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Medieval systems of weights and measures arose from ].
The following systems arose from ], and in many cases utilize parts of much older systems. For the most part they were used to varying degrees in the ] and surrounding time periods. Some of these systems found their way into later systems, such as the ] and even ].


From Medieval guilds and trade associations to banks, and from church to state, everyone had vested interests in keeping weights and measures the same. Over time even non essential changes, like the definition of the inch as three barleycorns, caused widespread confusion and concern. Every time they changed they changed to the advantage of one group and the detriment of another.

Whenever things were changed, as by a king ordering churchgoers to stand in line so the average of their feet could form the basis of a new standard, the essential parts of much older systems were retained by the competant administrators and judges because they defined property.

One example of how this worked occured during the French Revolution when French revolutionaries attempted to use the confusion of definitions to their advantage in order to overthrow the feudal system. They conspired to further confuse the definition of ancient obligations of land in return for service, through their support of the expert authority of various savants who were busily modifying the ancient standards of measure into the metric system.

Up to then it had always been counted among the divine rights of kings and popes to establish the standards of what was right and proper and equitable. Now the ability of scientists to measure weigh and judge accurately made it difficult if not impossible for church and state to simply decree rather than measure, weigh and judge by the standards of science what was due them.

This made it somewhat difficult to establish and collect their tithes and taxes without turning to the experts for the arbitration of disputes.

Earlier during the crusades many Europeans had encountered familiar units of measure in the Ancient Near East. By the Renaisance the study of Greek and Roman measures and cannons of proportion had been extended to the study of Egypt.

Sir Issac Newton was only one of many medieval scholars fascinated by the stability of earlier systems that it was thought might be resablished and overcome the confusion of the ] as to what should be the proper standard for the common system.

The French Metric Sytem which re-introduced the innovative concept of decimalizing the ancient standards as the Greeks had done was first proposed by the Abbe Mouton in 1670.

The British Imperial System ] arose out of an attempt to resist the adoption of the Metric System in Europe because it was clearly being used to undermine the foundation of the kings right to rule or establish the standards.

The metric system itself had come out of Napoleons savants attempting to restablish the Ancient measures that they had found reference to in Egypt. ].

=== English System ===
The English Myle and its subdivisions of length, area and volume was derived from the Greek Milos which spread widely through Europe North from the Danube as far West as the Rhine by about 800 BC. The English Myle and its subdivisions of length, area and volume was derived from the Greek Milos which spread widely through Europe North from the Danube as far West as the Rhine by about 800 BC.



Revision as of 00:11, 4 August 2005

Medieval systems of weights and measures arose from earlier systems.

From Medieval guilds and trade associations to banks, and from church to state, everyone had vested interests in keeping weights and measures the same. Over time even non essential changes, like the definition of the inch as three barleycorns, caused widespread confusion and concern. Every time they changed they changed to the advantage of one group and the detriment of another.

Whenever things were changed, as by a king ordering churchgoers to stand in line so the average of their feet could form the basis of a new standard, the essential parts of much older systems were retained by the competant administrators and judges because they defined property.

One example of how this worked occured during the French Revolution when French revolutionaries attempted to use the confusion of definitions to their advantage in order to overthrow the feudal system. They conspired to further confuse the definition of ancient obligations of land in return for service, through their support of the expert authority of various savants who were busily modifying the ancient standards of measure into the metric system.

Up to then it had always been counted among the divine rights of kings and popes to establish the standards of what was right and proper and equitable. Now the ability of scientists to measure weigh and judge accurately made it difficult if not impossible for church and state to simply decree rather than measure, weigh and judge by the standards of science what was due them.

This made it somewhat difficult to establish and collect their tithes and taxes without turning to the experts for the arbitration of disputes.

Earlier during the crusades many Europeans had encountered familiar units of measure in the Ancient Near East. By the Renaisance the study of Greek and Roman measures and cannons of proportion had been extended to the study of Egypt.

Sir Issac Newton was only one of many medieval scholars fascinated by the stability of earlier systems that it was thought might be resablished and overcome the confusion of the Middle Ages as to what should be the proper standard for the common system.

The French Metric Sytem which re-introduced the innovative concept of decimalizing the ancient standards as the Greeks had done was first proposed by the Abbe Mouton in 1670.

The British Imperial System Imperial system arose out of an attempt to resist the adoption of the Metric System in Europe because it was clearly being used to undermine the foundation of the kings right to rule or establish the standards.

The metric system itself had come out of Napoleons savants attempting to restablish the Ancient measures that they had found reference to in Egypt. SI.

English System

The English Myle and its subdivisions of length, area and volume was derived from the Greek Milos which spread widely through Europe North from the Danube as far West as the Rhine by about 800 BC.

Within a millenia the Romans had substituted the Milliare for the Milos everywhere to the west of that. The so calledAnglo-Saxon (Germanic) system of measure based on the units of the barleycorn and the gyrd (rod) were traced by the Roman surveyor Hyginus Gromaticus back to Claudius Ptolomy as the Romans first entered Germanica.

Normanized Roman units from Hispania and Gaul introduced further modifications after 1066 under the influence of William the Conqueror.

Later development of the English system continued by defining the units by law in the Magna Carta of 1215, and issuing measurement standards from the then capital Winchester. Standards were renewed in 1496, 1588 and 1758.

The last Imperial Standard Yard in bronze was made in 1845; it served as the standard in the United Kingdom until the yard was internationally redefined as 0.9144 metre in 1959 (statutory implementation: Weights and Measures Act of 1963).

Much of the units would go on to be used in later Imperial units and in the US system, which are based on the English system from the 1700s

Danish system

From May 1 1683, King Christian V of Denmark introduced an office to oversee weights and measures, a justervæsen, to be led by Ole Rømer. The definition of the alen was set to 2 Rhine feet. Rømer later discovered that differing standards for the Rhine foot existed, and in 1698 an iron Copenhagen standard was made. A pendulum definition for the foot was first suggested by Rømer, introduced in 1820, and changed in 1835. The metric system was introduced in 1907.

Length

  • mil – Danish mile. Towards the end of the 17th century, Ole Rømer connected the mile to the circumference of the earth, and defined it as 12000 alen. This definition was adopted in 1816 as the Prussian Meile. The coordinated definition from 1835 was 7.532 km. Earlier, there were many variants, the most commonplace the Sjællandsk miil of 17600 fod or 11.130 km.
  • palme – Palm, for circumference, 8.86 cm
  • alen – Forearm, 2 fod
  • fod – Defined as a Rheinfuss 31.407 cm from 1683, before that 31.41 cm with variations.
  • kvarter – Quarter, 1 / 4 alen
  • tomme – Inch, 1 / 12 fod
  • linie – Line, 1 / 12 tomme
  • skrupel – Scruple, 1 / 12 linie

Volume

  • potte – Pot, from 1683 1 / 32 fot³
  • smørtønde – Barrel of butter, from 1683 136 potter
  • korntønde – Barrel of corn, from 1683 144 potter

Weight

  • pund – Pound, from 1683 the weight of 1 / 62 fot³ of water, 499.75 g

Miscellaneous

  • dusin – 12
  • snes – 20
  • gross – 144

Dutch system

The Dutch system was not standardized until Napoleon introduced the metric system. Different towns used measures with the same names but differing sizes.

Some common measures:

Weight

  • Ons, Once – 1/16 pond = 30.881 g
  • Pond (Amsterdam) – 494.09 grams (other ponds were also in use)
  • Scheepslast – 4000 Amsterdam pond = 1976.4 kg = 2.1786 short tons

Length

  • duim –2.54 cm
  • kleine palm –3 cm
  • grote palm –9.6 cm, after 1820, 10 cm
  • voet –12 duim = abt. 29.54 cm, many local variations
  • el – about 70 cm

Volume

  • Pint – 0.6 l

Finnish system

In Finland, approximate measures derived from body parts and were used for a long time, some being later standardised for the purpose of commerce. Some Swedish, and later some Russian units have also been used.

  • vaaksa – The distance between the tips of little finger and thumb, when the fingers are fully extended.
  • kyynärä – (c. 60 cm) The distance from the elbow to the fingertips.
  • syli – Fathom, (c. 180 cm) the distance between the fingertips of both hands when the arms are raised horizontally on the sides.
  • virsta – 2672 m (Swedish) 1068.84 m (Russian)
  • peninkulma – (c. 10 km) The distance a barking dog can be heard in still air.
  • poronkusema – (c. 7.5 km) The distance a reindeer walks between two spots it urinates on. This unit originates from Lapland.
  • leiviskä – (8.5004 kg)
  • kappa – (5.4961 l) Still in use at market places to measure potatoes.
  • tynnyrinala – (4936.5 m) The area (of field) that could be sown with one barrel of grain.
  • kannu – (2,6172 l)
  • kortteli – Used for both length (14.845 cm) and volume (3.2715 dl).

French system

In France, again, there were many local variants. For instance, the lieue could vary from 3.268 km in Beauce to 5.849 km in Provence. Between 1812 and 1839, many of the traditional units continued in metrified adaptations as the mesures usuelles.

In Paris, the redefinition in terms of metric units made 1 m = 443.296 ligne = 3 pied 11.296 ligne.

In Quebec, the surveys in French units were converted using the relationship 1 pied (of the French variety; the same word is used for English feet as well) = 12.789 inches (of English origin). Thus a square arpent was 5299296.0804 in² or about 36,801 ft² or 0.8448 acre.

There were many local variations; the metric conversions below apply to the Quebec and Paris definitions.

Length

  • lieue commune – French land league, 4.452 km, 1/25 Equatorial degree
  • lieue marine – French (late) sea league, 5.556 km, 3 nautical miles.
  • lieue de poste – Legal league, 2000 toises, 3.898 km
  • lieue metrique – Metric system adaptation, 4.000 km
  • arpent – 30 toises or 180 pieds, 58.471 m
  • toise – Fathom, 6 pieds. Originally introduced by Charlemagne in 790, it is now considered to be 1.949 m.
  • pied – Foot, varied through times, the Paris pied de roi is 324.84 mm. Used by Coulomb in manuscripts relating to the inverse square law of electrostatic repulsion. Isaac Newton used the "Paris foot" in his Philosophiae Naturalis Principia Mathematica.
  • pouce – Inch, 1/12 pied 27.070 mm
  • ligne – 1/12 pouce 2.2558 mm

Area

  • arpent – square arpent, 900 square toises, 3419 m²

Volume

  • litron – 0.831018 liters

Weight

  • quintal – 100 livres, 48.95 kg
  • livre – 0.4895 kg

German system

Up to the introduction of the metric system, almost every town in Germany had their own definitions. It is said that by 1810, in Baden alone, there were 112 different Ellen.

Length

  • Meile – A German geographische Meile or Gemeine deutsche Meile was defined as 7.420 km, but there were a wealth of variants:
  • Reichsmeile – New mile when the metric system was introduced, 7.5 km. Prohibited by law in 1908.
  • Schainos – Uncertain use, between 10 and 12 km,
  • Wegstunde – One hours travel, used up to the 18th century. In Germany 1 / 2 Meile or 3.71 km, in Switzerland 16000 feet or 4,8 km
  • Stadion – Uncertain use
  • Rute – Roman origin, use as land measure. Very differing definitions, 10, 12, 14, 15, 18 or 20 feet, varied between approx. 3 and 5 m.
  • Klafter – Fathom, usually 6 feet. Regional changes from 1.75 m in Baden to 3 m in Switzerland.
  • Elle – Distance between elbow and finger tip. In the North, often 2 feet, In Prussia 17 / 8 feet, in the South variable, often 2 1/2 feet. The smallest known German elle is 402.8 mm, the longest 811 mm.
  • Fuss – The foot varied between 23.51 cm in Wesel and 40.83 cm in Trier.
  • Rheinfuss – Rhine foot, used in the North, 31.387 cm
  • Zoll – Inch. Usually 1 / 12 foot, but also 1 / 10.
  • Linie – Usually 1 / 12 inch, but also 1 / 10.

Volume

  • Klafter – For firewood, 2.905 m³


Norwegian system

Before 1541, there were no common definition for length measures in Norway, and local variants flourished. In 1541, an alen in Denmark and Norway was defined by law to be the Sjælland alen. Subsequently, the alen was defined by law as 2 Rhine feet from 1683. From 1824, the basic unit was defined as a fot being derived from astronomy as the length of a one second pendulum times 12/38 at a latitude of 45°. The metric system was introduced in 1887.

Length

  • alen – Forearm, 62.748 cm from 1824, 62.75 cm from 1683, 63.26 cm from 1541. Before that, local variants.
  • favnFathom (pl. favner), 1.882 m.
  • fjerdingsvei – Quarter mile, alt. fjerding, 1/4 mil, i.e. 2.82375 km.
  • fot – Foot, 1/2 alen. From 1824, 31.374 cm.
  • kvarter – Quarter, 1/4 alen.
  • linje – Line, 1/12 tomme or approx. 2.18 mm
  • lås – 28.2 m
  • landmil – Old land-mile, 11.824 km.
  • mil – Norwegian mile, spelled miil prior to 1862, 18000 alen or 11.295 km. Before 1683, a mil was defined as 17600 alen or 11.13 km. The unit survives to this day, but in a metric 10 km adaptation
  • rast –Lit. "rest", the old name of the mil. A suitable distance between rests when walking. Believed to be approx. 9 km before 1541.
  • steinkast – Stones throw, perhaps 25 favner, used to this day as a very approximate measure.
  • stang – Rod, 5 alen or 3.1375 m
  • tomme – Thumb (inch), 1/12 fot, approx. 2.61 cm. This unit was commonly used for measuring timber until the 1970s. Nowadays, the word refers invariably to the Imperial inch, 2.54 cm.
  • skrupel – Scruple, 1/12 linje or approx. 0.18 mm.

Area

  • mål – 100 kvadrat rode, 984 m². The unit survives to this day, but in a metric 1000 m² adaptation.
  • kvadrat rode – Square stang, 9.84 m²
  • tønneland – "Barrel of land", 4 mål

Volume

  • favn – 1 alen by 1 favn by 1 favn, 2.232 m³, used for measuring firewood to this day.
  • skjeppe – 1/8 tønne, i.e. 17.4 l.
  • tønne – Barrel, 139.2 l.

Weight

  • bismerpund – 12 pund, 5.9808 kg
  • laup – Used for butter, 17.93 kg (approx. 16.2 l). 1 laup is 3 pund or 4 spann or 72 merker.
  • merke – From Roman pound, (pl. merker), 249.4 g, 218.7 g before 1683.
  • ort – 0.9735 g
  • pund – Pound, alt. skålpund, 2 merker 0.4984 kg, was 0.46665 kg before 1683
  • skippund – Ships pound, 159.488 kg. Was defined as 151.16 kg in 1270.
  • spann – Same as laup
  • vette – 28.8 mark or 6.2985 kg.
  • våg – 1/8 skippund, 17.9424 kg.

Nautical

  • favn – Fathom (pl. favner), 3 alen, 1.88 m
  • kabellengdeCable length, 100 favner, 185.2 m
  • kvartmil – Quarter mile, 10 kabellengder, 1852 m
  • sjømil – Sea mile, 4 kvartmil, 7408 m, defined as 1/15 Equatorial degree.

Monetary

  • ort – See riksdaler and speciedaler.
  • riksdaler - Until 1813, Norwegian thaler. 1 riksdaler is 4 ort or 6 mark or 96 skilling.
  • skilling – Shilling, see riksdaler and speciedaler.
  • speciedaler – Since 1816. 1 speciedaler is 5 ort or 120 skilling. From 1876, 1 speciedaler is 4 kroner (Norwegian crown, NOK).

Miscellaneous

  • tylft – 12, also dusin
  • snes – 20
  • stort hundre – Large hundred, 120
  • gross – 144

Romanian system

The measures of the old Romanian system varied greatly not only between the three Romanian states (Wallachia, Moldavia, Transylvania), but sometimes also inside the same country. The origin of some of the measures are the Latin (such as iugăr unit), Slavic (such as vadră unit) and Greek (such as dram unit) and Turkish (such as palmac unit) systems.

This system is no longer in use since the adoption of the metric system in 1864.

Volume

  • Oca - 1,5 litres (Moldavia); 1,25 litres (Wallachia)
  • Litră - 1/4 oca
  • Baniţă - 21,5 litres (Moldavia); 33,96 litres (Wallachia)
  • Chiup - 30 - 40 litres (a chiup was a large clay pot for liquids)
  • Câblă - A bucket of wheat
  • Merţă - 110 - 120 ocale (Moldavia); 22,5 litres (Transylvania)
  • Feredelă - 1/4 bucket (Transylvania)
  • Obroc mare - 44 ocale
  • Obroc mic - 22 ocale
  • Giumătate - 80 - 100 vedre (poloboc)
  • Vadră - 10 ocale; 12,88 litres (Wallachia); 15 litres (Moldavia)
  • Pintă - 3,394 litres (Transylvania)
  • Tină - Vadră (Transylvania)

Weight

  • Dram - 3,18 - 3,25 g sau 3,22 - 3,80 cm
  • Font - 0,5 kg (Transylvania)

Area

  • Falce - 1,43 ha
  • Pogon - 0,5 ha
  • Prăjină - 180 - 210 m
  • Feredelă - 1/4 pogon
  • Iugăr - the area ploughed in one day by two oxen - 7166 m (Transylvania in 1517); 0,57 ha or 1600 square stânjeni (later)

Length

  • Palmă (palm) - 1/8 of a stânjen
  • Stânjen - 2 m (approximately)
  • Palmac - 3,48 cm (Moldavia)
  • Poştă - 8 - 20 km (depending on the country)
  • Pas mic (small step) - 4 palme (Wallachia)
  • Pas mare (large step) - 6 palme (Wallachia; Moldavia)
  • Lat de palmă (palm width) - 1/2 palmă
  • Cot (cubit) - 0,664 cm (Moldavia); 0,637 cm (Wallachia)
  • Funie (rope) - 20 - 120 m (depending on the place)
  • Leghe (league) - 4,444 km;
  • Deget (finger) - the width of a finger
  • Prăjină - 3 stânjeni
  • Verstă - 1067 m
  • Picior (foot) - 1/6 of a stânjen

Russian and Tatar systems

See:


Scottish system

Length

  • inch – 2.554 cm
  • foot – 12 inches, 30.645 cm
  • ell – Elbow, 37 Scots inches. 94.5 cm
  • fall – 18 Scots feet
  • mile – 320 falls, 1814.2 m

Spanish system

There were several variants. The Castilian is shown.

Length

  • punto – Point, 1 / 12 línea
  • línea – Line, 1 / 12 pulgada
  • pulgada – Inch, 1 / 36 vara, 0.02322 m
  • pie – Foot, 12 pulgadas, 0.2786 m
  • vara – Yard, 0.8359 m
  • paso – Pace, 60 pulgadas
  • leguaLeague, 5000 varas, approx 4.2 km

Swedish system

In Sweden, a common system for weights and measures was introduced by law in 1665. Before that, there were a number of local variants. The system was slightly revised in 1735. In 1855, a decimal reform was instituted that defined a new Swedish inch as 1/10 foot. It did not last long, because the metric system was subsequently introduced in 1889. Up to the middle of the 19th century there was a death penalty for falsifying weights or measures.

Length

  • aln – Forearm (pl. alnar). After 1863, 59.37 cm. Before that, from 1605, 59.38 cm as defined by king Carl IX of Sweden in Norrköping 1604 based on the Rydaholmsalnen.
  • famnFathom, 3 alnar.
  • kvarter – Quarter, 1 / 4 aln
  • fot – Foot, 1/2 aln. Before 1863, the Stockholm fot was the commonly accepted unit, at 29.69 cm.
  • linje – Line, after 1863 1/10 tum, 2.96 mm. Before that, 1/12 tum or 2.06 cm.
  • mil – Mile, also lantmil. From 1699, defined as a unity mile of 18000 aln or 10.69 km. The unified mile was meant to define the suitable distance between inns.
  • nymil – New mile from 1889, 10 km exactly. Commonly used to this day, normally referred to as mil.
  • kyndemil – The distance a torch will last, approx 16 km
  • skogsmil – Also rast, distance between rests in the woods, approx 5 km.
  • fjärdingsväg – 1 / 4 mil
  • stenkast – Stone's throw, approx 50 m, used to this day as an approximate measure.
  • ref – 160 fot, for land measurement, was 100 fot after 1855.
  • stång – 16 fot, for land measurement
  • tum – Thumb (inch), after 1863 1/10 fot, 2.96 cm. Before that, 1/12 fot or 2.474 cm.
  • tvärhand – Hand, 4 inches.

Area

  • kannaland – 1000 fot², or 88.15 m²
  • kappland – 154.3 m².
  • spannland – 16 kappland
  • tunneland – 2 spannland
  • kvadratmil – Square mil, 36 million square favnar, from 1739.

Volume

  • pot – Pot (pl pottor), 0.966 l
  • tunna – 2 spann
  • ankare – Liquid measure, 39.26 l
  • ohm – Also åm, 155 pottor
  • storfavn – 3.77 m³
  • kubikkfavn – 5.85 m³

Weight

  • skeppspund – Ships pound, 20 lispund or 170.03 kg.
  • bismerpund – 12 skålpund, 5.101 kg.
  • lispund – 20 skålpund
  • skålpund – Pound, 0.42507 kg
  • mark – 1 / 2 skålpund or 212.5 g. Used from the Viking era, when it was approx 203 g.
  • ort – 4.2508 g

Nautical

  • kabellängd – Initially 100 famnar or 178 m, Later, a distansminut or 1 / 10 nautical mile.
  • kvartmil – Quarter mile, 1852 m, identical to nautical mile.
  • sjömil – Sea mile, 4 kvartmil, 7408 m

Monetary

  • daler – From 1534, Swedish thaler. From 1873, replaced by the krona (Swedish crown, SEK).
  • riksdaler – From 1624, 1 1/2 daler, from 1681 2 daler, from 1715 3 daler, from 1776 6 daler
  • skilling – From 1776, 1 / 48 riksdaler
  • mark – From 1534, 1 / 3 daler.From 1604, 1 / 4 daler.
  • õre – From 1534, 1 / 8 mark. Subsequently replaced by the skilling, but from 1855 reintroduced as 1 / 100 riksdaler.

See also

References

  • Measure for Measure, Richard Young and Thomas Glover, ISBN 1-889796-00-X.
  • Masse und Gewichte, Marvin A. Powell
  • The Weights and Measures of England, R. A. Connor
  • World Weights and Measures. Handbook for Statisticians, UN Department of Economic and Social Affairs
  • Lexikon der Münzen, Maße, Gewichte, Zählarten und Zeitgrößen aller Länder der Erde, Richard Klimpert, 1896
  • Grand dictionnaire universel du XIXe siècle, Pierre Larousse, 1874
  • De gamle danske længdeenheder, N.E. Nørlund, 1944
  • Mål og vægt, Poul Rasmussen, 1967.
  • Med mått mätt - Svenska och utländska mått genom tiderna, Albert Carlsson, ISBN 91-36-03157-7.

External links

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