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(Redirected from Metrication arguments and counter-arguments) Conversion to the metric system of measurement

World map, colour-coded to show the years the countries started the process of official conversion to the metric system. Using data from PhD thesis by Hector Vera and NIST.

Metrication or metrification is the act or process of converting to the metric system of measurement. All over the world, countries have transitioned from local and traditional units of measurement to the metric system. This process began in France during the 1790s, and has persistently advanced over two centuries, accumulating into 95% of the world officially only using the modern metric system. Nonetheless, this also highlights that certain countries and sectors are either still transitioning or have chosen not to fully adopt the metric system.

Overview

The process of metrication is typically initiated and overseen by a country's government, generally motivated by the necessity of establishing a uniform measurement system for effective international cooperation in fields like trade and science. Governments achieve metrication through either mandatory changes to existing units within a specified timeframe or through voluntary adoption.

While metric use is mandatory in some countries and voluntary in others, all countries have recognised and adopted the SI, albeit to different degrees, including the United States. As of 2011, ninety-five percent of the world's population live in countries where the metric system is the only legal system of measurement.

According to the National Institute of Standards and Technology (NIST), there are only three countries that do not have mandatory metric laws (Liberia, Myanmar, and the United States), however a research paper completed by Vera (2011) stated in practice there were four additional countries (the United States COFA countries: Federated States of Micronesia, Marshall Islands and Palau, and Samoa. Samoa has since mandated metric trade).

In 2018, the Liberia government had pledged to adopt the metric system, but still mainly uses the US customary units. In 2013, the Myanmar Ministry of Commerce announced that Myanmar was preparing to adopt the metric system as the country's official system of measurement, and metrication in Myanmar began with some progress was made (road signs and temperature are legislated to be in metric), however there had been very little progress in local trade. As of 2023, the United States has a national policy of adopting the metric system, and all United States Government agencies are required to adopt it.

The metrication process can take years to implement and complete. For instance Guyana, adopted the metric system in 2002 and was only able to make it mandatory in local trade 2017 after the metric system was fully adopted in schools. Antigua and Barbuda, also officially metric, is moving slowly in its metrication process, with a new push in 2011 for all government agencies to convert by 2013 and the entire country to use the metric system by the first quarter of 2015. Other metric Caribbean countries, such as Saint Lucia officially metric 2000, are still in the process toward full conversion. The United Kingdom has officially embraced a dual measurement system. The United Kingdom as of 2007 halted its metrication process, and retain imperial units of the mile and yard in road markings, pints for returnable milk containers, and (with Ireland) for the pint for draught beer and cider sold in pubs. Throughout the 1990s, the European Commission helped accelerate the metrication process for member states, for the implemented the Units of Measure Directive to promote trade. This acceleration caused public backlash in the United Kingdom, and in 2007 the United Kingdom announced that it had secured permanent exemptions listed above and, to appease British public opinion and to facilitate trade with the United States, the option to include imperials units alongside metric units could continue indefinitely.

The United Kingdom and the United States face ongoing resistance toward metrication, rooted in a belief that their cultural identity is intertwined with the traditional measurement systems they historically have used. This has resulted in a review of mandatory sales and trade of metric units by the UK government and active opposition to metrication by some commentators in the US.

Forerunners of metrication

National Convention decree of April 1795 establishing the metric system

The metre was adopted as exclusive measure in 1801 under the French Consulate, then the First French Empire until 1812, when Napoleon decreed the introduction of the mesures usuelles which remained in use in France up to 1840 in the reign of Louis Philippe. Meanwhile, the metre was adopted by the Republic of Geneva. After the joining of canton of Geneva to Switzerland in 1815, Guillaume Henri Dufour published the first Swiss official map for which the metre was adopted as unit of length. A Swiss-French binational officer, Louis Napoléon Bonaparte was present when a baseline was measured near Zürich for Dufour map which would win the gold medal for the national map at the Exposition Universelle of 1855. Among the scientific instruments calibrated on the metre, which were displayed at the Exposition Universelle, was Brunner apparatus, a geodetic instrument devised for measuring the central baseline of Spain whose designer, Carlos Ibáñez e Ibáñez de Ibero would represent Spain at the International Statistical Institute. In addition to the Exposition Universelle and the second Statistical Congress held in Paris, an International Association for obtaining a uniform decimal system of measures, weights, and coins was created there in 1855. Copies of the Spanish standard would be made for Egypt, France and Germany. These standards were compared to each other and with Borda apparatus which was the main reference for measuring all geodetic baselines in France. These comparisons were essential, because of the expansibility of solid materials with raise in temperature. Indeed, one fact had constantly dominated all the fluctuations of ideas on the measurement of geodesic bases: it was the constant concern to accurately assess the temperature of standards in the field; and the determination of this variable, on which depended the length of the instrument of measurement, had always been considered by geodesists as so difficult and so important that one could almost say that the history of measuring instruments is almost identical with that of the precautions taken to avoid temperature errors. In 1867, the second general Conference of the European Arc Measurement recommended the adoption of the metre in replacement of the toise. In 1869, the Saint Petersburg Academy of Sciences sent to the French Academy of Sciences a report drafted by Otto Wilhelm von Struve, Heinrich von Wild and Moritz von Jacobi inviting his French counterpart to undertake joint action with a view to ensuring the universal use of the metric system in all scientific work. The same year, Napoleon III convened the International Metre Commission which was to meet in Paris in 1870. The Franco-Prussian War broke out, the Second French Empire collapsed, but the metre survived.

During the nineteenth century the metric system of weights and measures proved a convenient political compromise during the unification processes in the Netherlands, Germany and Italy. In 1814, Portugal became the second country not part of the French Empire to officially adopt the metric system. Spain found it expedient in 1849 to follow the French example and within a decade Latin America had also adopted the metric system, or had already adopted the system, such as the case of Chile by 1848. There was considerable resistance to metrication in the United Kingdom and in the United States. Despite this, they were actually the first countries in the World to use a metric standard for cartography.

France (1795–1840)

The introduction of the metric system into France in 1795 was done on a district by district basis with Paris being the first district. By modern standards the transition was poorly managed. Although thousands of pamphlets were distributed, the Agency of Weights and Measures who oversaw the introduction underestimated the work involved. Paris alone needed 500,000 metre sticks, yet one month after the metre became the sole legal unit of measure, they only had 25,000 in store. This, combined with the excesses of the Revolution and the high level of illiteracy in 18th century France, made the metric system unpopular.

Napoleon himself ridiculed the metric system but, as an able administrator, recognised the value of a sound basis for a system of measurement. Under the décret impérial du 12 février 1812 (imperial decree of 12 February 1812), a new system of measure – the mesures usuelles ("customary measures") was introduced for use in small retail businesses – all government, legal and similar works still had to use the metric system and the metric system continued to be taught at all levels of education. That system reintroduced the names of many units used during the ancient regime, but their values were redefined in terms of metric units. Thus the toise was defined as being two metres, with six pieds making up one toise, twelve pouces making up one pied and twelve lignes making up one pouce. Likewise the livre was defined as being 500 g, each livre comprising sixteen once and each once eight gros and the aune as 120 centimetres. This intermediate step eased the transition to a metric-based system.

By the Loi du 4 juillet 1837 (the law of 4 July 1837), Louis Philippe I effectively revoked the use of mesures usuelles by reaffirming the laws of measurement of 1795 and 1799 to be used from 1 May 1840. However, many units of measure, such as the livre (for half a kilogram), remained in everyday use for many years, and to a residual extent up to this day.

Conversion table in an 1848 German schoolbook showing the metric equivalent of the foot in use in over two dozen countries, including several German states

Germany (1810–1877)

Johann Jacob Baeyer, founder of the Europäische Gradmessung
Stone marking the Austro-Hungarian/Italian border at Pontebba displaying myriametres (10 km), a unit used in Central Europe in the 19th century

At the outbreak of the French Revolution, much of modern-day Germany and Austria were part of the Holy Roman Empire which had become a loose federation of kingdoms, principalities, free cities, bishoprics and other fiefdoms, each with its own system of measurement, though in most cases the systems were loosely derived from the Carolingian system instituted by Charlemagne a thousand years earlier.

During the Napoleonic era, some of the German states moved to reform their systems of measurement using the prototype metre and kilogram as the basis of the new units. Baden, in 1810, for example, redefined the Ruthe (rods) as being 3.0 m exactly and defined the subunits of the Ruthe as 1 Ruthe = 10 Fuß (feet) = 100 Zoll (inches) = 1,000 Linie (lines) = 10,000 Punkt (points) (for simplicity at the expense of grammar, these are the singular forms of each name) while the Pfund was defined as 500 g, divided into 30 Loth, each of 16.67 g. Bavaria, in its reform of 1811, trimmed the Bavarian Pfund from 561.288 g to 560 g exactly, consisting of 32 Loth, each of 17.5 g while the Prussian Pfund remained at 467.711 g.

After the Congress of Vienna there was a degree of commercial cooperation between the various German states resulting in the German Customs Union (Zollverein). There were, however, still many barriers to trade until Bavaria took the lead in establishing the General German Commercial Code in 1856. As part of the code the Zollverein introduced the Zollpfund (Customs Pound) which was defined as exactly 500 g and could be split into 30 'lot'. This unit was used for inter-state movement of goods, but was not applied in all states for internal use.

In 1832, Carl Friedrich Gauss studied the Earth's magnetic field and proposed adding the second to the basic units of the metre and the kilogram in the form of the CGS system (centimetre, gram, second). In 1836, he founded the Magnetischer Verein, the first international scientific association, in collaboration with Alexander von Humboldt and Wilhelm Edouard Weber. Geophysics (the study of the Earth by the means of physics) preceded physics and contributed to the development of its methods. It was primarily a natural philosophy whose object was the study of natural phenomena such as the Earth's magnetic field, lightning and gravity. The coordination of the observation of geophysical phenomena in different points of the globe was of paramount importance and was at the origin of the creation of the first international scientific associations. The foundation of the Magnetischer Verein would be followed by that of the Central European Arc Measurement (German: Mitteleuropaïsche Gradmessung) on the initiative of Johann Jacob Baeyer in 1863, and by that of the International Meteorological Organisation whose second president, the Swiss meteorologist and physicist, Heinrich von Wild represented Russia at the International Committee for Weights and Measures (CIPM). In 1867, the European Arc Measurement (German: Europäische Gradmessung) called for the creation of a new, international prototype metre (IPM) and the arrangement of a system where national standards could be compared with it. The French government gave practical support to the creation of an International Metre Commission, which met in Paris in 1870 and again in 1872 with the participation of about thirty countries. The Metre Convention was signed on 20 May 1875 in Paris and the International Bureau of Weights and Measures was created under the supervision of the CIPM.

Although the Zollverein collapsed after the Austro-Prussian War of 1866, the metric system became the official system of measurement in the newly formed German Empire in 1872 and of Austria in 1875. The Zollpfund ceased to be legal in Germany after 1877.

Italy (1797–1870)

Tablet showing conversions of legacy units of weights and measures to metric units, Vicopisano, Tuscany

The Cisalpine Republic, a North Italian republic set up by Napoleon in 1797 with its capital at Milan, first adopted a modified form of the metric system based on the braccio cisalpino (Cisalpine cubit) which was defined to be half a metre. In 1802 the Cisalpine Republic was renamed the Italian Republic, with Napoleon as its head of state. The following year the Cisalpine system of measure was replaced by the metric system.

In 1806, the Italian Republic was replaced by the Kingdom of Italy with Napoleon as its emperor. By 1812, all of Italy from Rome northwards was under the control of Napoleon, either as French Departments or as part of the Kingdom of Italy, ensuring that the metric system was in use throughout this region.

After the Congress of Vienna, the various Italian states reverted to their original systems of measurements, but in 1845 the Kingdom of Piedmont and Sardinia passed legislation to introduce the metric system within five years. By 1860, most of Italy had been unified under the King of Sardinia Victor Emmanuel II; and under Law 132 of 28 July 1861 the metric system became the official system of measurement throughout the kingdom. Numerous Tavole di ragguaglio (conversion tables) were displayed in shops until 31 December 1870.

Netherlands (1799–1817)

The Netherlands (as the revolutionary Batavian Republic) began to use the metric system from 1799 but, as with its co-revolutionaries in France, encountered numerous practical difficulties. Subsequently, as part of the First French Empire since 1809, the Netherlands used Napoleon's mesures usuelles from their introduction in 1812 until the fall of his Empire in 1815. Under the (Dutch) Weights and Measures Act of 21 August 1816 and the Royal decree of 27 March 1817 (Koningklijk besluit van den 27 Maart 1817), the newly formed Kingdom of the Netherlands abandoned the mesures usuelles in favour of the "Dutch" metric system (Nederlands metrisch stelsel) in which metric units were simply given the names of units of measure that were then in use: for instance the ons (ounce) was defined as 100 g.

Norway (1875)

In 1875, Norway was the first country to ratify the metre convention, and it was seen as an important step towards Norwegian independence. The decision to adopt the metric system is said to have been the Norwegian Parliament's fastest decision in peacetime.

Portugal (1814)

In August 1814, Portugal officially adopted the metric system but with the names of the units substituted by Portuguese traditional ones. In this system the basic units were the mão-travessa (hand) = 1 decimetre (10 mão-travessas = 1 vara (yard) = 1 metre), the canada = 1 litre and the libra (pound) = 1 kilogram.

Spain (1700–1889)

Don Carlos Ibáñez e Ibáñez de Ibero, first president of the International Geodetic Association and of the International Committee for Weights and Measures

Until the ascent of the Bourbon monarchy in Spain in 1700, each region of Spain had its own system of measurement. The new Bourbon monarchy tried to centralise control and with it the system of measurement. There were debates regarding the desirability of retaining the Castilian units of measure or, in the interests of harmonisation, adopting the French system. Although Spain assisted Méchain in his meridian survey, the Government feared the French revolutionary movement and reinforced the Castilian units of measure to counter such movements. By 1849 however, it proved difficult to maintain the old system and in that year the metric system became the legal system of measure in Spain.

The Spanish Royal Academy of Science urged the Government to approve the creation of a large-scale map of Spain in 1852. The following year Carlos Ibáñez e Ibáñez de Ibero was appointed to undertake this task. All the scientific and technical material had to be created. Ibáñez e Ibáñez de Ibero and Saavedra went to Paris to supervise the production by Brunner of a measuring instrument which they had devised and which they later compared with Borda's double-toise N°1 which was the main reference for measuring all geodetic bases in France and whose length was by definition 3.8980732 metres at a specified temperature.

In 1865 the triangulation of Spain was connected with that of Portugal and France. In 1866 at the conference of the Association of Geodesy in Neuchâtel, Ibáñez announced that Spain would collaborate in remeasuring the French meridian arc. In 1879 Ibáñez and François Perrier (representing France) completed the junction between the geodetic network of Spain and Algeria and thus completed the measurement of the French meridian arc which extended from Shetland to the Sahara.

In 1866, Spain and Portugal joined the Central European Arc Measurement which would become the European Arc Measurement the next year. In 1867 at the second general conference of the geodetic association held in Berlin, the question of an international standard unit of length was discussed in order to combine the measurements made in different countries to determine the size and shape of the Earth. The conference proposed according to recommendations drawn up by a committee chaired by Otto Wilhelm von Struve director of the Pulkovo Observatory in St. Petersburg the adoption of the metre and the creation of an international metre commission, after a preliminary discussion held in Neuchâtel between Johann Jacob Baeyer director of the Royal Prussian Geodetic Institute, Adolphe Hirsch founder of the Neuchâtel Observatory and Carlos Ibáñez e Ibáñez de Ibero Spanish representative, founder and first director of the Instituto Geográfico Nacional.

In November 1869 the French government issued invitations to join this commission. Spain accepted and Carlos Ibáñez e Ibáñez de Ibero took part in the Committee of preparatory research from the first meeting of the International Metre Commission in 1870. He became president of the permanent Committee of the International Metre Commission in 1872. In 1874 he was elected as president of the Permanent Commission of the European Arc Measurement. He also presided the General Conference of the European Arc Measurement held in Paris in 1875, when the association decided the creation of an international geodetic standard for the bases' measurement. He represented Spain at the 1875 conference of the Metre Convention, which was ratified the same year in Paris. The Spanish geodesist was elected as the first president of the International Committee for Weights and Measures. His activities resulted in the distribution of a platinum and iridium prototype of the metre to all States parties to the Metre Convention during the first meeting of the General Conference on Weights and Measures in 1889. These prototypes defined the metre right up until 1960.

Adolphe Hirsch, secretary of the International Geodetic Association and of the International Committee for Weights and Measures

Switzerland (1801–1877)

Guillaume Henri Dufour, founder of Swisstopo
Heinrich von Wild, president of the International Meteorological Organization and member of the International Committee for Weights and Measures

In 1801, the Helvetic Republic at the instigation of Johann Georg Tralles promulgated a law introducing the metric system. However this was never applied, because in 1803 the competence for weights and measures returned to the cantons. On the territory of the current canton of Jura, then annexed to France (Mont-Terrible), the metre was adopted in 1800. The Canton of Geneva adopted the metric system in 1813, the canton of Vaud in 1822, the canton of Valais in 1824 and the canton of Neuchâtel in 1857. In 1835, twelve cantons of the Swiss Plateau and the north-east adopted a concordat based on the federal foot (exactly 0.3 m) which entered into force in 1836. The cantons of central and eastern Switzerland, as well as the Alpine cantons, continued to use the old measures.

Guillaume-Henri Dufour founded in 1838 in Geneva a topographic office (the future Federal Office of topography), which published under his direction, from 1845 to 1864, the first official map of Switzerland, on the basis of new cantonal measurements. This map at 1:100,000 engraved on copper, suggested the relief by hatching and shadows. The map projection adopted by the commission was the Bonne projection, centred on the Bern Observatory (5° 6' 10.8'' east of Paris meridian), although this point was much closer to the western end of Switzerland than to its eastern end. But its position was well known, and there was no more central observatory. The scale was set at 1:100 000 because it was considered more suitable for a country as rugged as Switzerland than the 1:80 000 adopted for the large map of France and the two maps were in any case inconsistent, as the meridians of the map of Switzerland tilted in the opposite direction to those of the map of France. The map commission wanted to adopt decimal measures; and Switzerland did not have an already existing map which, like the Cassini map, used a scale close to 1:86 400, i.e. 1 line (1⁄12 of a French inch) to 100 toises (i.e. 600 French feet). The metre was adopted as a linear measure, and the entire map was divided into twenty-five sheets: five east–west and five north–south. Each sheet must have shown two scales, one purely metric, the other in Swiss leagues 4800 metres in length. The frame would be divided into sexagesimal minutes and centesimal minutes; the latter, each subdivided into ten parts, had the advantage of showing Kilometres in the direction of the meridians; so that there are new scales on the sides of the sheet to appreciate the distances.

According to the 1848 Constitution the federal foot was to come into force throughout the country. In Geneva, a committee chaired by Guillaume Henri Dufour militated in favor of maintaining the decimal metric system in the French-speaking cantons and against the standardization of weights and measures in Switzerland on the basis of the metric foot. In 1868 the metric system was legalized alongside the federal foot, which was a first step towards its definitive introduction. Cantonal calibrators were supervised by a Federal Bureau of Verification created in 1862, whose management was entrusted to Heinrich von Wild from 1864. In 1875, the responsibility for weights and measures was transferred back from the cantons to the Confederation, and Switzerland (represented by Adolphe Hirsch) joined the Metre Convention. The same year a federal law imposed the metric system from 1 January 1877. In 1977, Switzerland joined the International System of Units.

United Kingdom (1824–present)

Main article: Metrication in the United Kingdom

In 1824, the Weights and Measures Act imposed one standard 'imperial' system of weights and measures on the British Empire. The effect of this Act was to standardise existing British units of measure rather than to align them with the metric system.

During the next eighty years a number of Parliamentary select committees recommended the adoption of the metric system, each with a greater degree of urgency, but Parliament prevaricated. A Select Committee report of 1862 recommended compulsory metrication, but with an "Intermediate permissive phase"; Parliament responded in 1864 by legalising metric units only for 'contracts and dealings'. The United Kingdom initially declined to sign the Treaty of the Metre, but did so in 1883. Meanwhile, British scientists and technologists were at the forefront of the metrication movement – it was the British Association for the Advancement of Science that promoted the CGS system of units as a coherent system and it was the British firm Johnson Matthey that was accepted by the CGPM in 1889 to cast the international prototype metre and kilogram.

In 1895, another Parliamentary select committee recommended the compulsory adoption of the metric system after a two-year permissive period. The 1897 Weights and Measures Act legalised the metric units for trade, but did not make them mandatory. A bill to make the metric system compulsory to help the British industrial base fight off the challenge of the nascent German base passed through the House of Lords in 1904, but did not pass in the House of Commons before the next general election was called. Following opposition by the Lancashire cotton industry, a similar bill was defeated in the House of Commons in 1907 by 150 votes to 118.

In 1965, the UK began an official programme of metrication, and as of 2024, in the United Kingdom the metric is the official measurement system for all regulated trading by weight or measure purposes, however imperial pint remains the sole legal unit for milk in returnable bottles and for draught beer and cider in British pubs. Imperial units are also legally permitted to be used alongside metric units on food packaging and price indications for goods sold loose. The UK government undertook a "Choice on units of measurement: consultation response", and found just over 1% of respondents wish to revert to an increase the use of imperial units, and a such kept the current regulations on the sale of goods.

In addition imperial units may be used exclusively where a product is sold by description, rather than by weight/mass/volume: e.g. television screen and clothing sizes tend to be given in inches only, but a piece of material priced per inch would be unlawful unless the metric price was also shown.

The general public still use imperial units in common langange for their height and weight, and imperial units are the norm when discussing longer distances such as journeys by car, but otherwise metric measurements are often used.

United States (1830–present)

Main article: Metrication in the United States
Ferdinand Rudolph Hassler, first superintendent of the United States Coast Survey

In 1805 a Swiss geodesist Ferdinand Rudolph Hassler brought copies of the French metre and kilogram to the United States. In 1830 the Congress decided to create uniform standards for length and weight in the United States. Hassler was mandated to work out the new standards and proposed to adopt the metric system. The Congress opted for the British Parliamentary Standard from 1758 and the Troy Pound of Great Britain from 1824 as length and weight standards. Nevertheless, the primary baseline of the Survey of the Coast (renamed the United States Coast Survey in 1836 and the United States Coast and Geodetic Survey in 1878) was measured in 1834 at Fire Island using four 2-metre (6 ft 7 in) iron bars constructed after Hassler's specification in the United Kingdom and brought back in the United States in 1815. All distances measured by the Survey of the Coast, Coast Survey, and Coast and Geodetic Survey were referred to the metre. In 1866 the United States Congress passed a bill making it lawful to use the metric system in the United States. The bill, which was permissive rather than mandatory in nature, defined the metric system in terms of customary units rather than with reference to the international prototype metre and kilogram. Ferdinand Rudolph Hassler's use of the metre in coastal surveying, which had been an argument for the introduction of the Metric Act of 1866 allowing the use of the metre in the United States, probably also played a role in the choice of the metre as international scientific unit of length and the proposal by the European Arc Measurement (German: Europäische Gradmessung) to “establish a European international bureau for weights and measures”.

By 1893, the reference standards for customary units had become unreliable. Moreover, the United States, being a signatory of the Metre Convention was in possession of national prototype metres and kilograms that were calibrated against those in use elsewhere in the world. This led to the Mendenhall Order which redefined the customary units by referring to the national metric prototypes, but used the conversion factors of the 1866 act. In 1896, a bill that would make the metric system mandatory in the United States was presented to Congress. Twenty-three of the 29 people who gave evidence before the congressional committee who were considering the bill were in favor of it, but six were against. Four of these six dissenters represented manufacturing interests and the other two were from the United States Revenue service. The grounds cited were the cost and inconvenience of the change-over. The bill was not enacted. Subsequent bills suffered a similar fate.

The United States mandated the acceptance of the metric system in 1866 for commercial and legal proceedings, without displacing their customary units. The non-mandatory nature of the adoption of the SI has resulted in a much slower pace of adoption in the US than in other countries.

In 1971, the US National Bureau of Standards completed a three-year study of the impact of increasing worldwide metric use on the US. The study concluded with a report to Congress entitled A Metric America – A Decision Whose Time Has Come. Since then metric use has increased in the US, principally in the manufacturing and educational sectors. Public Law 93-380, enacted 21 August 1974, states that it is the policy of the US to encourage educational agencies and institutions to prepare students to use the metric system of measurement with ease and facility as a part of the regular education program. On 23 December 1975, President Gerald Ford signed Public Law 94–168, the Metric Conversion Act of 1975. This act declares a national policy of coordinating the increasing use of the metric system in the US. It established a US Metric Board whose functions as of 1 October 1982 were transferred to the Dept of Commerce, Office of Metric Programs, to coordinate the voluntary conversion to the metric system.

In January 2007 NASA decided to use metric units for all future Moon missions, in line with the practice of other space agencies.

Other English-speaking countries

The British metrication programme signalled the start of metrication programmes elsewhere in the Commonwealth, though India had started its programme in 1959, six years before the United Kingdom. South Africa (then not a member of the Commonwealth) set up a Metrication Advisory Board in 1967, New Zealand set up its Metric Advisory Board in 1969, Australia passed the Metric Conversion Act in 1970 and Canada appointed a Metrication Commission in 1971.

The metric units of measurement on Canadian canned food labels are merely the equivalent of the still widely used imperial units such as the ounce.

Metrication in Australia, New Zealand and South Africa was essentially complete within a decade, while in Canada metrication has been halted since the 1970s. In that country, the square foot is still widespread for commercial and residential advertisements and partially in construction because of the close trade relations with the United States. Metric measurements on food products such as canned food are often merely the equivalent of the still widely used imperial units of measurement such as the ounce and the pound. Butter in Canada is sold in 454 g packagings, which is the equivalent of one pound. The railways of Canada such as the Canadian National and Canadian Pacific as well as commuter rail services continue to measure their trackage in miles and speed limits in miles per hour because they also operate in the United States (although urban railways including subways and light rail have adopted kilometres and kilometres per hour). Canadian railcars show weight figures in both imperial and metric. Most other Commonwealth countries adopted the metric system during the 1970s.

Apart from the United Kingdom and Canada, which have effectively halted their metrication programs, the great majority of countries using the imperial system have completed official metrication during the second half of the 20th century or the first decade of the 21st century. The most recent to complete this process was the Republic of Ireland, which began metric conversion in the 1970s and completed it in early 2005. Hong Kong uses three systems (Chinese, imperial, and metric) and all three are permitted for use in trade.

Global status of metrication

Status by country/region

Countries by their dominant system of measurement (metric, imperial, and US customary) as of 2023 (based on popular and official usage)

Links in the country/region point to articles about metrication in that country/region.

Overview of global metrication
Year official metrication
process started
Country/Region Previous system
of measure
Current official status of metrication
1795 France French Metric
1814 Portugal Portuguese Metric
1820 Belgium Belgian Metric
Netherlands Dutch Metric
1843 Algeria Algerian Metric
1848 Chile Chilean (variants of Spanish) Metric
1852 Mexico Mexican (variants of Spanish) Metric, (some national and regional units are still in use and some United States customary units also in use in some industries)
Spain Spanish Metric
1860
1906
Philippines Philippine (Spanish, US customary and local) Mainly Metric. The Philippines first adopted the metric system in 1860 because of the Spanish Colonial government; imperial units were introduced by the American Colonial government; however, the metric system was made the official system of measurement in 1906 through Act No. 1519, s. 1906. US customary units still in use for body measurements and small products while the metric system is used for larger measurements; e.g. floor area, highway length, tonnage.
1861 Italy Italian Metric
1862 Brazil Brazilian (variants of Portuguese) Metric, but some non-metric units are used for specific areas: rural land – alqueire; cattle weight – arroba; screen sizes – polegada (inch); tyre pressure – libra-força por polegada quadrada, but referred by its English abbreviation: psi.
Peru Peruvian (variants of Spanish) Metric, but inches (pulgadas) are used for screen sizes and tires. Fuel is sold in US gallons (galones).
1863 Uruguay Uruguayan (variants of Spanish) Metric
Argentina Argentine (variants of Spanish) Metric
1864 Romania Romanian Metric
1868 North German Confederation German Metric
1869 South German states German Metric
1871 Austria Austrian Metric
1872 Germany German Metric
1873 Serbia Serbian Metric
1874 Hungary Hungarian Metric
1875 Ottoman Empire/Turkey Ottoman Metric
Norway Norwegian Metric
1876 Sweden Swedish Metric, the previous unit of length mil, redefined in 1876 as 10 km, is however still in everyday use e.g. fuel consumption for motor vehicles is always given as "litre per mil", both in everyday speech and in advertising; the mil is even still used in legal texts, despite officially not being a legal unit of length.
Switzerland Swiss Metric
1878 Mauritius Mauritian (English, French) Metric
1886 Finland Finnish Metric
1895 Tunisia Tunisian (Arabic, Turc) Metric
1897 Madagascar Malagasy Metric
1899 Paraguay Paraguayan (variants of Spanish) Metric
1907 Denmark Danish Metric
Iceland Icelandic / Danish Metric
1908 Costa Rica Costa Rican (variants of Spanish) Metric
1912 Dominican Republic Spanish Metric
1918 Russia Russian Metric
1920 Poland Polish Metric
Haiti Haitian (variants of French) Metric
Greece
1959
Greek and Ancient Greek Metric
1923 Morocco Moroccan (Arabic, Turc) Metric
Iran Persian Metric
Thailand Thai Metric
1924 Japan Japanese Metric, with continued informal use of the serving size, tsubo for floorspace.
1925 China Chinese Metric. Wet markets continue to use jin (catty) and liang for weight, land area is still given in mu, and other traditional units (e.g., chi for length) continue to be used informally in everyday language. The People's Republic of China has defined these units so that conversion factors to SI are simple fractions or whole numbers. (See the article on Chinese units of measurement for differences in definitions between the PRC, ROC, and other Sinosphere countries and regions.)
1926 Afghanistan Afghan (Persian, Arab, Indian) Metric
1929 Estonia Estonian Metric
1946 Indonesia Indonesian Metric, however AC units are still measured and advertised in horsepower. Informally, floorspace or rural/agrarian land measured differently in each local regions (Sundanese regions tend to use "bata/tumbak", Javanese regions use "ubin/rakit/kesuk/bahu/ru", "rante" in Malay regions, "borong/anggar" in West Kalimantan, "ubin/iring/lupit/tampah" in other regions, etc.).
1948 Israel Ottoman and Biblical and Talmudic Metric
1950 Somalia Somali Metric
1954 India Indian Metric
Sudan Sudanese (various) Metric
1961 South Korea Korean Metric, use of the pyeong of floorspace is still in use.
1963 Ethiopia Ethiopian Metric
Laos Laotian (various) Metric
Vietnam Vietnamese Metric
1965 United Kingdom Imperial Metric and Imperial, The metric system is the legislated dominant system of measurement however, Imperial legislation remains for sales of some goods and speed and distance road signs.
1967 Ireland Irish then Irish measure prior to 1824, and imperial. Metric, however Draught beer and cider are required to be sold by imperial pint; troy ounce for precious metals also legal. Floor area is still commonly advertised using square feet.
Pakistan Pakistani and imperial Metric
1969 New Zealand Imperial Metric
1970 Australia Imperial Metric, (real estate, especially farmland, above a certain size is still frequently advertised in hectares or, somewhat less frequently, acres. Human weights were traditionally measured in stones, and this is still in occasional use by older generations; this however is rapidly dying out.)
Canada Imperial Metric and Imperial (body measurements are referred to in imperial units, and certain industries such as real estate, construction, and home appliances still use imperial measurements due to a high reliance on American manufacturing.) Metrication was halted in 1985.
1971 Singapore Malay and imperial Metric, land and property areas are still at times measured with square foot or hectare.)
South Africa South African and imperial Metric
1972 Malaysia Malay and imperial Metric, with some traditional wet markets and pasar pagi still using the Malay units. Imperial units are widely used such as size of the real estate are often denoted by square feet rather than square metres.
1975 United States of America United States customary units Metric and US customary System. The US customary system remains the dominant system of measurement.
North Korea Korean Metric, with formal continued use of traditional units
Ghana Imperial Metric
1976 Sri Lanka Sri Lankan and imperial Metric
Hong Kong Imperial, Chinese Metric is the legislated dominant system of measurement, however Chinese units and imperial units are still legal under Weights and Measures Ordinance. The usage of Chinese units or imperial units are still common on fresh food sales (e.g. wet markets), and real estates still use square foot as area measurement unit.
1984 Taiwan Taiwanese Metric (traditional wet markets and real estate still use Taiwanese units.)
1992 Macau Imperial, Chinese (also United States customary units) Metric
1998 Jamaica Imperial Metric, On 10 June 2015, the Jamaican government passed the Road Traffic Bill 2014, which formally repealed and replaced the Road Traffic Act and Regulations 1938. The act included updates to Jamaica's traffic laws along with the use of the metric system within regulatory descriptions. On 18 September 2015, the Jamaican government amended the Weights and Measure Act to include considerable fines to business owners who do not use the metric system.
2004 Trinidad and Tobago Imperial Metric, in 2004 Trinidad and Tobago passed legislation making the International System of Units shall be the primary system of measurement in Trinidad and Tobago in 2015.
2005 Saint Lucia Imperial Metric
Indeterminate Liberia United States customary units Metric and Imperial. The Liberian government has begun transitioning from use of imperial units to the metric system. However, this change has been gradual, with government reports concurrently using both systems.
2011
2013
Myanmar Burmese and imperial Metric and Imperial, Announcement of full metrication in 2014, with technical assistance from the German National Metrology Institute. Distances and speed limits on road signs are shown in kilometres (per hour), and height clearance signs are shown in metres; fuel is measured and sold in litres; and meteorological data and weather reports are shown in degrees Celsius for temperatures, millimetres for precipitation and kilometres per hour for wind speed.
2015 Samoa Traditional units Metric, The Metrology Act 2015 mandates the use of metric/SI units in trade, with a transition period of one year.

Notes

  1. Including Portuguese colonies, most of them now independent countries.
  2. Many German states, particularly those under French tutelage during the Napoleonic Wars (Rheinbund) adopted the metre 1806–15.
  3. Phased transition announced in 1965
  4. Including South-West Africa, now Namibia
  5. The metric system was lawfully recognized and permitted for all purposes nationwide by the Metric Act of 1866. The Metric Conversion Act, which established a federal program to facilitate voluntary metrication, was passed in 1975. In 1988, the Metric Conversion Act was amended to officially recognize the SI as “the preferred system of weights and measures for United States trade and commerce”.
  6. See also Liberia measurement system.
  7. In June 2011, the Myanmar government's Ministry of Commerce began discussing proposals to reform the measurement system in Myanmar and adopt the metric system used by most of its trading partners.

Methods of conversion

There are three common ways that nations convert from traditional measurement systems to the metric system. The first is the quick or "Big-Bang" route. The second way is to phase in units over time and progressively outlaw traditional units. This method, favoured by some industrial nations, is slower and generally less complete. The third way is to redefine traditional units in metric terms. This has been used successfully where traditional units were ill-defined and had regional variations.

The "Big-Bang" way is to simultaneously outlaw the use of pre-metric measurement, metricate, reissue all government publications and laws, and change education systems to metric. India was the first Commonwealth country to use this method of conversion. Its changeover lasted from 1 April 1960, when metric measurements became legal, to 1 April 1962, when all other systems were banned. The Indian model was extremely successful and was copied over much of the developing world. Two industrialized Commonwealth countries, Australia and New Zealand, also did a quick conversion to metric.

The phase-in way is to pass a law permitting the use of metric units in parallel with traditional ones, followed by education of metric units, then progressively ban the use of the older measures. This has generally been a slow route to metric. The British Empire permitted the use of metric measures in 1873, but the changeover was not completed in most Commonwealth countries other than India and Australia until the 1970s and 1980s when governments took an active role in metric conversion. In the United Kingdom and Canada, the process is still incomplete. Japan also followed this route and did not complete the changeover for 70 years. By law, loose goods sold with reference to units of quantity have to be weighed and sold using the metric system. In 2001, the EU directive 80/181/EEC stated that supplementary units (imperial units alongside metric including labelling on packages) would become illegal from the beginning of 2010. In September 2007, a consultation process was started which resulted in the directive being modified to permit supplementary units to be used indefinitely.

The third method is to redefine traditional units in terms of metric values. These redefined "quasi-metric" units often stay in use long after metrication is said to have been completed. Resistance to metrication in post-revolutionary France convinced Napoleon to revert to mesures usuelles (usual measures), and, to some extent, the names remain throughout Europe. In 1814, Portugal adopted the metric system, but with the names of the units substituted by Portuguese traditional ones. In this system, the basic units were the mão-travessa (hand) = 1 decimetre (10 mão-travessas = 1 vara (yard) = 1 metre), the canada = 1 litre and the libra (pound) = 1 kilogram. In the Netherlands, 500 g is informally referred to as a pond (pound) and 100 g as an ons (ounce), and in Germany and France, 500 g is informally referred to respectively as ein Pfund and une livre ("one pound").

In Denmark, the re-defined pund (500 g) is occasionally used, particularly among older people and (older) fruit growers, since these were originally paid according to the number of pounds of fruit produced. In Sweden and Norway, a mil (Scandinavian mile) is informally equal to 10 km, and this has continued to be the predominantly used unit in conversation when referring to geographical distances. In the 19th century, Switzerland had a non-metric system completely based on metric terms (e.g. 1 Fuss (foot) = 30 cm, 1 Zoll (inch) = 3 cm, 1 Linie (line) = 3 mm). In China, the jin now has a value of 500 g and the liang is 50 g.

Surveys are performed by various interest groups or the government to determine the degree to which ordinary people change to using metric in their daily lives. In countries that have recently changed, older segments of the population tend still to use the older units.

Industries and countries resistant to metrication

Precious metals, such as gold, are often measured in troy ounces.

As of 2024, the metric system predominates in most of the world, however specific industries are more resistant to metrication. For example:

Manufacturing and engineering

  • Photograph and video cameras are standardised to mount to tripods using 1⁄4-20 and 3⁄8-16 screws, which are dimensioned in inches, by ISO 1222:2010.
  • Thread count is frequently measured in threads per inch.
  • Abrasives, such as sandpaper and sharpening stones, are commonly graded by grit, corresponding to the level of abrasiviness (mesh size) per square inch.
  • For food energy the calorie is still commonly used.

Computers and televisions

Consumer goods

  • Surfboards are usually designed, constructed, and sold in feet and inches.
  • Shoes are still sold by the barleycorn in most English speaking countries, or the Paris Point in Europe.
  • The fill power of down feather insulation is commonly expressed in "cubic inches per ounce".
  • Precious metals are often sold in troy ounces, even in mostly metric states.

Land, area and distances on the ground

  • Golf courses are measured in yards in the United States, Canada, Japan, South Korea, China, Thailand, the Philippines, Venezuela, Colombia, the Dominican Republic, Indonesia, Vietnam, and Cambodia. In the United Kingdom and Ireland, some golf courses are measured in yards while others are measured in metres.
  • Office space and housing space is often sold and rented in square feet in Hong Kong, Singapore, Malaysia, Canada and India, square yards in India, Pakistan and Bangladesh, and tsubo/pyeong/"ping" in Japan, Korea, and Taiwan.

Road and rail transportation

  • Road signs for distance and speed limit are still displayed in yards, miles and miles per hour in the United States, United Kingdom, and multiple Caribbean states.
  • Tyre pressure is commonly measured in pounds per square inch in multiple countries, including Argentina, Australia, Brazil, Canada, Chile, India, Ireland, Mexico, Peru, the United Kingdom, and the United States.
  • Car and bicycle rim diameters are still usually set as whole inch measurements, and tyre widths are measured in millimetres.
  • Engine power is usually measured in horsepower in most former USSR countries and German-speaking countries (this is metric horsepower rather than mechanical horsepower), although in the EU from 2010 the horsepower is permitted only as a supplementary unit.
  • Imperial gallons are still used for the sale of fuel in four British Overseas Territories (Anguilla, the British Virgin Islands, the Cayman Islands, and Montserrat) and six states: Antigua and Barbuda, Dominica, Grenada, Saint Christopher and Nevis, Saint Lucia, and Saint Vincent and the Grenadines.
  • United States gallons are used in the United States and its territories (except for Puerto Rico, which has used litres since 1980), the Bahamas, Belize, Colombia, the Dominican Republic, Ecuador, Guatemala, Haiti, Honduras, Liberia, Peru, and the Turks and Caicos Islands.

Air and sea transportation

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Air and sea transportation commonly use the nautical mile. This is about one minute of arc of latitude along any meridian arc and it is precisely defined as 1 852 metres (about 1.151 miles). It is not an SI unit. The prime unit of speed or velocity for maritime and air navigation remains the knot (nautical mile per hour).

The prime unit of measure for aviation (altitude, or flight level) is usually estimated based on air pressure values, and in many countries, it is still described in nominal feet, although many others employ nominal metres. The policies of the International Civil Aviation Organization (ICAO) relating to measurement are:

  • there should be a single system of units throughout the world
  • the single system should be the SI
  • the use of the foot for altitude is a permitted variation.

Consistent with ICAO policy, aviation has undergone a significant amount of metrication over the years. For example, runway lengths are usually given in metres. The United States metricated the data interchange format (METAR) for temperature reports in 1996, and since indicates temperature in Celsius. Metrication is also gradually taking place in cargo mass and dimensions and in fuel volume and mass.

In former Soviet countries and China, the metric system is used in aviation (whereby in Russia altitudes above the transition level are given in feet). Sailplanes use the metric system in many European countries.

In 1975, the assembly of the International Maritime Organization (IMO) decided that future conventions of the International Convention for the Safety of Life at Sea (SOLAS) and other future IMO instruments should use SI units only.

Legacy of previous units

  • In Australia, pints are still used for beer (redefined to 570 ml (see Australian beer glasses)).
  • McDonald's sells Quarter Pounders under their original name in all English-speaking countries despite metrication. In the Netherlands and Finland, it is known as a Quarter Pounder Cheese while Sweden also refers to it as QP Cheese. In Quebec, it is called a Quart de livre. In Latin America and Spain, it is called Cuarto de Libra con Queso. In Taiwan, it is known as the four-ounce beef burger.
  • Inch-based spare parts are occasionally kept to service American and pre-1950s machines, but screws are changed to metric thread at maintenance.
  • In plumbing, some pipes and pipe threads are still designated in inch sizes due to historic international acceptance of particular sequences of pipe sizes and pipe threads, such as BSP/ISO 7/EN 10226 threads.
A shower hose sold in Germany with metric length (150 cm) and imperial (1/2 in) fittings

United Kingdom

See also: Metrication in the United Kingdom

In the United Kingdom, some of the population continues to resist metrication to varying degrees. The traditional imperial measures are preferred by a majority and continue to have widespread use in some applications. The metric system is used by most businesses, and is used for most trade transactions. Metric units must be used for certain trading activities (selling by weight or measure for example), although imperial units may continue to be displayed in parallel.

British law has enacted the provisions of European Union directive 80/181/EEC, which catalogues the units of measure that may be used for "economic, public health, public safety and administrative purposes". These units consist of the recommendations of the General Conference on Weights and Measures, supplemented by some additional units of measure that may be used for specified purposes. Metric units could be legally used for trading purposes for nearly a century before metrication efforts began in earnest. The government had been making preparations for the conversion of the imperial unit since the 1862 Select Committee on Weights and Measures recommended the conversion and the Weights and Measures Act of 1864 and the Weights and Measures (Metric System) Act of 1896 legalised the metric system.

In 1965, with lobbying from British industries and the prospects of joining the Common Market, the government set a 10-year target for full conversion, and created the Metrication Board in 1969. Metrication occurred in some areas during this time period, including the re-surveying of Ordnance Survey maps in 1970, decimalisation of the currency in 1971, and teaching the metric system in schools. No plans were made to make the use of the metric system compulsory, and the Metrication Board was abolished in 1980 following a change in government.

The United Kingdom avoided having to comply with the 1989 European Units of Measurement Directive (89/617/EEC), which required all member states to make the metric system compulsory, by negotiating derogations (delayed switchovers), including for miles on road signs and for pints for draught beer, cider, and milk sales.

Immediately following the United Kingdom's vote to withdraw from the European Union, it was reported that some retailers requested to revert to imperial units, with some reverting without permission. A poll following the 2016 vote also found that 45% of Britons sought to revert to selling produce in imperial units.

The UK government started a consultation on 3 June 2022 on the choice of units of measurement markings.

Imperial units remain in common everyday use for human body measurements, in particular stones and pounds for weight, and feet and inches for height.

Fuel economy is often advertised in miles per imperial gallon, which may lead to some confusion for users of US gallons for American manufactured cars.

Heating, air conditioning, and gas cooking appliances occasionally display power in British thermal units per hour (BTU/h).

United States

See also: Metrication in the United States
A measuring cup, manufactured and sold in the United States (circa 1980), features graduations in both metric and US customary systems. Held in the right hand, a person would have the metric graduations in front, facing them; but they might hold it in their left hand, and read from the customary graduations.

Over time, the metric system has influenced the United States through international trade and standardisation. The use of the metric system was made legal as a system of measurement in 1866 and the United States was a founding member of the International Bureau of Weights and Measures in 1875. The system was officially adopted by the federal government in 1975 for use in the military and government agencies, and as preferred system for trade and commerce. Attempts in the 1990s to make it mandatory for federal and state road signage to use metric units failed and it remains voluntary.

A 1992 amendment to the Fair Packaging and Labeling Act (FPLA), which took effect in 1994, required labels on federally regulated "consumer commodities" to include both metric and US customary units. As of 2013, all but one US state (New York) have passed laws permitting metric-only labels for the products they regulate.

After many years of informal or optional metrication, the American public and much of the private business and industry still use US customary units today. At least two states, Kentucky and California, have even moved towards demetrication of highway construction projects.

Canada

See also: Metrication in Canada

Canada legally allows for dual labelling of goods provided that the metric unit is listed first and that there is a distinction of whether a liquid measure is a US or a Canadian (imperial) unit.

Belize

Belize, which is a former British colony, uses both the metric and British imperial systems. Miles are the most commonly used unit for measuring distance, and gasoline is sold in US gallons (similar to neighboring countries in Central America).

Metrication mishaps

Confusion over units during the process of metrication can sometimes lead to accidents. In 1983, an Air Canada Boeing 767, nicknamed the "Gimli Glider" following the incident, ran out of fuel in midflight. The incident was caused, in a large part, by the confusion over the conversion between litres, kilograms, and pounds, resulting in the aircraft receiving 22,300 pounds (10,100 kg) of fuel instead of the required 22,300 kilograms (49,200 lb).

While not strictly an example of national metrication, the use of two different measurement systems was a contributing factor in the loss of the Mars Climate Orbiter in 1999. The National Aeronautics and Space Administration (NASA) specified metric units in the contract. NASA and other organisations worked in metric units, but one subcontractor, Lockheed Martin, provided thruster performance data to the team in pound force-seconds instead of newton-seconds. The spacecraft was intended to orbit Mars at about 150 kilometres (93 mi) in altitude, but the incorrect data meant that it descended to about 57 kilometres (35 mi). As a result, it burned up in the Martian atmosphere.

See also

References

  1. "Metrication". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  2. Vera, Hector (2012). The Social Life of Measures Metrication in the United States and Mexico, 1789–2004 (Thesis). p. 49, ch 2. ProQuest 924487292.
  3. ^ Vera, Hector (2012). The Social Life of Measures Metrication in the United States and Mexico, 1789–2004 (Thesis). ProQuest 924487292.
  4. "U.S. Metrication Frequently Asked Questions (FAQs)". NIST. 28 August 2023. In 1971, the National Bureau of Standards (NBS, now NIST) published the combined reports of the U.S. Metric Study, which also contained a map depicting a list of countries 'uncommitted' to mandatory metrication (Figure 2). The U.S. and other countries listed were described as 'Islands in a Metric World.' The flaw with this perspective was that the concept didn't recognize that the U.S. had been 'metric' since 1866, when the metric system was first legalized. A few years after the U.S. Metric Study was published, Congress passed the Metric Conversion Act adopting voluntary metrication that was signed into law by President Ford in 1975. Over time, various versions of the map/country list became integrated into even more metrication publications. The Central Intelligence Agency (CIA) Factbook is one of the often cited sources of the U.S./Liberia/Burma metric myth. The first unclassified version of the CIA Factbook was published around the same time the U.S. Metric Study. It's likely that the original list of 'uncommitted' countries was incorporated, then edited as countries adopted mandatory metric laws. Over the years, many web resources have quoted the CIA Factbook, perpetuating the metric myth and elevating the map to a pop culture meme. The U.S. metrication status is best described as a Metric Continuum.
  5. Benham, Elizabeth (6 October 2020). "Busting Myths about the Metric System". NIST.
  6. "Metrology – Ministry of Commerce, Industry and Labour". Retrieved 24 June 2024. All commercial engagements are to use the metric units.
  7. Dopoe, Robin (25 May 2018). "Gov't Pledges Commitment to Adopt Metric System". The Observer. Liberian Observer Corporation. Archived from the original on 9 November 2020. Retrieved 8 December 2018.
  8. Kohler, Nicholas (3 March 2014). "Metrication in Myanmar". Mizzima. Archived from the original on 18 August 2017. Retrieved 18 August 2021.
  9. "Myanmar to Adopt Metric System". Eleven. 10 October 2013. Archived from the original on 10 February 2014.
  10. "Metric (SI) Program". NIST. 5 February 2015. Archived from the original on 28 November 2023. Retrieved 14 November 2023.
  11. "Metrification plan to be implemented in all 10 regions – GNBS". Guyana Chronicle. 25 June 2017. Retrieved 15 November 2023.
  12. "Finance minister outlines metrication plans, goals and timetable". Antigua Observer. 18 October 2011. Archived from the original on 10 January 2014. Retrieved 12 November 2011.
  13. "St Lucia begins drive to implement metric system to catch up with region". The Jamaica Observer. Associated Press. 2005. Archived from the original on 18 October 2007. Retrieved 5 November 2007.
  14. ^ "Weights and measures: the law". GOV.UK. Archived from the original on 30 October 2023. Retrieved 15 November 2023.
  15. ^ "EU gives up on 'metric Britain". BBC News. 11 September 2007. Archived from the original on 17 February 2009. Retrieved 23 May 2009.
  16. Vincent, James (16 January 2023). "The battle of the standards: why the US and UK can't stop fighting the metric system". The Verge. Retrieved 15 November 2023.
  17. "Choice on units of measurement: markings and sales". GOV.UK. 3 June 2022. Archived from the original on 7 November 2023. Retrieved 15 November 2023.
  18. Croucher, Shane (6 June 2019). "Video: Fox Host Attacks 'Inelegant, Creepy' Metric System That US Alone Has Resisted". Newsweek. Archived from the original on 10 June 2019. Retrieved 15 November 2023.
  19. Larousse, Pierre (1817-1875) Auteur du texte (1866–1877). Grand dictionnaire universel du XIXe siècle : français, historique, géographique, mythologique, bibliographique.... T. 11 MEMO-O / par M. Pierre Larousse. p. 163. Archived from the original on 22 December 2021. Retrieved 22 December 2021.{{cite book}}: CS1 maint: numeric names: authors list (link)
  20. ^ "Système métrique". hls-dhs-dss.ch (in French). Archived from the original on 10 January 2021. Retrieved 8 January 2021.
  21. ^ "Cartographie". hls-dhs-dss.ch (in French). Archived from the original on 2 February 2021. Retrieved 12 March 2021.
  22. ^ Dufour, G.-H. (1861). "Notice sur la carte de la Suisse dressée par l'État Major Fédéral". Le Globe. Revue genevoise de géographie. 2 (1): 5–22. doi:10.3406/globe.1861.7582.
  23. Durand, Roger (1991). Guillaume-Henri Dufour dans son Temps 1787-1875 (in French). Librairie Droz. p. 145. ISBN 978-2-600-05069-2.
  24. "Napoleon III". hls-dhs-dss.ch (in German). Archived from the original on 14 December 2021. Retrieved 22 December 2021.
  25. "Henri Dufour et la carte de la Suisse". Musée national - Blog sur l'histoire suisse (in French). 14 July 2019. Archived from the original on 8 January 2022. Retrieved 22 December 2021.
  26. Quinn, T. J (2012). From artefacts to atoms: the BIPM and the search for ultimate measurement standards. Oxford University Press. p. 8. ISBN 978-0-19-990991-9. OCLC 861693071.
  27. Yates, James (1856). Narrative of the Origin and Formation of the International Association for Obtaining a Uniform Decimal System of Measures, Weights and Coins. Bell and Daldy. Archived from the original on 22 December 2021. Retrieved 22 December 2021.
  28. Brenni, Paolo (1996). "19th Century French Scientific Instrument Makers - XI: The Brunners and Paul Gautier" (PDF). Bulletin of the Scientific Instrument Society. 49: 3–5. Archived (PDF) from the original on 18 September 2021. Retrieved 22 December 2021 – via UNAV.
  29. Appell, Paul (1925). "Le centenaire du général Ibañez de Ibéro". Revue internationale de l'enseignement. 79 (1): 208–211. Archived from the original on 16 December 2021. Retrieved 22 December 2021.
  30. Tardi, Pierre (1934). Traité de géodésie. p. 25. Archived from the original on 18 December 2021. Retrieved 22 December 2021.
  31. Zuerich, ETH-Bibliothek. "Procès-verbaux des séances de la commission géodésique suisse". E-Periodica (in French). pp. 14, 18. Archived from the original on 29 July 2021. Retrieved 22 December 2021.
  32. texte, Ismāʿīl-Afandī Muṣṭafá (1825-1901) Auteur du (1864). Recherche des coefficients de dilatation et étalonnage de l'appareil à mesurer les bases géodésiques appartenant au gouvernement égyptien / par Ismaïl-Effendi-Moustapha, ... Archived from the original on 18 December 2021. Retrieved 22 December 2021.{{cite book}}: CS1 maint: numeric names: authors list (link)
  33. Expériences faites avec l'appareil à mesurer les bases appertant à la commission de la carte d'Espagne /: ouvrage publié par ordre de la reine (in French). J. Dumaine. 1860.
  34. ^ Soler, T. (10 February 1997). "A profile of General Carlos Ibáñez e Ibáñez de Ibero: first president of the International Geodetic Association". Journal of Geodesy. 71 (3): 176–188. Bibcode:1997JGeod..71..176S. doi:10.1007/s001900050086. S2CID 119447198.
  35. Guillaume, Ch.-Ed (1906). "La mesure rapide des bases géodésiques". Journal de Physique Théorique et Appliquée. 5 (1): 242–263. doi:10.1051/jphystap:019060050024200. Archived from the original on 6 October 2023. Retrieved 9 December 2023.
  36. Guillaume, Ed. (1916). "Le Systeme Metrique est-il en Peril?". L'Astronomie. 30: 242–249. Bibcode:1916LAstr..30..242G.
  37. Boucheron, Patrick; Delalande, Nicolas; Mazel, Florian; Potin, Yann; Singaravélou, Pierre (2018). Histoire mondiale de la France. Éditions Points. p. 694. ISBN 978-2-7578-7442-4. OCLC 1057452808.
  38. Quinn, Terry (May 2019). "Wilhelm Foerster's Role in the Metre Convention of 1875 and in the Early Years of the International Committee for Weights and Measures". Annalen der Physik. 531 (5). Bibcode:2019AnP...53100355Q. doi:10.1002/andp.201800355. S2CID 125240402.
  39. ^ "XIII. Results of the comparisons of the standards of length of England, Austria, Spain, United States, Cape of Good Hope, and of a second Russian standard, made at the Ordnance Survey Office, Southampton. With a preface and notes on the Greek and Egyptian measures of length by Sir Henry James". Philosophical Transactions of the Royal Society of London. 163: 445–469. 31 December 1873. doi:10.1098/rstl.1873.0014.
  40. ^ Hassler, Ferdinand Rudolf (1825). Transactions of the American Philosophical Society. Vol. 2. p. 252. Archived from the original on 8 April 2023.
  41. texte, Ismāʿīl-Afandī Muṣṭafá (1825-1901) Auteur du (1864). Recherche des coefficients de dilatation et étalonnage de l'appareil à mesurer les bases géodésiques appartenant au gouvernement égyptien / par Ismaïl-Effendi-Moustapha, ...{{cite book}}: CS1 maint: numeric names: authors list (link)
  42. "Nomination of the STRUVE GEODETIC ARC for inscription on the WORLD HERITAGE LIST" (PDF). pp. 40, 143–144. Archived (PDF) from the original on 19 October 2015. Retrieved 7 October 2023.
  43. ^ Alder, Ken (2002). The Measure of all Things – The Seven-Year-Odyssey that Transformed the World. London: Abacus. ISBN 978-0-349-11507-8.
  44. Denis Février. "Un historique du mètre" (in French). Ministère de l'Economie, des Finances et de l'Industrie. Archived from the original on 28 February 2011. Retrieved 10 March 2011.
  45. 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.
  46. "History of measurement". Laboratoire national de métrologie et d'essais (LNE) (Métrologie française). Archived from the original on 25 April 2011. Retrieved 6 February 2011.
  47. ^ Crease, Robert P. (2011). World in the Balance: The Historical Quest for an Absolute System of Measurement. New York & London: W. W. Norton & Company. pp. 124 & 164. ISBN 978-0-393-34354-0.
  48. Crease (2011) refers to: Kennelly, Arthur E. (1928). Vestiges of Pre-metric Weights and Measures Persisting in Metric-system Europe, 1926–27. New York: Macmillan. p. vii.
  49. ^ "Amtliche Maßeinheiten in Europa 1842" [Official units of measure in Europe 1842] (in German). Archived from the original on 14 October 2011. Retrieved 26 March 2011. Text version of Malaisé's book.
  50. Ferdinand Malaisé (1842). Theoretisch-practischer Unterricht im Rechnen [Theoretical and practical instruction in arithmetic] (in German). München. pp. 307–322. Archived from the original on 14 October 2011. Retrieved 26 March 2011.
  51. Heinrich Grebenau (1870). "Tabellen zur Umwandlung des bayerischen Masses und Gewichtes in metrisches Maß und Gewicht und umgekehrt" [Conversion tables for converting between Bavarian units of measure and metric units] (in German). Munich. Archived from the original on 22 January 2011. Retrieved 7 March 2011.
  52. Silke Parras (2006). Der Marstall des Schlosses Anholt (16. bis 18. Jahrhundert) – Quellen und Materialien zur Geschichte der Pferdehaltung im Münsterland [The stables of the castle Anholt (16th to 18th century) – sources and materials on the history of horses in Munster] (PDF) (Dr. med. vet thesis) (in German). Tierärztliche Hochschule Hannover . pp. 14–20. Archived (PDF) from the original on 19 July 2011. Retrieved 7 March 2011.
  53. Meyer-Stoll, Cornelia (2010). Die Mass-und Gewichtsreformen in Deutschland im 19. Jahrhundert unter besonderer Berucksichtigung der Rolle Carl August Steinheils und der Bayerischen Akademie der Wissenschaften [The weights and measure reforms in Germany in the 19th century with special reference to Rolle Carl August and the Bavarian Academy of Sciences] (in German). Munich: Bayerischen Akademie der Wissenschaften . p. 129. ISBN 978-3-7696-0124-4.
  54. "History of IMO". World Meteorological Organization. 8 December 2015. Archived from the original on 18 December 2023. Retrieved 7 January 2021.
  55. ^ "Wild, Heinrich". hls-dhs-dss.ch (in German). Retrieved 7 January 2021.
  56. "Heinrich Von Wild (1833-1902) in Comlté International Des Poids Et Mesures. Procès-Verbaux Des Séances. Deuxième Série. Tome Ii. Session De 1903" (PDF). BIPM. 1903. Archived from the original (PDF) on 24 January 2021.
  57. ^ W Leconte Stephens (March 1904). "The Metric System – Shall it be compulsory?". Popular Science Monthly: 394–405. Retrieved 17 May 2011.
  58. "Pfund" (in German). Universal-Lexikon. 2010. Archived from the original on 6 September 2014. Retrieved 17 May 2011.
  59. ^ Maria Teresa Borgato (6–9 September 2006). "The first applications of the metric system in Italy" (PDF). The Global and the Local:The History of Science and the Cultural Integration of Europe. Proceedings of the 2nd ICESHS. Cracow, Poland: The Press of the Polish Academy of Arts and Sciences. Archived from the original (PDF) on 6 November 2020. Retrieved 17 March 2011.
  60. Jacob de Gelder (1824). Allereerste Gronden der Cijferkunst [Introduction to Numeracy] (in Dutch). 's Gravenhage and Amsterdam: de Gebroeders van Cleef. pp. 155–157. Retrieved 2 March 2011.
  61. ^ Fátima Paixão; Fátima Regina Jorge (2006). "Success and constraints in adoption of the metric system in Portugal" (PDF). The Global and the Local: History of Science and the Cultural Integration of Europe. Archived from the original on 3 December 2013. Retrieved 21 September 2022.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  62. ^ Loidi, Juan Navarro; Saenz, Pilar Merino (6–9 September 2006). "The units of length in the Spanish treatises of military engineering" (PDF). The Global and the Local: The History of Science and the Cultural Integration of Europe. Proceedings of the 2nd ICESHS. Cracow, Poland: The Press of the Polish Academy of Arts and Sciences. Archived from the original (PDF) on 3 October 2011. Retrieved 17 March 2011.
  63. Delambre, Jean-Baptiste (1749-1822) Auteur du texte; Méchain, Pierre (1744-1804) Auteur du texte (1806–1810). Base du système métrique décimal, ou Mesure de l'arc du méridien compris entre les parallèles de Dunkerque et Barcelone. T. 3 /, exécutée en 1792 et années suivantes, par MM. Méchain et Delambre, rédigée par M. Delambre,... pp. 139, 228. Archived from the original on 9 January 2021. Retrieved 5 January 2021.{{cite book}}: CS1 maint: numeric names: authors list (link)
  64. Bericht über die Verhandlungen der vom 30. September bis 7. October 1867 zu BERLIN abgehaltenen allgemeinen Conferenz der Europäischen Gradmessung (PDF). Berlin: Central Bureau der Europäischer Gradmessung. 1868. pp. 14. 123–134.
  65. Débarbat, Suzanne; Quinn, Terry (January 2019). "Les origines du système métrique en France et la Convention du mètre de 1875, qui a ouvert la voie au Système international d'unités et à sa révision de 2018". Comptes Rendus Physique. 20 (1–2): 6–21. Bibcode:2019CRPhy..20....6D. doi:10.1016/j.crhy.2018.12.002.
  66. Hirsch, Adolphe (1891). "Don Carlos IBANEZ (1825-1891)" (PDF). BIPM. pp. 8–9. Archived from the original (PDF) on 26 October 2020.
  67. Drewes, Hermann; Kuglitsch, Franz; Adám, József; Rózsa, Szabolcs (October 2016). "The Geodesist's Handbook 2016" (PDF). Journal of Geodesy. 90 (10): 907–1205. Bibcode:2016JGeod..90..907D. doi:10.1007/s00190-016-0948-z. S2CID 125925505.
  68. Nacional, Instituto Geográfico. "Instituto Geográfico Nacional". Geoportal oficial del Instituto Geográfico Nacional de España (in European Spanish). Archived from the original on 16 January 2021. Retrieved 7 January 2021.
  69. Lebon, Ernest (1846–1922) Auteur du texte (1899). Histoire abrégée de l'astronomie / par Ernest Lebon,... Paris: Gauthier-Villars. p. 171. Archived from the original on 24 August 2017. Retrieved 12 January 2018.{{cite book}}: CS1 maint: numeric names: authors list (link)
  70. "Journal de Genève - 22.03.1854 - Page 1". www.letempsarchives.ch. Archived from the original on 7 November 2023. Retrieved 24 February 2021.
  71. "Systèmes de référence historiques". Office fédéral de topographie swisstopo (in French). Archived from the original on 26 November 2020. Retrieved 12 March 2021.
  72. "Hirsch, Adolphe". hls-dhs-dss.ch (in French). Archived from the original on 24 November 2020. Retrieved 8 January 2021.
  73. "Journal de Genève - 22.03.1854 - Page 1". www.letempsarchives.ch. Archived from the original on 7 November 2023. Retrieved 12 March 2021.
  74. "Journal de Genève - 14.02.1852 - Page 4". www.letempsarchives.ch. Archived from the original on 7 November 2023. Retrieved 12 March 2021.
  75. "Industry and community – Key dates". United Kingdom Parliament. Archived from the original on 6 November 2010. Retrieved 28 March 2011.
  76. ^ Frederik Hyttel (May 2009). Working man's pint – An investigation of the implementation of the metric system in Britain 1851–1979 (PDF) (BA thesis). Bath, United Kingdom: Bath Spa University. Archived from the original (PDF) on 6 March 2016. Retrieved 29 March 2011.
  77. ^ International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), ISBN 92-822-2213-6, archived (PDF) from the original on 4 June 2021, retrieved 16 December 2021
  78. Jabbour, Z.J.; Yaniv, S.L. (January 2001). "The kilogram and measurements of mass and force". Journal of Research of the National Institute of Standards and Technology. 106 (1): 25–46. doi:10.6028/jres.106.003. PMC 4865288. PMID 27500016.
  79. "Weights and measures: the law". GOV.UK. Archived from the original on 30 October 2023. Retrieved 12 February 2024.
  80. "Choice on units of measurement: consultation response". GOV.UK. Archived from the original on 20 January 2024. Retrieved 12 February 2024.
  81. "Emigration: Off to New Shores". E-Expo Ferdinand Rudolf Hassler. METAS. Archived from the original on 12 February 2018. Retrieved 19 December 2017.
  82. ^ Cajori, Florian (1921). "Swiss Geodesy and the United States Coast Survey". The Scientific Monthly. 13 (2): 117–129. Bibcode:1921SciMo..13..117C. ISSN 0096-3771. Archived from the original on 6 June 2021. Retrieved 4 January 2021.
  83. ^ "Weights and Measures: New Standards for the USA". E-Expo Ferdinand Rudolf Hassler. METAS. Archived from the original on 12 February 2018. Retrieved 19 December 2017.
  84. "NIST Special Publication 1068 Ferdinand Rudolph Hassler (1770–1843) A Twenty Year Retrospective, 1987–2007" (PDF). NIST. pp. 51–52. Archived from the original (PDF) on 28 November 2017. Retrieved 27 November 2017.
  85. "Interlude in Europe: Ups... and Downs..." E-Expo Ferdinand Rudolf Hassler. METAS. Archived from the original on 12 February 2018. Retrieved 19 December 2017.
  86. 29th Congress of the United States, Session 1 (13 May 1866). "H.R. 596, An Act to authorize the use of the metric system of weights and measures". Archived from the original on 5 July 2015. Retrieved 19 May 2011.{{cite web}}: CS1 maint: numeric names: authors list (link)
  87. ^ Barbrow, Louis E.; Judson, Lewis V. (1976). Weights and Measures Standards of the United States: A brief history. NIST. Archived from the original on 3 June 2011. Retrieved 19 May 2011.
  88. "Metric Act of 1866 – US Metric Association". usma.org. Archived from the original on 28 February 2021. Retrieved 4 January 2021.
  89. Bericht über die Verhandlungen der vom 30. September bis 7. October 1867 zu BERLIN abgehaltenen allgemeinen Conferenz der Europäischen Gradmessung (PDF) (in German). Berlin: Central-Bureau der Europäischen Gradmessung. 1868. pp. 123–134.
  90. "Metric Act of 1866" (PDF). Metric Program, Weights and Measures Division, United States National Institute of Standards, Technology and Technology. Archived from the original (PDF) on 27 May 2010. Retrieved 10 November 2009.
    "U.S. Metric System (SI) Legal Resources". Metric Program, Weights and Measures Division, United States National Institute of Standards, Technology and Technology. Archived from the original on 1 August 2009. Retrieved 11 November 2009.
  91. Smith, Jeanette C. (September 1998). "Take Me to Your Liter". Journal of Government Information. 25 (5): 419–438. doi:10.1016/S1352-0237(98)00030-6.
  92. Howard B. Bradley, ed. (1987). Petroleum Engineering Handbook. Society of Petroleum Engineers. pp. 1–69. ISBN 978-1555630102.
  93. "Metric Moon". NASA. 2007. Archived from the original on 11 July 2010. Retrieved 6 April 2010.
  94. "A. Classes of Track - Transport Canada". www.tc.gc.ca. Archived from the original on 25 August 2012. Retrieved 11 January 2022.
  95. "Metrication status and history". United States Metrication Association. 2009. Archived from the original on 24 July 2010. Retrieved 19 May 2011.
  96. "Ireland goes metric - fast". The Independent. Archived from the original on 29 October 2014. Retrieved 24 November 2014.
  97. "Cap 68 Sched 2 Units of Measurement and Permitted Symbols or Abbreviations of Units of Measurement Lawful for Use for Trade". Archived from the original on 3 September 2015. Retrieved 28 April 2020.
  98. AD Dunn (1969). "Notes on the standardization of paper sizes" (PDF). Ottawa. p. 11. Archived (PDF) from the original on 15 November 2017. Retrieved 7 December 2018.
  99. 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. gram-atom .
  100. Zupko, Ronald Edward (1990). Revolution in Measurement – Western European Weights and Measures Since the Age of Science. Memoirs of the American Philosophical Society. Vol. 186. pp. 242–245. ISBN 978-0-87169-186-6. Retrieved 21 April 2012.
  101. The Metric versus the English System of Weights and Measures. National Industrial Conference Board. October 1921. pp. 12–13. Research Report Number 42. Retrieved 1 June 2013.
  102. "Metrication in Mexico". USMA. U.S. Metric Association. Archived from the original on 31 August 2012. Retrieved 24 November 2014.
  103. Washburn, Edward Wight (1926). International Critical Tables of Numerical Data, Physics, Chemistry and Technology. National Research Council.
  104. "Act No. 1519, s. 1906 | GOVPH". Official Gazette of the Republic of the Philippines. Retrieved 27 February 2021.
  105. "Histórico do Inmetro". Inmetro.gov.br. Archived from the original on 28 February 2015. Retrieved 24 November 2014.
  106. "History". Beograd, Serbia: Ministry of finance and economy: Directorate of Measures and Precious Metals. Archived from the original on 5 March 2016. Retrieved 28 March 2013.
  107. "Kapittel 4 : Internasjonale avtaler" (PDF). Regjeringen.no. Archived (PDF) from the original on 3 December 2014. Retrieved 24 November 2014.
  108. "Metric usage and metrication in other countries". USMA. U.S. Metric Association. Archived from the original on 21 February 1999. Retrieved 24 November 2014.
  109. ^ "Comptes rendus des séances de la quatrième conférence générale des poids et mesures, pages 82-83" (PDF) (in French). BIPM. 1907. Archived (PDF) from the original on 4 December 2020. Retrieved 22 November 2021.
  110. "Metric". ru:Собрание узаконений РСФСР (in Russian) (66): 725. 1918.
  111. Настольный Советский Календарь [Desk Soviet Calendar] (in Russian). The New International Publishing, New York. 1920. p. 8.
  112. ^ "Comptes rendus des séances de la sixtième conférence générale des poids et mesures, page 65" (PDF) (in French). BIPM. 1921. Archived (PDF) from the original on 4 December 2020. Retrieved 5 April 2021.
  113. "ΕΛΛΗΝΙΚΗ ΔΗΜΟΚΡΑΤΙΑ ΥΠΟΥΡΓΕΙΟ ΕΣΩΤΕΡΙΚΩΝ ΤΜΗΜΑ ΕΚΔΟΣΕΩΝ ΚΑΙ ΓΡΑΜΜΑΤΕΙΑΚΗΣ-ΛΟΓΙΣΤΙΚΗΣ ΕΞΥΠΗΡΕΤΗΣΗΣ : ΔΙΑΡΚΗΣ ΚΩΔΙΚΑΣ ΝΟΜΟΘΕΣΙΑΣ : ΙΔΡΥΤΗΣ – ΔΩΡΗΤΗΣ". E-themis.gov.gr. Archived from the original (DOC) on 4 March 2016. Retrieved 10 September 2017.
  114. ^ "Comptes rendus des séances de la septième conférence générale des poids et mesures, pages 66-69" (PDF) (in French). BIPM. 1927. Archived (PDF) from the original on 4 December 2020. Retrieved 5 April 2021.
  115. "History of weights and measures in Thailand.htm". Northern Weights and Measures Center (Thailand). April 2004. Archived from the original on 2 April 2012. Retrieved 26 September 2011. ..."Weights and Measures Act, B.E. 2466" .... "Weights and Measures Act, B.E. 2542" ... Government Gazette, Royal Decree Version, Volume 116, Part 29 a, dated 21 April 1999 ... effective since 18 October 1999
  116. ประวัติชั่งตวงวัดไทย (in Thai). Northern Weights and Measures Center (Thailand). April 2004. Archived from the original on 2 April 2012. Retrieved 26 September 2011.
  117. Mitsuo, Tamano (July 1971), "Japan's Transition to the Metric System", US Metric Study Interim Report, No. 3: Commercial Weights and Measures, National Bureau of Standards Special Publication 345-3, Washington: US Department of Commerce, pp. 97–98.
  118. Ratnasari, Kartika (22 March 2022). "Sebelum Pasang AC, Pahami Dulu AC 1 PK Berapa Watt & AC 1/2 PK Berapa Watt!". artikel.rumah123.com (in Indonesian). Archived from the original on 18 May 2022. Retrieved 5 May 2022.
  119. "Definisi PK Dalam AC yang Harus Anda Ketahui" (in Indonesian). ASTRO. 21 July 2020. Archived from the original on 29 May 2022. Retrieved 5 May 2022.
  120. European Communities (Units of Measurement) (Amendment) Regulations 2010 (S.I. No. 89 of 2010). Signed on 2 March 2010 by Mary Coughlan, Minister for Enterprise, Trade and Employment. Statutory Instrument of the Government of Ireland. Retrieved from Irish Statute Book on 22 January 2019.
  121. "Weights and Measures Act". Chapter 36 Section 7. Minister of Justice. 1985. Archived from the original on 25 April 2011. Retrieved 24 May 2018.
  122. Dr. Natarajan Ganapathy (2009). "Metric Conversion". Science & Medicine. The Canadian Encyclopedia. Archived from the original on 29 April 2018. Retrieved 11 July 2022.
  123. "Metrication in Singapore". www.nlb.gov.sg. Archived from the original on 9 November 2023. Retrieved 9 November 2023.
  124. ^ "CIA The World Factbook". Appendix G: Weights and Measures. US Central Intelligence Agency. 2010. Archived from the original on 6 April 2011. Retrieved 14 August 2013.
  125. "DPR Korea", Official site, Asia–Pacific Legal Metrology Forum, 2015, archived from the original on 9 February 2017, retrieved 6 June 2017.
  126. "The Law of the Democratic People's Republic of Korea on Metrology" (PDF), No. 484-112, Pyongyang: Supreme People's Assembly of the DPRK, 3 February 1993, archived from the original (PDF) on 8 January 2019, retrieved 6 June 2017. (in Korean) & (in English)
  127. "North Korea: Summary", The Economist Intelligence Unit, London: The Economist Group, 10 February 2017, archived from the original on 8 August 2020, retrieved 6 June 2017.
  128. "Ghana Gets Metric System". The New York Times. 3 September 1975. Archived from the original on 18 October 2019. Retrieved 18 October 2019.
  129. "Numerical Metric Conversion" (PDF). Commonwealth Legal Information Institute. Archived (PDF) from the original on 4 March 2016. Retrieved 10 September 2017.
  130. "-- Letters". Daily News. Cyprus. Archived from the original on 10 January 2014. Retrieved 10 September 2017.
  131. Wilcox, Jr. Department of Agricultural Economics University of Tennessee, Michael D. (2008). "Reforming Cocoa and Coffee Marketing in Liberia" (PDF). Presentation and Policy Brief. University of Tennessee. Archived from the original (PDF) on 24 June 2010. Retrieved 25 April 2010.
  132. Ko Ko Gyi (18–24 July 2011). "Ditch the viss, govt urges traders". The Myanmar Times. Archived from the original on 28 May 2013. Retrieved 14 August 2013.
  133. "Myanmar to adopt metric system". Eleven Media Group. 10 October 2013. Archived from the original on 20 December 2013. Retrieved 20 April 2015.
  134. "Metric in Myanmar - an update". Metric Views. UK Metric Association. 8 February 2018. Archived from the original on 19 June 2019. Retrieved 24 February 2020.
  135. Htar Htar Khin (20 February 2012). "Workshop to mull new weight and measurement standards". The Myanmar Times. Retrieved 14 August 2013.
  136. Kohler, Nicholas (3 March 2014). "Metrication in Myanmar". Mizzima News. Archived from the original on 16 December 2014. Retrieved 20 April 2015.
  137. "Metrology Act 2015" (PDF). Ministry of Commerce, Industry and Labour of the Government of Samoa. 2016. Retrieved 10 June 2024.
  138. Hubert Fontaine. "Confiture de rhubarbe" (in French). Archived from the original on 28 September 2007. Retrieved 5 November 2007. "1 zeste de citron par livre (500g) de rhubarbe"
  139. "Metric or imperial: what measures do Britons use? | YouGov". yougov.co.uk. Retrieved 27 June 2024.
  140. ANSI, American National Standards Institute. "Find Standards using keywords and publication number". ANSI Webstore. Archived from the original on 11 September 2017. Retrieved 10 September 2017.
  141. "What is threadcount? – domus home". 10 March 2017. Archived from the original on 18 November 2023. Retrieved 18 November 2023. Thread count is typically quoted using the Imperial system of 1 square inch, whilst the Metric system (mainly used in Australia and New Zealand) is based upon 10 square centimeters. Suppose you pick up a bedsheet package that quotes 200 Threadcount per square inch (2.54cm x 2.54cm). Let's say that is made up of 100 threads along the length of 2.54cm, plus 100 threads along the width of 2.54cm. Since 10 square centimetres is 3.16cm x 3.16cm, this equates to 124 threads along the 3.16cm length, plus 124 threads along the 3.16cm width. Threadcount per 10 sq cm is therefore 124+124, which rounds up to 250.
  142. Lantz, Mark (28 August 2018). "Why the Future of Data Storage is (Still) Magnetic Tape". IEEE Spectrum. Archived from the original on 8 January 2021. Retrieved 11 December 2020. Combining these technologies, we were able to read and write data in our laboratory system at a linear density of 818 000/in. For historical reasons, tape engineers around the world measure data density in inches. In combination with the 246 200 tracks per inch that the new technology can handle, our prototype unit achieved an area density of 201 gigabits per square inch.
  143. Bester, Danie (16 October 2018). "Standard Print Sizes". DPC | Digital Photography Courses. Archived from the original on 18 November 2023. Retrieved 18 November 2023.
  144. "How to choose the right surfboard: Ultimate Guide". Surf Nation. Retrieved 18 November 2023.
  145. "Units of Measurement". Perth Mint. n.d. Archived from the original on 7 June 2019. Retrieved 23 January 2019.
  146. "Directive 2009/3/EC of the European Parliament and of the Council of 11 March 2009" (PDF). Official Journal of the European Union. Archived from the original on 4 September 2015. Retrieved 5 February 2015.
  147. "Frequently Asked Questions about METAR/SPECI and TAF". National Weather Service METAR/TAF Information. Archived from the original on 20 February 2009. Retrieved 21 August 2009.
  148. "Aviation's Crazy, Mixed Up Units of Measure". AeroSavvy. 5 September 2014. Archived from the original on 7 December 2019. Retrieved 20 October 2023.
  149. "Why doesn't the aviation industry use SI units?". Aviation StackExchange. 22 March 2014. Archived from the original on 4 July 2018. Retrieved 20 October 2023.
  150. "Resolution A.351(IX) Use of metric units in the SI system in the International Convention for the Safety of Life at Sea, 1974, and other future instruments" (PDF). Assembly Resolutions. International Maritime Organization. 12 November 1975. Archived from the original (PDF) on 28 August 2013. Retrieved 4 September 2012.
  151. Jon Kelly (21 December 2011). "Will British people ever think in metric?". BBC News. Archived from the original on 24 April 2012. Retrieved 24 February 2012. ...but today the British remain unique in Europe by holding onto imperial weights and measures. ...the persistent British preference for imperial over metric is particularly noteworthy...
  152. Melanie McDonagh (10 May 2007). "In the merry old land of lb and oz". The Times. Archived from the original on 13 August 2022. Retrieved 13 August 2022. A survey from the British Weights and Measures Association, admittedly a partial source, suggested that 80 per cent of people prefer imperial to metric and 70 per cent, including, remarkably, 18- to 24-year-olds, can make sense of weights only in imperial measurements.
  153. Final Report of the Metrication Board (1980) (PDF) (Report). London: Department of Trade and Industry Consumer and Competition Policy Directorate. para 1.6 & 1.10. Archived from the original (PDF) on 1 May 2013. Retrieved 29 June 2012.
  154. "Weights and measures legislation – hallmarking and metrication". Business Link. UK Government. Archived from the original on 14 February 2017. Retrieved 24 February 2015.
  155. "Weights and Measures Report 1995 – 2008" (PDF). National Weights and Measures Laboratory. Archived (PDF) from the original on 5 July 2018. Retrieved 24 November 2014.
  156. The Council of the European Communities (9 February 2000). "Council Directive 80/181/EEC of 20 December 1979 on the approximation of the laws of the Member States relating to Unit of measurement and on the repeal of Directive 71/354/EEC". Archived from the original on 23 August 2011. Retrieved 28 October 2011.
  157. "Report (1862) from the Select Committee on Weights and Measures" (PDF). Department of Trade and Industry, United Kingdom. 1862. Archived from the original (PDF) on 9 June 2009. Retrieved 23 May 2009.
  158. "Metrication Timeline". UK Metric Association. 2008. Archived from the original on 8 June 2009. Retrieved 23 May 2009.
  159. Jim Humble (12 December 2002). "Historical perspectives by the last Director of the UK Metrication Board". UK Metric Association. Retrieved 27 May 2009.
  160. The Units of Measurement Regulations 1995 (Report). legislation.gov.uk. 1995. ISBN 978-0-11-053334-6. Statutory Instrument 1995 No. 1804. Archived from the original on 17 October 2010. Retrieved 27 August 2006.
  161. Taylor, Adam (31 August 2016). "After Brexit, some Brits want to ditch the metric system, too". The Washington Post. Archived from the original on 5 October 2016. Retrieved 4 October 2016.
  162. "Choice on units of measurement: Markings and sales". gov.uk. 3 June 2022. Archived from the original on 7 November 2023. Retrieved 20 October 2023.
  163. "UK owners... MPG imperial or US gallons ?". PriusChat. Archived from the original on 18 November 2023. Retrieved 18 November 2023.
  164. "Honeywell 9000 BTU Portable Air Conditioner - White - HT09CESAWK". Airconcentre.co.uk. Archived from the original on 18 November 2023. Retrieved 18 November 2023.
  165. "Metric Act of 1866". USMA. U.S. Metric Association. Archived from the original on 10 October 2014. Retrieved 24 November 2014.
  166. "Metric Convention of 1875". USMA. U.S. Metric Association. Archived from the original on 1 March 2005. Retrieved 24 November 2014.
  167. "Metric Conversion Act of 1975". USMA. U.S. Metric Association. Archived from the original on 14 July 2003. Retrieved 24 November 2014.
  168. "National Highway System Designation Act of 1995". USMA. U.S. Metric Association. Archived from the original on 14 December 2002. Retrieved 24 November 2014.
  169. "Fair Packaging and Labeling Act". USMA. U.S. Metric Association. Archived from the original on 14 December 2002. Retrieved 24 November 2014.
  170. "U.S. Metric Association (USMA)". USMA. U.S. Metric Association. Archived from the original on 20 December 2012. Retrieved 24 November 2014.
  171. Zengerle, Jason (January 1999). "Waits and Measures". Mother Jones. Archived from the original on 19 December 2014. Retrieved 24 November 2014.
  172. "Design Memorandum No. 11-98: English Conversion". transportation.ky.gov. 4 November 1998. Archived from the original on 24 November 2010. Retrieved 20 October 2023.
  173. "Metric to U.S. Customary Units (English) Transition" (PDF). Dot.ca.gov. Archived from the original (PDF) on 16 December 2017. Retrieved 15 December 2017.
  174. Land, Richard D. (16 June 2006). Declaration of Units of Measure—"Metric" or "English" Project (PDF). State of California, Department of Transportation. Archived from the original (PDF) on 16 December 2017. Retrieved 15 December 2017.
  175. Chapter 2 – Basic Labelling Requirements. Canadian Food Inspection Agency. pp. (also available in French). Archived from the original on 10 June 2007. Retrieved 16 May 2007.
  176. https://www.agm.gov.bz/uploads/laws/6397706ec2279_Cap_294_National_Metrology_Act.pdf
  177. Eltringham, Peter (2001). The Rough Guide to Belize. Rough Guides. p. 45. ISBN 1858287103.
  178. Lougheed, Vivien (2005). Belize. Hunter Publishing. p. 39. ISBN 1588435083.
  179. Merran Williams (July–August 2003). The 156-tonne GIMLI GLIDER (PDF). Flight Safety Australia. pp. 22, 25. Archived from the original (PDF) on 27 November 2007. Retrieved 5 November 2007.
  180. "NASA's metric confusion caused Mars orbiter loss". CNN. 30 September 1999. Archived from the original on 18 January 2013. Retrieved 24 May 2013.
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