Egypt The
decans are 36 groups of stars (small constellations) used in the ancient Egyptian astronomy to conveniently divide the 360 degree ecliptic into 36 parts of 10 degrees. Because a new decan also appears heliacally every ten days (that is, every ten days, a new decanic star group reappears in the eastern sky at dawn right before the Sun rises, after a period of being obscured by the Sun's light), the ancient Greeks called them
dekanoi (δεκανοί; pl. of δεκανός
dekanos) or "tens". A ten-day period between the rising of two consecutive decans is a decade. There were 36 decades (36 × 10 = 360 days), plus five added days to compose the 365 days of a solar based year.
China Decimal time was used in China throughout most of its history alongside
duodecimal time. The midnight-to-midnight day was divided both into 12 double hours () and also into 10 shi / 100
ke () by the 1st millennium BC. Other numbers of
ke per day were used during three short periods: 120
ke from 5 to 3 BC, 96
ke from AD 507 to 544, and 108
ke from 544 to 565. Several of the roughly 50 Chinese calendars also divided each
ke into 100
fen, although others divided each
ke into 60
fen. In 1280, the
Shoushi (Season Granting) calendar further subdivided each
fen into 100
miao, creating a complete decimal time system of 100
ke, 100
fen and 100
miao. Chinese decimal time ceased to be used in 1645 when the
Shíxiàn calendar, based on European astronomy and brought to China by the
Jesuits, adopted 96
ke per day alongside 12 double hours, making each
ke exactly one-quarter hour. Gēng (更) is a time signal given by drum or gong. The character for gēng 更, literally meaning "rotation" or "watch", comes from the rotation of watchmen sounding these signals. The first gēng theoretically comes at sundown, but was standardized to fall at 19:12. The time between each gēng is 1⁄10 of a day, making a gēng 2.4 hours long (2 hours 24 minutes). As a 10-part system, the gēng are strongly associated with the 10 celestial stems, especially since the stems are used to count off the gēng during the night in Chinese literature. As early as the Bronze-Age Xia dynasty, days were grouped into ten-day weeks known as xún (旬). Months consisted of three xún. The first 10 days were the early xún (上旬), the middle 10 the mid xún (中旬), and the last nine or 10 days were the late xún (下旬). Japan adopted this pattern, with 10-day-weeks known as jun (旬). In Korea, they were known as sun (순,旬).
France Pre-Revolution In 1754,
Jean le Rond d'Alembert wrote in the
Encyclopédie: :It would be very desirable that all divisions, for example of the
livre, the
sou, the
toise, the day, the hour, etc. would be from tens into tens. This division would result in much easier and more convenient calculations and would be very preferable to the arbitrary division of the
livre into twenty
sous, of the
sou into twelve
deniers, of the day into twenty-four hours, the hour into sixty minutes, etc. In 1788,
Claude Boniface Collignon proposed dividing the day into 10 hours or 1,000 minutes, each new hour into 100 minutes, each new minute into 1,000 seconds, and each new second into 1,000
tierces (older French for "third"). The distance the
twilight zone travels in one such
tierce at the
equator, which would be one-billionth of the
circumference of the
earth, would be a new unit of length, provisionally called a half-
handbreadth, equal to four modern
centimetres. Further, the new
tierce would be divided into 1,000
quatierces, which he called "microscopic points of time". He also suggested a week of 10 days and dividing the year into 10 "solar months".
French Republic Decimal time was officially introduced during the
French Revolution.
Jean-Charles de Borda made a proposal for decimal time on 5 November 1792. The
National Convention issued a decree on 5 October 1793, to which the underlined words were added on 24 November 1793 (4
Frimaire of the Year II): :VIII. Each month is divided into three equal parts, of ten days each, which are called
décades... :XI. The day, from midnight to midnight, is divided into ten parts or hours, each part into ten others, so on until the smallest measurable portion of the duration. The hundredth part of the hour is called
decimal minute; the hundredth part of the minute is called
decimal second. This article will not be required for the public records, until from the 1st of Vendémiaire, the year three of the Republic. (September 22, 1794) (emphasis in original) Thus, midnight was called
dix heures ("ten hours"
), noon was called
cinq heures ("five hours"), etc.
Representation The colon (:) was not yet in use as a unit separator for standard times, and is used for non-decimal bases. The French
decimal separator is the comma (,), while the period (.), or "point", is used in English. Units were either written out in full, or abbreviated. Thus, five hours eighty three minutes decimal might be written as 5 h. 83 m. Even today, "h" is commonly used in France to separate hours and minutes of 24-hour time, instead of a colon, such as 14h00. Midnight was represented in civil records as "ten hours". Times between midnight and the first decimal hour were written without hours, so 1:00 am, or 0.41 decimal hours, was written as "four décimes" or "forty-one minutes". 2:00 am (0.8333) was written as "eight décimes", "eighty-three minutes", or even "eighty-three minutes thirty-three seconds". As with duodecimal time, decimal time was represented according to true solar time, rather than mean time, with noon being marked when the sun reached its highest point locally, which varied at different locations, and throughout the year. In "Methods to find the Leap Years of the French Calendar", Jean-Baptiste-Joseph Delambre used three different representations for the same decimal time: • 0,386 (comma is the decimal sign in French) • 0j386 ("j" is for jour, day in French) • 3h 86' (apostrophe is for minutes) Sometimes in official records, decimal hours were divided into tenths, or
décimes, instead of minutes. One
décime is equal to 10 decimal minutes, which is nearly equal to a quarter-hour (15 minutes) in standard time. Thus, "five hours two décimes" equals 5.2 decimal hours, roughly 12:30 p.m. in standard time. In some places, decimal time was used to record certificates of births, marriages, and deaths until the end of Year VIII (September 1800). On the
Palace of the Tuileries in
Paris, two of the four clock faces displayed decimal time until at least 1801. The mathematician and astronomer
Pierre-Simon Laplace had a decimal watch made for him, and used decimal time in his work, in the form of
fractional days. Decimal time was part of a larger attempt at
decimalisation in revolutionary France (which also included decimalisation of currency and
metrication) and was introduced as part of the
French Republican Calendar, which, in addition to decimally dividing the day, divided the month into three
décades of 10 days each; this calendar was abolished at the end of 1805. The start of each year was determined according to the day of the
autumnal equinox, in relation to true or
apparent solar time at the
Paris Observatory.
Metric system In designing the new metric system, the intent was to replace all the various units of different bases with a small number of standard decimal units. This was to include units for length, weight, area, liquid capacity, volume, and money. Initially the traditional second of time equal to 1/86400 day was proposed as the base of the metric system, but this was changed in 1791 to base the meter on a decimal division of a measurement of the Earth, instead. Early drafts of the metric system published in 1793 included the new decimal divisions of the day included with the Republican calendar, and some of the same individuals were involved with both projects. On March 28, 1794,
Joseph-Louis Lagrange proposed to the Commission for Republican Weights and Measures on dividing the day into 10 decidays and 100 centidays, which would be expressed together as two digits, counting periods of 14 minutes and 24 seconds since midnight, nearly a quarter hour. This would be displayed by one hand on watches. Another hand would display 100 divisions of a centiday, which is 1/10,000 day, or 8.64 seconds. A third hand on a smaller dial would further divide these into 10, which would be 1/100,000 day, or 864 milliseconds, slightly less than a whole second. He suggested the deciday and centiday be used together to represent the time of day, such as "4 and 5", "4/5", or simply "45". This was opposed by Jean-Marie Viallon, of the Sainte-Geneviève Library in Paris, who thought that decimal hours, equal to 2.4 old hours, were too long, and that 100 centidays were too many, and proposed dividing two halves of the day into 10 new hours each, for a total of 20 per day, and that simply changing the numbers on watch dials from 12 to 10, he thought, would be sufficient for rural people. For others, there would be 50 decimal minutes per decimal hour, and 100 decimal seconds per decimal minute. His new hours, minutes, and seconds would thus be more similar to the old units. C.A. Prieur (of the Côte-d'Or), read at the National Convention on Ventôse 11, year III (March 1, 1795): :1) As it does not offer almost all of the nation any marked advantage, it would only throw a disadvantage on the new system of measures and the decimal method, which is however very useful; :2) Since the hourly compilation is not a commercial object or susceptible to a police regulation, the old uses would be maintained by the immense force of habit; :3) This habit would be further consolidated by the fear of confusion. It would be necessary, to prevent it, to take new names that have not yet been indicated, and that it would be very difficult to introduce into common language, especially for so many people who do not write, who do not calculate, and who appreciate time only by a routine based on common opinion; :4) The expense of changing the clocks would be enormous; :5) Finally, citizens and watchmakers would be infinitely dismayed, some to change their watches, others to lose the ability to sell those that are already made. This truth is acquired by the result of the contest which took place recently, under the decree on watchmaking movements. :But by asking that the decimal division of the day is not a condition of rigor, there is no disagreement that there are several circumstances where it has advantages. We know that in several objects of the Navy service, in astronomical or trigonometric calculations, and for delicate experiments, the decimal division of time is more convenient. It will therefore be good to reserve it for these cases, until the use can spread more generally, which will happen by itself imperceptibly. Thus, the law of 18 Germinal An III (April 7, 1795) establishing the metric system, rather than including metric units for time, repealed the mandatory use of decimal time, although its use continued for a number of years in some places. As predicted, it was quickly found to be useful by astronomers, who still use it in the form of fractional days.
Carl Friedrich Gauss recommended the ephemeris second as a metric base unit for time interval in 1832, which eventually became the atomic second in the
International System. However, for longer periods of time interval, the old non-decimal units were approved for use.
Later proposals At the
International Meridian Conference of 1884, the following resolution was proposed by the French delegation and passed
nem con (with 3 abstentions): :VII. That the Conference expresses the hope that the technical studies designed to regulate and extend the application of the decimal system to the division of angular space and of time shall be resumed, so as to permit the extension of this application to all cases in which it presents real advantages. In the 1890s, Joseph Charles François de Rey-Pailhade, president of the Toulouse Geographical Society, proposed dividing the day into 100 parts, called
cés, equal to 14.4 standard minutes, and each divided into 10
decicés, 100
centicés, etc. The Toulouse Chamber of Commerce adopted a resolution supporting his proposal in April 1897. Although widely published, the proposal received little backing. The French made another attempt at the decimalization of time in 1897, when the
Commission de décimalisation du temps was created by the
Bureau des Longitudes, with the mathematician
Henri Poincaré as secretary. The commission adopted a compromise, originally proposed by Henri de Sarrauton of the Oran Geographical Society, of retaining the 24-hour day, but dividing each hour into 100 decimal minutes, and each minute into 100 seconds. The plan did not gain acceptance and was abandoned in 1900.
Swatch Internet Time On 23 October 1998, the
Swiss watch company
Swatch introduced a decimal time called
Internet Time for its line of digital watches, which divided the day into 1,000 "
.beats", (each 86.4 seconds in standard time) counted from 000–999, with @000 being midnight and @500 being noon
standard time in Switzerland, which is
Central European Time (one hour ahead of
Universal Time). Although Swatch did not specify units smaller than one .beat, third party implementations extended the standard by adding "centibeats" or "sub-beats", for extended precision: @248.00. Each "centibeat" was a hundredth of a .beat and was therefore equal to one French decimal second (0.864 seconds).{{cite web When using .beats and centibeats, Swatch Internet Time divided the day into 1,000 French decimal minutes and each decimal minute into 100 decimal seconds. So 9pm was 21:00:00 in standard time and @875.00 in extended Swatch Internet Time. Swatch no longer markets digital watches with Internet Time. ==Conversions==