and {{convert|135|m|yd}} (or more) wide, although the field's elliptical nature reduces its area to a certain extent. A {{convert|150|by|135|m|yd|adj=on}} football field has an area of approximately {{convert|15900|m2|ha acre|abbr=on}}, twice the area of a Canadian football field and three times that of an American football field.
==KKK system==
The KKK system is based on traditional Finnish units. This system has been suggested by certain Finnish patriots as a logical next step of ]'s hypothetical resignation from the ] in the future. The KKK system is not only a return back to the roots and honouring the ancient traditions, but also supposedly provides a convenient, patriotic alternative for multinational systems.


===Morgen===
The basic units of the KKK system are
{{Main|Morgen}}
A ] ("morning" in Dutch and German) was approximately the amount of land tillable by one man behind an ox in the morning hours of a day. This was an official unit of measurement in South Africa until the 1970s, and was defined in November 2007 by the South African Law Society as having a conversion factor of 1&nbsp;morgen = {{val|0.856532|u=hectare}}.<ref>{{cite web
|url= http://www.lawsoc.co.za/webs/surveyorgeneral/2007_11_area_conversion.doc
|title= Instructions for the Conversions of Areas to Metric
|publisher= Law Society of South Africa
|date= November 2007
|access-date= 27 December 2013
|archive-date= 20 March 2018
|archive-url= https://web.archive.org/web/20180320105433/https://www.lawsoc.co.za/webs/surveyorgeneral/2007_11_area_conversion.doc
}}</ref> This unit of measure was also used in the Dutch colonial province of ] (later ] and parts of ]).<ref>{{cite book|last=O'Callaghan|first=Edmund Bailey |title=Laws and Ordinances of New Netherland, 1638–1674|url=https://archive.org/details/cu31924080779402|year=1868|publisher=Weed, Parsons, printers|location=Albany, NY|page=}}</ref><ref>{{cite web|url=http://www.rootsweb.ancestry.com/~nycoloni/nnlandex.html,|title=RootsWeb.com Home Page|website=www.rootsweb.ancestry.com|access-date=1 May 2018|archive-url=https://web.archive.org/web/20180501133050/http://www.rootsweb.ancestry.com/~nycoloni/nnlandex.html,|archive-date=1 May 2018}}</ref>


===Countries, regions, and cities===
* ''kyynärä'' for distance (ky); English ''cubit''
The area of a familiar country, state or city is often used as a unit of measure, especially in ].
* ''kuukausi'' for time (kk); English ''month''
* ''kannu'' for weight (ka); English ''tankard''


====Wales====
The supplemental unit for temperature is the ] (K). Therefore the system can also be called the KKKK or 4K system.
]Equal to 20,779&nbsp;km<sup>2</sup> (8,023&nbsp;sq&nbsp;mi), the country of ] is used in phrases such as "an area the size of Wales"<ref>{{cite news|url=https://www.bbc.co.uk/news/uk-wales-46737277 |title=Why is Wales used as a unit of measurement? |newspaper=BBC News |access-date=22 January 2019|date=22 January 2019 |last1=Frampton |first1=Ben }}</ref> or "twice the area of Wales".<ref>{{Cite news|url=http://news.bbc.co.uk/1/hi/wales/south_west/4543070.stm|title=Expat joins Falklands council|date=24 December 2005|via=news.bbc.co.uk}}</ref><ref>{{Cite news|url=http://news.bbc.co.uk/2/hi/science/nature/5184332.stm|title=Diary: The Amazon rainforest|date=19 July 2006|via=news.bbc.co.uk}}</ref> ] is 6.275 times the size of Wales, and Scotland is roughly four times the size of Wales. ] is four times as large as Wales, and ] is about twenty-five times larger.


The British comedy show '']'' parodied the use of this measurement, by introducing a news article about an earthquake in Wales, stating that an area the size of Wales was affected. The Radio 4 programme ''More or Less'' introduced the idea of "kilowales"&nbsp;– an area 1,000 times the size of Wales. '']'' introduced the nanowales (20.78&nbsp;m<sup>2</sup>).<ref>{{cite web |last=Haines|first=Lester|title=So, what's the velocity of a sheep in a vacuum?|url=https://www.theregister.co.uk/2007/08/24/vulture_central_standards/?page=2|archive-url=https://web.archive.org/web/20131114110120/https://www.theregister.co.uk/2007/08/24/vulture_central_standards/?page=2|archive-date=14 November 2013|website=The Register|date=24 August 2007|access-date=25 August 2015}}</ref>


The measurement has been adopted by rainforest conservation charity ], aiming to conserve an area of rainforest equating to the area of Wales. On 1 March 2013, the ] announced that they had succeeded<ref>{{cite web |title=What next for Size of Wales?|url=http://sizeofwales.tumblr.com/post/57366552318/whats-next-for-size-of-wales|publisher=Size of Wales|access-date=31 May 2014}}</ref> in conserving an area of rainforest the size of Wales and will continue to operate to sustain and increase the protected area.<ref>{{cite news |last=Vaughn|first=Adam|title=Welsh charity saves an area of rainforest the size of Wales|url=https://www.theguardian.com/environment/2013/mar/01/charity-saves-rainforest-size-of-wales|access-date=31 May 2014|newspaper=Guardian|date=1 March 2013}}</ref>
{| border=1 cellpadding=3 cellspacing=0
|-
|bgcolor=#E0E0E0 |<center> '''Unit'''
|bgcolor=#E0E0E0 |<center> '''of'''
|bgcolor=#E0E0E0 |<center> '''SI equivalence'''
|bgcolor=#E0E0E0 |<center> '''Conventional Imperial equivalence'''
|-
| kyynärä || length ||593.76 mm|| 1.948 ft
|-
| kuukausi || time || 30 days || 2,592,000 seconds
|-
| kannu of ] || mass || 2.617932816 kg || 1.1855413 lb
|}


====United States====
The everyday definitions are:
In the United States, the area of the smallest state, ] ({{convert|1545|sqmi|km2|disp=or|abbr=on}}); the largest of the contiguous 48 states, ] ({{convert|268601|sqmi|km2|disp=or|abbr=on}}); and less commonly ] ({{convert|656425|sqmi|km2|disp=or|abbr=on}}), the largest of all 50&nbsp;states, are used in a similar fashion. For example, ]'s ] was approximately the size of Rhode Island until it broke up in 2002. Other areas may be described like this, too, like in the 1979 movie '']'' when radiation is expected to contaminate "an area the size of ]". The island of Manhattan ({{convert|22.83|sqmi|km2|disp=or|abbr=on}}) is a common reference.


The US ] uses ] ({{convert|61.4|sqmi|km2|disp=or|abbr=on}}) as a comparison for city-sized objects.<ref>{{Cite web |title=Area - comparative - The World Factbook |url=https://www.cia.gov/the-world-factbook/field/area-comparative/ |access-date=2024-03-14 |website=www.cia.gov}}</ref>
* ''kyynärä'' : the length of the arm of a man from elbow to wrist
* ''kuukausi'': the length of a lunar cycle
* ''kannu'': the weight of one volume of ''kannu'', equalling 1/79.982670 of cubic kyynärä, of distilled and ion-exchanged water at 277.13 kelvins
* ''Kelvin'' follows the international defintion


====Other countries====
For everyday use, the unit ''mikrokuukausi'' (&micro;kk), equalling 2.592 seconds, is suggestable.
In the Netherlands, its smallest province, ] ({{convert|1386|km2|sqmi|abbr=on|disp=or}}), is often used as a comparison for regions in general.{{Citation needed|date=March 2024}}


The country of ] ({{convert|30528|km2|sqmi|disp=or|abbr=on}}) has also often been used when comparing areas, to the point where it has been regarded as a ]<ref>{{cite news|first=Chris |last=Edwards |title=Quizzical: this month, Chris Edwards tackles temperature extremes, the size of Belgium, categorising nations' development status, the hydrogen bombs dropped on Japan and the number of people who speak Scottish Gaelic |url=http://findarticles.com/p/articles/mi_hb3120/is_8_77/ai_n29198390/ |work=] |date=August 2005 |access-date=20 May 2009 |archive-url=https://web.archive.org/web/20110413081725/http://findarticles.com/p/articles/mi_hb3120/is_8_77/ai_n29198390/ |archive-date=13 April 2011 }}</ref> and where there is a dedicated to notable areas which have been compared to that of Belgium.
Derived KKK units


The ] ({{convert|380|km2|sqmi|0|disp=or|abbr=on}}), an island off the south coast of mainland ], is commonly used to define smaller areas. It has sometimes been used in attempts to examine whether a certain amount of a given object or group would fit in a space its size; in 2018, it was estimated that approximately 2.6&nbsp;billion people could fit on the Isle of Wight, at a population density of six people per square metre.<ref>{{cite web |last1=White |first1=Jamie |title=Would The World's Population Fit on the Isle of Wight? |url=https://iwradio.co.uk/2018/03/08/worlds-population-fit-isle-wight/ |website=] |date=8 March 2018 }}{{Dead link|date=March 2024 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> In Hong Kong, the 19-hectare Victoria Park is used to define smaller areas.
* Velocity: ''kyynärää kuukaudessa'' (ky/kk) = 0.229 mm/s. A more convenient everyday unit is ''kyynärää mikrokuukaudessa'' (ky/mkk) = 0.229 m/s or 0.8246 km/h
* Force: ''kannukyynärää per neliökuukausi'' (kykakk<sup>-2</sup> = 2.3165947*10<sup>-13</sup> newtons. More convenient is ''kannukyynärää per neliömikrokuukausi'' = 0.21365947 N
* Energy: ''kannuneliökyynärää per neliökuukausi'' (kaky<sup>2<sup>kk<sup>-2</sup>) = 1.2735844*10<sup>-13<sup> joules. More convenient is ''kannuneliökyynärää per neliömikrokuukausi'' = 0.12735844 J.
* Density: ''kannua kuutiokyynärässä'' (kaky<sup>-3</sup>) = 12.5062 kg/m<sup>3</sup>
* Pressure: ''kannua per kyynäräneliökuukausi'' (kakykk-2)


In ], the outlying island of ] ({{convert|588|km2|abbr=on|disp=or}}) is often used to describe the size of an area.
==KLOC or K-LOC==
A computer programming expression, pronounced ''kay-lok'', standing for "Kilo-Lines of Code", i.e. "Thousand Lines of Code". Used, especially by ] managers, to express the amount of work required to develop a piece of software. Given that estimates of 20 lines of functional bug-free code per day per programmer were often used, it is apparent that 1 KLOC could take one programmer as long as 50 working days, or 10 working weeks.


In Germany, the state of ] ({{convert|2569.69|km2|sqmi|disp=or|abbr=on}}) is often used to define areas.<ref>{{cite news |url=https://www.welt.de/wissenschaft/article6452153/Das-Saarland-das-Vergleichsmass-vieler-Dinge.html|title=Größenordnungen: Das Saarland – das Vergleichsmaß vieler Dinge – DIE WELT|author=Marco Krefting|date=18 February 2010|newspaper=DIE WELT}}</ref>
==Koskenkorva bottle==
In ], the standard yardstick for large amounts of alcohol is the ] bottle, 0.5 liters at 38%, which works out to be 0.19 liters of pure alcohol. Incidentally, the average yearly consumption of alcohol in Finland, which is about 10 liters per capita, is also 52 Koskenkorva bottles or exactly one Koskenkorva bottle per week.


In ], it is common to compare relatively small areas to the state of ] ({{convert|21910.4|km2|sqmi|disp=or|abbr=on}}), the smallest in the country. Smaller areas are sometimes compared to the cities of ] ({{convert|1521.11|km2|sqmi|disp=or|abbr=on}}) or ] ({{convert|1221|km2|sqmi|disp=or|abbr=on}}).
For example, in an official release of the ]: ''The amount of confiscated alcohol corresponds to 51&nbsp;000 half-litre Koskenkorva bottles --''


==Volume==
==Library of Congress==
<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->


===Metric ounce===
The term ''Library of Congress'' (or ''LoC'') is sometimes used as a unit of measurement when discussing large amounts of data. It refers to the U.S. ]. One Library of Congress equals approximately 20 ]s of uncompressed textual data.
A metric ounce is an approximation of the imperial ounce, US dry ounce, or US fluid ounce. These three customary units vary. However, the metric ounce is usually taken as {{convert|25|or|30|ml|abbr=on}} when volume is being measured, or in grams when mass is being measured.


The US ] (FDA) defines the "food labeling ounce" as {{convert|30|ml|abbr=on}}, slightly larger than the {{convert|29.6|ml|abbr=on}} ].<ref>{{cite web |url=http://edocket.access.gpo.gov/cfr_2004/aprqtr/21cfr101.9.htm |title=Food and Drugs: FDA Food Labeling |date=1 April 2004 |publisher=] |access-date=27 August 2012 |archive-url=https://web.archive.org/web/20120204081321/http://edocket.access.gpo.gov/cfr_2004/aprqtr/21cfr101.9.htm |archive-date=4 February 2012 }}<br />For ]ing "a teaspoon means 5 milliliters (ml), a tablespoon means 15 ml, a cup means 240 ml, 1 fl oz means 30 ml, and 1 oz in weight means 28 g".</ref>
== Metric ==
There are also some obscure units used within the metric system(s). The issue is basically, that with arbitrary units and prefixes you can express a common unit with an unfamiliar term.
* For instance, the French at first preferred the ], which is 100 m², as base unit for areas; the square metre (m²) becomes a ''centiare'' (ca). Only the base unit and ] (ha) saw a wider use and are still in use in some countries.
* Some also used the ''stere'' (st) equalling a cubic metre (m³), so the litre (l), which is a cubic decimetre (dm³), becomes a ''millistere'' (mst). Motorcyclists are often confused, if the cubic capacity of their engines are given in ''millilitre'' (ml) instead of cubic centimetre (cm³); on the contrary the same property for cars is usually given in litres (l), not ''cubic decimetres'' (dm³). On the next level, the ''kilolitre'' (kl) could replace the cubic metre (m³).
* The {{ll|Finnish}} term for one cubic meter is ], "a bound pile of wood", because firewood is usually piled up in cubes one meter side. This unit is used only in measuring firewood. The term has also gained a meaning in military slang. The unit ''hehto'' (hectolitre, 100 liters) is also used for measuring the amount of grains, potatoes or similar.
* The Soviets and French<!-- Did the French use it? Not according to the article linked to. --> for a short period in the 20th century used a ] where the base unit of mass was the ], meaning that a kilogram was a ''millitonne'' (mt). Conversely, some companies are using the '']'' (Mg), to avoid confusion with Imperial tons.
* In ], the French term "grave" was suggested as the base unit for the metric system. Due in no small part to the French Revolution, in ] the name "kilogram" was adopted instead. Now we have a base unit with a prefix, due to a historical quirk.
* A ] in ] and ] is a distance of 10 kilometres. The term originates from a pre-metric mil (in earlier times rast) of slightly over 10 km, denoting a suitable distance between rests when walking. The metric mil was officially established in Sweden on ] ]. For geographical distances the term is probably used more than the kilometre. It is also used commonly for measuring vehicle fuel consumption, litres per mil means litres consumed per 10 km . However, confusingly, the ''mil'' is also a little-used much smaller unit equal to one-thousandth of an inch.
*Among physicists there is the ] replacing common units with uncommon units, as in velocity: <math>{\mathrm{m} \over \mathrm{s}} = {\mathrm{hertz} \over \mathrm{dioptre}} = {\mathrm{Hz} \over \mathrm{dpt}}</math>. In this case, the reciprocal values of ] and ] have been used, ] and ], respectively.
*The unit of amplification, ] (dB), is sometimes also called as ''phone''. This has led to ] of ''One ] equals 10<sup>12</sup> ]s''.


Several ] have been replaced with informal metric equivalents, including the ''ons'' or ounce. It originally meant {{Fraction|1|16}} of a pound, or a little over {{convert|30|g|abbr=on}} depending on which definition of the pound was used, but was redefined as {{convert|100|g|abbr=on}} when the country metricated.<ref>{{Cite web|url=https://hollandexpatcenter.com/en/living-in/practical-information/|title=Practical information|website=Holland Expat Center}}</ref>


===Shot===
''See also:'' ]
{{Main|Shot glass}}
]
The ] is a liquid volume measure that varies from country to country and state to state depending on legislation. It is routinely used for measuring strong ] or spirits when the amount served and consumed is smaller than the more common measures of alcoholic "drink" and "pint". There is a legally defined maximum size of a serving in some jurisdictions. The size of a "single" shot is {{convert|20|-|60|ml|abbr=on}}. The smaller "pony" shot is {{convert|20|-|30|ml|abbr=on}}. According to Encyclopædia Britannica Almanac 2009, a pony is 0.75 ]s{{clarify|date=September 2014|reason=Imperial fluid ounces, US fluid ounces, or something else?}} of liquor.<ref name="BritannicaAlmanac">{{cite book |title=Encyclopaedia Britannica Almanac 2009|date=2009|publisher=Encyclopædia Britannica|isbn=978-1-59339-839-2|page=160|url=https://books.google.com/books?id=2nxLkMspauIC&pg=PA160|editor=Encyclopædia Britannica Inc. Staff |access-date=22 April 2013}}</ref> According to ], one pony is 1&nbsp;].<ref name="WA Pony">{{cite web |url=http://www.wolframalpha.com/input/?i=what+is+one+pony |title=what is one pony |publisher=Wolfram Alpha |date=19 June 2014 |access-date=19 June 2014}}</ref><!-- Site gives conversion as 19.57 cm3, which equals 1 US fl oz--> "Double" shots (surprisingly not always the size of two single shots, even in the same place) are {{convert|40|-|100|ml|abbr=on}}. In the UK, spirits are sold in shots of either {{convert|25|ml|abbr=on}} (approximating the old ]) or {{convert|35|ml|abbr=on}}.<ref>{{Cite web|url=https://www.gov.uk/weights-measures-and-packaging-the-law/specified-quantities|title=Weights and measures: the law|website=GOV.UK}}</ref>


===Board foot or super foot===
==Microbit==
{{Main|Board foot}}
The ] ] '']'' once claimed to be named after the '''microbit''', defined as one millionth of a ]. Given the common meaning of a bit as a discrete entity being either 0 or 1, such a fractional bit is not conceptually sound, however other prefixes such as kilo, mega, and giga--denoting large quantities of bits--are regularly used in computing. In addition, in ], a bit can be used as measure of a degree of uncertainty. Thus a microbit indicates a very small amount of uncertainty. For example, the amount of information corresponding to the knowledge that a given second in the ] is a ] is about 0.4 microbits.
A board foot is a United States and Canadian unit of approximate volume, used for lumber. It is equivalent to {{nowrap|1 inch × 1 foot × 1 foot}} ({{convert|144|cuin|0|disp=or|abbr=on}}). It is also found in the unit of density ''pounds per board foot''. In Australia and New Zealand the terms ''super foot'' or ''superficial foot'' were formerly used for this unit. The exact volume of wood specified is variable and depends on the type of lumber. For planed lumber the dimensions used to calculate board feet are ], which are larger than the actual size of the planed boards. See ] for more information on this.


==Mikrotuki== ===Hoppus foot===
{{further|Hoppus}}
Literally ''micro-support''. This derives from Finnish ''mikrotukihenkilö'' (microcomputers systems support person). Originally an ] of ] Research Center in ], ]. It is one workday (8 h or 28 800 seconds) of one competent PC systems support person
A system of measure for timber in the round (standing or felled), now largely superseded by the metric system except in measuring hardwoods in certain countries. Its purpose is to estimate the value of sawn timber in a log, by measuring the unsawn log and allowing for wastage in the mill. Following the so-called "quarter-girth formula" (the square of one quarter of the circumference in inches multiplied by {{frac|1|144}} of the length in feet), the notional log is four feet in circumference, one inch of which yields the hoppus board foot, 1&nbsp;foot yields the hoppus foot, and 50&nbsp;feet yields a hoppus ton. This translates to a hoppus foot being equal to {{convert|1.273|ft3|in3 m3}}. The hoppus board foot, when milled, yields about one ]. The volume yielded by the quarter-girth formula is 78.54% of cubic measure (i.e. 1&nbsp;ft<sup>3</sup> = 0.7854&nbsp;h&nbsp;ft; 1&nbsp;h&nbsp;ft = 1.273&nbsp;ft<sup>3</sup>).<ref name="forest mensuration">{{cite book |last= Husch |first= Bertram |author2=Thomas W. Beers |author3=John A. Kershaw |title= Forest Mensuration |url=https://books.google.com/books?id=p0v3m8Pau-kC&pg=PA202|publisher= John Wiley and Sons |date= 2003 |isbn= 978-0-471-01850-6}}</ref>


==Morgan== ===Cubic ton===
{{Main|Cubic ton}}
The morgan is a never-used unit related to the distance between ] on a ]. Only a daughter unit, the ], has ever been used. In ], the morgan would be approximately 100 million ] long.
A cubic ton is an antiquated measure of volume, varying based on the commodity from about {{convert|16|to|45|ft3|m3|abbr=on}}. It is now only used for lumber, for which one cubic ton is equivalent to {{convert|40|ft3|m3|abbr=on}}.


==Nanoacre== ===Cord and rick===
]
{{Main|Cord (unit)}}
The cord is a unit of measure of ] used in Canada and the United States to measure ] and ]. A cord is the amount of wood that, when "ranked and well stowed" (arranged so pieces are aligned, parallel, touching and compact), occupies a volume of {{convert|128|cuft|m3|2}}.<ref>{{cite web |author=British Columbia Ministry of Forests and Range|title=Glossary of Forestry Terms in British Columbia|url=http://www.for.gov.bc.ca/hfd/library/documents/glossary/Glossary.pdf|access-date=4 September 2008}}</ref> This corresponds to a well-stacked woodpile, 4&nbsp;feet deep by 4&nbsp;feet high by 8&nbsp;feet wide {{nowrap|(122 cm × 122&nbsp;cm × 244&nbsp;cm)}}, or any other arrangement of linear measurements that yields the same volume. A more unusual measurement for firewood is the "rick" or ]. It is stacked {{convert|16|in|cm|sigfig=3}} deep with the other measurements kept the same as a cord, making it {{frac|3}} of a cord; however, regional variations mean that its precise definition is non-standardized.<ref>{{cite web|url=http://www.ibiblio.org/units/dictR.html|title=Units: R|last=Rowlett|first=Russ|date=25 April 2002|website=How Many? A Dictionary of Units of Measurement|access-date=10 August 2019}}</ref>


===Twenty-foot equivalent unit===
A nanoacre is a unit (about 2 mm square) of real estate on a ] ]. "The term gets its giggle value from the fact that VLSI nanoacres have costs in the same range as real ]s in ] once one figures in design and fabrication-setup costs." (Source: The )
{{main|Twenty-foot equivalent unit}}
The twenty-foot equivalent unit is the volume of the smallest standard ]. It is equivalent to {{convert|1360|cuft|m3}}. Larger intermodal containers are commonly described in multiples of TEU, as are container ship capacities.


==Nanocentury== ===Acre-foot===
{{Main|Acre-foot}}
An acre-foot is a unit of volume commonly used in the United States in reference to large-scale water resources, such as reservoirs, aqueducts, canals, sewer flow capacity, irrigation water<ref>{{cite web |title=NM OSE Glossary|url=http://www.ose.state.nm.us/water_info_glossary.html#A|archive-url=https://web.archive.org/web/20051114202301/http://www.ose.state.nm.us/water_info_glossary.html|archive-date=14 November 2005|access-date=15 March 2014}}</ref> and river flows. It is defined by the volume of one acre of surface area to a depth of one foot. {{convert|43560|ft3|m3 USgal impgal|0|abbr=on}}.


===Casual units===
Another derived time unit, reducing a rather large time span (]) by preceding it with a fractional prefix (]). As ] at ] pointed out: "How many seconds are there in a year? If I tell you there are 3.155 &times; 10<sup>7</sup>, you won't even try to remember it. On the other hand, who could forget that, to within half a percent, ] seconds is a
Many well-known objects are regularly used as casual units of volume. They include:
nanocentury."


;Double-decker bus: The approximate volume of a ], abbreviated to DDB, has been used informally to describe the size of hole created by a major sewer collapse. For example, a report might refer to "a 4 DDB hole".<ref>{{cite book |url=https://books.google.com/books?id=8wpnoExCJOcC|title=Sewers: Repair and Renovation|publisher= Butterworth-Heinemann |editor=Geoffrey F Read |editor2=Ian Vickridge |date=24 December 1996|access-date=29 June 2016|isbn=978-0-08-054112-9}}</ref>
One computer science professor used to characterize the standard length of his ]s (a little less than an ]) as a microcentury.


;Olympic-size swimming pool: ] For larger volumes of liquid, one measure commonly used in the media in many countries is the ].<ref>Paul Hudson: , showing a storm water storage tank "half the size of an Olympic swimming pool"</ref> A {{convert|50|×|25|m|abbr=on}} Olympic swimming pool, built to the FR3 minimum depth of {{convert|2|m|ft|1}} would hold {{convert|2500|m3|USgal|abbr=on}}. The US ] (NIST) defines the Olympic swimming pool as 1&nbsp;million litres, which is the approximate volume of the smaller FR2 pool.<ref>{{cite web|url=https://www.nist.gov/pml/wmd/metric/volume.cfm|title=SI Units – Volume|first=Isabel|last=Chavez|date=1 August 2011|website=nist.gov|access-date=1 May 2018}}</ref>
==Nelson's Column / Double-decker Bus==


;Royal Albert Hall: The ], a large concert hall, is sometimes used as a unit of volume in the UK, for example when referring to volumes of rubbish placed in landfill.<ref>p </ref> It is famously used in the line "Now they know how many holes it takes to fill the Albert Hall." in ] song "]".<ref name="Origins">{{cite web |url=http://www.applecorp.com/aditl/origins.htm |title=A Day in the Life&nbsp;– An Indepth Analysis&nbsp;– The Origins of the Song |access-date=18 September 2010 |archive-url= https://web.archive.org/web/20080419020720/http://www.applecorp.com/aditl/origins.htm |archive-date= 19 April 2008}}</ref> The volume of the auditorium is between 3 and 3.5&nbsp;million cubic feet (between 85,000 and 99,000 cubic metres).<ref>{{cite book
The ] is a measure of height equal to 61.5 m. Used principally by British newspapers or reference books, it is useful in measuring the size of buildings or, occasionally, mountains. The ] may be used to measure heights smaller than a Nelson's Column. The height of a typical double-decker bus is 4 to 5m. A "double-decker bus" is also a unit of ] sufficient to fill a double-decker bus: about <math>100\mathrm{m}^3</math>.
|last=Atwood|first=Robert
|date=2006
|title=Bears Can't Run Downhill, and 200 Dubious Pub Facts Explained
|publisher=Ebury Press
|page=124
|isbn=978-0-09-191255-0
}}</ref>


;Melbourne Cricket Ground: A common measure of volume in ], and in the state of ] in particular, is the ], the largest stadium in Australia and ].<ref>{{cite web |url=http://www.theage.com.au/articles/2003/12/05/1070351787509.html |title=Trouble brewing at the bottom of the bay |author= The Age |access-date=4 September 2014|date=6 December 2003 }}</ref> The volume of the Melbourne Cricket Ground is 1,574,000 cubic metres, or about 630&nbsp;].<ref>{{cite web |url=http://www.abc.net.au/news/2015-08-20/surveyors-find-exact-measurements-of-melbourne-cricket-ground/6709520 |title=How big is the MCG? Surveyors find exact measurements of Melbourne Cricket Ground|publisher=Australian Broadcasting Corporation|author=Margaret Paul|date=20 August 2015|access-date=20 August 2015}}</ref> Its seating capacity (100,000 {{as of|July 2019|lc=y}}) is also used as a unit measure of the ].
==Nibble==
A measure of quantity of data or information, the "]" (sometimes spelled "nybble") is equal to 4 bits, or one half of the common 8-bit byte. Rarely used, it is seldom seen outside of computer science labs.


;{{visible anchor|Sydney Harbour}}: ])]] A unit of volume used in Australia for water. One Sydney Harbour is the amount of water in ]: approximately 562&nbsp;gigalitres (562,000,000 cubic metres, or 0.562 of a cubic ]); or in terms of the more unusual measures above, about 357&nbsp;], 238,000&nbsp;], or 476,000&nbsp;].<ref>{{cite web |url=http://www.smh.com.au/news/National/The-secret-harbour-uncovered/2004/12/10/1102625541209.html|archive-url=https://web.archive.org/web/20160116134156/http://www.smh.com.au/news/National/The-secret-harbour-uncovered/2004/12/10/1102625541209.html|title=The secret harbour uncovered|archive-date=16 January 2016|date=11 December 2004}}</ref><ref>{{cite web |url=http://media.bom.gov.au/social/blog/39/when-dam-size-matters/ |title=When dam size matters |author= Australian Bureau of Meteorology |access-date=4 September 2014}}</ref><ref>{{cite web|author=NSW Irrigators' Council (NSWIC)|title=Useful Water Comparisons|url=http://www.nswic.org.au/pdf/fact_sheets/USEFUL%20WATER%20COMPARISONS.pdf|access-date=4 September 2014|archive-date=4 March 2016|archive-url=https://web.archive.org/web/20160304091232/http://www.nswic.org.au/pdf/fact_sheets/USEFUL%20WATER%20COMPARISONS.pdf|url-status=dead}}</ref>
==Pikotuki==
1/1000 of ''nanotuki'' or 0.0288 seconds of competent systems support. Likewise originally an inside joke at ] Research Center; ''pikotukihenkilö'' equals one thousandth of ''nanotukihenkilö'' (''pikotukihenkilö'' thus meaning "grossly incompetent person assigned in systems support"). Equals one thousandth of a ''nanotuki'' or one millionth of ''mikrotuki''. To describe work done by grossly incompetent work force.


;The Grand Canyon: With a volume measure approximately 4 orders of magnitude greater than Sydney Harbour, the volume of the ] may be used to visualize even larger things, like the magma chamber underneath Yellowstone<ref>{{cite news |url=https://www.washingtonpost.com/news/speaking-of-science/wp/2015/04/23/scientists-find-missing-link-in-yellowstone-plumbing-this-giant-volcano-is-very-much-alive/|title=Scientists find missing link in Yellowstone plumbing: This giant volcano is very much alive|author=Joel Achenbach|date=23 April 2015|newspaper=Washington Post}}</ref> and other things.<ref>{{cite AV media|url=https://www.youtube.com/watch?v=C6eOcd06kdk| archive-url=https://ghostarchive.org/varchive/youtube/20211117/C6eOcd06kdk| archive-date=17 November 2021 | url-status=live|title=How Many Things Are There?|date=28 April 2014|via=YouTube}}{{cbignore}}</ref><ref>{{Cite web|url=http://eesmyal.com/2012/02/human-cube/|title=Human Cube – eesmyal|access-date=24 April 2015|archive-date=18 April 2015|archive-url=https://web.archive.org/web/20150418141341/http://eesmyal.com/2012/02/human-cube/|url-status=dead}}</ref> According to the ], the volume of the Grand Canyon is {{convert|4.17|e12m3|e12yd3|abbr=off}}<ref>{{Cite web|url=https://www.nps.gov/grca/learn/management/statistics.htm|title=Park Statistics - Grand Canyon National Park (U.S. National Park Service)|website=www.nps.gov}}</ref> which is {{convert|4.17|e12m3|km3|disp=output only}} ({{convert|4.17|e12m3|mi3|disp=output only}}).
== Pinkwater ==


==Flow rate==
A notional unit of comfortable seating size; it can be used to describe both the width of a seat, or the width of a seat which a person needs to be comfortable in. Named for writer and book reviewer ], and was coined by 'Click and Clack', the hosts of the ] radio show.
===Miner's inch===
{{main|Miner's inch}}
The volume of water which flows in one unit of time through an orifice of one square inch area. The size of the unit varies from one place to another.


==Mass==


<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->
==Poronkusema==


=== Electronvolt mass ===
''Poronkusema'' (literally: passing of water of reindeer) is a measurement of distance originating from ]. It is a distance travelled in a ] pulled ], between two instances of reindeer passing water. This distance is 7.5–10 km. ''Poronkusemaa kuukaudessa'' (poronkusemas per month) is Finnish equivalent for furlongs per fortnight or Seemeilen pro Woche. Taken for ''poronkusema'' the value of 7500 m, and for month 30 d, ''poronkusemaa kuukaudessa'' becomes 0.0289252 m/s.
{{Main|Electronvolt#Mass}}
It is common in particle physics to use eV/''c''<sup>2</sup> as a unit of mass. Here, eV (electronvolt) is a unit of energy (the kinetic energy of an ] accelerated over one ], {{val|1.6|e=-19}}&nbsp;]s), and ''c'' is the speed of light in vacuum. Energy and mass are related through ''E''&nbsp;=&nbsp;''mc''<sup>2</sup>. This definition is useful for a ] when accelerating electrons.


{{block indent | text = 1 ]&nbsp;= 931.46 MeV/''c''<sup>2</sup>}}
==Potrzebie==


In many systems of ] {{nowrap|1=''c'' = 1}}, so the ''c'' is dropped and eV itself becomes a unit of mass.
In the ]s, '']'' magazine presented its own system of weights and measures in ] first professionally published article "The Potrzebie System of Weights and Measures" (''Mad'' Magazine #33, June 1957). The basic unit of this system was the ], which equals the thickness of ''Mad'' issue 26, or 2.263348517438173216473 mm.


=== Bag of cement and bag mix ===
==Realtor's Throw==
The mass of an old bag of ] was one ] ({{convert|112|lb|disp=comma}}). The amount of material that an aircraft could carry into the air is often visualised as the number of bags of cement that it could lift.{{Citation needed|date=March 2023}} In the concrete and petroleum industry, however, a bag of cement is defined as {{cvt|94|lb}} because it has an apparent volume close to {{convert|1|cuft|litre|abbr=off}}.<ref>{{cite web |url=http://www.cement.org/tech/faq_unit_weights.asp|title=Frequently Asked Questions, unit weights|publisher=Portland Cement Association|date=2011|access-date=15 February 2011}}</ref> When ] is specified, a "bag mix" unit is used as if the batching company mixes 5 literal bags of cement per cubic yard (or cubic metre) when a "5&nbsp;bag mix" is ordered.{{Citation needed|date=April 2020|reason==cubic yard is significantly different from cubic meter}}
Used when referring to what realtors say when describing the location of a house. For example, when a realtor says the distance to water from the house is a stone's throw, in actuality the distance can be up to a couple of kilometers.


===Grave===
==Rhode Island/Texas/Alaska/Washington D.C.==
In 1793, the French term "]" (from "gravity") was suggested as the base unit of mass for the metric system. In 1795, however, the name "]" was adopted instead.


===Jupiter===
In the ], the areas of ] (1,545 mi<sup>2</sup>), ] (268,601 mi<sup>2</sup>), and rarely ] (656,425 mi<sup>2</sup>) are used in a similar fashion as ] and ] are used in Europe. For instance, ]'s ] was approximately the size of Rhode Island until it broke up in ]. Due to the Rhode Island being a relatively small unit of measurement (and, perhaps, due to its area being 33% water), many comparisons to the size of Rhode Island are . The U.S. ] uses ] as a comparison for city-sized objects.
]
When reporting on the masses of ]s, astronomers often discuss them in terms of multiples of ] ({{Jupiter mass}} = 1.9 {{e|27}}&nbsp;kg).<ref>{{cite news |url=http://www.space.com/scienceastronomy/extrasolar-planet-types-100214.html |title=Out There: A Strange Zoo of Other Worlds |work=Space.com |date=14 February 2010}}</ref> For example, "Astronomers recently discovered a planet outside our Solar System with a mass of approximately 3&nbsp;Jupiters." Furthermore, the mass of Jupiter is nearly equal to one thousandth of the mass of the Sun.


===Sun===
==Rods to the Hogshead==
] ({{Solar mass}} = {{val|2.0|e=30|u=kg}}) is also often used in astronomy when talking about masses of stars or galaxies; for example, ] has the mass of 1.1&nbsp;suns, and the ] has a mass of approximately {{Solar mass|6{{e|11}}}}.
Both of these measures are antiquated units of measure, ] for distance, ] for volume (of alcohol). A ] is different for wine and for beer. See
]


Solar mass also has a special use when estimating orbital periods and distances of 2 bodies using ]: ''a<sup>3</sup> = M<sub>total</sub>T<sup>2</sup>'', where ''a'' is length of ] in ], ''T'' is orbital period in years and ''M<sub>total</sub>'' is the combined mass of objects in {{Solar mass}}. In case of planet orbiting a star, ''M<sub>total</sub>'' can be approximated to mean the mass of the central object. More specifically in the case of Sun and Earth the numbers reduce to ''M<sub>total</sub>'' ~ 1, ''a'' ~ 1 and ''T'' ~ 1.
==Seemeilen/Woche==


==Time==
A German counterpart is the Seemeilen pro Woche, ] for ]s per ]. 1 Sm/Woche equals about 3 mm/s, said to be the nominal value for a ]'s pace.
<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->


===Light-distance===
(This is reasonable for the European garden snail, ''Helix aspersa'', whose speed is dependent on the surface and ranges from 1.05 mm/s on a paper towel to 2.8 mm/s on ]. ] the record speed in the in Congham, U.K., set in ], is 13 inches in 2 minutes = 5.5 mm/s; the Costa Rican mountain snail ''Velifera'' can travel 18"/minute = 7.62 mm/s.)
] discussed measurements of time such as the "light-mile" and "light-foot", the time taken for light to travel the specified unit distance, defined by "reversing the procedure" used in defining a light-year.<ref>{{cite book |author=George Gamow|title=One Two Three ... Infinity: Facts and Speculations of Science|location=New York|publisher=Viking|date=1947|page=77|title-link=One Two Three ... Infinity}}</ref> A light-foot is roughly one ], and one light-mile is approximately five ].<ref>] (2005) ''It's About Time'', page 22</ref>


===Shake===
== SI-Imperial hybrids ==
In ] and astrophysics contexts, the ] is sometimes used as a conveniently short period of time. 1&nbsp;shake is defined as 10&nbsp;]s.<ref>{{cite web|title=The Pathogenesis and Therapy of Combined Radiation Injury |url=http://www.afrri.usuhs.mil/www/outreach/pdf/CR06_1.pdf |archive-url=https://web.archive.org/web/20070106134035/http://www.afrri.usuhs.mil/www/outreach/pdf/CR06_1.pdf |archive-date=6 January 2007 |publisher=Defense Threat Reduction Agency |access-date=12 November 2006 }}</ref>
In the U.S., new units are sometimes formed by a combination of traditional units, still widely used, and metric units. Thus, grams per ounce is a common measure used in sports nutrition, for example to measure the density of carbohydrate in a beverage.


===Jiffy===
A hybrid standard quantity used in ] is the ], which is as many milligrams as there are Troy ounces in an avoirdupois ton. So to find how many ounces of gold are in a ton of rock, one measures the number of milligrams of gold in an assay ton of rock.
In ], the ] is the duration of one tick of the system timer ]. Typically, this time is 0.01&nbsp;seconds, though in some earlier systems (such as the ] ] machines) the jiffy was defined as {{frac|1|60}} of a second, roughly equal to the vertical refresh period (i.e. the field rate) on ] video hardware (and the ] in North America).


===Microfortnight===
There are also reports of engineers realizing the comfort of base ten SI prefixes, combining them with Imperial or U.S. customary units instead of making the full switch, for example the ''kiloyard'' (914.4 m). Similarly, the ''kilofoot'' is quite common in U.S. ] engineering, as significant distances in cable route planning are usually given in thousands of feet. Instruments like ]s usually have an option to display results in kFt.
One unit derived from the ] of units is the microfortnight, one millionth of the fundamental time unit of FFF, which equals 1.2096&nbsp;seconds. This is a fairly representative example of "]",<ref>{{Cite web|url=http://catb.org/jargon/html/M/microfortnight.html|title=microfortnight|website=catb.org}}</ref> and is occasionally used in operating systems; for example, the ] TIMEPROMPTWAIT parameter is measured in microfortnights.<ref>{{cite web |url=http://www.faqs.org/faqs/dec-faq/vms/part3 |title=OpenVMS Frequently Asked Questions (FAQ), Part 3/11 |at=4.1.1.1.4 EXE$GL_TODR |date=11 April 2005 |access-date=10 March 2009}}</ref>


===Sidereal day===
See also '']''.
The ] is based on the Earth's rotation rate relative to fixed stars, rather than the Sun. A sidereal day is approximately 23&nbsp;hours, 56&nbsp;minutes, 4.0905&nbsp;SI&nbsp;seconds.


===Decimal time systems===
==Smoot==
{{main|Decimal time}}
]
The measurement of time is unique in SI in that while the ] is the base unit, and measurements of time smaller than a second use prefixed units smaller than a second (e.g. microsecond, nanosecond, etc.), measurements larger than a second instead use traditional divisions, including the ]-based '']'' and '']'' as well as the less regular '']'' and '']'' units.


SI allows for the use of larger prefixed units based on the second, a system known as ], but this is seldom used, since the number of seconds in a day (86,400 or, ]) negate one of the metric system's primary advantages: easy conversion by multiplying or dividing by powers of ten.
The ] is a unit of length, defined as the height of ], former president of ]. The unit is used to measure the length of the ]. Canonically, and originally, in ] when Smoot was a student at ], the bridge was measured using Mr Smoot himself as a ruler, turning him end over end for the 364.4 (plus one ear)-smoot length of the bridge.


There have been numerous proposals and usage of ], most of which were based on the day as the base unit, such that the number of units between any two events that happen at the same time of day would be equal to the number of days between them multiplied by some integer power of ten. In dynastic China, the ] was a unit that represented {{frac|1|100}} of a day (it has since been redefined to {{frac|1|96}} of a day, or 15&nbsp;minutes). In France, a decimal time system in place from 1793 to 1805 divided the day into 10&nbsp;hours, each divided into 100&nbsp;minutes, in turn each divided into 100&nbsp;seconds; the ] further extended this by assembling days into ten-day "weeks".
==Stone's throw/Spitting distance==
A ''stone's throw'' is a measure of distance that can be traced back to the ], that is used to this day as a very approximate measure. No accurate definition exists, although it is sometimes seen equalled to 25 ]s (46 m). In most cases "bare et stenkast væk" (Danish, meaning: just one stone's throw away) is taken to mean "quite nearby". ''Spitting distance'' is another similar measurement of distance.


]s and ]s, the latter of which has seen use in astronomy as it is not subject to ] complications, allow for the expression of a decimal portion of the day.<ref>See, for instance, the {{Webarchive|url=https://web.archive.org/web/20110606205531/http://tycho.usno.navy.mil/cgi-bin/daterdnm.sh |date=6 June 2011 }}, precise to 6 decimal place, from the ].</ref> In the mid-1960s, to defeat the advantage of the recently introduced computers for the then popular rally racing in the Midwest, competition lag times in a few events were given in centids ({{frac|1|100}}&nbsp;day, 864&nbsp;seconds, 14.4&nbsp;minutes), millids ({{frac|1|1,000}}&nbsp;day, 86.4&nbsp;seconds), and centims ({{frac|1|100}}&nbsp;minute, 0.6&nbsp;seconds) the latter two looking and sounding a bit like the related units of minutes and seconds.{{verify source|date=December 2020}} Decimal time proposals are frequently used in fiction, often in ] works.
==Sydharb==
A unit of volume used in Australia for water. One sydharb is the amount of water in ]: approximately 500 gigalitres.


In addition to decimal time, there also exist ]s and ].
==Tall Buildings==
Much like Nelson's column in Britain, buildings such as the ] (449m), ] (519 m), or Seattle ] (184m) are used as comparative measurements of height by the press in the United States. See also ]


The ] system is based on Decimal time.
==Wales/Belgium==


Many mechanical stopwatches are of the 'decimal minute' type. These split one minute into 100 units of 0.6s each. This makes addition and subtraction of times easier than using regular seconds.
The ] is a unit of area equal to 20,779 km<sup>2</sup>. Used in phrases such as "an area the size of Wales" or "twice the area of Wales". Smaller areas are measured in "football pitches". Rather than referring to Wales, some journalists refer to "the area of Belgium". This terminology is often used when referring to the depletion of the Amazon rainforest or large icebergs (all of which, it seems, are approximate multiples of Wales's or Belgium's area in size). The Wales and the Belgium can be easily converted between the two: 1 Belgium = 1.47 Waleses; 1 Wales = 0.68 Belgiums.


==Warhol== ===Sol===
{{main|Sol (day on Mars)}}
Unit of ] or ], derived from ]'s dictum "everyone will be world-famous for fifteen minutes" - it represents, naturally, fifteen minutes of fame. Some multiples are:
{{further|Timekeeping on Mars}}
*1 kilowarhol - famous for 15000 minutes, or 10.42 days. A sort of ] nine day's wonder.
The United States-based ], when conducting missions to the planet ], has typically used a time of day system calibrated to the mean solar day on that planet (known as a "sol"), training those involved on those missions to acclimate to that length of day, which is 88,775&nbsp;SI&nbsp;seconds, or 2,375&nbsp;seconds (about 39&nbsp;minutes) longer than the mean solar day on Earth. NASA's Martian timekeeping system (instead of breaking down the sol into 25×53×67 or 25×67×53 SI second divisions) slows down clocks so that the 24-hour day is stretched to the length of that on Mars; Martian hours, minutes and seconds are thus 2.75% longer than their SI-compatible counterparts.<ref>{{cite web |url= https://mars.nasa.gov/mer/spotlight/spirit/a3_20040108.html |title=Watchmaker With Time to Lose |website=JPL Mars Exploration Rovers |year=2014 |access-date=22 January 2015}}</ref><ref>{{cite web |url= http://www.space.com/20243-mars-rover-curiosity-discoveries-grotzinger.html |title=After Finding Mars Was Habitable, Curiosity Keeps Roving |first=Nola Taylor |last=Redd |website=space.com |date=18 March 2013 |access-date=22 January 2015}}</ref>
*1 megawarhol - famous for 15 million minutes, or 28.5 years. The type of person your parents talk about all the time, but of whom you've never heard of from anyone else.


The ] is an arrangement of sols into a Martian year. It maintains a seven-sol week (retaining Sunday through Saturday naming customs), with four weeks to a month and 24&nbsp;months to a Martian year, which contains 668 or 669&nbsp;sols depending on ]s. The last Saturday of every six months is skipped over in the Darian calendar.
First used by in ].


===Dog year===
]]]
There are two diametrically opposed definitions of the ''dog year'', primarily used to approximate the equivalent age of ]s and other animals with similar life spans. Both are based upon a ] regarding the ] that states that a dog ages seven years in the time it takes a human to age one year.
* One seventh of a year, or approximately 52&nbsp;days.<ref name=dogyear>. ''MSNBC.com''. Retrieved 12 June 2011.</ref> When this definition is used, a standard calendar year is known as a "human year".
* A standard (365-day) calendar year of a dog's life, whereas a "human year" is the period of a dog's (or other animal's) life that is claimed to be equivalent to a year of a human being's life (or seven calendar years).<ref>{{cite web
| url = http://www.dog-food-corner.com/dog-years-human-years-age.htm
| title = Dog-Food-Corner.com
| archive-url = https://web.archive.org/web/20131214005631/http://www.dog-food-corner.com/dog-years-human-years-age.htm
| archive-date= 14 December 2013}}</ref>


In fact, the aging of a dog varies by breed (larger breeds tend to have shorter lifespans than small and medium-sized breeds); dogs also develop faster and have longer adulthoods relative to their total life span than humans. Most dogs are sexually mature by 1&nbsp;year old, which corresponds to perhaps 13&nbsp;years old in humans. {{Citation needed|date=October 2023}} ]s and ]s tend to have the strongest linear correspondence to human aging, with longer adolescences and shorter overall lifespans; such breeds typically age about nine times as fast as humans throughout their lives.<ref>{{cite web |url=http://www.pets911.com/hosted/buffalo/puppy/article.php?num=11045|archive-url=https://web.archive.org/web/20090610035254/http://www.pets911.com/hosted/buffalo/puppy/article.php?num=11045|archive-date=10 June 2009|title=Sexual Maturity&nbsp;— Spay and Neuter|publisher=Buffalo.com|access-date=22 October 2008}}</ref>

===Galactic year===
{{Main|Galactic year}}
The galactic year, GY, is the time it takes the solar system to revolve once around the galactic core, approximately 250&nbsp;million years (] or "Ma"). It is a convenient unit for long-term measurements. For example, oceans appeared on Earth after 4&nbsp;GY, life is detectable at 5&nbsp;GY, and multicellular organisms first appeared at 15&nbsp;GY. The ] is estimated at 20&nbsp;GY.<ref>{{cite web |title=Geologic Time Galactic |url=http://www.vendian.org/mncharity/dir3/geologic_time_galactic/ |publisher=vendian.org |access-date=19 December 2006}}</ref> This use of GY is not to be confused with Gyr for ] or Gy for ].

===KerMetric time===
KerMetric time is a concept that divides the day into 100 equal parts called kermits. Each kermit is equivalent to 14.4 minutes. More precise time can be counted by dividing by 1000 or even 10000. The name kermit came from a combination of the surname of Dr. ], president of the ] in 1983, with the word "metric". The original working model of KerMetric time as conceived by W. Thayer of NRC was assembled by the designated Clock Construction Team of John Phillips, Ron Hawkins, Les Moore, and Willie Thayer in 1983.<ref>{{Cite web|url=http://www.csgnetwork.com/timemetricdispcalc3.html|title=KerMetric Time Display Calculator|website=www.csgnetwork.com}}</ref>

=== Moment ===
{{see also|atom (unit)}}
A ] was a ] unit of time. The movement of a shadow on a ] covered 40&nbsp;moments in a ]. An hour in this case meant one twelfth of the period between ] and ]. The length of a ] depended on the length of the day, which in turn varied with the ], so the length of a moment in modern ]s was not fixed, but on ], a moment corresponded to 90 seconds.

===Thirds, fourths===

The term "]" usually means {{frac|1|60}} of an ], coming from "a minute division of an hour". The term "]" comes from "the ] of an hour", as it is {{frac|1|60}} of a minute, or {{frac|1|60}} of {{frac|1|60}} of an hour. While usually sub-second units are represented with ] prefixes on the second (e.g. ]s), this system can be extrapolated further, such that a "Third" would mean {{frac|1|60}} of a second (16.7 milliseconds), and a "Fourth" would mean {{frac|1|60}} of a third (278 microseconds), etc. These units are occasionally used in astronomy to denote angles.<ref>{{Cite journal |last=Herschel |first=William |s2cid=186209747 |year=1785 |title=Catalogue of Double Stars |journal=] |volume=75 |pages=40–126 |jstor=106749 |doi=10.1098/rstl.1785.0006 }}</ref>

==Angular measure==

<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->

=== Furman ===
The Furman is a unit of angular measure equal to {{frac|1|65,536}} of a circle, or just under 20&nbsp;]s. It is named for Alan T. Furman, the American mathematician who adapted the ] algorithm for 16-bit fixed-point arithmetic sometime around 1980.<ref>{{cite journal |last=Furman |first=Alan T. |title=The Cordic Algorithm for Fixed-Point Polar Geometry |url=http://www.forth.org/fd/FD-V04N1.pdf |journal=FORTH Dimensions |volume=4 |pages=14–15 |access-date=16 January 2009 }}</ref> 16&nbsp;bits give a resolution of 2<sup>16</sup> = 65,536 distinct angles.

===Binary degree, binary radian, brad===
{{See also|Fixed-point arithmetic#Binary angles}}
A related unit of angular measure equal to {{Frac|1|256}} of a circle, represented by 8 bits, has found some use in machinery control where fine precision is not required, most notably crankshaft and camshaft position in ], and in video game programming. There is no consensus as to its name, but it has been called the 8-Bit Furman, the Small Furman, the Furboy and more recently, the miFurman, (milli-binary-Furman). These units are convenient because they form cycles: for the 8-bit unit, the value overflows from 255 to 0 when a full circle has been traversed, so binary addition and subtraction work as expected. Measures are often made using a ], which is trivially converted into more conventional notation. Its value is equivalent to ]/256 radians, or about 0.0245436926&nbsp;radians.

===Grade ''(also grad, gradian, gon)''===
{{Main|Grad (angle)}}
Coordinates were measured in grades on official French terrestrial ordnance charts from the French revolution well into the 20th century. 1&nbsp;grade (or in modern symbology, 1&nbsp;gon) = 0.9° or 0.01 right angle. One advantage of this measure is that the distance between latitude lines 0.01&nbsp;gon apart at the equator is almost exactly 1&nbsp;kilometre. It would be exactly 1&nbsp;km if the original definition of 1&nbsp;metre = {{frac|1|10,000}} quarter-meridian had been adhered to. One disadvantage is that common angles like 30° and 60° are expressed by fractional values ({{frac|33|1|3}} and {{frac|66|2|3}} respectively) so this "decimal" unit failed to displace the "sexagesimal" units equilateral-vertex – degree – minute – second invented by Babylonian astronomers.{{POV statement|date=October 2019}}

===Mils, strecks===
]
''Mils'' and ''strecks'' are small units of angle used by various military organizations for range estimation and translating map coordinates used for directing artillery fire.<ref>{{cite book |title=Collins Concise Dictionary of the English Language|date=1982|publisher=Collins |isbn=978-0-00-433091-4|editor-first=William T|editor-last=Macleod}}</ref> The exact size varies between different organizations: there are 6400&nbsp;NATO mils per ] (1&nbsp;NATO mil&nbsp;= 0.982&nbsp;]), or 6000&nbsp;Warsaw pact mils per turn (1&nbsp;Warsaw pact mil&nbsp;= 1.047&nbsp;mrad). In the Swedish military, there are 6300&nbsp;strecks per turn (1&nbsp;streck&nbsp;= 0.997&nbsp;mrad).

===MERU (Milli Earth Rate Unit)===
The '''MERU''', or Milli Earth Rate Unit, is an angular velocity equal to 1/1000 of Earth's ]. It was introduced by MIT's Instrumentation Laboratories (now ]) to measure the performance of ]s.<ref>{{cite book|last=Brown|first=Russel H|title=Inertial Instrument System for Aerial Surveying|url=https://books.google.com/books?id=009p-dfd-kgC&pg=PA14|series=U.S. Geological Survey Professional Paper|volume=1390|year=1987|publisher=U.S. Government Printing Office|page=14}}</ref> One MERU = {{gaps|7.292|115| e=-8 | u=] per second}}<ref name=IERS>{{cite web|url=http://hpiers.obspm.fr/eop-pc/models/constants.html|title=USEFUL CONSTANTS|website=Hpiers.obspm.fr|access-date=22 September 2018}}</ref> or about 0.2625&nbsp;milliradians/hour.

==Energy==

<!-- Please keep entries sorted in ascending order of magnitude, smallest first -->

===Gasoline gallon equivalent===
{{Main|Gasoline gallon equivalent}}
In 2011, the ] introduced the ''gallon gasoline equivalent'' as a unit of energy because their research showed most U.S. citizens do not understand the standard units. The gallon gasoline equivalent is defined as 33.7&nbsp;kWh,<ref name=EPAstudy10>{{cite web |url=http://www.epa.gov/fueleconomy/label/420r10909.pdf |archive-url=https://web.archive.org/web/20110213112025/http://www.epa.gov/fueleconomy/label/420r10909.pdf |archive-date=13 February 2011 |title=Environmental Protection Agency Fuel Economy Label – Final Report |website=]|date=September 2010|access-date=20 February 2011}}</ref> or about 1.213{{e|8}}&nbsp;joules.

Efficiency / fuel economy can be given as ].

===Tons of TNT equivalent===
{{Main|TNT equivalent}}
The energy of various amounts of the explosive ] (kiloton, megaton, gigaton) is often used as a unit of ] energy, and sometimes of asteroid impacts and violent explosive volcanic eruptions. One ton of TNT produces 4.184{{e|9}}&nbsp;joules, or (by arbitrary definition) exactly {{10^|9}}&nbsp;] (approximately 3.964{{e|6}}&nbsp;BTU). This definition is only loosely based on the actual physical properties of TNT.

===Hiroshima bomb and Halifax explosion===
]
]
The energy released by the ] explosion (about 15&nbsp;kt TNT equivalent, or 6{{e|13}}&nbsp;J) is often used by ]s as a unit when describing the energy of ]s, ]s, and ]s.

Prior to the detonation of the Hiroshima bomb, the size of the ] (about 3&nbsp;kt TNT equivalent, or 1.26{{e|13}}&nbsp;J), was the standard for this type of relative measurement. Each explosion had been the largest known artificial detonation to date.<ref name=TimeDisaster>{{cite book |title=Time: Disasters that Shook the World|publisher=Time Home Entertainment|location=New York City|date=2012|page=56|isbn=978-1-60320-247-3}}</ref>

===Quad===
A ] is a unit of energy equal to {{10^|15}}&nbsp;], or approximately 1.055{{e|18}}&nbsp;J (slightly over one exajoule). It is suitably large to quantify energy usage by nations or by the planet as whole using everyday numbers. For example, in 2004, US energy consumption was about 100&nbsp;Q/year, while demand worldwide was about 400&nbsp;Q/year.<ref>{{cite journal |title=Basic Choices and Constraints on Long-Term Energy Supplies|date=July 2004 |journal=Physics Today|volume=57|issue=7|pages=47–52|doi=10.1063/1.1784302|last1=Weisz|first1=Paul B.|bibcode=2004PhT....57g..47W|doi-access=free}}</ref>

===Foe===
A ] is a unit of energy equal to {{10^|44}}&nbsp;]s (≈9.478{{e|40}}&nbsp;]) that was invented by physicist Gerry Brown of ]. To measure the staggeringly immense amount of energy produced by a ], specialists occasionally use the "foe", an acronym derived from the phrase '''f'''ifty-'''o'''ne '''e'''rgs, or {{10^|51}}&nbsp;]s. This unit of measure is convenient because a supernova typically releases about one foe of observable energy in a very short period of time (which can be measured in seconds).

==Other metric-compatible scales==
===Power: Ton of refrigeration===
{{Main|Ton of refrigeration}}
The rate at which heat is removed by melting {{convert|1|ST|kg|spell=in}} of ice in 24&nbsp;hours is called a ton of refrigeration, or even a ton of cooling. This unit of refrigeration capacity came from the days when large blocks of ice were used for cooling, and is still used to describe the heat-removal capabilities of refrigerators and chillers today. One ton of refrigeration is exactly equal to 12,000&nbsp;BTU/h, or 3.517&nbsp;kW.

===Luminous flux: watt equivalent===
With the phaseout of the ] in the United States and European Union{{globalise inline|date=August 2024}} in the early 21st century, manufacturers and sellers of more energy-efficient lamps have compared the visible light output of their lamps to commonly used incandescent lamp sizes with the ''] equivalent'' or ''watt incandescent replacement'' (usually with a lowercase w as a unit symbol, as opposed to capital W for the actual wattage). 1 watt incandescent replacement corresponds to 15 ]. Thus, a 72-watt ], a 23-watt ] and a 14-watt ], all of which emit 1500 lumens of visible light, are all marketed as "100 watt incandescent replacement" (100w).

===Flow: Amazon River===
The volume of discharge of the ] sometimes used to describe large volumes of water flow such as ocean currents. The unit is equivalent to 216,000&nbsp;].<ref>{{cite web | title=Amazon River – Facts, History, Animals, & Map | website=Encyclopedia Britannica | url=https://www.britannica.com/place/Amazon-River | access-date=10 August 2019}}.</ref>

=== Flow: Sverdrup ===
One ] (Sv) is equal to 1,000,000 cubic metres per second (264,000,000&nbsp;USgal/s). It is used almost exclusively in ] to measure the volumetric rate of transport of ]s.

=== Speed: Bubnoff unit ===
The ] is defined as {{convert|1|µm/year|m/s|sigfig=4}}, or one millimeter per 1,000 years. It is employed in ] to measure rates of lowering of earth surfaces due to ].

===Energy intensity===
The ] (symbol Ly) is used to measure solar radiation or ]. It is equal to one thermochemical ] per square centimetre (4.184{{e|4}}&nbsp;J/m<sup>2</sup> or ≈3.684 BTU/sq&nbsp;ft) and was named after ]. Its symbol should not be confused with that for the light-year, ly.

===Kinematic viscosity===
One of the few ] units to see wider use, one ] (symbol S or St) is a unit of ] ], defined as 1&nbsp;cm<sup>2</sup>/s, i.e., 10<sup>−4</sup>&nbsp;m<sup>2</sup>/s (≈1.08×10<sup>−3</sup>&nbsp;sq&nbsp;ft/s).

===Angular velocity===
'''MERU''' (Milli Earth Rate Unit), an ] equal to {{frac|1|1000}} of Earth's rotation rate: 1&nbsp;MERU = 0.015&nbsp;degrees/hour ≈ 0.072921 microradian/second. Sometimes used to measure the angular drift rate of an ].<ref>''Fundamentals of High Accuracy Inertial Navigation,'' Averil B. Chatfield, , 1997, p.32</ref>

===Electromagnetic flux===
In ], the unit of ] is the ] (symbol Jy), equivalent to 10<sup>−26</sup>&nbsp;]s per square metre per ] (= 10<sup>−26</sup>&nbsp;kg/s<sup>2</sup> in base units, about 8.8×10<sup>−31</sup>&nbsp;BTU/ft<sup>2</sup>). It is named after the pioneering radio astronomer ]. The brightest natural radio sources have flux densities of the order of one to one hundred jansky.

===Metre of water equivalent===
{{main|Meter water equivalent}}
A material-dependent unit used in ] and ] and engineering to measure the thickness of shielding, for example around a ], ], or ]. 1&nbsp;mwe of a material is the thickness of that material that provides the equivalent shielding of one metre (≈39.4&nbsp;in) of water.

This unit is commonly used in underground science to express the extent to which the ] (usually rock) shields an underground space or laboratory from ]s. The actual thickness of overburden through which cosmic rays must traverse to reach the underground space varies as a function of direction due to the shape of the overburden, which may be a mountain, or a flat plain, or something more complex like a cliff side. To express the depth of an underground space in mwe (or kmwe for deep sites) as a single number, the convention is to use the depth beneath a flat overburden at ] that gives the same overall cosmic ray ] flux in the underground location.

===Strontium unit: radiation dose===
The ], formerly known as the Sunshine Unit (symbol S.U.), is a unit of biological contamination by radioactive substances (specifically ]). It is equal to one ] of Sr-90 per ] of body ]. Since about 2% of the human body mass is calcium, and Sr-90 has a ] of 28.78&nbsp;years, releasing 6.697+2.282&nbsp;] per disintegration, this works out to about 1.065{{e|-12}}&nbsp;]s per second. The permissible body burden was established at 1,000&nbsp;S.U.

===Banana equivalent dose===
] in the form of ].]]
Bananas, like most organic material, naturally contain a certain amount of radioactive isotopes—even in the absence of any artificial pollution or contamination. The ], defined as the additional dose a person will absorb from eating one banana, expresses the severity of exposure to radiation, such as resulting from nuclear weapons or medical procedures, in terms that would make sense to most people. This is approximately 78&nbsp;nano]s – in informal publications one often sees this estimate rounded up to 0.1&nbsp;μSv.

===Flight-time equivalent dose===
] typically increases with altitude above the earth's surface. Utilizing this phenomenon, dose resulting from radiological exposures can be expressed in units of flight-time. ] is defined as the time spent in an aircraft at cruising altitude required to receive a radiological dose approximately equivalent to a radiological exposure such as a medical ]. One hour of flight-time is approximately equivalent to a dose of 0.004&nbsp;milli]s.

===Molar mass of cellulose===
In the ] industry, ] is traditionally measured with a method where the ] (dL/g) of the pulp sample is measured in cupriethylenediamine (Cuen). The intrinsic viscosity is related to the weight-average molar mass (in ]s) by the ]: = 0.070&nbsp;M<sub>w</sub><sup>0.70</sup>.<ref>{{Cite journal |doi = 10.1016/j.chroma.2013.01.038|pmid = 23398992|title = A re-investigation of the Mark–Houwink–Sakurada parameters for cellulose in Cuen: A study based on size-exclusion chromatography combined with multi-angle light scattering and viscometry|journal = Journal of Chromatography A|volume = 1281|pages = 32–37|year = 2013|last1 = Kes|first1 = Mürşide|last2 = Christensen|first2 = Bjørn E.}}</ref> However, it is typical to cite values directly in dL/g, as the "viscosity" of the cellulose, confusingly as it is not a viscosity.

===Iodine, bromine and kappa number===
In measuring unsaturation in fatty acids, the traditional method is the ]. Iodine adds stoichiometrically to double bonds, so their amount is reported in grams of iodine spent per 100&nbsp;grams of oil. The standard unit is a dimensionless stoichiometry ratio of moles double bonds to moles fatty acid. A similar quantity, ], is used in gasoline analysis.

In pulp and paper industry, a similar ] is used to measure how much ] a pulp requires. ] is added to react with the unsaturated compounds (lignin and uronic acids) in the pulp and back-titrated. Originally with ] the required quantity of ] could be then calculated, although modern methods use multiple stages. Since the oxidizable compounds are not exclusively lignin and the partially pulped lignin does not have a single stoichiometry, the relation between the kappa number and the precise ] of lignin is inexact.

=== Temperature: Gas Mark ===
] is a temperature scale, predominantly found on British ]s, that scales ] with temperature above 135&nbsp;°C (Gas Mark 1) and scales with the ] of Celsius below 135&nbsp;°C.

==Demography and epidemiology==
] and quantitative ] are ] fields that deal with ] or proportions of people, or rates of change in these. ] and proportions are technically ], and so have no ], although identifiers such as "people", "births", "infections" and the like are used for clarity. Rates of change are ] and strictly have inverse time dimensions (per unit of time). In ] and epidemiology expressions such as ] are used to clarify what is being measured.

], a common measure in ], is strictly a type of ], a dimensionless ratio or proportion. ] may be expressed as a fraction, a percentage or as the number of cases per 1,000, 10,000, or 100,000 in the population of interest.

===Micromort===
{{Main|Micromort}}
A micromort is a unit of ] measuring a one-in-a-million ] of ] (from ] and ]). Micromorts can be used to measure riskiness of various day-to-day activities. A microprobability is a one-in-a million chance of some event; thus a micromort is the microprobability of death. For example, smoking 1.4&nbsp;cigarettes increases one's death risk by one micromort, as does traveling {{convert|230|mi|abbr=in|order=flip}} by car.

===Numbers of people: Stadium capacities===
] (MCG) is in the process of filling with 100,016 spectators on ].]]
The large numbers of people involved in ] are often difficult to comprehend. A useful visualisation tool is the audience capacity of large sports stadiums (often about 100,000). Often the capacity of the largest stadium in a region serves as a unit for a large number of people. For example, Uruguay's ] is often used in ],<ref>{{cite web | title=Ahora la borrachera es "previa" a la fiesta | website=elpais.com.uy | date=15 October 2009 | url=http://www.elpais.com.uy/091011/pciuda-447246/ciudades/ahora-la-borrachera-es-previa-a-la-fiesta | archive-url=https://web.archive.org/web/20091015002051/http://www.elpais.com.uy/091011/pciuda-447246/ciudades/ahora-la-borrachera-es-previa-a-la-fiesta | archive-date=15 October 2009 | language=es | access-date=10 August 2019}}</ref><ref>{{cite web | title=The unemployed would fill three and a half Centennial Stadiums (Spanish) | website=LARED21 | date=7 November 2002 | url=http://www.lr21.com.uy/comunidad/97129-los-desocupados-colmarian-tres-y-medio-estadios-centenarios | language=es | access-date=10 August 2019}}</ref> while in parts of the United States, ] is used in this manner.<ref>{{Cite web |date=2017-03-14 |title=By 2018, Enough Americans Will Lose Health Insurance To Fill Michigan Stadium 130 Times |url=https://www.huffpost.com/entry/cbo-sizes-up-gop-health-plan-by-2018-so-many-americans_b_58c751b0e4b022817b291689 |access-date=2024-03-14 |website=HuffPost |language=en}}</ref> In Australia, the capacity of the ] (about 100,000) is often cited in this manner. Hence the ] serves as both a measure of people and a ].<ref>{{cite web|author=Diabetes Australia|title=Diabetes – The Facts|url=https://www.diabetesaustralia.com.au/PageFiles/1615/the%20facts%20DA%20FINAL%202011.pdf|access-date=4 September 2014|archive-date=13 October 2014|archive-url=https://web.archive.org/web/20141013221559/http://www.diabetesaustralia.com.au/PageFiles/1615/the%20facts%20DA%20FINAL%202011.pdf|url-status=dead}}</ref><ref>{{cite web|author=NSW Department of Education and Communities|title=What the experts say about cyberbullying|url=http://www.schoolatoz.nsw.edu.au/technology/cyberbullying/what-the-experts-say|access-date=4 September 2014|archive-date=4 September 2014|archive-url=https://web.archive.org/web/20140904132206/http://www.schoolatoz.nsw.edu.au/technology/cyberbullying/what-the-experts-say|url-status=dead}}</ref><ref>{{cite web |author=The Age|title=Trouble brewing at the bottom of the bay|url=http://www.scubadoctor.com.au/article-bay-trouble-brewing.htm|access-date=4 September 2014}}</ref>

==Computer and information science==
The growth of computing has necessitated the creation of many new units, several of which are based on unusual foundations.

===Data volume===
]
Volume or capacity of data is often compared to works of literature or large collections of writing. Popular units include the Bible, the Encyclopædia Britannica, phone books, ], and the ].

When the ] began to be used as a ] as the ], journalists often described the disc capacity (650&nbsp;]s) by using the number of Christian ]s that can be stored. The ] in uncompressed plain 8-bit text contains about 4.5&nbsp;million characters,<ref>{{cite book |url=http://www.gutenberg.org/ebooks/10|title=The Bible, Old and New Testaments, King James Version – Project Gutenberg|access-date=7 December 2011}}</ref> so a ] can store about 150&nbsp;]s.

The print version of the '']'' is another common data volume metric. It contains approximately 300&nbsp;million characters,<ref>{{cite news |url=https://www.nytimes.com/1994/02/08/business/44-million-words-strong-britannica-to-join-internet.html?pagewanted=all&src=pm|author=John Markoff|title=44 Million Words Strong, Britannica to Join Internet|access-date=7 December 2011|date=8 February 1994|work=The New York Times}}</ref> so two copies would fit onto a ] and still have 50&nbsp;megabytes (or about 11&nbsp;bibles) left over.

The term ''Library of Congress'' is often used. It refers to the US ]. Information researchers have estimated that the entire print collections of the Library of Congress represent roughly 10&nbsp;]s of uncompressed ].<ref>{{cite web|url=http://www2.sims.berkeley.edu/research/projects/how-much-info/how-much-info.pdf#page=110|author=Peter Lyman|author2=Hal R. Varian|title=How Much Information?|access-date=29 November 2011|date=18 October 2000|archive-date=16 August 2011|archive-url=https://web.archive.org/web/20110816181442/http://www2.sims.berkeley.edu/research/projects/how-much-info/how-much-info.pdf#page=110|url-status=dead}}</ref>

====Nibble====
A measure of quantity of data or information, the "]" (sometimes spelled "nybble" or "nybl") is normally equal to 4&nbsp;bits, or one half of the common 8-bit byte. The nibble is used to describe the amount of memory used to store a digit of a number stored in ] format, or to represent a single hexadecimal digit. Less commonly, 'nibble' may be used for any contiguous portion of a byte of specified length, e.g. "6-bit nibble"; this usage is most likely to be encountered in connection with a hardware architecture in which the word length is not a multiple of 8, such as older 36-bit minicomputers.

===FLOPS===
{{Main|FLOPS}}
In ], FLOPS (''FL''oating point ''O''perations ''P''er ''S''econd) is a measure of a computer's computing power. It is also common to see measurements of kilo, mega, giga, and teraFLOPS.

It is also used to compare the performance of computers in practice.<ref>{{cite web |title=TOP500 LIST November 2018 |url=https://top500.org/lists/2018/11/ |website=Top 500 |access-date=21 January 2019}}</ref>

=== BogoMips ===
{{Main|BogoMips}}
A measure to determine the ] speed. It was invented by ] and is nowadays present on every ] operating system. However, it is not a meaningful measure to assess the actual ] performance.

=== KLOC ===
A computer programming expression, the ] or KLOC, pronounced ''kay-lok'', standing for "kilo-]", i.e., thousand lines of code. The unit was used, especially by ] managers,<ref>{{cite web | title=Triumph of the Nerds: The Transcripts, Part II | website=PBS | url=https://www.pbs.org/nerds/part2.html | access-date=10 August 2019}}</ref> to express the amount of work required to develop a piece of software. Given that estimates of 20&nbsp;lines of functional code per day per programmer were often used, it is apparent that 1&nbsp;K-LOC could take one programmer as long as 50&nbsp;working days, or 10&nbsp;working weeks. This measure is no longer in widespread use because different computer languages require different numbers of lines to achieve the same result (occasionally the measure "assembly equivalent lines of code" is used, with appropriate conversion factors from the language actually used to assembly language).

Error rates in programming are also measured in "Errors per K-LOC", which is called the ''defect density''. NASA's ] is one of the few organizations to claim zero defects in a large (>500K-LOC) project, for the space shuttle software.

An alternative measurement was defined by ] author ]: the "WaP" is equivalent to 71,500&nbsp;lines of program code, because that number of lines is the length of one edition of ]'s '']''.<ref>{{cite web | title=April 2017 – "How many WaPs is that?" | website=Pegasus Mail and Mercury | date=30 November 2011 | url=http://www.pmail.com/devnews_archive.htm | access-date=10 August 2019}}</ref>

===Ticks===
The "tick" is the amount of time between timer ]s generated by the timer circuit of a CPU. The amount of time is processor-dependent.<ref>{{cite book |last1=Laplante |first1=Phillip A. |last2=Ovaska |first2=Seppo J. |title=Real-Time Systems Design and Analysis: Tools for the Practitioner |date=22 November 2011 |publisher=John Wiley & Sons |isbn=978-0-470-76864-8 |page=122 |url=https://books.google.com/books?id=Ez6-aSfbqtsC&pg=PA122|language=en}}</ref><ref>{{cite book |last1=Bovet |first1=Daniel P. |last2=Cesati |first2=Marco |title=Understanding the Linux Kernel: From I/O Ports to Process Management |date=17 November 2005 |publisher=O'Reilly Media, Inc. |isbn=978-0-596-55491-0 |page=245 |url=https://books.google.com/books?id=h0lltXyJ8aIC&pg=PT245 |language=en}}</ref> The word "tick" is also used to describe steps of processing in apps and video games, for example, Minecraft servers process the simulation at a rate of 20 ticks per second,<ref>{{cite news |title=Tick |url=https://minecraft.wiki/w/Tick |website=Minecraft Wiki |publisher=Minecraft Wiki |access-date=2024-12-10}}</ref> while other games commonly use tickrates of 30, 60, 64, or 128 ticks per second.

==Other==
{{anchor|Library of Congress}}

=== Centimorgan ===
In genetics, a centimorgan (abbreviated cM) or map unit (m.u.) is a unit for measuring genetic linkage. It is defined as the distance between chromosome positions (also termed loci or markers) for which the expected average number of intervening chromosomal crossovers in a single generation is 0.01. It is often used to infer distance along a chromosome. One centimorgan corresponds to about 1 million base pairs in humans on average.

===Centipawn===
] software frequently uses centipawns internally or externally as a unit measuring how strong each player's situation position is, and hence also by how much one player is beating the other, and how strong a possible move is.<ref>{{cite web |url=http://chess-db.com/public/research/qualityofplay.html |title=Chess Play Quality Index |website=chess-db.com |access-date=1 May 2018 |archive-url=https://web.archive.org/web/20161211211029/http://chess-db.com/public/research/qualityofplay.html |archive-date=11 December 2016 }}</ref> 100&nbsp;centipawns = ] 1&nbsp;pawn – more specifically, something like the average value of the pawns at the start of the game, as the actual value of pawns depends on their position. Loss of a pawn will therefore typically lose that player 100&nbsp;centipawns. The centipawn is often used for comparing possible moves, as in a given position, chess software will often rate the better of two moves within a few centipawns of each other.

===Garn===
The garn is NASA's unit of measure for symptoms resulting from ], the response of the human body to weightlessness in space, named after US Senator ], who became exceptionally spacesick during an orbital flight in 1985. If an astronaut is completely incapacitated by space adaptation syndrome, he or she is under the effect of one garn of symptoms.<ref>{{cite web | title=Robert E. Stevenson Oral History | website=NASA – Johnson Space Center History | date=13 May 1999 | url=https://historycollection.jsc.nasa.gov/JSCHistoryPortal/history/oral_histories/StevensonRE/StevensonRE_5-13-99.htm | access-date=10 August 2019}}</ref>

===Mother Cow Index===
Formerly used in real estate transactions in the American Southwest, it was the number of pregnant cows an acre of a given plot of land could support. It acted as a proxy for the agricultural quality, natural resource availability, and arability of a parcel of land.<ref>{{cite journal | title=Country Gentleman. v.75 1910. | journal=Better Farming1955 | date=2 January 2019 | hdl=2027/mdp.39015043511578 }}</ref>

===Nines===
{{Main|Nine (purity)}}
]
Numbers very close to, but below one are often expressed in "]" (N – not to be confused with the unit ]), that is in the number of nines following the decimal separator in writing the number in question. For example, "three nines" or "3N" indicates 0.999 or 99.9%, "four nines five" or "4N5" is the expression for the number 0.99995 or 99.995%.<ref>{{cite web |url=http://vikashazrati.wordpress.com/2008/10/24/truth-about-availabilit/|title=The Truth About Availability: What does 99.99% mean?|website=c0nnexx10n: C0nnect1ng L1fe w1th Techn010gy|date=24 October 2008}}</ref><ref>{{cite book|last1=McGachie|first1=Richard O. |last2=Bradley|first2=Anne Grace |title=Precious metals|url=https://books.google.com/books?id=KOMYAAAAIAAJ&pg=PA262|volume=4|year=1981|publisher=Pergamon|isbn=978-0-08-025369-5|page=262}}</ref><ref>{{cite book|title=PVD for Microelectronics: Sputter Desposition to Semiconductor Manufacturing|year=1998|page=}}<!-- NOTE: reference has typo, writing 99.9995% as "four-nines-five" while it is actually *five* nines five. --></ref>

Typical areas of usage are:
* The ] of computer systems, that is the ratio of ] to the sum of ] and ]. "Five nines" reliability in a continuously operated system means an average ] of no more than approximately five minutes per year (there is no relationship between the number of nines and minutes per year, it is pure coincidence that "five nines" relates to five minutes per year.) (See ] for a chart.)
* The ] of materials, such as gases and metals.

===Pain===
]
{{See also|Pain scale|Dolorimeter|Pain|Nociception}}
The dol (from the ] word for pain, ''dolor'') is a ] for ]. ], ], and ] of ] proposed the unit based on their studies of pain during the 1940s and 1950s. They defined one dol to equal a ] in pain. The unit never came into widespread use and other methods are now used to assess the level of pain experienced by patients.

The Schmidt sting pain index and Starr sting pain index are ]s rating the relative pain caused by different ] stings. Schmidt has refined his ] (with a 1–4 scale) with extensive anecdotal experience, culminating in a paper published in 1990 which classifies the stings of 78&nbsp;species and 41 genera of ]. The ] uses the same 1–4 scale.

===Pepper heat===
====ASTA pungency unit====
The ASTA (]) ] unit is based on a scientific method of measuring chili pepper "heat". The technique utilizes ] to identify and measure the concentrations of the various compounds that produce a heat sensation. Scoville units are roughly {{frac|1|15}} the size of pungency units while measuring ], so a rough conversion is to multiply pungency by 15 to obtain Scoville heat units.<ref name="tainter">{{cite book |last= Tainter |first= Donna R.|author2=Anthony T. Grenis |date= 2001 |title= Spices and Seasonings |publisher= Wiley-IEEE |isbn= 978-0-471-35575-5 |url=https://books.google.com/books?id=dfp4b3F0598C&pg=PA30|page=30}} — "Interlab variation could be as high as ±50%. However, labs that run these procedures could generate reasonably repeatable results."</ref>

====Scoville heat unit====
]
The ] is a measure of the hotness of a ]. It is the degree of dilution in sugar water of a specific chili pepper extract when a panel of 5&nbsp;tasters can no longer detect its "heat".<ref name="what_is_scoville_scale">{{cite web |url=http://www.smithsonianmag.com/arts-culture/how-hot-is-that-pepper-how-scientists-measure-spiciness-884380/?no-ist |title=How Hot is That Pepper? How Scientists Measure Spiciness |website=www.smithsonianmag.com |access-date=20 June 2016}}</ref> Pure ] (the chemical responsible for the "heat") has 16&nbsp;million Scoville heat units.

===Potrzebie===
The widely-read ] made extensive use, as a ], of the ] system of units, which included units of length, mass etc.

===Proof: alcohol concentration===
{{main|Alcohol proof}}
]
Up to the 20th century, alcoholic spirits were assessed in the UK by mixing with gunpowder and testing the mixture to see whether it would still burn; spirit that just passed the test was said to be at 100°&nbsp;]. The UK now uses percentage ] (ABV) at {{convert|20|C|1}}, where spirit at 100° proof is approximately 57.15%&nbsp;ABV. In the US, "proof number" is defined as twice the ABV at {{convert|60|F|1}}.<ref name=Jensen>{{cite journal|author1-link=William B. Jensen |last=Jensen |first=William B. |date=September 2004 |title=The Origin of Alcohol 'Proof' |journal=Journal of Chemical Education |doi=10.1021/ed081p1258 |volume=81 |issue=9 |pages=1258–1259 |bibcode=2004JChEd..81.1258J |url=http://www.che.uc.edu/jensen/W.%20B.%20Jensen/Reprints/111.%20Proof.pdf |access-date=17 July 2014 |archive-url=https://web.archive.org/web/20140708232531/http://www.che.uc.edu/jensen/W.%20B.%20Jensen/Reprints/111.%20Proof.pdf |archive-date=8 July 2014}}</ref>

===Savart===
The ] is an 18th-century unit for measuring the frequency ratio of two sounds. It is equal to {{frac|1|1000}} of a ] (not to be confused with the time period equal to 10&nbsp;years). The ] is preferred for musical use.

===Telecommunications traffic volume===
{{Main|Erlang (unit)}}
The erlang, named after A. K. Erlang, as a ] is used in ] as a statistical measure of the offered intensity of ]s ] on a group of resources. Traffic of one erlang refers to a single ] being in continuous use, or two ]s being at fifty percent use, and so on, ]. Much telecommunications management and forecasting software uses this.

===X-ray intensity===
{{Main|Crab (unit)}}
The crab is defined as the intensity of X-rays emitted from the ] at a given photon energy up to 30&nbsp;kilo]s. The Crab Nebula is often used for calibration of X-ray telescopes. For measuring the X-ray intensity of a less energetic source, the milliCrab (mCrab) may be used.

One crab is approximately 24&nbsp;pW/m<sup>2</sup>.


==See also== ==See also==
* ], a unit conversion program, which supports many uncommon units
* ]
* ]

== External links ==
*




==References==
* ]
{{reflist}}
* ]
* ]
* ]


==External links== ==Bibliography==
{{refbegin}}
* {{cite book |last=Berry|first=C. J. J. |author-link=Cyril Berry|title=First Steps in Winemaking|url=https://books.google.com/books?id=wz0CAQAACAAJ|year=1998|publisher=Nexus Special Interests|isbn=978-1-85486-139-9}}
* {{cite book |last=Regan|first=Gary |title=The Joy of Mixology|url=https://books.google.com/books?id=7TlhtrpXa-MC|year=2003|publisher=Clarkson Potter|isbn=978-0-609-60884-5}}
{{refend}}


{{Systems of measurement}}
* http://www.sizeofwales.co.uk - an interactive convertor to strange units


{{DEFAULTSORT:List of Unusual Units of Measurement}}
]
] ]
]
]
]

Latest revision as of 07:19, 22 December 2024

For units of measure primarily used in countries where English is not the main language, see the article specific to that country, a list of which can be found in the systems of measurement article. For unusual units of measure invented primarily for amusement, see List of humorous units of measurement.

An unusual unit of measurement is a unit of measurement that does not form part of a coherent system of measurement, especially because its exact quantity may not be well known or because it may be an inconvenient multiple or fraction of a base unit.

Many of the unusual units of measurements listed here are colloquial measurements, units devised to compare a measurement to common and familiar objects.

Length

Horizontal pitch

Horizontal pitch (HP) is a unit of length defined by the Eurocard printed circuit board standard used to measure the horizontal width of rack mounted electronic equipment, similar to the rack unit (U) used to measure vertical heights of rack mounted equipment. One HP is 0.2 inches (1/5") or 5.08 millimetres wide.

Hammer unit

Valve's Source game engine uses the Hammer unit as its base unit of length. This unit refers to Source's official map creation software, Hammer. The exact definition varies from game to game, but a Hammer unit is usually defined as a sixteenth of a foot (16 Hammer units = 1 foot). This means that 1 Hammer unit is equal to exactly 19.05 millimetres or 0.75 inches (3/4").

Ligne

Button sizes are typically measured in ligne, which can be abbreviated as L. The measurement refers to the button diameter, or the largest diameter of irregular button shapes. There are 40 ligne in 1 inch.

Rack unit

A typical section of rack rail, showing rack unit distribution
Main article: Rack unit

One rack unit (U) is 1.75 inches (44.45 mm) and is used to measure rack-mountable audiovisual, computing and industrial equipment. Rack units are typically denoted without a space between the number of units and the 'U'. Thus, a 4U server enclosure (case) is seven inches (177.8 mm) high, or more practically, built to occupy a vertical space seven inches high, with sufficient clearance to allow movement of adjacent hardware.

Hand

Main article: Hand (unit)

The hand is a non-SI unit of length equal to exactly 4 inches (101.6 mm). It is normally used to measure the height of horses in some English-speaking countries, including Australia, Canada, Ireland, the United Kingdom, and the United States. It is customary when measuring in hands to use a point to indicate inches (quarter-hands) and not tenths of a hand. For example, 15.1 hands normally means 15 hands, 1 inch (5 ft 1 in), rather than 15+1⁄10 hands.

Light-nanosecond

Grace Hopper distributed lengths of wire approximately 1 light-nanosecond long in lectures, to remind students not to waste nanoseconds

The light-nanosecond is defined as exactly 29.9792458 cm. It was popularized in information technology as a unit of distance by Grace Hopper as the distance which a photon could travel in one billionth of a second (roughly 30 cm or one foot): "The speed of light is one foot per nanosecond."

Metric foot

"Metric foot" and "Metric feet" redirect here. For the rhythmic unit in poetry, see Metrical foot.

A metric foot, defined as 300 millimetres (approximately 11.811 inches), has been used occasionally in the UK but has never been an official unit.

A Chinese foot is around one third of a metre, with the exact definition depending on jurisdiction.

Horse

Main article: Horse length

Horses are used to measure distances in horse racing – a horse length (shortened to merely a length when the context makes it obvious) equals roughly 8 feet or 2.4 metres. Shorter distances are measured in fractions of a horse length; also common are measurements of a full or fraction of a head, a neck, or a nose.

Boat length

In rowing races such as the Oxford and Cambridge Boat Race, the margin of victory and of defeat is expressed in fractions and multiples of boat lengths. The length of a rowing eight is about 62 feet (19 m). A shorter distance is the canvas, which is the length of the covered part of the boat between the bow and the bow oarsman. The Racing Rules of Sailing also makes heavy use of boat lengths.

Football field (length)

A football field is often used as a comparative measurement of length when talking about distances that may be hard to comprehend when stated in terms of standard units.

An American football field is usually understood to be 100 yards (91 m) long, though it is technically 120 yards (110 m) when including the two 10 yd (9.1 m) long end zones. The field is 160 ft (53 yd; 49 m) wide.

An association football pitch may vary within limits of 90–120 m (98–131 yd) in length and 45–90 m (49–98 yd) in width. The recommended field size is 105 m × 68 m (115 yd × 74 yd) for major competitions such as the FIFA World Cup, UEFA European Championship and UEFA Champions League.

A Canadian football field is 65 yd (59 m) wide and 150 yd (140 m) long, including two 20 yd (18 m) long end zones.

Block

In most US cities, a city block is between 1⁄16 and 1⁄8 mi (100 and 200 m). In Manhattan, the measurement "block" usually refers to a north–south block, which is 1⁄20 mi (80 m). Sometimes people living in places (like Manhattan) with a regularly spaced street grid will speak of long blocks and short blocks. Within a typical large North American city, it is often only possible to travel along east–west and north–south streets, so travel distance between two points is often given in the number of blocks east–west plus the number north–south (known to mathematicians as the Manhattan Metric).

Earth radius

The globally-average radius of Earth, generally given as 6,371 kilometres (3,959 miles), is often employed as a unit of measure to intuitively compare objects of planetary size.

Lunar distance

Lunar distance (LD), the distance from the centre of Earth to the centre of the Moon, is a unit of measure in astronomy. The lunar distance is approximately 384,400 km (238,900 mi), or 1.28 light-seconds; this is roughly 30 times Earth's diameter. A little less than 400 lunar distances make up an astronomical unit.

Siriometer

The siriometer is an obsolete astronomical measure equal to one million astronomical units, i.e., one million times the average distance between the Sun and Earth. This distance is equal to about 15.8 light-years, 149.6 Pm, or 4.8 parsecs, and is about twice the distance from Earth to the star Sirius.

Cubit

The cubit is, among others, a unit used in the Bible for measuring the size of Noah's Ark and of the Ark of the Covenant. Cubits of various lengths were used in Antiquity by various peoples, not only the Hebrews. One cubit is originally the length from someone's elbow to the tip of their middle finger; it usually translates to approximately half a metre ±10%, with an ancient Roman cubit being as long as 120 cm.

One cubit was equal to 6–7 palms, one palm being the width of a hand not including the thumb.

Vee

In groff/troff and specifically in the included traditional manuscript macro set ms, the vee (v) is a unit of vertical distance often—but not always—corresponding to the height of an ordinary line of text.

Area

Barn

Main article: Barn (unit)

One barn is 10 square metres, about the cross-sectional area of a uranium nucleus. The name probably derives from early neutron-deflection experiments, when the uranium nucleus was described, and the phrases "big as a barn" and "hit a barn door" were used. Barn are typically used for cross sections in nuclear and particle physics. Additional units include the microbarn (or "outhouse") and the yoctobarn (or "shed").

Kuang

A Kuang is a traditional Chinese unit of area used in sampling, equal to 0.11 square metres or one square Chinese foot.

Brass or square

One brass is exactly 100 square feet (9.29 m) area (used in measurement of work done or to be done, such as plastering, painting, etc.). The same word is used, however, for 100 cubic feet (2.83 m) of estimated or supplied loose material, such as sand, gravel, rubble, etc. This unit is prevalent in the construction industry in India.

The same area is called a square in the construction industry in North America, and was historically used in Australia by real estate agents. A roof's area may be calculated in square feet, then converted to squares.

Cow's grass

In Ireland, before the 19th century, a "cow's grass" was a measurement used by farmers to indicate the size of their fields. A cow's grass was equal to the amount of land that could produce enough grass to support a cow.

Football field (area)

On this schema, an association football field is used to help to conceptualize the size of a polo field.

A football pitch, or field, can be used as a man-in-the-street unit of area. The standard FIFA football pitch for international matches is 105 m (344 ft) long by 68 m (223 ft) wide (7,140 m or 0.714 ha or 1.76 acres); FIFA allows for a variance of up to 5 m (16.4 ft) in length in either direction and 7 m (23.0 ft) more or 4 m (13.1 ft) less in width (and larger departures if the pitch is not used for international competition), which generally results in the association football pitch generally only being used for order of magnitude comparisons.

An American football field, including both end zones, is 360 by 160 ft (120.0 by 53.3 yd; 109.7 by 48.8 m), or 57,600 square feet (5,350 m) (0.535 hectares or 1.32 acres). A Canadian football field is 65 yards (59 m) wide and 110 yards (100 m) long with end zones adding a combined 40 yards (37 m) to the length, making it 87,750 square feet (8,152 m) or 0.8215 ha (2.030 acres).

An Australian rules football field may be approximately 150 metres (160 yd) (or more) long goal to goal and 135 metres (148 yd) (or more) wide, although the field's elliptical nature reduces its area to a certain extent. A 150-by-135-metre (164 by 148 yd) football field has an area of approximately 15,900 m (1.59 ha; 3.9 acres), twice the area of a Canadian football field and three times that of an American football field.

Morgen

Main article: Morgen

A morgen ("morning" in Dutch and German) was approximately the amount of land tillable by one man behind an ox in the morning hours of a day. This was an official unit of measurement in South Africa until the 1970s, and was defined in November 2007 by the South African Law Society as having a conversion factor of 1 morgen = 0.856532 hectares. This unit of measure was also used in the Dutch colonial province of New Netherland (later New York and parts of New England).

Countries, regions, and cities

The area of a familiar country, state or city is often used as a unit of measure, especially in journalism.

Wales

Republic of Ireland (grey), Wales (red), and the remainder of the United Kingdom (pink)

Equal to 20,779 km (8,023 sq mi), the country of Wales is used in phrases such as "an area the size of Wales" or "twice the area of Wales". England is 6.275 times the size of Wales, and Scotland is roughly four times the size of Wales. Ireland is four times as large as Wales, and France is about twenty-five times larger.

The British comedy show The Eleven O'Clock Show parodied the use of this measurement, by introducing a news article about an earthquake in Wales, stating that an area the size of Wales was affected. The Radio 4 programme More or Less introduced the idea of "kilowales" – an area 1,000 times the size of Wales. The Register introduced the nanowales (20.78 m).

The measurement has been adopted by rainforest conservation charity Size of Wales, aiming to conserve an area of rainforest equating to the area of Wales. On 1 March 2013, the charity announced that they had succeeded in conserving an area of rainforest the size of Wales and will continue to operate to sustain and increase the protected area.

United States

In the United States, the area of the smallest state, Rhode Island (1,545 sq mi or 4,000 km); the largest of the contiguous 48 states, Texas (268,601 sq mi or 695,670 km); and less commonly Alaska (656,425 sq mi or 1,700,130 km), the largest of all 50 states, are used in a similar fashion. For example, Antarctica's Larsen B ice shelf was approximately the size of Rhode Island until it broke up in 2002. Other areas may be described like this, too, like in the 1979 movie The China Syndrome when radiation is expected to contaminate "an area the size of Pennsylvania". The island of Manhattan (22.83 sq mi or 59.1 km) is a common reference.

The US Central Intelligence Agency uses Washington, D.C. (61.4 sq mi or 159 km) as a comparison for city-sized objects.

Other countries

In the Netherlands, its smallest province, Utrecht (1,386 km or 535 sq mi), is often used as a comparison for regions in general.

The country of Belgium (30,528 km or 11,787 sq mi) has also often been used when comparing areas, to the point where it has been regarded as a meme and where there is a website dedicated to notable areas which have been compared to that of Belgium.

The Isle of Wight (380 km or 147 sq mi), an island off the south coast of mainland England, is commonly used to define smaller areas. It has sometimes been used in attempts to examine whether a certain amount of a given object or group would fit in a space its size; in 2018, it was estimated that approximately 2.6 billion people could fit on the Isle of Wight, at a population density of six people per square metre. In Hong Kong, the 19-hectare Victoria Park is used to define smaller areas.

In Denmark, the outlying island of Bornholm (588 km or 227 sq mi) is often used to describe the size of an area.

In Germany, the state of Saarland (2,569.69 km or 992.16 sq mi) is often used to define areas.

In Brazil, it is common to compare relatively small areas to the state of Sergipe (21,910.4 km or 8,459.7 sq mi), the smallest in the country. Smaller areas are sometimes compared to the cities of São Paulo (1,521.11 km or 587.30 sq mi) or Rio de Janeiro (1,221 km or 471 sq mi).

Volume

Metric ounce

A metric ounce is an approximation of the imperial ounce, US dry ounce, or US fluid ounce. These three customary units vary. However, the metric ounce is usually taken as 25 or 30 ml (0.88 or 1.06 imp fl oz; 0.85 or 1.01 US fl oz) when volume is being measured, or in grams when mass is being measured.

The US Food and Drug Administration (FDA) defines the "food labeling ounce" as 30 ml (1.1 imp fl oz; 1.0 US fl oz), slightly larger than the 29.6 ml (1.04 imp fl oz; 1.00 US fl oz) fluid ounce.

Several Dutch units of measurement have been replaced with informal metric equivalents, including the ons or ounce. It originally meant 1⁄16 of a pound, or a little over 30 g (1.1 oz) depending on which definition of the pound was used, but was redefined as 100 g (3.5 oz) when the country metricated.

Shot

Main article: Shot glass
Three shot glasses of varying shapes and sizes

The shot is a liquid volume measure that varies from country to country and state to state depending on legislation. It is routinely used for measuring strong liquor or spirits when the amount served and consumed is smaller than the more common measures of alcoholic "drink" and "pint". There is a legally defined maximum size of a serving in some jurisdictions. The size of a "single" shot is 20–60 ml (0.70–2.11 imp fl oz; 0.68–2.03 US fl oz). The smaller "pony" shot is 20–30 ml (0.70–1.06 imp fl oz; 0.68–1.01 US fl oz). According to Encyclopædia Britannica Almanac 2009, a pony is 0.75 fluid ounces of liquor. According to Wolfram Alpha, one pony is 1 U.S. fluid ounce. "Double" shots (surprisingly not always the size of two single shots, even in the same place) are 40–100 ml (1.4–3.5 imp fl oz; 1.4–3.4 US fl oz). In the UK, spirits are sold in shots of either 25 ml (0.88 imp fl oz; 0.85 US fl oz) (approximating the old fluid ounce) or 35 ml (1.2 imp fl oz; 1.2 US fl oz).

Board foot or super foot

Main article: Board foot

A board foot is a United States and Canadian unit of approximate volume, used for lumber. It is equivalent to 1 inch × 1 foot × 1 foot (144 cu in or 2,360 cm). It is also found in the unit of density pounds per board foot. In Australia and New Zealand the terms super foot or superficial foot were formerly used for this unit. The exact volume of wood specified is variable and depends on the type of lumber. For planed lumber the dimensions used to calculate board feet are nominal dimensions, which are larger than the actual size of the planed boards. See Dimensional lumber for more information on this.

Hoppus foot

Further information: Hoppus

A system of measure for timber in the round (standing or felled), now largely superseded by the metric system except in measuring hardwoods in certain countries. Its purpose is to estimate the value of sawn timber in a log, by measuring the unsawn log and allowing for wastage in the mill. Following the so-called "quarter-girth formula" (the square of one quarter of the circumference in inches multiplied by 1⁄144 of the length in feet), the notional log is four feet in circumference, one inch of which yields the hoppus board foot, 1 foot yields the hoppus foot, and 50 feet yields a hoppus ton. This translates to a hoppus foot being equal to 1.273 cubic feet (2,200 in; 0.0360 m). The hoppus board foot, when milled, yields about one board foot. The volume yielded by the quarter-girth formula is 78.54% of cubic measure (i.e. 1 ft = 0.7854 h ft; 1 h ft = 1.273 ft).

Cubic ton

Main article: Cubic ton

A cubic ton is an antiquated measure of volume, varying based on the commodity from about 16 to 45 cu ft (0.45 to 1.27 m). It is now only used for lumber, for which one cubic ton is equivalent to 40 cu ft (1.1 m).

Cord and rick

A cord of wood
Main article: Cord (unit)

The cord is a unit of measure of dry volume used in Canada and the United States to measure firewood and pulpwood. A cord is the amount of wood that, when "ranked and well stowed" (arranged so pieces are aligned, parallel, touching and compact), occupies a volume of 128 cubic feet (3.62 m). This corresponds to a well-stacked woodpile, 4 feet deep by 4 feet high by 8 feet wide (122 cm × 122 cm × 244 cm), or any other arrangement of linear measurements that yields the same volume. A more unusual measurement for firewood is the "rick" or face cord. It is stacked 16 inches (40.6 cm) deep with the other measurements kept the same as a cord, making it 1⁄3 of a cord; however, regional variations mean that its precise definition is non-standardized.

Twenty-foot equivalent unit

Main article: Twenty-foot equivalent unit

The twenty-foot equivalent unit is the volume of the smallest standard shipping container. It is equivalent to 1,360 cubic feet (39 m). Larger intermodal containers are commonly described in multiples of TEU, as are container ship capacities.

Acre-foot

Main article: Acre-foot

An acre-foot is a unit of volume commonly used in the United States in reference to large-scale water resources, such as reservoirs, aqueducts, canals, sewer flow capacity, irrigation water and river flows. It is defined by the volume of one acre of surface area to a depth of one foot. 43,560 cu ft (1,233 m; 325,851 US gal; 271,328 imp gal).

Casual units

Many well-known objects are regularly used as casual units of volume. They include:

Double-decker bus
The approximate volume of a double-decker bus, abbreviated to DDB, has been used informally to describe the size of hole created by a major sewer collapse. For example, a report might refer to "a 4 DDB hole".
Olympic-size swimming pool
An Olympic-size swimming pool holds over 2 acre-feet of water
For larger volumes of liquid, one measure commonly used in the media in many countries is the Olympic-size swimming pool. A 50 m × 25 m (164 ft × 82 ft) Olympic swimming pool, built to the FR3 minimum depth of 2 metres (6.6 ft) would hold 2,500 m (660,000 US gal). The US National Institute of Standards and Technology (NIST) defines the Olympic swimming pool as 1 million litres, which is the approximate volume of the smaller FR2 pool.
Royal Albert Hall
The Royal Albert Hall, a large concert hall, is sometimes used as a unit of volume in the UK, for example when referring to volumes of rubbish placed in landfill. It is famously used in the line "Now they know how many holes it takes to fill the Albert Hall." in The Beatles song "A Day in the Life". The volume of the auditorium is between 3 and 3.5 million cubic feet (between 85,000 and 99,000 cubic metres).
Melbourne Cricket Ground
A common measure of volume in Australia, and in the state of Victoria in particular, is the Melbourne Cricket Ground, the largest stadium in Australia and 13th largest in the world. The volume of the Melbourne Cricket Ground is 1,574,000 cubic metres, or about 630 Olympic swimming pools. Its seating capacity (100,000 as of July 2019) is also used as a unit measure of the number of people.
Sydney Harbour
Sydney Harbour (Port Jackson)
A unit of volume used in Australia for water. One Sydney Harbour is the amount of water in Sydney Harbour: approximately 562 gigalitres (562,000,000 cubic metres, or 0.562 of a cubic kilometre); or in terms of the more unusual measures above, about 357 Melbourne Cricket Grounds, 238,000 Olympic Swimming pools, or 476,000 acre-feet.
The Grand Canyon
With a volume measure approximately 4 orders of magnitude greater than Sydney Harbour, the volume of the Grand Canyon may be used to visualize even larger things, like the magma chamber underneath Yellowstone and other things. According to the National Park Service, the volume of the Grand Canyon is 4.17 trillion cubic metres (5.45 trillion cubic yards) which is 4,170 km (1,000 cu mi).

Flow rate

Miner's inch

Main article: Miner's inch

The volume of water which flows in one unit of time through an orifice of one square inch area. The size of the unit varies from one place to another.

Mass

Electronvolt mass

Main article: Electronvolt § Mass

It is common in particle physics to use eV/c as a unit of mass. Here, eV (electronvolt) is a unit of energy (the kinetic energy of an electron accelerated over one volt, 1.6×10 joules), and c is the speed of light in vacuum. Energy and mass are related through E = mc. This definition is useful for a linear particle accelerator when accelerating electrons.

1 dalton = 931.46 MeV/c

In many systems of natural units c = 1, so the c is dropped and eV itself becomes a unit of mass.

Bag of cement and bag mix

The mass of an old bag of cement was one hundredweight (112 pounds, 51 kg). The amount of material that an aircraft could carry into the air is often visualised as the number of bags of cement that it could lift. In the concrete and petroleum industry, however, a bag of cement is defined as 94 lb (43 kg) because it has an apparent volume close to 1 cubic foot (28 litres). When ready-mix concrete is specified, a "bag mix" unit is used as if the batching company mixes 5 literal bags of cement per cubic yard (or cubic metre) when a "5 bag mix" is ordered.

Grave

In 1793, the French term "grave" (from "gravity") was suggested as the base unit of mass for the metric system. In 1795, however, the name "kilogramme" was adopted instead.

Jupiter

Jupiter

When reporting on the masses of extrasolar planets, astronomers often discuss them in terms of multiples of Jupiter's mass (MJ = 1.9 ×10 kg). For example, "Astronomers recently discovered a planet outside our Solar System with a mass of approximately 3 Jupiters." Furthermore, the mass of Jupiter is nearly equal to one thousandth of the mass of the Sun.

Sun

Solar mass (M = 2.0×10 kg) is also often used in astronomy when talking about masses of stars or galaxies; for example, Alpha Centauri A has the mass of 1.1 suns, and the Milky Way has a mass of approximately 6×10 M.

Solar mass also has a special use when estimating orbital periods and distances of 2 bodies using Kepler's laws: a = MtotalT, where a is length of semi-major axis in AU, T is orbital period in years and Mtotal is the combined mass of objects in M. In case of planet orbiting a star, Mtotal can be approximated to mean the mass of the central object. More specifically in the case of Sun and Earth the numbers reduce to Mtotal ~ 1, a ~ 1 and T ~ 1.

Time

Light-distance

George Gamow discussed measurements of time such as the "light-mile" and "light-foot", the time taken for light to travel the specified unit distance, defined by "reversing the procedure" used in defining a light-year. A light-foot is roughly one nanosecond, and one light-mile is approximately five microseconds.

Shake

In nuclear engineering and astrophysics contexts, the shake is sometimes used as a conveniently short period of time. 1 shake is defined as 10 nanoseconds.

Jiffy

In computing, the jiffy is the duration of one tick of the system timer interrupt. Typically, this time is 0.01 seconds, though in some earlier systems (such as the Commodore 8-bit machines) the jiffy was defined as 1⁄60 of a second, roughly equal to the vertical refresh period (i.e. the field rate) on NTSC video hardware (and the period of AC electric power in North America).

Microfortnight

One unit derived from the FFF system of units is the microfortnight, one millionth of the fundamental time unit of FFF, which equals 1.2096 seconds. This is a fairly representative example of "hacker humor", and is occasionally used in operating systems; for example, the OpenVMS TIMEPROMPTWAIT parameter is measured in microfortnights.

Sidereal day

The sidereal day is based on the Earth's rotation rate relative to fixed stars, rather than the Sun. A sidereal day is approximately 23 hours, 56 minutes, 4.0905 SI seconds.

Decimal time systems

Main article: Decimal time
Decimal Time clock reading 2.50 DT equivalent to 6 AM standard time

The measurement of time is unique in SI in that while the second is the base unit, and measurements of time smaller than a second use prefixed units smaller than a second (e.g. microsecond, nanosecond, etc.), measurements larger than a second instead use traditional divisions, including the sexagesimal-based minute and hour as well as the less regular day and year units.

SI allows for the use of larger prefixed units based on the second, a system known as metric time, but this is seldom used, since the number of seconds in a day (86,400 or, in rare cases, 86,401) negate one of the metric system's primary advantages: easy conversion by multiplying or dividing by powers of ten.

There have been numerous proposals and usage of decimal time, most of which were based on the day as the base unit, such that the number of units between any two events that happen at the same time of day would be equal to the number of days between them multiplied by some integer power of ten. In dynastic China, the was a unit that represented 1⁄100 of a day (it has since been redefined to 1⁄96 of a day, or 15 minutes). In France, a decimal time system in place from 1793 to 1805 divided the day into 10 hours, each divided into 100 minutes, in turn each divided into 100 seconds; the French Republican Calendar further extended this by assembling days into ten-day "weeks".

Ordinal dates and Julian days, the latter of which has seen use in astronomy as it is not subject to leap year complications, allow for the expression of a decimal portion of the day. In the mid-1960s, to defeat the advantage of the recently introduced computers for the then popular rally racing in the Midwest, competition lag times in a few events were given in centids (1⁄100 day, 864 seconds, 14.4 minutes), millids (1⁄1,000 day, 86.4 seconds), and centims (1⁄100 minute, 0.6 seconds) the latter two looking and sounding a bit like the related units of minutes and seconds. Decimal time proposals are frequently used in fiction, often in futuristic works.

In addition to decimal time, there also exist binary clocks and hexadecimal time.

The Swatch Internet Time system is based on Decimal time.

Many mechanical stopwatches are of the 'decimal minute' type. These split one minute into 100 units of 0.6s each. This makes addition and subtraction of times easier than using regular seconds.

Sol

Main article: Sol (day on Mars) Further information: Timekeeping on Mars

The United States-based NASA, when conducting missions to the planet Mars, has typically used a time of day system calibrated to the mean solar day on that planet (known as a "sol"), training those involved on those missions to acclimate to that length of day, which is 88,775 SI seconds, or 2,375 seconds (about 39 minutes) longer than the mean solar day on Earth. NASA's Martian timekeeping system (instead of breaking down the sol into 25×53×67 or 25×67×53 SI second divisions) slows down clocks so that the 24-hour day is stretched to the length of that on Mars; Martian hours, minutes and seconds are thus 2.75% longer than their SI-compatible counterparts.

The Darian calendar is an arrangement of sols into a Martian year. It maintains a seven-sol week (retaining Sunday through Saturday naming customs), with four weeks to a month and 24 months to a Martian year, which contains 668 or 669 sols depending on leap years. The last Saturday of every six months is skipped over in the Darian calendar.

Dog year

A 10-year-old Neapolitan Mastiff

There are two diametrically opposed definitions of the dog year, primarily used to approximate the equivalent age of dogs and other animals with similar life spans. Both are based upon a popular myth regarding the aging of dogs that states that a dog ages seven years in the time it takes a human to age one year.

  • One seventh of a year, or approximately 52 days. When this definition is used, a standard calendar year is known as a "human year".
  • A standard (365-day) calendar year of a dog's life, whereas a "human year" is the period of a dog's (or other animal's) life that is claimed to be equivalent to a year of a human being's life (or seven calendar years).

In fact, the aging of a dog varies by breed (larger breeds tend to have shorter lifespans than small and medium-sized breeds); dogs also develop faster and have longer adulthoods relative to their total life span than humans. Most dogs are sexually mature by 1 year old, which corresponds to perhaps 13 years old in humans. Giant dog breeds and bulldogs tend to have the strongest linear correspondence to human aging, with longer adolescences and shorter overall lifespans; such breeds typically age about nine times as fast as humans throughout their lives.

Galactic year

Main article: Galactic year

The galactic year, GY, is the time it takes the solar system to revolve once around the galactic core, approximately 250 million years (megaannum or "Ma"). It is a convenient unit for long-term measurements. For example, oceans appeared on Earth after 4 GY, life is detectable at 5 GY, and multicellular organisms first appeared at 15 GY. The age of the Earth is estimated at 20 GY. This use of GY is not to be confused with Gyr for gigayear or Gy for Gray (unit).

KerMetric time

KerMetric time is a concept that divides the day into 100 equal parts called kermits. Each kermit is equivalent to 14.4 minutes. More precise time can be counted by dividing by 1000 or even 10000. The name kermit came from a combination of the surname of Dr. Larkin Kerwin, president of the National Research Council in 1983, with the word "metric". The original working model of KerMetric time as conceived by W. Thayer of NRC was assembled by the designated Clock Construction Team of John Phillips, Ron Hawkins, Les Moore, and Willie Thayer in 1983.

Moment

See also: atom (unit)

A moment was a medieval unit of time. The movement of a shadow on a sundial covered 40 moments in a solar hour. An hour in this case meant one twelfth of the period between sunrise and sunset. The length of a solar hour depended on the length of the day, which in turn varied with the season, so the length of a moment in modern seconds was not fixed, but on average, a moment corresponded to 90 seconds.

Thirds, fourths

The term "minute" usually means 1⁄60 of an hour, coming from "a minute division of an hour". The term "second" comes from "the second minute division of an hour", as it is 1⁄60 of a minute, or 1⁄60 of 1⁄60 of an hour. While usually sub-second units are represented with SI prefixes on the second (e.g. milliseconds), this system can be extrapolated further, such that a "Third" would mean 1⁄60 of a second (16.7 milliseconds), and a "Fourth" would mean 1⁄60 of a third (278 microseconds), etc. These units are occasionally used in astronomy to denote angles.

Angular measure

Furman

The Furman is a unit of angular measure equal to 1⁄65,536 of a circle, or just under 20 arcseconds. It is named for Alan T. Furman, the American mathematician who adapted the CORDIC algorithm for 16-bit fixed-point arithmetic sometime around 1980. 16 bits give a resolution of 2 = 65,536 distinct angles.

Binary degree, binary radian, brad

See also: Fixed-point arithmetic § Binary angles

A related unit of angular measure equal to 1⁄256 of a circle, represented by 8 bits, has found some use in machinery control where fine precision is not required, most notably crankshaft and camshaft position in internal combustion engine controllers, and in video game programming. There is no consensus as to its name, but it has been called the 8-Bit Furman, the Small Furman, the Furboy and more recently, the miFurman, (milli-binary-Furman). These units are convenient because they form cycles: for the 8-bit unit, the value overflows from 255 to 0 when a full circle has been traversed, so binary addition and subtraction work as expected. Measures are often made using a Gray code, which is trivially converted into more conventional notation. Its value is equivalent to Tau/256 radians, or about 0.0245436926 radians.

Grade (also grad, gradian, gon)

Main article: Grad (angle)

Coordinates were measured in grades on official French terrestrial ordnance charts from the French revolution well into the 20th century. 1 grade (or in modern symbology, 1 gon) = 0.9° or 0.01 right angle. One advantage of this measure is that the distance between latitude lines 0.01 gon apart at the equator is almost exactly 1 kilometre. It would be exactly 1 km if the original definition of 1 metre = 1⁄10,000 quarter-meridian had been adhered to. One disadvantage is that common angles like 30° and 60° are expressed by fractional values (33+1⁄3 and 66+2⁄3 respectively) so this "decimal" unit failed to displace the "sexagesimal" units equilateral-vertex – degree – minute – second invented by Babylonian astronomers.

Mils, strecks

Estimating mils by hand

Mils and strecks are small units of angle used by various military organizations for range estimation and translating map coordinates used for directing artillery fire. The exact size varies between different organizations: there are 6400 NATO mils per turn (1 NATO mil = 0.982 mrad), or 6000 Warsaw pact mils per turn (1 Warsaw pact mil = 1.047 mrad). In the Swedish military, there are 6300 strecks per turn (1 streck = 0.997 mrad).

MERU (Milli Earth Rate Unit)

The MERU, or Milli Earth Rate Unit, is an angular velocity equal to 1/1000 of Earth's rotation rate. It was introduced by MIT's Instrumentation Laboratories (now Draper Labs) to measure the performance of inertial navigation systems. One MERU = 7.292115×10^ radians per second or about 0.2625 milliradians/hour.

Energy

Gasoline gallon equivalent

Main article: Gasoline gallon equivalent

In 2011, the United States Environmental Protection Agency introduced the gallon gasoline equivalent as a unit of energy because their research showed most U.S. citizens do not understand the standard units. The gallon gasoline equivalent is defined as 33.7 kWh, or about 1.213×10 joules.

Efficiency / fuel economy can be given as miles per gallon gasoline equivalent.

Tons of TNT equivalent

Main article: TNT equivalent

The energy of various amounts of the explosive TNT (kiloton, megaton, gigaton) is often used as a unit of explosion energy, and sometimes of asteroid impacts and violent explosive volcanic eruptions. One ton of TNT produces 4.184×10 joules, or (by arbitrary definition) exactly 10 thermochemical calories (approximately 3.964×10 BTU). This definition is only loosely based on the actual physical properties of TNT.

Hiroshima bomb and Halifax explosion

Hiroshima bomb explosion
Halifax explosion

The energy released by the Hiroshima bomb explosion (about 15 kt TNT equivalent, or 6×10 J) is often used by geologists as a unit when describing the energy of earthquakes, volcanic eruptions, and asteroid impacts.

Prior to the detonation of the Hiroshima bomb, the size of the Halifax Explosion (about 3 kt TNT equivalent, or 1.26×10 J), was the standard for this type of relative measurement. Each explosion had been the largest known artificial detonation to date.

Quad

A quad is a unit of energy equal to 10 BTUs, or approximately 1.055×10 J (slightly over one exajoule). It is suitably large to quantify energy usage by nations or by the planet as whole using everyday numbers. For example, in 2004, US energy consumption was about 100 Q/year, while demand worldwide was about 400 Q/year.

Foe

A foe is a unit of energy equal to 10 joules (≈9.478×10 BTU) that was invented by physicist Gerry Brown of Stony Brook University. To measure the staggeringly immense amount of energy produced by a supernova, specialists occasionally use the "foe", an acronym derived from the phrase fifty-one ergs, or 10 ergs. This unit of measure is convenient because a supernova typically releases about one foe of observable energy in a very short period of time (which can be measured in seconds).

Other metric-compatible scales

Power: Ton of refrigeration

Main article: Ton of refrigeration

The rate at which heat is removed by melting one short ton (910 kg) of ice in 24 hours is called a ton of refrigeration, or even a ton of cooling. This unit of refrigeration capacity came from the days when large blocks of ice were used for cooling, and is still used to describe the heat-removal capabilities of refrigerators and chillers today. One ton of refrigeration is exactly equal to 12,000 BTU/h, or 3.517 kW.

Luminous flux: watt equivalent

With the phaseout of the incandescent lamp in the United States and European Union in the early 21st century, manufacturers and sellers of more energy-efficient lamps have compared the visible light output of their lamps to commonly used incandescent lamp sizes with the watt equivalent or watt incandescent replacement (usually with a lowercase w as a unit symbol, as opposed to capital W for the actual wattage). 1 watt incandescent replacement corresponds to 15 lumens. Thus, a 72-watt halogen lamp, a 23-watt compact fluorescent lamp and a 14-watt light-emitting diode lamp, all of which emit 1500 lumens of visible light, are all marketed as "100 watt incandescent replacement" (100w).

Flow: Amazon River

The volume of discharge of the Amazon River sometimes used to describe large volumes of water flow such as ocean currents. The unit is equivalent to 216,000 m/s.

Flow: Sverdrup

One Sverdrup (Sv) is equal to 1,000,000 cubic metres per second (264,000,000 USgal/s). It is used almost exclusively in oceanography to measure the volumetric rate of transport of ocean currents.

Speed: Bubnoff unit

The Bubnoff unit is defined as 1 micrometre per year (3.169×10 m/s), or one millimeter per 1,000 years. It is employed in geology to measure rates of lowering of earth surfaces due to erosion.

Energy intensity

The langley (symbol Ly) is used to measure solar radiation or insolation. It is equal to one thermochemical calorie per square centimetre (4.184×10 J/m or ≈3.684 BTU/sq ft) and was named after Samuel Pierpont Langley. Its symbol should not be confused with that for the light-year, ly.

Kinematic viscosity

One of the few CGS units to see wider use, one stokes (symbol S or St) is a unit of kinematic viscosity, defined as 1 cm/s, i.e., 10 m/s (≈1.08×10 sq ft/s).

Angular velocity

MERU (Milli Earth Rate Unit), an angular velocity equal to 1⁄1000 of Earth's rotation rate: 1 MERU = 0.015 degrees/hour ≈ 0.072921 microradian/second. Sometimes used to measure the angular drift rate of an inertial navigation system.

Electromagnetic flux

In radio astronomy, the unit of electromagnetic flux is the jansky (symbol Jy), equivalent to 10 watts per square metre per hertz (= 10 kg/s in base units, about 8.8×10 BTU/ft). It is named after the pioneering radio astronomer Karl Jansky. The brightest natural radio sources have flux densities of the order of one to one hundred jansky.

Metre of water equivalent

Main article: Meter water equivalent

A material-dependent unit used in nuclear and particle physics and engineering to measure the thickness of shielding, for example around a nuclear reactor, particle accelerator, or radiation or particle detector. 1 mwe of a material is the thickness of that material that provides the equivalent shielding of one metre (≈39.4 in) of water.

This unit is commonly used in underground science to express the extent to which the overburden (usually rock) shields an underground space or laboratory from cosmic rays. The actual thickness of overburden through which cosmic rays must traverse to reach the underground space varies as a function of direction due to the shape of the overburden, which may be a mountain, or a flat plain, or something more complex like a cliff side. To express the depth of an underground space in mwe (or kmwe for deep sites) as a single number, the convention is to use the depth beneath a flat overburden at sea level that gives the same overall cosmic ray muon flux in the underground location.

Strontium unit: radiation dose

The strontium unit, formerly known as the Sunshine Unit (symbol S.U.), is a unit of biological contamination by radioactive substances (specifically strontium-90). It is equal to one picocurie of Sr-90 per gram of body calcium. Since about 2% of the human body mass is calcium, and Sr-90 has a half-life of 28.78 years, releasing 6.697+2.282 MeV per disintegration, this works out to about 1.065×10 grays per second. The permissible body burden was established at 1,000 S.U.

Banana equivalent dose

A banana contains naturally occurring radioactive material in the form of potassium-40.

Bananas, like most organic material, naturally contain a certain amount of radioactive isotopes—even in the absence of any artificial pollution or contamination. The banana equivalent dose, defined as the additional dose a person will absorb from eating one banana, expresses the severity of exposure to radiation, such as resulting from nuclear weapons or medical procedures, in terms that would make sense to most people. This is approximately 78 nanosieverts – in informal publications one often sees this estimate rounded up to 0.1 μSv.

Flight-time equivalent dose

Natural background radiation typically increases with altitude above the earth's surface. Utilizing this phenomenon, dose resulting from radiological exposures can be expressed in units of flight-time. Flight-time equivalent dose is defined as the time spent in an aircraft at cruising altitude required to receive a radiological dose approximately equivalent to a radiological exposure such as a medical x-ray. One hour of flight-time is approximately equivalent to a dose of 0.004 millisieverts.

Molar mass of cellulose

In the pulp and paper industry, molar mass is traditionally measured with a method where the intrinsic viscosity (dL/g) of the pulp sample is measured in cupriethylenediamine (Cuen). The intrinsic viscosity is related to the weight-average molar mass (in daltons) by the Mark-Houwink equation: = 0.070 Mw. However, it is typical to cite values directly in dL/g, as the "viscosity" of the cellulose, confusingly as it is not a viscosity.

Iodine, bromine and kappa number

In measuring unsaturation in fatty acids, the traditional method is the iodine number. Iodine adds stoichiometrically to double bonds, so their amount is reported in grams of iodine spent per 100 grams of oil. The standard unit is a dimensionless stoichiometry ratio of moles double bonds to moles fatty acid. A similar quantity, bromine number, is used in gasoline analysis.

In pulp and paper industry, a similar kappa number is used to measure how much bleaching a pulp requires. Potassium permanganate is added to react with the unsaturated compounds (lignin and uronic acids) in the pulp and back-titrated. Originally with chlorine bleaching the required quantity of chlorine could be then calculated, although modern methods use multiple stages. Since the oxidizable compounds are not exclusively lignin and the partially pulped lignin does not have a single stoichiometry, the relation between the kappa number and the precise amount of lignin is inexact.

Temperature: Gas Mark

Gas Mark is a temperature scale, predominantly found on British ovens, that scales linearly with temperature above 135 °C (Gas Mark 1) and scales with the log of Celsius below 135 °C.

Demography and epidemiology

Demography and quantitative epidemiology are statistical fields that deal with counts or proportions of people, or rates of change in these. Counts and proportions are technically dimensionless, and so have no units of measurement, although identifiers such as "people", "births", "infections" and the like are used for clarity. Rates of change are counts per unit of time and strictly have inverse time dimensions (per unit of time). In demography and epidemiology expressions such as "deaths per year" are used to clarify what is being measured.

Prevalence, a common measure in epidemiology, is strictly a type of denominator data, a dimensionless ratio or proportion. Prevalence may be expressed as a fraction, a percentage or as the number of cases per 1,000, 10,000, or 100,000 in the population of interest.

Micromort

Main article: Micromort

A micromort is a unit of risk measuring a one-in-a-million probability of death (from micro- and mortality). Micromorts can be used to measure riskiness of various day-to-day activities. A microprobability is a one-in-a million chance of some event; thus a micromort is the microprobability of death. For example, smoking 1.4 cigarettes increases one's death risk by one micromort, as does traveling 370 km (230 miles) by car.

Numbers of people: Stadium capacities

To make large numbers of people comprehensible, the capacity of large stadiums is often used. Here the Melbourne Cricket Ground (MCG) is in the process of filling with 100,016 spectators on AFL grand final day in 2010.

The large numbers of people involved in demography are often difficult to comprehend. A useful visualisation tool is the audience capacity of large sports stadiums (often about 100,000). Often the capacity of the largest stadium in a region serves as a unit for a large number of people. For example, Uruguay's Estadio Centenario is often used in Uruguay, while in parts of the United States, Michigan Stadium is used in this manner. In Australia, the capacity of the Melbourne Cricket Ground (about 100,000) is often cited in this manner. Hence the Melbourne Cricket Ground serves as both a measure of people and a unit of volume.

Computer and information science

The growth of computing has necessitated the creation of many new units, several of which are based on unusual foundations.

Data volume

A CD-ROM can easily store the entirety of a paper encyclopedia's words and images, plus audio and video clips

Volume or capacity of data is often compared to works of literature or large collections of writing. Popular units include the Bible, the Encyclopædia Britannica, phone books, the complete works of Shakespeare, and the Library of Congress.

When the Compact Disc began to be used as a data storage device as the CD-ROM, journalists often described the disc capacity (650 megabytes) by using the number of Christian Bibles that can be stored. The King James Version of the Bible in uncompressed plain 8-bit text contains about 4.5 million characters, so a CD-ROM can store about 150 Bibles.

The print version of the Encyclopædia Britannica is another common data volume metric. It contains approximately 300 million characters, so two copies would fit onto a CD-ROM and still have 50 megabytes (or about 11 bibles) left over.

The term Library of Congress is often used. It refers to the US Library of Congress. Information researchers have estimated that the entire print collections of the Library of Congress represent roughly 10 terabytes of uncompressed textual data.

Nibble

A measure of quantity of data or information, the "nibble" (sometimes spelled "nybble" or "nybl") is normally equal to 4 bits, or one half of the common 8-bit byte. The nibble is used to describe the amount of memory used to store a digit of a number stored in binary-coded decimal format, or to represent a single hexadecimal digit. Less commonly, 'nibble' may be used for any contiguous portion of a byte of specified length, e.g. "6-bit nibble"; this usage is most likely to be encountered in connection with a hardware architecture in which the word length is not a multiple of 8, such as older 36-bit minicomputers.

FLOPS

Main article: FLOPS

In computing, FLOPS (FLoating point Operations Per Second) is a measure of a computer's computing power. It is also common to see measurements of kilo, mega, giga, and teraFLOPS.

It is also used to compare the performance of computers in practice.

BogoMips

Main article: BogoMips

A measure to determine the CPU speed. It was invented by Linus Torvalds and is nowadays present on every Linux operating system. However, it is not a meaningful measure to assess the actual CPU performance.

KLOC

A computer programming expression, the K-LOC or KLOC, pronounced kay-lok, standing for "kilo-lines of code", i.e., thousand lines of code. The unit was used, especially by IBM managers, to express the amount of work required to develop a piece of software. Given that estimates of 20 lines of functional code per day per programmer were often used, it is apparent that 1 K-LOC could take one programmer as long as 50 working days, or 10 working weeks. This measure is no longer in widespread use because different computer languages require different numbers of lines to achieve the same result (occasionally the measure "assembly equivalent lines of code" is used, with appropriate conversion factors from the language actually used to assembly language).

Error rates in programming are also measured in "Errors per K-LOC", which is called the defect density. NASA's SATC is one of the few organizations to claim zero defects in a large (>500K-LOC) project, for the space shuttle software.

An alternative measurement was defined by Pegasus Mail author David Harris: the "WaP" is equivalent to 71,500 lines of program code, because that number of lines is the length of one edition of Leo Tolstoy's War and Peace.

Ticks

The "tick" is the amount of time between timer interrupts generated by the timer circuit of a CPU. The amount of time is processor-dependent. The word "tick" is also used to describe steps of processing in apps and video games, for example, Minecraft servers process the simulation at a rate of 20 ticks per second, while other games commonly use tickrates of 30, 60, 64, or 128 ticks per second.

Other

Centimorgan

In genetics, a centimorgan (abbreviated cM) or map unit (m.u.) is a unit for measuring genetic linkage. It is defined as the distance between chromosome positions (also termed loci or markers) for which the expected average number of intervening chromosomal crossovers in a single generation is 0.01. It is often used to infer distance along a chromosome. One centimorgan corresponds to about 1 million base pairs in humans on average.

Centipawn

Chess software frequently uses centipawns internally or externally as a unit measuring how strong each player's situation position is, and hence also by how much one player is beating the other, and how strong a possible move is. 100 centipawns = the value of 1 pawn – more specifically, something like the average value of the pawns at the start of the game, as the actual value of pawns depends on their position. Loss of a pawn will therefore typically lose that player 100 centipawns. The centipawn is often used for comparing possible moves, as in a given position, chess software will often rate the better of two moves within a few centipawns of each other.

Garn

The garn is NASA's unit of measure for symptoms resulting from space adaptation syndrome, the response of the human body to weightlessness in space, named after US Senator Jake Garn, who became exceptionally spacesick during an orbital flight in 1985. If an astronaut is completely incapacitated by space adaptation syndrome, he or she is under the effect of one garn of symptoms.

Mother Cow Index

Formerly used in real estate transactions in the American Southwest, it was the number of pregnant cows an acre of a given plot of land could support. It acted as a proxy for the agricultural quality, natural resource availability, and arability of a parcel of land.

Nines

Main article: Nine (purity)
1 troy ounce (31 g) of four nines fine gold (999,9)

Numbers very close to, but below one are often expressed in "nines" (N – not to be confused with the unit newton), that is in the number of nines following the decimal separator in writing the number in question. For example, "three nines" or "3N" indicates 0.999 or 99.9%, "four nines five" or "4N5" is the expression for the number 0.99995 or 99.995%.

Typical areas of usage are:

  • The reliability of computer systems, that is the ratio of uptime to the sum of uptime and downtime. "Five nines" reliability in a continuously operated system means an average downtime of no more than approximately five minutes per year (there is no relationship between the number of nines and minutes per year, it is pure coincidence that "five nines" relates to five minutes per year.) (See high availability for a chart.)
  • The purity of materials, such as gases and metals.

Pain

A woman wincing in pain
See also: Pain scale, Dolorimeter, Pain, and Nociception

The dol (from the Latin word for pain, dolor) is a unit of measurement for pain. James D. Hardy, Herbert G. Wolff, and Helen Goodell of Cornell University proposed the unit based on their studies of pain during the 1940s and 1950s. They defined one dol to equal a just-noticeable difference in pain. The unit never came into widespread use and other methods are now used to assess the level of pain experienced by patients.

The Schmidt sting pain index and Starr sting pain index are pain scales rating the relative pain caused by different hymenoptera stings. Schmidt has refined his pain index (with a 1–4 scale) with extensive anecdotal experience, culminating in a paper published in 1990 which classifies the stings of 78 species and 41 genera of Hymenoptera. The Starr sting pain scale uses the same 1–4 scale.

Pepper heat

ASTA pungency unit

The ASTA (American Spice Trade Association) pungency unit is based on a scientific method of measuring chili pepper "heat". The technique utilizes high-performance liquid chromatography to identify and measure the concentrations of the various compounds that produce a heat sensation. Scoville units are roughly 1⁄15 the size of pungency units while measuring capsaicin, so a rough conversion is to multiply pungency by 15 to obtain Scoville heat units.

Scoville heat unit

Chili peppers.

The Scoville scale is a measure of the hotness of a chili pepper. It is the degree of dilution in sugar water of a specific chili pepper extract when a panel of 5 tasters can no longer detect its "heat". Pure capsaicin (the chemical responsible for the "heat") has 16 million Scoville heat units.

Potrzebie

The widely-read MAD Magazine made extensive use, as a running gag, of the Potrzebie system of units, which included units of length, mass etc.

Proof: alcohol concentration

Main article: Alcohol proof
A (nearly empty) bottle of 151° proof rum

Up to the 20th century, alcoholic spirits were assessed in the UK by mixing with gunpowder and testing the mixture to see whether it would still burn; spirit that just passed the test was said to be at 100° proof. The UK now uses percentage alcohol by volume (ABV) at 20 °C (68.0 °F), where spirit at 100° proof is approximately 57.15% ABV. In the US, "proof number" is defined as twice the ABV at 60 °F (15.6 °C).

Savart

The savart is an 18th-century unit for measuring the frequency ratio of two sounds. It is equal to 1⁄1000 of a decade (not to be confused with the time period equal to 10 years). The cent is preferred for musical use.

Telecommunications traffic volume

Main article: Erlang (unit)

The erlang, named after A. K. Erlang, as a dimensionless unit is used in telephony as a statistical measure of the offered intensity of telecommunications traffic on a group of resources. Traffic of one erlang refers to a single resource being in continuous use, or two channels being at fifty percent use, and so on, pro rata. Much telecommunications management and forecasting software uses this.

X-ray intensity

Main article: Crab (unit)

The crab is defined as the intensity of X-rays emitted from the Crab Nebula at a given photon energy up to 30 kiloelectronvolts. The Crab Nebula is often used for calibration of X-ray telescopes. For measuring the X-ray intensity of a less energetic source, the milliCrab (mCrab) may be used.

One crab is approximately 24 pW/m.

See also

External links


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