United States customary units

U.S. customary units, commonly known in the United States as English units (but see English unit) or standard units, are units of measurement that are currently used in the USA, in some cases alongside units from SI (the International System of Units — the modern metric system). All units are defined in terms of SI base units, but at ratios inconvenient for conversion.

History

The U.S. system of units is similar to the Imperial system which was used officially in the United Kingdom until 1995 (and which still has official usage there for a few purposes, and unofficial usage for many others). Both systems derive from the evolution of local units over the centuries, as a result of standardization efforts in England; the local units themselves mostly trace back to Roman and Anglo-Saxon units. Today, these units are defined in terms of SI units.

In the Omnibus Trade and Competitiveness Act of 1988, the United States government designated the metric system of measurement as "the preferred system of weights and measures for U.S. trade and commerce". The legislation states that the Federal Government has a responsibility to assist industry, especially small business, as it voluntarily converts to the metric system of measurement. This process of legislation and conversion is known as metrication, and in the U.S. is most evident in labeling requirements on food products, where SI units are almost always presented alongside customary units.

However, metrication in the United States has been less forcefully imposed than in other countries,^[1] and has encountered more resistance from industrial and consumer market forces, so customary units are still widely used on consumer products and in industrial manufacturing; only in military, medical, and scientific contexts are SI units generally the norm. (Mars Climate Orbiter crashed on Mars because one team used newtons and the other used pounds-force.) Since everyday weights and measures are mostly non-SI, children in U.S. public schools are generally taught customary units before SI, although many schools are now attempting to teach SI units at an earlier age.

There are anecdotal objections to the use of metric units in carpentry and the building trades, on the basis that it is easier to remember an integral number of inches plus a fraction than a measurement in millimeters^[2] , or that inch measurements are more suitable when distances are frequently divided by two.^[1]

Other countries had (or still have, unofficially), customary units of their own, sometimes very similar in name and measure to the U.S. customary units, since they often shared the same Germanic or Roman origins. Frequently, however, these units designated quite different sizes. For example, in different countries, the mile ranged from one half to five US miles, and even foot and pound had varying definitions. Even within the USA, at least through the 19th century, the customary units of measure were sometimes just as variable. Eventually, most countries, including the United States, redefined their customary units in terms of SI units like kilogram and meter. Often, though, unlike English units, they were rounded to "nice" SI values, leading to their use in colloquial speech, alongside SI terms, into the present day.

Historically, a wide range of non-SI units have been used in the United States, and on the British Isles before that, but many of these have fallen into disuse. This article only deals with the units commonly used or officially defined in the United States.

Units of length

The system for measuring length in the United States' customary system is based on the inch, foot, yard, and mile, which are the only four customary length measurements in everyday use. However, for each of these units there exist two slightly different definitions, yielding two different systems of measure - international measure, and U.S. survey measure. The relationships between the different units within each measure is the same, but each measure has a slightly different definition in terms of metric units.

One inch international measure is exactly 25.4 millimeters, while one inch U.S. survey measure is defined so that 39.37 inches is exactly 1 meter. For most applications, the difference is insignificant (about 3 millimeters per mile). International measure is used for everyday use, engineering, and commerce in the United States, while survey measure is used only for surveying.

International measure, agreed in 1959, uses the same definition of the units involved as is used in the UK and other Commonwealth countries. Before that date, those other countries still used separate standards. U.S. survey measure uses an older definition of the units (specified by the Mendenhall Order in 1893) which the United States used prior to adopting international measure. Previous to this agreement, the US standard was identical to survey measure.

Unit	Divisions	SI Equivalent
International
1 inch (in)		25.4 mm
1 foot (ft)	12 in	0.3048 m
1 yard (yd)	3 ft	0.9144 m
1 mile (mi)	5,280 ft	1.609344 km
Survey
1 link (li)	33⁄50 ft	0.201168 m
1 foot (survey)	1200⁄3937 m	0.3048006 m
1 rod (rd)	25 li	5.029210 m
1 chain (ch)	100 li	20.1168 m
1 mile (survey)	8,000 li	1.609347 km

Units of area

The units of area in the U.S. customary system are mostly based on the units of length squared, e.g., square inch (sq in, 645.16 mm²). Since the U.S. customary system has two differing definitions of the foot (international and survey), there are also two differing definitions for the square foot.

Americans generally measure rooms and buildings in square feet; carpet in square yards; property in acres; and territory in square miles. The square rod and square chain are rarely used.

Unit	Divisions	SI Equivalent
International
1 square inch (sq in)		645.16 mm²
1 square foot (sq ft)	144 sq in	0.09290304 m²
1 square yard (sq yd)	9 sq ft	0.83612736 m²
1 square mile (sq mi)	3,097,600 sq yd	2.589988110336 km²
Survey
1 square foot (sq ft) (survey)		0.09290341 m²
1 square rod (sq rd)	272.25 sq ft	25.29295 m²
1 square chain (sq ch)	16 sq rd	404.6873 m²
1 acre	10 sq ch	4,046.873 m²
1 square mile (sq mi) (survey)	640 acres	2.58998811 km²

The Public Land Survey System, used to divide land in most of the United States, uses the survey mile to divide land into regular square parcels, such as "sections" and "townships". However, these terms are not used for general area measurement, but are instead used to indicate particular parcels of land in a rectangular grid.

Units of capacity and volume

The cubic inch, cubic foot and cubic yard are commonly used for measuring volume. In addition, there is one group of units for measuring volumes of liquids, and one for measuring volumes of dry material.

Other than the cubic foot, cubic inch and cubic yard, these units are differently sized from the units in the Imperial system, although the names of the units are similar. Also, while the U.S. has separate systems for measuring the volumes of liquids and dry material, the Imperial system has one set of units for both.

Technically speaking, since these units are defined in terms of the inch, it would make a difference whether international or survey measure was used. However, in practice, the difference between the two definitions would be imperceptible, and in any case in defining volumes international measure is used.

Volume in general

Unit	Divisions	SI Equivalent
1 cubic inch (cu in)		16.387 064 mL^[3]
1 cubic foot (cu ft)	1 728 cu in	28.316 846 592 L
1 cubic yard (cu yd)	27 cu ft	764.554 857 984 L

Liquid volume

Most important measures shown in bold font

Unit	Divisions	SI Equivalent
1 minim (min)		0.061 611 52 mL
1 fluid dram (fl dr)	60 min	3.696 691 mL
1 fluid ounce (fl oz)	8 fl dr	29.573 53 mL
1 gill (gi)	4 fl oz	118.294 1 mL
1 cup (cp) or (c)	8 fl oz	236.588 2 mL
1 (liquid) pint (pt)	4 gi / 16 fl oz	473.176 5 mL
1 (liquid) quart (qt)	2 pt / 32 fl oz	946.352 9 mL
1 gallon (gal)	4 qt /128 fl oz /231 in³	3.785 412 L
1 beer barrel (bbl)	31 gal	117.347 8 L
1 oil barrel (bbl)	42 gal	158.987 3 L
1 hogshead	63 gal	238.481 0 L

The gill—pronounced /dʒɪl/—is basically a paper unit which is not actually used in the United States any more. Minims and drams are also rarely used. Single servings of beverages are usually measured in fluid ounces. Milk is usually sold in cups or half pints (8 fluid ounces), pints, quarts and gallons. Water volume for sinks, bathtubs, ponds, swimming pools, etc., is usually described in gallons. The fluid ounce derives its name from being the volume of one ounce of water. The saying "a pint's a pound the world around" refers to 16 fluid ounces being one pint in the United States, but ironically in the rest of the English-speaking world 20 fluid ounces make a pint.

Dry volume

Unit	Divisions	SI Equivalent
1 (dry) pint (pt)	33.6003125 cu in (exactly)	550.610 5 mL
1 (dry) quart (qt)	2 pt	1.101 221 L
1 (dry) gallon	4 qt	4.404 884 L
1 peck (pk)	2 (dry) gallons	8.809 768 L
1 bushel (bu)	4 pk	35.239 07 L

Small fruits, berries, and vegetables are often sold in dry pints and dry quarts. Most Americans do not have experience with dry gallons, however pecks, or bushels are sometimes used particularly for apples and similar fruits in agricultural regions.

Units of mass

There have historically been four different English systems of mass: Tower weight, Troy weight, Avoirdupois system, and Apothecaries' system. Tower weight fell out of use (due to legal prohibition) centuries ago, and was never used in the United States. Troy weight is still used to weigh precious metals. Apothecaries weight, once used in pharmacy, has been largely replaced by metric measurements. Avoirdupois weight is the primary system of mass in the U.S. customary system.

The Avoirdupois units are legally defined as measures of mass, but the names of these units are sometimes applied to measures of force. For instance, in most contexts, the pound avoirdupois is used as a unit of mass, but in the realm of physics, the term "pound" can represent "pound-force" (a unit of force properly abbreviated as "lbf").

Troy weight, avoirdupois weight, and apothecaries weight are all defined in terms of the same basic unit, the grain, which is the same in all three systems. However, while each system has some overlap in the names of their units of measure (all have ounces and pounds), the relationship between the grain and these other units within each system varies. For example, in apothecaries and troy weight, the pound and ounce are the same, but are different from the pound and ounce in avoirdupois, in terms of their relationships to grains and to each other. The systems also have different units between the grain and ounce (apothecaries has scruple and dram, troy has pennyweight, and avoirdupois has just dram). The dram was once known as the drachm.

To alleviate confusion, it is typical when publishing non-avoirdupois weights to mention the name of the system along with the unit. Precious metals, for example, are often weighed in "troy ounces", because just "ounce" would be more likely to be assumed to mean an ounce avoirdupois.

The pound avoirdupois, which forms the basis of the U.S. customary system of mass, is defined as exactly 453.59237 grams. All the other units of mass are defined in terms of it.

For the pound and smaller units, the U.S. customary system and the British Imperial system are identical. However, they differ when dealing with units larger than the pound. The definition of the pound avoirdupois in the British Imperial system is identical to that in the U.S. customary system.

Avoirdupois weight

Unit	Divisions	SI Equivalent
1 grain (gr)	1⁄7000 lb	64.798 91 mg
1 dram (dr)	27+11⁄32 gr	1.771 845 195 312 5 g
1 ounce (oz)	16 dr	28.349 523 125 g
1 pound (lb)	16 oz	453.592 37 g
1 hundredweight (cwt)	100 lb	45.359 237 kg
1 (short) ton	20 cwt	907.184 74 kg

In the United States, only the ounce, pound and short ton — known in the country simply as the ton — are commonly used, though the hundredweight is still used in agriculture and shipping.

Apothecaries' weight

Unit	Divisions	SI Equivalent
1 scruple (℈)	20 gr	1.295 978 2 g
1 dram (ʒ)	3 ℈	3.887 934 6 g
1 ounce (℥)	8 ʒ	31.103 476 8 g
1 pound (lb ap)	12 ℥	373.241 721 6 g

The pound and ounce apothecaries are identical to the pound and ounce troy.

Troy weight

The grain has the same definition as for Avoirdupois weight.

Unit	Divisions	SI Equivalent
1 pennyweight (dwt)	24 gr	1.555 173 84 g
1 troy ounce (oz t)	20 dwt	31.103 476 8 g
1 troy pound (lb t)	12 oz t	373.241 721 6 g

Cooking measures

The most common cooking weights and measures in the United States are as follows:

Unit	Divisions	SI Equivalent
1 teaspoon (tsp)		5 mL
1 tablespoon (tbsp)	3 tsp	15 mL
1 cup	16 tbsp	240 mL
1 stick	4 oz	115 g

The SI equivalents have been rounded to reasonable values in the table above, because cooking is not a precise science.

Grain measures

In agricultural practice, a bushel is a fixed mass of grain, nominally based on dry volume units.

1 bushel (maize) = 56 lb ≈ 25.401 kg
1 bushel (wheat) = 60 lb ≈ 27.216 kg

Units of temperature

Degrees Fahrenheit are used in the United States to measure temperatures in most non-scientific contexts.

Pure water freezes at 32 °F and boils at 212 °F at 1 atm.
Water saturated with common salt freezes at −6.02 °F.
Conversion formula: $F={\frac {9}{5}}C+32$
For a rough conversion formula that is easier to perform in one's head, American travelers to regions that use Celsius may prefer $F=2C+30\,$ which is identical to the real formula when F=50 and is accurate to within 5 degrees Fahrenheit when $5\leq F\leq 95$ .

For scientific matters the Rankine scale, an absolute temperature scale based upon Fahrenheit, saw some use. Modern scientists almost always use the Kelvin and Celsius scales, though medical practitioners often use customary units for body temperature and weight.

Other units

British thermal unit (~ 1055 J)
Horsepower (~ 746 W)
Hand (10.16 cm)
Calorie (4,184 J or 4.184 kJ)
Board-foot (2.360 dm³)
R-value (0.176 K·m²/W)

Notes

^ ^a ^b Ed Tenner, (May 2005), "The Trouble with the Meter", http://www.technologyreview.com/Infotech/14422/
^ Robyn Williams (February 8, 1998) Trouble with the Metric System Australian Radio National, Ockham's Razor. http://www.abc.net.au/rn/science/ockham/stories/s11563.htm
^ The liter should be abbreviated with a capital L per National Institute of Standards and Technology. (1995.) Guide for the Use of the International System of Units (SI). Special Publication 811. http://physics.nist.gov/Pubs/SP811/sec06.html#6.1.2

External links

Source: Appendix C, NIST Handbook 44, 2006 edition (http://ts.nist.gov/WeightsAndMeasures/upload/AppendC-06-HB44-Final.pdf Appendix C PDF]).
Judson, Lewis B., Weights and Measures Standards of the United States: A brief history, NBS Special Publication 447, orig. iss. October 1963, updated March 1976 (46 page PDF file or table of contents).
Jacques J. Proot's Anglo-Saxon weights & measures page.

[Tenner-1] Ed Tenner, (May 2005), "The Trouble with the Meter", http://www.technologyreview.com/Infotech/14422/

[2] Robyn Williams (February 8, 1998) Trouble with the Metric System Australian Radio National, Ockham's Razor. http://www.abc.net.au/rn/science/ockham/stories/s11563.htm

[3] The liter should be abbreviated with a capital L per National Institute of Standards and Technology. (1995.) Guide for the Use of the International System of Units (SI). Special Publication 811. http://physics.nist.gov/Pubs/SP811/sec06.html#6.1.2

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