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- The system, featuring meters, liters and kilograms, was adopted following the French Revolution and devised by a group of French scientists in an effort to create a system of standard measurements (at the time, thanks to local and regional practices, there were nearly 400 different ways to measure areas of land in France).
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The first practical realisation of the metric system came in 1799, during the French Revolution, after the existing system of measures had become impractical for trade, and was replaced by a decimal system based on the kilogram and the metre. The basic units were taken from the natural world.
Jul 16, 2014 · Napoleon implemented various reforms to standardize weights and measures in France and its conquered territories. The metric system continued to develop and was reinstated in 1840.
The metric system is a decimal-based system of measurement. The current international standard for the metric system is the International System of Units (Système international d'unités or SI), in which all units can be expressed in terms of seven base units: the metre (m), kilogram (kg), second (s), ampere (A), kelvin (K), mole (mol), and ...
Sep 20, 2024 · Metric system, international decimal system of weights and measures, based on the meter for length and the kilogram for mass, that was adopted in France in 1795 and is now used officially in almost all countries. The metric system was later extended as the International System of Units (SI).
- The Editors of Encyclopaedia Britannica
- Overview
- The development and establishment of the metric system
- The International System of Units
One of the most significant results of the French Revolution was the establishment of the metric system of weights and measures.
European scientists had for many years discussed the desirability of a new, rational, and uniform system to replace the national and regional variants that made scientific and commercial communication difficult. The first proposal closely to approximate what eventually became the metric system was made as early as 1670. Gabriel Mouton, the vicar of St. Paul’s Church in Lyon, France, and a noted mathematician and astronomer, suggested a linear measure based on the arc of one minute of longitude, to be subdivided decimally. Mouton’s proposal contained three of the major characteristics of the metric system: decimalization, rational prefixes, and the Earth’s measurement as basis for a definition. Mouton’s proposal was discussed, amended, criticized, and advocated for 120 years before the fall of the Bastille and the creation of the National Assembly made it a political possibility. In April of 1790 one of the foremost members of the assembly, Charles-Maurice de Talleyrand, introduced the subject and launched a debate that resulted in a directive to the French Academy of Sciences to prepare a report. After several months’ study, the academy recommended that the length of the meridian passing through Paris be determined from the North Pole to the Equator, that 1/10,000,000 of this distance be termed the metre and form the basis of a new decimal linear system, and, further, that a new unit of weight should be derived from the weight of a cubic metre of water. A list of prefixes for decimal multiples and submultiples was proposed. The National Assembly endorsed the report and directed that the necessary meridional measurements be taken.
On June 19, 1791, a committee of 12 mathematicians, geodesists, and physicists met with King Louis XVI, who gave his formal approval. The next day, the king attempted to escape from France, was arrested, returned to Paris, and was imprisoned; a year later, from his cell, he issued the proclamation that directed several scientists including Jean Delambre and Pierre Mechain to perform the operations necessary to determine the length of the metre. The intervening time had been spent by the scientists and engineers in preliminary research; Delambre and Mechain now set to work to measure the distance on the meridian from Barcelona, Spain, to Dunkirk in northern France. The survey proved arduous; civil and foreign war so hampered the operation that it was not completed for six years. While Delambre and Mechain were struggling in the field, administrative details were being worked out in Paris. In 1793 a provisional metre was constructed from geodetic data already available. In 1795 the firm decision was taken to enact adoption of the metric system for France. The new law defined the length, mass, and capacity standards and listed the prefixes for multiples and submultiples. With the formal presentation to the assembly of the standard metre, as determined by Delambre and Mechain, the metric system became a fact in June 1799. The motto adopted for the new system was “For all people, for all time.”
The standard metre was the Delambre-Mechain survey-derived “one ten-millionth part of a meridional quadrant of the earth.” The gram, the basic unit of mass, was made equal to the mass of a cubic centimetre of pure water at the temperature of its maximum density (4 °C or 39.2 °F). A platinum cylinder known as the Kilogram of the Archives was declared the standard for 1,000 grams.
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Fun Facts of Measurement & Math
One of the most significant results of the French Revolution was the establishment of the metric system of weights and measures.
European scientists had for many years discussed the desirability of a new, rational, and uniform system to replace the national and regional variants that made scientific and commercial communication difficult. The first proposal closely to approximate what eventually became the metric system was made as early as 1670. Gabriel Mouton, the vicar of St. Paul’s Church in Lyon, France, and a noted mathematician and astronomer, suggested a linear measure based on the arc of one minute of longitude, to be subdivided decimally. Mouton’s proposal contained three of the major characteristics of the metric system: decimalization, rational prefixes, and the Earth’s measurement as basis for a definition. Mouton’s proposal was discussed, amended, criticized, and advocated for 120 years before the fall of the Bastille and the creation of the National Assembly made it a political possibility. In April of 1790 one of the foremost members of the assembly, Charles-Maurice de Talleyrand, introduced the subject and launched a debate that resulted in a directive to the French Academy of Sciences to prepare a report. After several months’ study, the academy recommended that the length of the meridian passing through Paris be determined from the North Pole to the Equator, that 1/10,000,000 of this distance be termed the metre and form the basis of a new decimal linear system, and, further, that a new unit of weight should be derived from the weight of a cubic metre of water. A list of prefixes for decimal multiples and submultiples was proposed. The National Assembly endorsed the report and directed that the necessary meridional measurements be taken.
On June 19, 1791, a committee of 12 mathematicians, geodesists, and physicists met with King Louis XVI, who gave his formal approval. The next day, the king attempted to escape from France, was arrested, returned to Paris, and was imprisoned; a year later, from his cell, he issued the proclamation that directed several scientists including Jean Delambre and Pierre Mechain to perform the operations necessary to determine the length of the metre. The intervening time had been spent by the scientists and engineers in preliminary research; Delambre and Mechain now set to work to measure the distance on the meridian from Barcelona, Spain, to Dunkirk in northern France. The survey proved arduous; civil and foreign war so hampered the operation that it was not completed for six years. While Delambre and Mechain were struggling in the field, administrative details were being worked out in Paris. In 1793 a provisional metre was constructed from geodetic data already available. In 1795 the firm decision was taken to enact adoption of the metric system for France. The new law defined the length, mass, and capacity standards and listed the prefixes for multiples and submultiples. With the formal presentation to the assembly of the standard metre, as determined by Delambre and Mechain, the metric system became a fact in June 1799. The motto adopted for the new system was “For all people, for all time.”
The standard metre was the Delambre-Mechain survey-derived “one ten-millionth part of a meridional quadrant of the earth.” The gram, the basic unit of mass, was made equal to the mass of a cubic centimetre of pure water at the temperature of its maximum density (4 °C or 39.2 °F). A platinum cylinder known as the Kilogram of the Archives was declared the standard for 1,000 grams.
Britannica Quiz
Fun Facts of Measurement & Math
Just as the original conception of the metric system had grown out of the problems scientists encountered in dealing with the medieval system, so a new system grew out of the problems a vastly enlarged scientific community faced in the proliferation of subsystems improvised to serve particular disciplines. At the same time, it had long been known t...
In other words, the French introduced not only national standards, but a system of standards. It survives today as the metric system. After the revolution of 1789, French citizens sought uniform weights and measures throughout the nation.... Learn more.
Nov 30, 2011 · PRECISION and fastidiousness – at first blush the quest for a precise system of measurement might seem a plodding pursuit. But as philosopher Robert P. Crease makes clear in World in the...
