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| '''Ancient Greek units of measurement''' varied according to location and epoch. Systems of ] evolved as needs changed;] and other lawgivers also reformed them ''en bloc''.{{citation needed|date=December 2011}} Some units of measurement were found to be convenient for trade within the Mediterranean region and these units became increasingly common to different city states. The calibration and use of measuring devices became more sophisticated. By about 500 BC, Athens had a central depository of official weights and measures, the '']'', where merchants were required to test their measuring devices against official standards.{{citation needed|date=December 2011}} |
'''Ancient Greek units of measurement''' varied according to location and epoch. Systems of ] evolved as needs changed; ] and other lawgivers also reformed them ''en bloc''.{{citation needed|date=December 2011}} Some units of measurement were found to be convenient for trade within the Mediterranean region and these units became increasingly common to different city states. The calibration and use of measuring devices became more sophisticated. By about 500 BC, Athens had a central depository of official weights and measures, the '']'', where merchants were required to test their measuring devices against official standards.{{citation needed|date=December 2011}} | ||
| <ref name="Michael Roaf"/><ref name="McNeil & Sedlar"/><ref name="Clarke & Englebach"/><ref name="Andrew George"/> | |||
| == Length == | == Length == | ||
| Line 542: | Line 541: | ||
| ==References== | ==References== | ||
| {{Reflist|refs= | |||
| {{Reflist|refs=<ref name = Tzonis> Tzonis, A. and Lefaivre L., Classical Architecture: The Poetics of Order (1986), MIT Press. ISBN 0-262-20059-7</ref> | |||
| <ref name = Langheim> Langhein, J., Proportion and Traditional Architecture (2005), INTBAU Essay (London, The Prince's Foundation </ref> | |||
| ⚫ | <ref name=EIM>EIM:Metrology:History. Hellenic Institute of Metrology (EIM). .</ref> | ||
| <ref name = Cordingly> R. A. Cordingley (1951). Norman's Parallel of the Orders of Architecture. Alex Trianti Ltd.</ref> | |||
| <ref name = Georges> Georges Gromort Richard Sammons Introductory Essay (2007). Theory of Mouldings (Classical America Series in Art and Architecture). W. W. Norton & Co.</ref> | |||
| ⚫ | <!-- Unused citation <ref name=hutton>Hutton, Charles (1795) 1st ed. London: for J. Johnson Volume 2 p.187</ref>--> | ||
| <ref name = Walker> C Howard Walker (Author) Richard Sammons (Foreword) (2001). The Elements of Classical Architecture (Classical America Series in Art and Architecture). W. W. Norton & Co.</ref> | |||
| <ref name = Palladio> Learning From Palladio ; Branko Mitrovic (Author) ; W. W. Norton & Company (May 2004) ; ISBN 0393731162</ref> | |||
| <ref name = Vitruvus> Vitruvus (1960). The Ten Books on Architecture. Dover.</ref> | |||
| <ref name = Ptolomy> Claudias Ptolemy (1991). The Geography. Dover. ISBN 048626896 Check |isbn= value (help).</ref> | |||
| <ref name = Herodotus> Herodotus (1952). The History. William Brown. War with Judah, Sennacherib, siege of 701 BC </ref> | |||
| <ref name= Grant> Michael Grant (1987). The Rise of the Greeks. Charles Scribners Sons.</ref> | |||
| <ref name = Bunt> Lucas N. H. Bunt, Phillip S. Jones, Jack D. Bedient (1976). The Historical Roots of Elementary Mathematics. Dover. ISBN 0486255638.</ref> | |||
| <ref name = Klein> H Arthur Klein (1976). The World of Measurements. Simon and Schuster.</ref> | |||
| <ref name = Moffitt> Francis H. Moffitt (1987). Surveying. Harper & Row. ISBN 0060445548.</ref> | |||
| <ref name="McNeil & Sedlar"> William H McNeil and Jean W Sedlar, (1962). The Ancient Near East. OUP.</ref> | |||
| <ref name="Andrew George"> Andrew George, (2000). The Epic of Gillgamesh. Penguin. ISBN =0140449191</ref> | |||
| <ref name = Pritchard> James B. Pritchard, (1968). The Ancient Near East. OUP.</ref> | |||
| <ref name="Michael Roaf"> Michael Roaf (1990). Cultural Atlas of Mesopotamia and the Ancient Near East. Equinox. ISBN 0-8160-2218-6.</ref> | |||
| <ref name="Gerard Herm"> Gerard Herm (1975). The Phoenicians. William Morrow^ Co. Inc. ISBN 0-688-02908-6.</ref> | |||
| <ref name = Gardiner> Gardiner (1990). Egyptian Grammar. Griffith Institute. ISBN 0900416351.</ref> | |||
| <ref name = Loprieno> Antonio Loprieno (1995). Ancient Egyptian. CUP. ISBN 0-521-44849-2.</ref><ref name = Rice> Michael Rice (1990). Egypt's Making. Routledge. ISBN 0-415-06454-6.</ref> | |||
| <ref name = Gillings> Gillings (1972). Mathematics in the time of the Pharaohs. MIT Press. ISBN 0262070456.</ref> | |||
| <ref name="Clarke & Englebach"> Somers Clarke and R. Englebach (1990). Ancient Egyptian Construction and Architecture. Dover. ISBN 0486264858.</ref> | |||
| <ref name = Thomsen> Marie-Loise Thomsen, (1984). Mesopotamia 10 The Sumerian Language. Academic Press. ISBN 87-500-3654-8.</ref> | |||
| <ref name = Luraghi> Silvia Luraghi (1990). Old Hittite Sentence Structure. Routledge. ISBN 0415047358.</ref> | |||
| <ref name = Mallory> J. P. Mallory (1989). In Search of the Indo Europeans. Thames and Hudson. ISBN 050027616-1.</ref> | |||
| <ref name = Groton> Anne H. Groton (1995). From Alpha to Omega. Focus Information group. ISBN 0941051382.</ref><ref name = Hines> Hines (1981). Our Latin Heritage. Harcourt Brace. ISBN 0153894687.</ref> | |||
| ⚫ | <ref name=EIM>EIM:Metrology:History. Hellenic Institute of Metrology (EIM).</ref> | ||
| ⚫ | <ref name=hutton>Hutton, Charles (1795) 1st ed. London: for J. Johnson Volume 2 p.187</ref> | ||
| <ref name=measures>{{cite encyclopedia|title=Measures|encyclopedia=The Oxford Classical Dictionary|year=2003}}</ref> | <ref name=measures>{{cite encyclopedia|title=Measures|encyclopedia=The Oxford Classical Dictionary|year=2003}}</ref> | ||
| <ref name=smith>Smith, Sir William; Charles Anthon (1851) New York: Harper & Bros. Tables, pp. 1024–30</ref> | <ref name=smith>Smith, Sir William; Charles Anthon (1851) New York: Harper & Bros. Tables, pp. 1024–30</ref> | ||
| <ref name=weights>{{cite encyclopedia|title=Weights|encyclopedia=The Oxford Classical Dictionary|year=2003}}</ref> | <ref name=weights>{{cite encyclopedia|title=Weights|encyclopedia=The Oxford Classical Dictionary|year=2003}}</ref> | ||
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Ancient Greek units of measurement varied according to location and epoch. Systems of ancient weights and measures evolved as needs changed; Solon and other lawgivers also reformed them en bloc. Some units of measurement were found to be convenient for trade within the Mediterranean region and these units became increasingly common to different city states. The calibration and use of measuring devices became more sophisticated. By about 500 BC, Athens had a central depository of official weights and measures, the Tholos, where merchants were required to test their measuring devices against official standards.
Length
Some Greek measures of length were named after parts of the body, such as the δάκτυλος (daktylos, plural: daktyloi) or finger, and the ποῦς (pous, plural: podes) or foot. The values of the units varied according to location and epoch (e.g., in Aegina a pous was approximately 333 mm (13.1 in), whereas in Athens (Attica) it was about 296 mm (11.7 in)), but the relative proportions were generally the same
| Unit | Greek name | Equal to | Metric equivalent | Description |
|---|---|---|---|---|
| daktylos | δάκτυλος | 19.3 mm (0.76 in) | finger | |
| kondylos | κόνδυλος | 2 daktyloi | 38.5 mm (1.52 in) | |
| palaistē or dōron | παλαιστή, δῶρον | 4 daktyloi | 77.1 mm (3.04 in) | palm |
| dichas or hēmipodion | διχάς, ἡμιπόδιον | 8 daktyloi | 154.1 mm (6.07 in) | half foot |
| lichas | λιχάς | 10 daktyloi | 192.6 mm (7.58 in) | |
| orthodōron | ὀρθόδωρον | 11 daktyloi | 211.9 mm (8.34 in) | |
| spithamē | σπιθαμή | 12 daktyloi | 231.2 mm (9.10 in) | span of all fingers |
| pous | ποῦς | 16 daktyloi | 308.2 mm (12.13 in) | foot |
| pygmē | πυγμή | 18 daktyloi | 346.8 mm (13.65 in) | |
| pygōn | πυγών | 20 daktyloi | 385.3 mm (15.17 in) | |
| pēchys | πῆχυς | 24 daktyloi | 462.3 mm (18.20 in) | cubit |
| Except where noted, based on Smith (1851). Metric equivalents are approximate. | ||||
| Unit | Greek name | Equal to | Metric equivalent | Description |
|---|---|---|---|---|
| pous | ποῦς | 0.308 m (1.01 ft) | foot | |
| haploun bēma | ἁπλοῦν βῆμα | 2.5 podes | 0.77 m (2.5 ft) | single pace |
| bēma, diploun bēma | βῆμα, διπλοῦν βῆμα | 5 podes | 1.54 m (5.1 ft) | double pace |
| orgyia | ὀργυιά | 6 podes | 1.85 m (6.1 ft) | fathom |
| kalamos, akaina or dekapous | κάλαμος, ἄκαινα, δεκάπους | 10 podes | 3.08 m (10.1 ft) | |
| hamma | ἅμμα | 60 podes | 18.5 m (20.2 yd) | |
| plethron | πλέθρον | 100 podes | 30.8 m (33.7 yd) | |
| stadion | στάδιον | 600 podes | 184.9 m (202.2 yd) | approximately 1/10 of a modern mile |
| diaulos | δίαυλος | 2 stadia | 369.9 m (404.5 yd) | |
| hippikon | ἱππικόν | 4 stadia | 739.7 m (808.9 yd) | |
| milion | μίλιον | 8 stadia | 1,479 m (1,617 yd) | Roman mile |
| dolichos | δόλιχος | 12 stadia | 2,219 m (1.379 mi) | |
| parasanges, or league | παρασάγγες | 30 stadia | 5,548 m (3.447 mi) | adopted from Persia |
| schoinos | σχοινός | 40 stadia | 7,397 m (4.596 mi) | adopted from Egypt |
| stage | 160 stadia | 29,800 m (32,600 yd) | ||
| Except where noted, based on Smith (1851). Metric equivalents are approximate. | ||||
Area
The ordinary units used for land measurement were:
| Unit | Greek name | Equal to | Metric equivalent | Description |
|---|---|---|---|---|
| pous | ποῦς | 0.095 m | square foot | |
| hexapodēs | ἑξαπόδης | 36 podes | 3.42 m | |
| akaina | ἄκαινα | 100 podes | 9.50 m | |
| hēmiektos | ἡμίεκτος | 8331⁄3 podes | 79.2 m | |
| hektos | ἕκτος | 16662⁄3 podes | 158.3 m | a sixth of a plethron |
| aroura | ἄρουρα | 2500 podes | 237.5 m | |
| plethron | πλέθρον | 10000 podes | 950 m | |
| Except where noted, based on Smith (1851). Metric equivalents are approximate. | ||||
Volume
 Neck amphora depicting an athlete running the hoplitodromos by the Berlin Painter, ca. 480 BC, Louvre. |
Greeks measured volume according to either dry or liquid capacity, suited respectively to measuring grain and wine. A common unit in both measures throughout historic Greece was the cotyle or cotyla whose absolute value varied from one place to another between 210 ml and 330 ml. The basic unit for both solid and liquid measures was the κύαθος (kyathos, plural: kyathoi).
The Attic liquid measures were:
| Unit | Greek name | Equal to | Metric equivalent | Description |
|---|---|---|---|---|
| kochliarion | κοχλιάριον | 4.5 ml | spoon | |
| xēmē | χήμη | 2 kochliaria | 9.1 ml | |
| mustron | μύστρον | 21⁄2 kochliaria | 11.4 ml | |
| konchē | κόγχη | 5 kochliaria | 22.7 ml | |
| kyathos | κύαθος | 10 kochliaria | 45.5 ml | |
| oxybathon | ᾿οξυβαθον | 11⁄2 kyathoi | 68.2 ml | |
| tetarton, hēmikotylē | τέταρτον, ἡμικοτύλη | 3 kyathoi | 136.4 ml | |
| kotylē, trublion or hēmina | κοτύλη, τρύβλιον, ἡμίνα | 6 kyathoi | 272.8 ml | |
| xestēs | ξέστης | 12 kyathoi | 545.5 ml | Roman sextarius |
| chous | χοῦς | 72 kyathoi | 3.27 l | |
| keramion | κεράμιον | 8 choes | 26.2 l | Roman amphora |
| metrētēs | μετρητής | 12 choes | 39.3 l | amphora |
| Except where noted, based on Smith (1851). Metric equivalents are approximate. | ||||
and the Attic dry measures of capacity were:
| Unit | Greek name | Equal to | Metric equivalent | Description |
|---|---|---|---|---|
| kochliarion | κοχλιάριον | 4.5 ml | ||
| kyathos | κύαθος | 10 kochliaria | 45.5 ml | |
| oxybathon | ᾿οξυβαθον | 11⁄2 kyathoi | 68.2 ml | |
| kotylē or hēmina | κοτύλη, ἡμίνα | 6 kyathoi | 272.8 ml | |
| xestēs | ξέστης | 12 kyathoi | 545.5 ml | Roman sextarius |
| choinix | χοῖνιξ | 24 kyathoi | 1.09 l | |
| hēmiekton | ἡμίεκτον | 4 choinikes | 4.36 l | |
| hecteus | ἑκτεύς | 8 choinikes | 8.73 l | a sixth of a medimnos |
| medimnos | μέδιμνος | 48 choinikes | 52.4 l | |
| Except where noted, based on Smith (1851). Metric equivalents are approximate. | ||||
Currency
The basic unit of Athenian currency was the obol, weighing approximately 0.72 grams of silver:
| Unit | Greek name | Equivalent | Weight |
|---|---|---|---|
| obol or obolus | ὀβολὸς | 1/6 drachma, 4 tetartemorions | 0.72 g |
| drachma | δραχμὴ | 6 obols | 4.3 g |
| mina | μνᾶ | 100 drachmae | |
| talent | τάλαντον | 60 minae |
Weight
Weights are often associated with currency since units of currency involve prescribed amounts of a given metal. Thus for example the English pound has been both a unit of weight and a unit of currency. Greek weights similarly bear a nominal resemblance to Greek currency yet the origin of the Greek standards of weights is often disputed. There were two dominant standards of weight in the eastern Mediterranean - a standard that originated in Euboea and that was subsequently introduced to Attica by Solon, and also a standard that originated in Aegina. The Attic/Euboean standard was supposedly based on the barley corn, of which there were supposedly twelve to one obol. However, weights that have been retrieved by historians and archeologists show considerable variations from theoretical standards. A table of standards derived from theory is as follows:
Time
Athenians measured the day by sundials and unit fractions. Periods during night or day were measured by a water clock (clepsydra) that dripped at a steady rate and other methods. Whereas the day in the Gregorian calendar commences after midnight, the Greek day began after sunset. Athenians named each year after the Archon Eponymos for that year, and in Hellenistic times years were reckoned in quadrennial epochs according to the Olympiad.
In archaic and early classical Greece, months followed the cycle of the Moon which made them to not fit exactly into the solar year. Thus, if not corrected, the same month would migrate slowly in different seasons of the year. The Athenian year was divided into 12 months, with one additional month (poseideon deuteros, 30 days) being inserted between the sixth and seventh months every second year. Even with this intercalary month, the Athenian or Attic calendar was still fairly inaccurate and days had occasionally to be added by the Archon Basileus. The start of the year was at the summer solstice (previously it had been at the winter solstice) and months were named after Athenian religious festivals, 27 mentioned in the Hibah Papyrus, circ 275 BCE.
| Month | Greek name | Gregorian equivalent |
|---|---|---|
| Hecatombaeon | Ἑκατομβαιών | June–July |
| Metageitnion | Μεταγειτνιών | July-Aug |
| Boedromion | Βοηδρομιών | Aug-Sept |
| Pyanepsion | Πυανεψιών | Sept-Oct |
| Maemacterion | Μαιμακτηριών | Oct-Nov |
| Poseideon | Ποσειδεών | Nov-Dec |
| Gamelion | Γαμηλιών | Dec-Jan |
| Anthesterion | Ἀνθεστηριών | Jan-Feb |
| Elaphebolion | Ἐλαφηβολιών | Feb-March |
| Munychion | Μουνυχιών | March–April |
| Thargelion | Θαργηλιών | April–May |
| Scirophorion | Σκιροφοριών | May–June |
See also
References
- ^ "Measures". The Oxford Classical Dictionary. 2003.
- ^ Smith, Sir William; Charles Anthon (1851) A new classical dictionary of Greek and Roman biography, mythology, and geography partly based upon the Dictionary of Greek and Roman biography and mythology New York: Harper & Bros. Tables, pp. 1024–30
- ^ EIM:Metrology:History. Hellenic Institute of Metrology (EIM). Archived 13 April 2009.
- ^ Xenophon, Anabasis. ca 400 B.C.
- British Museum Catalogue 11 - Attica Megaris Aegina
- ^ "Weights". The Oxford Classical Dictionary. 2003.
External links
- "History 310: Greek Coinage and Measures". History/Classics 310. Retrieved December 15, 2005.
- Porter, John. "Greek and Roman Weights, Measures and Currency". Archived from the original on 6 August 2007. Retrieved July 26, 2007.
{{cite web}}: Unknown parameter|deadurl=ignored (|url-status=suggested) (help) - Online Conversion of Ancient Greek Units
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