Ancient Greek technology developed during the 5th century BC, continuing up to and including the Roman period, and beyond. Inventions that are credited to the ancient Greeks include the gear, screw, rotary mills, screw press, bronze casting techniques, water clock, water organ, torsion catapult, the use of steam to operate some experimental machines and toys, and a chart to find prime numbers. Many of these inventions occurred late in the Greek period, often inspired by the need to improve weapons and tactics in war. However, peaceful uses are shown by their early development of the watermill, a device which pointed to further exploitation on a large scale under the Romans. They developed surveying and mathematics to an advanced state, and many of their technical advances were published by philosophers like Archimedes and Hero.
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Water technology [edit]
One of the foundations for many modern technological achievements would include water resources, like drinking water. Some fields that were encompassed in the area of water resources (mainly for urban use), would include such areas as groundwater exploitation, construction of aqueducts for water supply, storm water and wastewater sewerage systems, flood protection and drainage, construction and use of fountains, baths and other sanitary and purgatory facilities, and even recreational uses of water.[5]
Mining [edit]
The Greeks developed extensive silver mines at Laurium, the profits from which helped to support the growth of Athens as a city-state. It involved mining the ore in underground galleries, washing the ores and smelting it to produce the metal. Elaborate washing tables still exist at the site using rain water held in cisterns and collected during the winter months. Mining also helped to create currency by conversion of the metal into coinage.
Technology [edit]
The failure of the Greeks to develop their technology has sometimes been attributed to the low status of people providing labor. Manual labor was despised, and anyone science to it was likely to lose status in society, removing much of the incentive to seek technological innovation. A sophisticated tunnel built for an aqueduct in the 6th century BC by the engineer Eupalinos at Samos has led to some reevaluation of the skills of the Greeks.
Ancient Greek technology [edit]
| Technology | Date | Description | ||
|---|---|---|---|---|
| Streets | c. 400 BC | Example: The Porta Rosa (4th–3rd century BC) was the main street of Elea (Italy). It connects the northern quarter with the southern quarter. The street is 5 meters wide and has an incline of 18% in the steepest part. It is paved with limestone blocks, griders cut in square blocks, and on one side a small gutter for the drainage of rain water. The building is dated during the time of the reorganization of the city during Hellenistic age. (4th to 3rd centuries BC) |  |
|
| Cartography | c. 600 BC | First widespread amalgamation of geographical maps developed by Anaximander. | ||
| Rutway | c. 600 BC | The 6 to 8.5 km long Diolkos represented a rudimentary form of railway.[6] |  |
|
| Caliper | 6th century BC | Earliest example found in the Giglio wreck near the Italian coast. The wooden piece already featured one fixed and a movable jaw.[7][8] | ||
| Truss roof | 550 BC[9] | See List of Greco-Roman roofs | ||
| Crane | c. 515 BC | Labor-saving device which allowed the employment of small and efficient work teams on construction sites. Later winches were added for heavy weights. |  |
|
| Escapement | 3rd century BC | Described by the Greek engineer Philo of Byzantium (3rd century BC) in his technical treatise Pneumatics (chapter 31) as part of a washstand automaton for guests washing their hands. Philon's comment that "its construction is similar to that of clocks" indicates that such escapements mechanism were already integrated in ancient water clocks.[10] |  |
|
| Tumbler lock | c. 5th century BC | The tumbler lock, as well as other varieties, was introduced to Greece in the 5th century BC. | ||
| Gears | c. 5th century BC | Developed further than in prehistoric times for a variety of practical purposes. | ||
| Plumbing | c. 5th century BC | Excavations at Olympus as well as Athens have revealed extensive plumbing systems for baths and fountains as well as for personal use. | ||
| Spiral staircase | 480–470 BC | The earliest spiral staircases appear in Temple A in Selinunte, Sicily, to both sides of the cella. The temple was constructed around 480–470 BC.[11] |  |
|
| Urban planning | c. 5th century BC | Miletus is one of the first known towns in the world to have a grid like plan for residential and public areas. It accomplished this feat through a variety of related innovations in areas such as surveying. | ||
| Crossbow | c. 5th century BC | The Greeks made use of a handheld crossbow called the gastraphetes. |  |
|
| Winch | 5th century BC | The earliest literary reference to a winch can be found in the account of Herodotus of Halicarnassus on the Persian Wars (Histories 7.36), where he describes how wooden winches were used to tighten the cables for a pontoon bridge across the Hellespont in 480 BC. Winches may have been employed even earlier in Assyria, though. By the 4th century BC, winch and pulley hoists were regarded by Aristotle as common for architectural use (Mech. 18; 853b10-13).[12] | ||
| Wheelbarrow | 5th century BC | Two building material inventories for 408/407 and 407/406 BC from the temple of Eleusis list, among other machines and tools, a one-wheeler (hyperteria monokyklou).[13] | ||
| Showers | 4th century BC | A shower room for female athletes with plumbed-in water is depicted on an Athenian vase. A whole complex of shower-baths was also found in a 2nd-century BC gymnasium at Pergamum.[14] | ||
| Central heating | c. 350 BC | Great Temple of Ephesus was warmed by heated air that was circulated through flues laid in the floor. | ||
| Lead sheathing | c. 350 BC | To protect a ships hull from boring creatures. see Kyrenia ship | ||
| Astrolabe | c. 300 BC | First used around 200 BC by astronomers in Greece. Used to determine the altitude of objects in the sky. | ||
| Canal lock | early 3rd century BC | Built into Ancient Suez Canal under Ptolemy II (283–246 BC)[15][16][17] | ||
| Ancient Suez Canal | early 3rd century BC | Opened by Greek engineers under Ptolemy II (283–246 BC), following earlier, probably only partly successful attempts[18] | ||
| Lighthouse | c. 3rd century BC | The Lighthouse of Alexandria was designed and constructed by Sostratus of Cnidus. |  |
|
| Water wheel | 3rd century BC | First described by Philo of Byzantium (c. 280–220 BC)[19] | ||
| Alarm clock | 3rd century BC | The Hellenistic engineer and inventor Ctesibius (fl. 285–222 BC) fitted his clepsydras with dial and pointer for indicating the time, and added elaborate "alarm systems, which could be made to drop pebbles on a gong, or blow trumpets (by forcing bell-jars down into water and taking the compressed air through a beating reed) at pre-set times" (Vitruv 11.11).[20] | ||
| Odometer | c. 3rd century BC | Odometer, a device used in the late Hellenistic time and by Romans for indicating distance traveled by a vehicle was invented sometime in the 3rd century BC. Some historians attribute it to Archimedes, others to Hero of Alexandria. It helped revolutionize the building of roads and travelling by them by accurately measuring distance and being able to illustrate this with a milestone. | ||
| Chain drive | 3rd century BC | First described by Philo of Byzantium. The device powered a repeating crossbow, the first known of its kind.[21] | ||
| Cannon | c. 3rd century BC | Ctesibius of Alexandria invented a primitive form of the cannon, operated by compressed air. | ||
| Double-action principle | 3rd century BC | Universal mechanical principle which was discovered and applied first by the engineer Ctesibius in his double action piston pump which later was developed further by Heron to a fire hose (see below).[22] | ||
| Levers | c. 260 BC | First described about 260 BC by the ancient Greek mathematician Archimedes. Although used in prehistoric times, they were first put to practical use for more developed technologies in Ancient Greece. | ||
| Water mill | c. 250 BC | The use of water power was pioneered by the Greeks: The earliest mention of a water mill in history occurs in Philo's Pneumatics, previously been regarded as a later Arabic interpolation, but according to recent research to be of authentic Greek origin.[23][1] | ||
| Three-masted ship (mizzen) | c. 240 BC: | First recorded for Syracusia as well as other Syracusan (merchant) ships under Hiero II of Syracuse[24] | ||
| Gimbal | 3rd century BC | The inventor Philo of Byzantium (280–220 BC) described an eight-sided ink pot with an opening on each side, which can be turned so that any face is on top, dip in a pen and ink it-yet the ink never runs out through the holes of the side. This was done by the suspension of the inkwell at the center, which was mounted on a series of concentric metal rings which remained stationary no matter which way the pot turns itself.[25] |  |
|
| Dry dock | c. 200 BC | Invented in Ptolemaic Egypt some time after the death of Ptolemy IV Philopator (reigned 221–204 BC) as recorded by Athenaeus of Naucratis. | ||
| Fore-and-aft rig (spritsail) | 2nd century BC | Spritsails, the earliest fore-and-aft rigs, appeared in the 2nd century BC in the Aegean Sea on small Greek craft.[26] |  |
|
| Air and water pumps | c. 2nd century BC | Ctesibius and various other Greeks of Alexandria of the period developed and put to practical use various air and water pumps which served a variety of purposes, such as a water organ. | ||
| Sakia gear | 2nd century BC | First appeared in 2nd BC Hellenistic Egypt where pictorial evidence already showed it fully developed[27] | ||
| Surveying tools | c. 2nd century BC | Various records relating to mentions of surveying tools have been discovered, mostly in Alexandrian sources, these greatly helped the development of the precision of Roman Aqueducts. | ||
| Analog computers | c. 150 BC | In 1900–1901 the Antikythera mechanism is found in the Antikythera wreck. It is thought that the purpose of this device was to be an analog computer designed to calculate astronomical positions used to predict lunar and solar eclipses based on Babylonian arithmetic-progression cycles. |  |
|
| Fire hose | 1st century BC | Invented by Hero in the basis of Ctesibius' double action piston pump.[22] Allowed for more efficient fire fighting. | ||
| Vending machine | 1st century BC | The first vending machine was described by Hero of Alexandria. His machine accepted a coin and then dispensed a fixed amount of holy water. When the coin was deposited, it fell upon a pan attached to a lever. The lever opened up a valve which let some water flow out. The pan continued to tilt with the weight of the coin until it fell off, at which point a counter-weight would snap the lever back up and turn off the valve.[22] | ||
| Wind vane | 50 BC | The Tower of the Winds on the Roman agora in Athens featured atop a wind vane in the form of a bronze Triton holding a rod in his outstretched hand rotating to the wind blowing. Below, its frieze was adorned with the eight wind deities. The 8 m high structure also featured sundials and a water clock inside dates from around 50 BC.[28] | ||
| Clock tower | 50 BC | See Clock Tower.[29] |  |
|
| Automatic doors | c. 1st century AD | Hero of Alexandria, a 1st-century BC inventor from Alexandria, Egypt, created schematics for automatic doors to be used in a temple with the aid of steam power.[22] |
See also [edit]
- Roman technology
- History of science in Classical Antiquity
- Medieval technology
- Science in Medieval Western Europe
- List of Byzantine inventions
References [edit]
- ^ a b c Wilson, Andrew (2002). "Machines, Power and the Ancient Economy". The Journal of Roman Studies 92: 1–32 (7f.). JSTOR 3184857.
- ^ Wikander, Örjan (1985). "Archaeological Evidence for Early Water-Mills. An Interim Report". History of Technology 10: 151–179 (160).
- ^ Wikander, Örjan (2000). "The Water-Mill". Handbook of Ancient Water Technology. Technology and Change in History 2. Leiden: Brill. pp. 371–400 (396f.). ISBN 90-04-11123-9.
- ^ Donners, K.; Waelkens, M.; Deckers, J. (2002). "Water Mills in the Area of Sagalassos: A Disappearing Ancient Technology". Anatolian Studies 52: 1–17 (11). doi:10.2307/3643076. JSTOR 3643076.
- ^ Angelakis, A. N.; Koutsoyiannis, D. (2003). "Urban water engineering and management in ancient Greece". In Stewart, B. A.; Howell, T. The Encyclopedia of Water Science. New York: Dekker. pp. 999–1007. ISBN 0-8247-0948-9.
- ^ Lewis, M. J. T. (2001) "Railways in the Greek and Roman world", in Guy, A. / Rees, J. (eds), Early Railways. A Selection of Papers from the First International Early Railways Conference, pp. 8–19 (8 & 15), ISBN 090468508X.
- ^ Bound, Mensun (1991) The Giglio wreck: a wreck of the Archaic period (c. 600 BC) off the Tuscan island of Giglio, Hellenic Institute of Marine Archaeology, Athens.
- ^ Ulrich, Roger B. (2007) Roman woodworking, Yale University Press, New Haven, Conn., pp. 52f., ISBN 0-300-10341-7.
- ^ Hodge, A. Trevor Paul (1960) The Woodwork of Greek Roofs, Cambridge University Press, p. 41.
- ^ Lewis, Michael (2000). "Theoretical Hydraulics, Automata, and Water Clocks". In Wikander, Örjan. Handbook of Ancient Water Technology. Technology and Change in History 2. Leiden. pp. 343–369 (356f.). ISBN 90-04-11123-9.
- ^ Ruggeri, Stefania : „Selinunt“, Edizioni Affinità Elettive, Messina 2006 ISBN 88-8405-079-0, p.77
- ^ Coulton, J. J. (1974). "Lifting in Early Greek Architecture". The Journal of Hellenic Studies 94: 1–19 (12). doi:10.2307/630416. JSTOR 630416.
- ^ Lewis, M. J. T. (1994). "The Origins of the Wheelbarrow". Technology and Culture 35 (3): 453–475. doi:10.2307/3106255.
- ^ Ancient Inventions: Showers. inventions.org
- ^ Moore, Frank Gardner (1950). "Three Canal Projects, Roman and Byzantine". American Journal of Archaeology 54 (2): 97–111 (99–101). doi:10.2307/500198.
- ^ Froriep, Siegfried (1986): "Ein Wasserweg in Bithynien. Bemühungen der Römer, Byzantiner und Osmanen", Antike Welt, 2nd Special Edition, pp. 39–50 (46)
- ^ Schörner, Hadwiga (2000): "Künstliche Schiffahrtskanäle in der Antike. Der sogenannte antike Suez-Kanal", Skyllis, Vol. 3, No. 1, pp. 28–43 (33–35, 39)
- ^ Schörner, Hadwiga (2000): "Künstliche Schiffahrtskanäle in der Antike. Der sogenannte antike Suez-Kanal", Skyllis, Vol. 3, No. 1, pp. 28–43 (29–36)
- ^ Oleson, John Peter (2000): "Water-Lifting", in: Wikander, Örjan: "Handbook of Ancient Water Technology", Technology and Change in History, Vol. 2, Brill, Leiden, ISBN 90-04-11123-9, pp. 217–302 (233)
- ^ Landels, John G. (1979). "Water-Clocks and Time Measurement in Classical Antiquity". Endeavour 3 (1): 32–37 [35]. doi:10.1016/0160-9327(79)90007-3.
- ^ Werner Soedel, Vernard Foley: Ancient Catapults, Scientific American, Vol. 240, No. 3 (March 1979), p.124-125
- ^ a b c d Jaffe, Eric (December 2006) Old World, High Tech: World's First Vending Machine. Smithsonian magazine.
- ^ Lewis, M. J. T. (1997) Millstone and Hammer: the origins of water power, University of Hull Press, pp. 1–73 especially 44–45 and 58–60, ISBN 085958657X.
- ^ Casson, Lionel (1995): "Ships and Seamanship in the Ancient World", Johns Hopkins University Press, pp. 242, fn. 75, ISBN 978-0-8018-5130-8.
- ^ Sarton, G. (1970) A History of Science, The Norton Library, Vol. 2., pp. 343–350, ISBN 0393005267.
- ^ Casson, Lionel (1995): "Ships and Seamanship in the Ancient World", Johns Hopkins University Press, pp. 243–245, ISBN 978-0-8018-5130-8.
- ^ Oleson, John Peter (2000): "Water-Lifting", in: Wikander, Örjan: "Handbook of Ancient Water Technology", Technology and Change in History, Vol. 2, Brill, Leiden, pp. 217–302 (234, 270), ISBN 90-04-11123-9.
- ^ Noble, Joseph V. and de Solla Price, Derek J. (1968). "The Water Clock in the Tower of the Winds". American Journal of Archaeology 72 (4): 345–355 (353). doi:10.2307/503828. JSTOR 503828.
- ^ Noble, Joseph V. and de Solla Price, Derek J. (1968). "The Water Clock in the Tower of the Winds". American Journal of Archaeology 72 (4): 345–355 (349). JSTOR 503828.
Further reading [edit]
- Kotsanas, Kosatas (2009) -"familiar and unfamiliar aspects of Ancient Greek Technology" (ISBN 978-9963-9270-2-9)
- Kotsanas, Kosatas (2008) -"Ancient Greek Technology" (ISBN 978-960-930859-5)
External links [edit]
- What the Ancient Greeks did for us, BBC documentary
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