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Metric system

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The International Bureau of Weights and Measures in Sèvres, France. The home of the international metric system.

The metric system is a number of different systems of measurement with length based on the metre, mass on the gram, and volume on the litre.[1] This system is used around the world. It was developed in France and first introduced there in 1795, 2 years after the execution of Louis XVI. The metric units are based on decimal groups (multiples of ten). At first the metric system was based on two quantities: length and weight. The basic units were called the metre and the gramme.

In 1866, the United States started to use the metric system, and is widely used except by the public.[2] By 1875, many countries in Europe and in Latin America had changed to using the metric system. In 1875, seventeen countries signed the Metre Convention agreeing to share responsibility for defining and managing the metre and kilogram standards.[a] The prototype[b] copies of the metre and of the kilogram were called the "international prototype metre" and "international prototype kilogram". A new organization called the International Bureau of Weights and Measures (BIPM) was set up. The international prototype metre and kilogram were kept at the BIPM headquarters. In 1960, the rules for the metric system were revised. The revised system was called the "International System of Units" (which is often called "SI" for short). The definition of SI also included rules for writing SI quantities. These rules are the same for all countries. In the 1970s, many people in the United Kingdom and the rest of the Commonwealth started using the metric system in their places of work.

Description

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Road sign on a Chinese motorway close to Beijing. The sign uses the international symbol "km" for "kilometres".
One litre has the same volume as the volume of a cube with edges of 10 cm (3.9 in). One kilogram is about the mass of one litre of water at the melting point of ice.
A thermometer calibrated in degrees Celsius. Water freezes at 0 °C (32 °F) and boils at 100 °C (212 °F).

The metric system is a decimal-based system of measurement. The system has units of measure for each quantity. The names of most units of measure in the metric system have two parts. One part is the unit name and the other part is the prefix. For example, in the name "centimetre", the word "centi" is the prefix and the word "metre" is the unit name. Sometimes, as with metre, litre and gram, there is no prefix.[3]

In the metric system, all units have a "symbol". Symbols are a shorthand way of writing the names of units. All the countries in the world use the same symbol for a unit, even though they might have different ways of writing out the unit name in full. For example[4]

  • People write "kilometre" in the United Kingdom.
  • People write "kilometer" in the United States.
  • People write "quilómetro" in Portugal.
  • People write "một kí lô mét" in Vietnam.
  • People write "کیلومیتر" in Saudi Arabia.
  • People write "χιλιόμετρα" in Greece.
  • People write "километр" in Russia.
  • People write "公里", "千米", or "粁" in China.
  • People write "キロ" or "㌔" in Japan.
  • People write "킬로미터" in South Korea.
  • Everybody uses the symbol "km" for "kilometre".

Unit names

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The metric system was first developed in France during the French Revolution. A French law passed in 1795 defined five units of measure. Three of these names are still in use today. They are the metre which is the unit of length, the gram which is the unit of mass[c] and the litre which is the unit of volume.[5] Since then many other units of measure have been developed and many definitions changed. The metric system now has units of measurement for energy, power, force, electric current, radioactivity and many others.[6] The most commonly used units of measure in the metric system are listed below.[d]

  • Length
In the metric system, length is measured in metres. The symbol for the metre is the letter "m". The metre was originally defined as being ​110,000,000 of the distance between the North Pole and the Equator on the meridian that passed through Paris. In 1799, a platinum bar that was equal to this length was made and became the "prototype metre"[b]
  • Volume
In the metric system, volume is measured in litres. The symbol for the litre is "L".[e] In 1795 the French Government defined one litre as being the same volume as the volume of a cube which had sides that were 10 centimetres (3.9 in).[5]
  • Mass
In the metric system, mass[c] is measured in grams. The symbol for the gram is the letter "g". In 1795 the French Government defined the gram as the mass of one cubic centimetre of water at the freezing point of ice.[5] This was difficult to measure, so in 1799 the French Government made a "prototype kilogram"[b] (1,000 grams or 35 ounces) mass.
  • Temperature
In the metric system, temperature is measured in degrees Celsius. The symbol for degrees Celsius is "°C". Water freezes at "0 °C (32 °F)" and boils at "100 °C (212 °F)".
  • Time
In the metric system, the unit of time is the seconds. The second was first used as part of the metric system by Carl Friedrich Gauss in 1832.[7]

The definitions of the units are often being changed. In 1960 the definition of the metre was changed. Since then it has been defined in terms of the speed of light.[8] In 2019, the kilogram is redefined in terms of the Planck constant.[9]

Prefixes

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If the numbers are too big or too small, the metric system uses prefixes to make it easier to understand the numbers.[3]

milli

The prefix milli is used to show that a measurement is ​11000 (or 0.001) of the base measurement:
  • There are 1000 milligrams (mg) in a gram.
  • There are 1000 millimetres (mm) in a metre.
  • There are 1000 millilitres (mL) in a litre.

centi

The prefix centi is used to show that a measurement is ​1100 (or 0.01) of the base measurement:
  • There are 100 centimetres (cm) in a metre.
  • There are 100 centilitres (cL) in a litre.

kilo

The prefix kilo is used to show that a measurement is 1000 times as large of the base measurement:
  • There are 1000 grams in a kilogram (kg).
  • There are 1000 metres in a kilometre (km).

There are a lot of other prefixes. Some of them are:

micro which means one millionth (​11,000,000). The symbol for "micro" is the Greek letter μ (called "mu").
deci which means one tenth (​110). The symbol for "deci" is "d".
mega which means one million (1,000,000). The symbol for "mega" is "M". Care must be taken not to get "m" (for "milli") and "M" (for "mega") mixed up.
Four everyday measuring devices that have metric calibrations: a tape measure calibrated in centimetres, a thermometer calibrated in degrees Celsius, a kilogram weight, and an electrical multimeter that measures volts, amperes and ohms.

These tables will help one to estimate the size of different lengths or masses in the metric system. In these tables:

  • The word "Imperial" is short for Imperial units which are the units of measure that have traditionally been used in the United Kingdom.
  • The word "Customary" is short for U.S. customary units which are units of measure that have traditionally been used in the United States.
Metric
Unit
Imperial/
Customary
Equivalent
How big
1 km 0.621 miles
1094 yd
The Mall (from Trafalgar Square to Buckingham Palace)
Niagara Falls (Bank to bank)
100 m 109 yd Length of a gridiron football, association football (soccer) or rugby field
Length of four-coach train
10 m 33 ft Width of a tennis court (10.97 m)
1 m
100 cm
1.0936 yd
3.281 ft
39.37 in
Length of a baseball bat (maximum = 1.067 m)
Length of a cricket bat (maximum = 0.965 m)
10 cm 4 in Width of a human palm
10 mm
1 cm
25 in Width of an average acorn
1 mm 0.04 in Thickness of denim cloth[10]
100 μm 0.004 in Thickness of a piece of photo-copier paper
Metric
Unit
Imperial/
Customary
Equivalent
How big
1000 kg
(1 tonne)
2205 lb
0.984 tons (UK)
1.102 tons (US)
A small motor car - for example one with an engine of between 1.0 and 1.2 L
100 kg 221 lb A large man - About 15% of white US males exceed 100 kg[11]
10 kg 22.05 lb Average mass of a 12-month old child[12]
1 kg 2.205 lb One litre drink (not counting the mass of the container)
100 g 3 34 oz Heavier than a tennis ball (~58 g) but lighter than a cricket ball (~160 g) or a baseball (~145 g)
10 g 25 oz A large coin
$0.50 - 11.34 g
£2.00 - 12.0 g
€2.00 - 8.50 g[13]
1 g 15.4 grains Two peanut seeds[14]

British and American spelling

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Some names in the metric system are spelt differently in British English and in American English and Philippine English.

  • The word metre is used in British English while the word meter is used in American English.
  • The word litre is used in British English while the word liter is used in American English.
  • The word gram is used in both British English and in American English. The word gramme can also be used in British English, but many British people think that this is old-fashioned.

Administering the metric system

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Seal of the BIPM

The Metre Convention

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In 1875 representatives from the governments of twenty different countries met in Paris to discuss weights and measures. Seventeen of the countries signed a treaty about weights and measures. The treaty was called "The Convention of the Metre". The countries that signed were: Argentine Confederation, Austria-Hungary, Belgium, Brazil, Denmark, France, Germany, Italy, Peru, Portugal, Russia, Spain, Sweden and Norway, Switzerland, Turkey, United States and Venezuela.[15]: 75–76  They agreed:[16][17][18]

  • To set up an inter-governmental organisation to administer the treaty. This organization was called the International Bureau of Weights and Measures (BIPM).
  • France was to have responsibility for acquiring suitable premises for the BIPM. These premises would become neutral territory. The BIPM offices and laboratories would be located on the site.
  • To make 40 identical copies of the kilogram. One was chosen as the prototype (or primary) copy. This copy was known as the "International Prototype Kilogram". It replaced the Kilogramme des archives as the world's primary copy of the kilogram. The Kilogramme des archives would be kept at the BIPM premises.
  • To make 30 identical copies of the metre. One was chosen as the prototype (or primary) copy. This copy was known as the "International Prototype Metre". It replaced the Metre des archives as the world's primary copy of the metre. The Metre des archives would be kept at the BIPM premises.
  • To give one copy of the metre and one copy of the kilogram to each country. These would be called "national prototype metres" and "national prototype kilograms".
  • To compare the national prototype metres and kilograms against the international prototypes at regular intervals.
  • To promote the use of the metric system.

The United Kingdom and the Netherlands went to the conference but did not sign the treaty at that time. After further consideration, the United Kingdom did sign the treaty in 1884[15]: 75–76  and the Netherlands became a member in 1929.[19]

In 1889 the copies of the kilogram and the metre were ready to be given to the different countries that signed the treaty.[18]

The United States Congress ratified the treaty in 1878.[20] The United Kingdom signed the treaty 1884.[21] Neither country passed laws making it compulsory to use the metric system.[22]

In 1921 the Metre Convention was extended to include all physical measurements including time, electricity and temperature.

In 1960 the BIPM published the "International System of Units" (or SI). SI clarified a number of areas of the metric system, particularly in science and in engineering. The BIPM also standardized the way in which SI was written making it the same for all languages.[8]

Woodcut dated 1800 explaining the new decimal measures in France.

There are 16 US fluid ounces in a US pint but there are 20 imperial [UK] fluid ounces in an imperial pint. The US fluid ounce is larger than the imperial fluid ounce, but the imperial pint is larger than the US pint.[23] In the 1700's this type situation was common across Europe. Each country measured length, weight/mass and volume in its own way. Sometimes different countries or cities used the same name for different measurements. Sometimes different cities in the same country had different ways of measuring things. In 1789 there were a quarter of a million different units of weight and measure in France.[24]: 2–3 

French Revolution

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During the French Revolution, French scientists decided that it would be better to have a new system of weights and measures. The system would be the same in all French provinces and cities. They also decided that it would be easier if the new system used 10's instead of 12's, 16's or 20's, because people normally count in 10's. The new system became the official system of measurement in France in 1799.[25]: 71–72  One of the French leaders, the Marquis de Condorcet declared that "[the metric system] is for all people for all time".[24]: 1 

The metre was originally defined to be one ten millionth of the distance between the North Pole and the Equator through Paris.

They decided that the new system would be for everybody on Earth and that the new unit of length would be called a "metre". They decided there would be 10,000 kilometres (6,200 miles) between the North Pole and the equator. Between 1791 and 1798 two surveyors, Pierre Méchain and Jean-Baptiste Delambre, measured the distance between the cities of Dunkirk to Barcelona using old French units, and used the stars to measure their latitudes. They used this information to work out that the length of the metre should be 443.296 lignes.[Note 1] In 1798 the French scientists made a bar of platinum that was exactly one metre long. They stored this bar in the French archives. It was called the metre des archives. People who made one metre rulers were able to check that their rulers were the same length as the metre des archives. Other scientists made a kilogram weight from platinum which was also put in the archives. This weight was called the kilogram des archives.[24]: 266 

First attempt to metricate France

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In 1799 the metric system was made compulsory, meaning people were made to use it by law, in the region around Paris. This caused a lot of confusion because the police enforced the new measures but customers preferred the old ones. So shopkeepers had to have both. People became worried the new measures were used to cheat them. Politicians tried to educate and convince people to use metric, but the people rejected the metric system. In 1800 the government tried to make the system acceptable by changing the names of the units back to the simpler names used before metrication. For example, the decimetre, centimetre, and millimetre were renamed to palme (hand), doigt (finger) and trait (trace).[24]: 270–275 

In 1799 Napoleon became the leader of France. By 1812 he had conquered most of Europe. He introduced the metric system to the countries that he conquered. In 1815 he was defeated at the Battle of Waterloo. After Napoleon was defeated, most of the countries started using their old systems of measurement again.[26]

During this time, the metric system was still the official system of measurement in France. And it still had simplified unit names. But the French people continued to use the measures they were used to. The French government tried to persuade the people to convert. They mass-produced metric rulers. They tried to teach the people to use metric measures, and commanded the police to punish people who would not cooperate. Eventually the government stopped trying and withdrew the metric system.[24]: 332–333 

France Stopping Using The Metric System

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On 12 February 1812, France stopped using the metric system and started using a new system called mesures usuelles. The new system was based on many of the old pre-metric units. The old units were redefined to be round numbers or fractions of the withdrawn metric units. For example the livre (pound) was reintroduced and changed from 489 grams to 500 grams. The toise was redefined as 2 metres. The toise contained 6 pied (feet), changed from 324.8 mm to 13 of a metre (333.33 mm). The pied had 12 pouces (inches) and the pouce had 12 lignes.[15][24]: 334 

Second attempt to metricate France

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In 1837 the metrication laws were revived by the July Monarchy in France and in 1840 the system became compulsory throughout France, almost 50 years after it was first introduced.[24]: 451 

Wider adoption of the metric system

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During the nineteenth century many small countries started cooperating with each other. In 1815 the Kingdom of the Netherlands was formed from seventeen small states. Each state had its own system of measurement. In 1820 they decided that it would be better if everybody used the metric system.[27]

In 1815 the German Confederation was formed. It was an association of 39 different states. Each state had its own system of measurements. In 1834 the German Confederation formed a customs union called the Zollverein. In 1851 the Zollverein decided to use metric units for trade between the many different states. In 1871, most of the states in the German Confederation were joined together to form the German Empire. The German Empire continued to use the metric system.[27]

In the same year, Italy was also formed from a large number of small states. Italy also decided to use the metric system rather than choosing one of the old systems of measurement.[27]

By 1875 many European and Latin American counties were already using the metric system. These countries included France, Germany, Italy, Spain, Portugal, Brazil, Mexico, Argentina, Peru and Columbia. Between 1875 and 1914 many more countries including Norway, Sweden, Denmark, Finland, Paraguay, Philippines and Vietnam started to use the metric system. In 1917, during the Bolshevik Revolution, the USSR (now Russia) adopted the metric system. By the start of the Second World War most non-English speaking countries had adopted the metric system.[27]

United States

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In 1866, after most of the South American countries started to use the metric system, the United States passed a law that allowed people to use either the metric system or United States customary units for trade. Before 1893 the yard was defined as the length of the "standard yard" which was kept by the United States Treasury. The pound was defined as being the mass of the "standard pound". In 1893 the United States Congress passed the Mendenhall Order. This order defined the yard as being exactly ​36003937 metres and the pound as being exactly 0.4535924277 kilogram. The order only changed the definitions of the pound and the yard. It had no other effect on people's lives.[28]

In 1975 the Metric Conversion Act started a formal metrication process. Metrication was to be voluntary. It was to be coordinated by the U.S. Metric Board. In 1988 the Omnibus Trade and Competitiveness Act said that metric units had to be used for all federal projects.[29] The Act did not apply to state projects. Some states demanded that metric units be used but other states did not. Some industries changed to using metric units but others did not. Soft drinks are sold in metric quantities. Milk is sold in customary units. Metric units are widely used in the design of motor cars.[30] Aircraft such as the Boeing 787 Dreamliner were designed using mainly customary units.[31]

Some people in the United States want to complete the change-over to the metric system. They say that it will make things easier for everybody.[32] Other people say that it will cost too much money.[33] Some people want to use the metric system because it will make it easier to export goods.[34] Other people say that metrication can only work if all fifty states metricate at the same time. This will not happen unless the Federal Government takes the lead.[35]

However, in the U.S. territories of Puerto Rico and Guam, the metric system is already officially used and is dominant. The metric system was introduced to both territories, when they were Spanish colonies, and has remained official and dominant after they became U.S. territories.[36]

United Kingdom

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In 1897 the United Kingdom passed a law allowing people to use either the metric system or Imperial units for trade.[37] By the late 1960s three quarters of British exports were to countries that used the metric system. However people in the United Kingdom still used imperial units.[38] The Metrication Board was set up in 1969 to help Britain change to the metric system. Each company had to pay their own expenses. Some companies saved a lot of money by changing to the metric system because they could make the same goods for export as they made for sales in the United Kingdom.[39] For example, almost all motor cars use metric-sized nuts and bolts. Other companies lost money because they had to make many changes but did not have any benefit from the changes.

When the Metrication Board was closed down in 1981 most of government and industry had changed to the metric system but a lot of everyday things like road signs had not been changed.[40] A survey taken in 2013 showed that metric units and imperial units were both widely used by British people in their private lives.[41]

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  1. The ligne was an old French unit of length. There were 12 lignes in a pouce and 12 pouce in a pied. This made the metre 3 pieds, 0 pouce and 11.296 lignes long. The pied was 1.065746 English feet, the pouce 1.065746 English feet and the ligne 1.065746 English lines, so the metre was 3 feet, 3 inches 4.441 lines long
  1. There are 1,000 grams (35 oz) in a kilogram.
  2. 2.0 2.1 2.2 The word "prototype" means "primary copy".
  3. 3.0 3.1 "Mass" and "weight" are often confused with each other. "Mass" is the amount of material in an object. "Weight" is the force on the object due to gravity. Thus an object will have less weight on the Moon than on Earth, but will have the same mass on both.
  4. The definitions given below are the original definitions.
  5. The original symbol of the litre is "l". However, people often confused it with "1".

References

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  1. "Oxford Dictionaries". Archived from the original on 2015-11-30. Retrieved 2014-07-29.
  2. "The Metric System in the U.S." 17 July 2020. Archived from the original on 6 July 2014. Retrieved 29 July 2014.
  3. 3.0 3.1 International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), p. 121, ISBN 92-822-2213-6
  4. "Directive 1999/94/EC relating to the availability of consumer information on fuel economy and CO2 emissions in respect of the marketing of new passenger cars". Official Journal of the European Communities. European Parliament and of the Council. Annex II, section 2. 13 December 1999. Retrieved 21 February 2014.
  5. 5.0 5.1 5.2 "Decree on weights and measures". 7 April 1795. Archived from the original on 25 February 2013. Retrieved 18 November 2013. Gramme, le poids absolu d'un volume d'eau pure égal au cube de la centième partie du mètre , et à la température de la glace fondante. English translation: "Gramme: the absolute weight of a volume of pure water equal to the cube of the hundredth part of the meter, at the temperature of melting ice."
  6. International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), pp. 111–120, ISBN 92-822-2213-6
  7. International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), p. 109, ISBN 92-822-2213-6
  8. 8.0 8.1 International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), ISBN 92-822-2213-6
  9. Mills, Ian (27 September 2010). "Draft Chapter 2 for SI Brochure, following redefinitions of the base units" (PDF). BIPM. Retrieved 6 March 2014.
  10. Harmer, S.W.; Rezgui, N.; Bowring, N.; Luklinska, Z.; Ren, G. "Determination of the Complex Permittivity of Textiles and Leather in the 14-40 GHz, mm wave band using a Free-W ave Transmittance Only Method" (PDF). IET Microwaves, Antennas & Propagation: 8. Archived from the original (PDF) on 2012-04-25. Retrieved 2011-10-08.
  11. Halls, Steven B.; Hanson, John (2008). "Men's Weight Chart". Retrieved 2011-09-17.
  12. Halls, Steven B.; Hanson, John (2008). "Child Growth Charts of height weight and body mass index". Retrieved 2011-09-17.
  13. "€ - our money - Common sides". European Central Bank. 2011. Retrieved 2011-09-17.
  14. Wang, Ming; Pittman, Roy (6 August 2008). "Resveratrol Content in Seeds of Peanut Germplasm Quantified by HPLC". Plant Genetic Resources: Characterization and Utilization. 7 (1). United States Department of Agriculture - Agricultural Research Service: 80–83. doi:10.1017/S1479262108048247. S2CID 85572443. Retrieved 12 October 2011.
  15. 15.0 15.1 15.2 Hallock, William; Wade, Herbert T (1906). "Outlines of the evolution of weights and measures and the metric system". London: The Macmillan Company. pp. 66–69.
  16. "The Treaty of the Meter". National Institute of Standards and Technology. 3 September 2009. Archived from the original on 20 July 2014. Retrieved 6 February 2014.
  17. "Photo of the International Bureau of Weights and Measures in Sevres". National Institute of Standards and Technology. Archived from the original on 30 July 2013. Retrieved 6 February 2014.
  18. 18.0 18.1 Judson, Lewis V (Oct 1963). Weights and measures standards of the United States: a brief history. NBS Special publication 447. Washington, DC: National Bureau of Standards. pp. 14–16. 76-600055. Retrieved 6 February 2014.
  19. "The Kingdom of the Netherlands". BIPM.
  20. "The United States of America". International Bureau of Weights and Measures. Retrieved 26 February 2014.
  21. "The United Kingdom of Great Britain and Northern Ireland". International Bureau of Weights and Measures. Retrieved 26 February 2014.
  22. Velkar, Aashish (2012). Markets and Measurements in Nineteenth-Century Britain. Cambridge: Cambridge University Press. p. 62. ISBN 978-1-107-02333-8.
  23. "NIST Handbook 44 – Specifications, Tolerances, and Other Technical Requirements for Weighing and Measuring Devices" (PDF). National Institute of Standards and Technology (NIST). 2013. Appendix C. General Table of Units of Measurement. {{cite journal}}: Cite journal requires |journal= (help)
  24. 24.0 24.1 24.2 24.3 24.4 24.5 24.6 Alder (2004). The Measure of all Things – The Seven-Year-Odyssey that Transformed the World. Abacus. ISBN 978-0-349-11507-8.
  25. Tavernor, Robert (2007). Smoot's Ear: The Measure of Humanity. Yale University Press. ISBN 978-0-300-12492-7.
  26. Wolfgang Appell (2002). Königreich Frankreich [Kingdom of France] (in German). Degener. ISBN 3-7686-1036-5. Website based on Alte Meß und Währungssysteme aus dem deutschen Sprachgebiet. Archived from the original on 30 November 2009. Retrieved 6 February 2014. {{cite book}}: |work= ignored (help)
  27. 27.0 27.1 27.2 27.3 Page, Chester H; Vigoureux, Paul, eds. (20 May 1975). The International Bureau of Weights and Measures 1875 - 1975: NBS Special Publication 420. Washington, D.C.: National Bureau of Standards. p. 244.
  28. Barbrow, Louis E.; Judson, Lewis V. (October 1963) [March 1976]. "7. The Mendenhall Order". Weights and Measures Standards of the United States: A brief history – NBS Special Publication 447 (PDF). US Department of Commerce, National Bureau of Standards. pp. 16–20. LCCN 76-600055. Archived from the original (PDF) on 30 October 2013. Retrieved 1 March 2014.
  29. Smith, David (Summer 1995). "Metric Conversion: How Soon?". Public Roads. 59 (1). United States Department of Transportation - Federal Highway Administration. Retrieved 1 March 2014.
  30. Greenslade, Joe (July 2012). "Why Specify ISO Standards For Metric Fasteners?". American Fastener Journal. Scotsdale, Arizona: 48–55. ISSN 1064-3834. Retrieved 16 August 2013. The decision by General Motors, FORD, and Chrysler to adopt the metric system of measurement in design impacted all industrialized countries in the world. The car manufacturers wanted to be able to source products anywhere in the world and have the components be compatible regardless of where the parts were made, purchased or assembled.
  31. Reisman, Lisa (16 August 2011). "Not So Fast, Comac: C919 is DOA, But Boeing and Airbus Duopoly Dead Anyway". MetalMiner. Azul Partners. Archived from the original on 1 February 2016. Retrieved 16 August 2013.
  32. De Simone, Daniel (1975). "Background and Perspective". In Liptai, RG; Pearson, JW (eds.). Metrication - Managing the Industrial Transition. American Society for Testing and Materials. p. 5. ISBN 978-0-8031-0516-4. ASTM STP 574.
  33. "Guidance Position Statement: Metrication" (PDF). Washington DC: American Public WOrks Association. 15 August 2013. Archived from the original (PDF) on 1 June 2013. Retrieved 3 March 2014. Problems cited include the cost of conversion ...
  34. McCracken, James B., ed. (October 1999). "U.S. Manufacturers with products conforming to metric standards: An analysis" (PDF). Gaithersburg, MD: NIST. NIST GCR 99-783. {{cite journal}}: Cite journal requires |journal= (help)
  35. Zeiter, William (January 1978). "A Progress Report on U.S. Metrication - Will Timely State Adoption of a Metric Conversion Implementation Act Save Us From a Troubled Conversion Effort?". The Business Lawyer. 33 (22): 641–692. JSTOR 40685853.
  36. "US leaves the world puzzled by dragging its feet on metric system". The Nation Thailand. 2015-12-26. Retrieved 2023-01-28.
  37. "untitled". The London Gazette (26968): 3135–37. 20 May 1898.
    Page 3135, Page 3136, page 3137
  38. "White Paper on Metrication (1972) – Summary and Conclusions" (PDF). London: Department of Trade and Industry Consumer and Competition Policy Directorate. para 41. Archived from the original (PDF) on 2016-10-21. Retrieved 2014-02-28. {{cite journal}}: Cite journal requires |journal= (help)
  39. "White Paper on Metrication (1972): Summary and Conclusions (para 100)" (PDF). London: Department of Trade and Industry Consumer and Competition Policy Directorate. 1972. §100. Archived from the original (PDF) on 2016-10-21. Retrieved 2014-02-28. {{cite journal}}: Cite journal requires |journal= (help)
  40. "Final Report of the Metrication Board (1980)" (PDF). London: Department of Trade and Industry Consumer and Competition Policy Directorate. Archived from the original (PDF) on 2013-05-01. Retrieved 2014-02-28. {{cite journal}}: Cite journal requires |journal= (help)
  41. Paice, Robin (2014). Still a mess - The continuing failure of UK measurement policy (PDF). UK Metric Association. Apopendix B - The UKMA/YouGov survey: tabulations. ISBN 978-0-9552351-1-5. Archived from the original (PDF) on 2016-06-29. Retrieved 2014-02-28.