- Time discipline
In
sociology andanthropology , time discipline is the general name given to social and economic rules, conventions, customs, and expectations governing the measurement of time, the social currency and awareness of time measurements, and people's expectations concerning the observance of these customs by others.The concept of "time discipline" as a field of special attention in sociology and anthropology was pioneered by E. P. Thompson in "Time, Work-Discipline, and Industrial Capitalism", published in 1967. Coming from a Marxist viewpoint, Thompson argued that observance of clock-time is a consequence of the European
industrial revolution , and that neither industrial capitalism nor the creation of the modern state would have been possible without the imposition of synchronic forms of time and work discipline. The new clock time imposed by government and capitalist interests replaced earlier, collective perceptions of time that Thompson believed flowed from the collective wisdom of human societies. While, in fact, it appears likely that earlier views of time were imposed instead by religious and other social authorities prior to the industrial revolution, Thompson's work identified time discipline as an important concept for study within the social sciences.Time discipline and the natural world
In societies based around
agriculture ,hunting , and other pursuits that involve human interaction with a natural world, time discipline is a matter governed by astronomical and biological factors. Specific times of day orseason s of the year are defined by reference to these factors, and measured, to the extent that they need measuring, by observation. Different peoples' needs with respect to these things mean sharply differing cultural perceptions of time. For example, it surprises many non-Muslims that theIslamic calendar is entirely lunar and makes no reference at all to the seasons; thedesert -dwellingArab s who devised it werenomad s rather than agriculturalists, and a calendar that made no reference to the seasons was no inconvenience for most of them.Time discipline in Western societies
In more urban societies, some of these natural phenomena were no longer at hand, and most were of much less consequence to the inhabitants. Artificial means of dividing and measuring time were needed.
Plautus complained of the social effect of the invention of such divisions in his lines complaining of thesundial ::The gods confound the man who first found out
How to distinguish hours! Confound him, too,
Who in this place set up a sun-dial,
To cut and hack my days so wretchedly
Into small portions. When I was a boy
My belly was my sun-dial; one more sure,
Truer, and more exact than any of them.
This dial told me when 'twas proper time
To go to dinner, when I had aught to eat.
But now-a-days, why, even when I have,
I can't fall-to, unless the sun give leave.
The town's so full of these confounded dials,
The greatest part of its inhabitants,
Shrunk up with hunger, creep along the streets.Plautus's protagonist here complains about the social discipline and expectations that arose when these measurements of time were introduced. The invention of artificial units of time measurement made the introduction of
time management possible, and time management was not universally appreciated by those whose time was managed.Religious influences on Western time discipline
In
western Europe , the practice of Christianmonasticism introduced new factors into the time discipline observed by members of religious communities. The rule ofSaint Benedict introducedcanonical hour s; these were religious observances that were held on a daily basis, and based on factors again mostly unrelated to natural phenomena. It is no surprise, then, that religious communities were likely the inventors, and certainly the major consumers, of earlyclock s. The invention of the mechanical clock in western Europe, and its subsequent technical developments, enabled a public time discipline even less related to natural phenomena. (Highly sophisticatedclepsydra s existed inChina , where they were used byastrologer s connected with the imperial court; these water clocks were quite large, and their use limited to those who were professionally interested in precise timekeeping.)The invention of the clock
The English word "clock" comes from an
Old French word for "bell"; for the striking feature of early clocks was a greater concern than theirdial s. Shakespeare's Sonnet XII begins, "When I do count the clock that tells the time." Even after the introduction of theclock face , clocks were costly, and found mostly in the homes ofaristocrat s. The vast majority of urban dwellers had to rely onclock tower s, and outside the sight of their dials or the sound of their bells, clock time held no sway. Clock towers, at least, defined the time of day for those who could hear and see them. As the saying goes, "a person with a clock always knows what time it is; a person with two clocks is never sure."Improvements of the clock
The discipline imposed by these public clocks still remained lax by contemporary standards. A clock that only strikes the hours can only record the nearest hour that has passed; most early clocks had only hour hands in any case. Minute hands did not come into widespread use until the
pendulum made a large leap in the accuracy of clocks; forwatch es, a similar leap in accuracy was not made possible before the invention of thebalance spring . Before these improvements, theequation of time , the difference between apparent and mean solar time, was not even noticed.During the seventeenth and eighteenth centuries, private ownership of clocks and watches became more common, as their improved manufacture made them available for purchase by at least the
bourgeoisie of the cities. Their proliferation had many social and even religious consequences for those who could afford and use them.Religious consequences of improved clocks
Religious texts of the period make many more references to the irreversible passage of time, and artistic themes appeared at this time such as "
Vanitas ", a reminder of death in the form of astill life , which always included a watch, clock, or some other timepiece. The relentless ticking of a clock or watch, and the slow but certain movement of its hands, functioned as a visible and audible "memento mori ". Clocks and sundials would be decorated with mottos such as "ultima forsan" ("perhaps the last" [hour] ) or "vulnerant omnes, ultima necat" ("they all wound, and the last kills"). Even today, clocks often carry the motto "tempus fugit", "time flies."Mary, Queen of Scots was said to have owned a large watch made in the shape of a silver skull.Economic consequences of improved clocks
Economically, their impact was even greater; an awareness that "time is money", a limited commodity not to be wasted, also appears during this period. Because
Protestantism was at this time chiefly a religion of literate city dwellers, the so-called "Protestant work ethic " came to be associated with this newly fashion time discipline; production of clocks and watches during this period shifted fromItaly andBavaria to Protestant areas such asGeneva , theNetherlands , andEngland ; the names of French clockmakers during this time disclose a large number ofHuguenot -fashion names from theOld Testament .tandard, synchronous, public time
In the nineteenth century, the introduction of
standard time andtime zone s divorced the "time of day" from local meansolar time and any links toastronomy .Time signal s, like the bells and dials of public clocks, once were relatively local affairs; the ball that is dropped inTimes Square onNew Year's Eve in New York City once served as a time signal whose original purpose was for navigators to check theirmarine chronometer s. However, when therailroad s began running trains on complex schedules, keeping a schedule that could be followed over hundreds of miles away requiredsynchronization on a scale not attempted before.Telegraph y, and later,shortwave radio were used to broadcast time signals from the most accurate clocks available.Radio and televisionbroadcasting schedules created a further impetus to regiment everyone's clock so that they all told the same time within a very small tolerance; the broadcasting of time announcements over radio and television enabled all the households in their audience to get in synch with the clocks at the network.The
mass production of clocks and watches further tightened time discipline in the Western world; before these machines were made, and made to be more accurate, it would be idle to complain about someone's being fifteen, or five, minutes late. For many employees, thetime clock was the clock that told the time that mattered: it was the clock that recorded their hours of work. By the time that time clocks became commonplace, public, synchronized clock time was considered a fact of life. Uniform, synchronized, public clock time did not exist until the nineteenth century.When one speaks about the intellectual history of time, one essentially is stating that
change s have occurred in the way humansexperience and measuretime . Our conceived abstract notions of time have presumably developed in accordance with ourart , ourscience , and our social infrastructure. (See alsohorology .)Towards time-keeping
The units of time first developed by humans would likely have been days and months (moons). In some parts of the world the cycle of seasons are apparent enough to lead to people speaking about years & seasons (e.g. 4 summers ago, or 4 floods ago). With the invention of
agriculture in the 3rd millennium BC, people relied heavily on the cycles of the season for planting and harvesting crops. Most humans came to live in settled societies and the whole community relied upon accurate predictions of the seasonal cycle. This led to the development ofcalendar s. Over time, some people came to recognize patterns of the stars with the seasons. Learning astronomy became an assigned duty for certain people so they could coordinate the lunar and solar calendars by adding days or months to the year.At about the same time,
sundial s were developed, likely marked first atnoon , sunrise and sunset. In ancientSumer andEgypt , numbers were soon used to divide the day into 12hours , as was the night. In Egypt there is not as much seasonal variation in the length of the day, but those further from the equator would need to make many more modifications in calibrating their sundials to deal with these differences. Ancient traditions did "not" begin the day at midnight, but rather some at dawn, others at dusk (both being more obvious).Since a sundial has only one "hand", a
minute probably only meant "a short time". It took centuries for technology to make measurements precise enough forminute s (and latersecond s) to become fixed meaningful units -- longer still formillisecond s,nanosecond s, and further subdivisions.When the
water clock was invented, time could also be measured at night - though there was significant variation in flow rate and lessaccuracy andprecision . With water clocks, and alsocandle clock s, modifications were made to have them make sounds on a regular basis. (The English word "clock" actually comes from French, Latin, and German words that mean "bell".)With the invention of the
hourglass (perhaps as early as the 11th Century) hours and units of time smaller than an hour could be measured much more reliably than with water clocks and candle clocks.The earliest reasonably accurate mechanical
clock s are the 13th century tower clocks probably developed for (and perhaps by) monks in Northern Italy. Using gears and gradually falling weights, these were adjusted to conform withcanonical hours -- which varied with the length of the day. As these were used primarily to ring bells for prayer, the clock dial likely only came later. When dials were eventually incorporated into clocks, they were analogous to the dials on sundials, and, like a sundial, the clocks themselves had only one hand.A possible explanation for the shift from having the first hour being the one after dawn, to having the hour after noon being designated as 1 p.m. (post meridiem), is that these clocks would likely regularly be reset at local high noon each day. This, of course, results in midnight becoming 12 o'clock.
Peter Henlein, a locksmith and burgher of
Nuremberg ,Germany , invented a spring-powered clock around1510 . It had only one hand, had no glass cover, and was rather imprecise because it slowed down as the spring unwound. In fact, Henlein went so far as to develop the first portablewatch ; it was six inches high. People usually carried it by hand, or wore it around their necks or in large pockets. The first reported person to actually wear a watch on the wrist was the French mathematician and philosopher,Blaise Pascal (1623-1662). With a piece of string, he attached his pocket watch to his wrist.In
1577 , theminute hand was added by a Swiss clock maker,Jost Burgi (who also is a contender for the invention oflogarithms ), and was incorporated into a clock Burgi made for astronomerTycho Brahe who had a need for more accuracy as he charted the heavens.Isochronous time
With invention of the
pendulum clock in 1656 byChristiaan Huygens , cameisochronous time, with a fixed pace of 3600 seconds per hour. By 1680, both a minute hand and then a second hand were added. Some of the first of these had a separate dial for the minute hand (turning counter-clockwise), and a "second" hand that took 5 minutes per cycle. [http://www.sciencemuseum.org.uk/on%2Dline/huygens/images/1656face.jpg] Even as late as 1773, towns were content to order clocks without minute hands. [http://www.electricscotland.com/history/dunfermline/chap8part10.htm]But the clocks were still aligned with the local noonday sun. Following the invention of the
locomotive in 1830, time had to be synchronized across vast distances in order to organize the train schedules. This eventually led to the development oftime zone s, and, thus, global isochronous time. These time changes were not accepted everywhere right away, because many people's lives were still tied closely to the length of the daytime. With the invention in 1879 of thelight bulb , that changed too.The isochronous clock changed lives. Appointments are rarely "within the hour", but at quarter hours (and being five minutes late is often considered being tardy). People often eat, drink, sleep, and even go to the bathroom in adherence to some time-dependent schedule.
ee also
*
Punctuality
*Timeline of time measurement technology
*Timeline of invention
*12-hour clock References
*Landes, David: "Revolution in Time: Clocks and the Making of the Modern World": (Belknap/Harvard, 1983) ISBN 0-674-76800-0
*Aveni, Anthony: "Empires of Time: Calendars, Clocks, and Cultures": (Basic Books, 1989) ISBN 0-465-01951-XFurther reading
*"The Discoverers" -
Daniel J. Boorstin
*"Theory Out of Bounds" - Isabelle Stengers/Ilya Prigogine
*"Order out of Chaos" -Ilya Prigogine
*"Multifractals and1/f noise " -Benoît Mandelbrot
*"Conversations on Science, Culture, and Time ( Studies in Literature and Science)" -Michel Serres ; et al.
*"The Structure of Scientific Revolutions" -Thomas S. Kuhn
*"Technics and Civilization" -Lewis Mumford External links
* [http://homepage.mac.com/pete.boardman/24hourclock/history.html 24 hour analog clocks]
* [http://www.electricscotland.com/history/dunfermline/chap8part10.htm 1773 town in Scotland orders clock without minute hand]
* [http://www.sciencemuseum.org.uk/on-line/huygens Huygens' clocks]
* [http://www.sciencemuseum.org.uk/on%2Dline/huygens/images/1656face.jpgEarly Clock Face with separate minute dial]
* [http://news.bbc.co.uk/2/hi/science/nature/3486160.stm BBC article] on shortest time ever measured (10-16 seconds) as of 2004.External links
* [http://www.wlupress.wlu.ca/~wwwpress/jrls/anthro/issues/45_1/stern.pdf "Upside Down and Backwards: Time Discipline in a Canadian Inuit Town"] by Pamela Stern of the
University of Waterloo .
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