Grave (mass)

A grave is a metallic reference standard of one thousand grams that was used for a few years until it was replaced by the kilogram standard in 1799.

Our modern kilogram has its origins in the pre-French Revolution days of France. Louis XVI created a Consultative Commission for Units to create a new decimal-based system of measurement. This royal commission, which included such aristocrats as Antoine Lavoisier, founded the very beginnings of the “metric system”, which later evolved into the contemporary International System of Units (SI).

On 7 April 1795, the “gramme”, upon which the kilogram is based, was decreed to be equal to “the absolute weight of a volume of pure water equal to a cube of one hundredth of a meter, and to the temperature of the melting ice”. [" [http://smdsi.quartier-rural.org/histoire/18germ_3.htm Decree relating to the weights and measurements] "] Although this was the "definition" of the gram, the regulation of trade and commerce required a “practical realization”: a single-piece, metallic reference standard that was one thousand times more massive that would be known as “grave” (symbol G). This mass unit, whose name is derived from the word “gravity”, was used since 1793. Notwithstanding that the "definition" of the base unit of mass was the gramme (alternatively “gravet”), this new, practical realization would ultimately become the base unit of mass. A provisional kilogram standard was made and work was commissioned to determine precisely how massive a cubic decimeter (later to be defined as equal to one liter) of water was.

Although the decreed definition of the kilogram specified water at 0 °C — a highly stable "temperature" point — the scientists tasked with producing the new practical realization chose to redefine the standard and perform their measurements at the most stable "density" point: the temperature at which water reaches maximum density, which was measured at the time as 4 °C. [Citation: "L’Histoire Du Mètre, La Détermination De L’Unité De Poids", link to Web site [http://histoire.du.metre.free.fr/fr/index.htm here.] ] They concluded that one cubic decimeter of water at its maximum density was equal to 99.92072% of the mass of the provisional kilogram made earlier that year. [Citation: " [http://www.sizes.com/units/kilogram.htm History of the kilogram] "] Four years later in 1799, an all-platinum standard, the “Kilogramme des Archives”, was fabricated with the objective that it would equal, as close as was scientifically feasible for the day, to the mass of cubic decimeter of water at 4 °C. The kilogram was defined to be equal to the mass of the Kilogramme des Archives and this standard stood for the next ninety years.

Note that the new metric system did not come into effect until after the French Revolution, when the new revolutionary government captured the idea of the metric system. The decision of the Republican government to name this new unit the “kilogramme” had been mainly politically motivated, because the name “grave” was at that time considered politically incorrect as it resembled the aristocratic German title of the Graf, an alternative name for the title of Count that, like other nobility titles, was inconsistent with the new French Republic notion of equality (égalité). Accordingly, the "name" of the original, defined unit of mass, “gramme”, which was too small to serve as a practical realization, was adopted and the new prefix “kilo” was appended to it to form the name “kilogramme”. Consequently, the kilogram is the only SI base unit that has an SI prefix as part of its unit name.

See also

* International System of Units (SI)
* Gram
* Kilogram
* Kilogram-force
* Metric system
* Mass
* SI base units
* SI derived units

References