The mangonel, also called the traction trebuchet, was a type of trebuchet used in Ancient China starting from the Warring States period, and later across Eurasia by the 6th century AD. Unlike the later counterweight trebuchet, the mangonel operated on manpower-pulling cords attached to a lever and sling to launch projectiles.[1]
Although the mangonel required more men to function, it was also less complex and faster to reload than the torsion-powered onager which it replaced in early Medieval Europe. It was replaced as the primary siege weapon in the 12th and 13th centuries by the counterweight trebuchet.[2][3][4] A common misconception about the mangonel is that it was a torsion siege engine.[5]
Etymology
editThe word mangonel was first attested in English in the 13th century, it is borrowed from Old French mangonel, mangonelle (> French mangonneau).[6] The French word is from Medieval Latin manganellus, mangonellus, diminutive form of Late Latin manganum, itself probably derived from the Greek mangana, "a generic term for construction machinery."[7] or mágganon "engine of war, axis of a pulley"[6][8][9]
Mangonel was a general term for medieval stone-throwing artillery and was used more specifically to refer to manually (traction--) powered weapons. It is sometimes wrongly used to refer to the onager.[10] Modern military historians came up with the term "traction trebuchet" to distinguish it from previous torsion machines such as the onager.[11]
The mangonel was called al-manjanīq, arrada, shaytani, or sultani in Arabic. In China, the mangonel was called the pào (砲).[12][13]
History
editChina
editThe mangonel originated in ancient China.[15][16][17][18] Torsion-based siege weapons such as the ballista and onager are not known to have been used in China.[19]
The first recorded use of mangonels was in ancient China. They were probably used by the Mohists as early as 4th century BC; descriptions can be found in the Mozi (compiled in the 4th century BC).[17][20] According to the Mozi, the mangonel was 17 ft (5.2 m) high with 4 ft (1.2 m) buried below ground, the fulcrum attached was constructed from the wheels of a cart, the throwing arm was 30–35 ft (9.1–10.7 m) long with three quarters above the pivot and a quarter below to which the ropes are attached, and the sling 2.8 ft (0.85 m) long. The range given for projectiles are 300 ft (91 m), 180 ft (55 m), and 120 ft (37 m). They were used as defensive weapons stationed on walls and sometimes hurled hollowed out logs filled with burning charcoal to destroy enemy siege works.[21][22] By the 1st century AD, commentators were interpreting other passages in texts such as the Zuo zhuan and Classic of Poetry as references to the mangonel: "the guai is 'a great arm of wood on which a stone is laid, and this by means of a device [ji] is shot off and so strikes down the enemy.'"[23] The Records of the Grand Historian say that "The flying stones weigh 12 catties and by devices [ji] are shot off 300 paces."[23] Mangonels went into decline during the Han dynasty due to long periods of peace but became a common siege weapon again during the Three Kingdoms period. They were commonly called stone-throwing machines, thunder carriages, and stone carriages in the following centuries. They were used as ship mounted weapons by 573 for attacking enemy fortifications.[24] It seems that during the early 7th century, improvements were made on mangonels, although it is not explicitly stated what. According to a stele in Barkul celebrating Tang Taizong's conquest of what is now Ejin Banner, the engineer Jiang Xingben made great advancements on mangonels that were unknown in ancient times. Jiang Xingben participated in the construction of siege engines for Taizong's campaigns against the Western Regions.[25]
In 617 Li Mi (Sui dynasty) constructed 300 mangonels for his assault on Luoyang, in 621 Li Shimin did the same at Luoyang, and onward into the Song dynasty when in 1161, mangonels operated by Song dynasty soldiers fired bombs of lime and sulphur against the ships of the Jin dynasty navy during the Battle of Caishi.[26][27] During the Jingde period (1004-1007), many young men rose in office due to their military accomplishments, and one such man, Zhang Cun, was said to have possessed no knowledge except how to operate a Whirlwind mangonel.[28] When the Jurchen Jin dynasty (1115–1234) laid siege to Kaifeng in 1126, they attacked with 5,000 mangonels.[21]
Chinese mangonels
editThe Wujing Zongyao lists various types of the mangonel:
- Whirlwind – a swivel mangonel for shooting small missiles that could be turned to face any direction[29]
- Whirlwind battery – five whirlwind mangonels combined on a single turntable[30]
- Pao che (catapult cart) – a whirlwind mangonel on wheels[30]
- Crouching tiger – medium sized mangonel considered stronger than the whirlwind type but weaker than the four-footed[21]
- Four-footed – a trestle-frame mangonel for shooting heavier projectiles[30]
- Two-seven component – different weight classes for the four-footed type indicated by the number of poles bound together to create the swinging arm[31]
Weapon | Crew | Projectile weight: kilograms (pounds) | Range: meters (feet) |
---|---|---|---|
Whirlwind | 50 (rotating) | 1.8 kilograms (4.0 lb) | 78 m (256 ft)[32] |
Crouching tiger | 70 (rotating) | 7.25 kilograms (16.0 lb) | 78 m (256 ft)[32] |
Four footed (one arm) | 40 (rotating) | 1.1 kilograms (2.4 lb) | 78 m (256 ft)[32] |
Four footed (two arm) | 100 (rotating) | 11.3 kilograms (25 lb) | 120 m (390 ft)[32] |
Four footed (five arm) | 157 (rotating) | 44.5 kilograms (98 lb) | 78 m (256 ft)[32] |
Four footed (seven arm) | 250 (rotating) | 56.7 kilograms (125 lb) | 78 m (256 ft)[32] |
Spread
editThe mangonel was adopted by various peoples west of China such as the Byzantines, Persians, Arabs, and Avars by the sixth to seventh centuries AD. Some scholars suggest that Avars carried the mangonel westward while others claim that the Byzantines already possessed knowledge of the mangonel beforehand. Regardless of the vector of transmission, it appeared in the eastern Mediterranean by the late 6th century AD, where it replaced torsion powered siege engines such as the ballista and onager.[34][35][36] The rapid displacement of torsion siege engines was probably due to a combination of reasons. The mangonel is simpler in design, has a faster rate of fire, increased accuracy, and comparable range and power. It was probably also safer than the twisted cords of torsion weapons, "whose bundles of taut sinews stored up huge amounts of energy even in resting state and were prone to catastrophic failure when in use."[37][2][38][4] At the same time, the late Roman Empire seems to have fielded "considerably less artillery than its forebears, organised now in separate units, so the weaponry that came into the hands of successor states might have been limited in quantity."[39] Evidence from Gaul and Germania suggests there was substantial loss of skills and techniques in artillery further west.[39]
According to the Miracles of Saint Demetrius, probably written around 620 by John, Archbishop of Thessaloniki, the Avaro-Slavs attacked Thessaloniki in 586 with more than 50 mangonels. The bombardment lasted for hours, but the operators were inaccurate and most of the shots missed their target. When one stone did reach their target, it "demolished the top of the rampart down to the walkway."[40][41] The Miracles does not provide a clear date of the siege, which could have been in 586 or 597. An argument has been made that the Byzantines were already acquainted with mangonels prior to this based on the History written by Theophylact Simocatta in the late 620s. The account contained describes a captured Byzantine soldier named Busas who taught the Avars how to construct a "besieging machine" which led to their conquest of Appiaria in 587. The word used for the machine is helepolis, which does not indicate a specific siege engine. It has been variously interpreted as a battering ram, a stone-throwing trebuchet, and a siege tower. Theophylact's account is vague on descriptions of the device and why it allowed the Avars to take Appiaria after they had already taken many Roman cities beforehand. The Greek term manganikon, from which the Arabic word for trebuchet mandjanik is derived, was also first used to describe Avar machines used against Constantinople in 626. Peter Purton notes that the account by Theophylact is not contemporary and likely written when the mangonel was more common. David Graff and Purton argue that the account by Theophylact has chronological problems and does not explain why the machine used by the Avars in the Miracles was treated as a novelty in either 586 or 597, since the Byzantines would have known about it in both cases. Yet there are no descriptions of the mangonel in the west prior to the encounter with the Avars.[42][43][44]
Purton considers it equally likely for the Avars, Byzantines, or Persians to have learned of the mangonel first in the western world. Michael Fulton says it is at least equally likely that the Avars or some other vector transmitted the technology to the Byzantines, but expressed skepticism that the mangonel was complex enough to require explanation by a captured Byzantine soldier. He described Theophylact's account as a "racially motivated explanation of how a supposedly 'barbaric' people were able to replicate and incorporate a piece of 'civilised' technology". Others like Stephen McCotter and John Haldon consider the Avar theory to be the most likely. As McCotter puts it, "there is no good reason to doubt that the Avars may have brought it and the Byzantines copied it."[42][43][44] According to Georgios Kardaras, the idea that the Avars directly learned siegecraft from a Byzantine captive is not credible, as they had been perfectly capable of taking walled Byzantine towns beforehand and had been in contact with other tribes who engaged in siege warfare.[45]
The Byzantines may have used the mangonel in 587 against a Persian fort near Akbas, although it does seem to have been operated effectively, suggesting that it was still a new weapon. The Persians may have used mangonels against Dara in the early 7th century and against Jerusalem in 614. The Arabs had ship mounted mangonel by 653 and used them at Mecca in 683.[46][47] The Franks and Saxons adopted the weapon in the 8th century.[48] The Life of Louis the Pious contains the earliest western European reference to mangonels in its account of the siege of Tortosa (808–809).[49] In the 890s, Abbo Cernuus described mango or manganaa used at the Siege of Paris (885–886) which had high posts, presumably meaning they used trebuchet-type throwing arms.[50] In 1173, the Republic of Pisa tried to capture an island castle with mangonels on galleys.[51] Mangonels were also used in India.[2]
The catapult, the account of which has been translated from the Greek several times, was quadrangular, with a wide base but narrowing towards the top, using large iron rollers to which were fixed timber beams "similar to the beams of big houses", having at the back a sling, and at the front thick cables, enabling the arm to be raised and lowered, and which threw "enormous blocks into the air with a terrifying noise".[40]
— Peter Purton
Independent invention
editAccording to Leife Inge Ree Peterson, a mangonel could have been used at Theodosiopolis in 421 but was "likely an onager".[52] Peterson says that mangonels may have been independently invented or at least known in the Eastern Mediterranean by 500 AD based on records of different and better artillery weapons, however there is no explicit description of a mangonel. According to Peterson's timeline and presumption that the mangonel became widespread throughout the Roman Empire by the mid-6th century, mangonels would also have been used in Spain and Italy by the mid 6th century, in Africa by the 7th century, and by the Franks in the 8th century.[53] Tracy Rihll suggests that the mangonel was independently invented through an evolution of the Byzantine staff-sling, although this has received little support.[54] There are no sources indicating whether Byzantium received the mangonel from East Asia or if it was independently invented.[55]
Thus, on the basis of fairly hard evidence of unknown machinery in Joshua the Stylite and Agathias, as well as good indications of its construction in Procopius (especially when read against Strategikon), it is likely that the traction trebuchet had become known in the eastern Mediterranean area at the latest by around 500. The philological and (admittedly circumstantial) historical evidence may even support a date around 400.[56]
— Inge Ree Peterson
Notable uses in history
editThe mangonel was most efficient as an anti-personnel weapon, used in a supportive position alongside archers and slingers. Most accounts of mangonels describe them as light artillery weapons while actual penetration of defenses was the result of mining or siege towers.[57] At the Siege of Kamacha in 766, Byzantine defenders used wooden cover to protect themselves from the enemy artillery while inflicting casualties with their stone throwers. Michael the Syrian noted that at the siege of Balis in 823 it was the defenders that suffered from bombardment rather than the fortifications. At the siege of Kaysum, Abdallah ibn Tahir al-Khurasani used artillery to damage houses in the town. The Sack of Amorium in 838 saw the use of mangonels to drive away defenders and destroy wooden defenses. At the siege of Marand in 848, mangonels were used, "reportedly killing 100 and wounding 400 on each side during the eight-month siege."[58] During the siege of Baghdad in 865, defensive artillery was responsible for repelling an attack on the city gate while mangonels on boats claimed a hundred of the defenders' lives.[59]
Some exceptionally large and powerful mangonels have been described during the 11th century or later. At the Siege of Manzikert (1054), the Seljuks' initial siege artillery was countered by the defenders' own, which shot stones at the besieging machine. In response, the Seljuks constructed another one requiring 400 men to pull and throw stones weighing 20 kilograms (44 lb). A breach was created on the first shot but the machine was burnt down by the defenders. According to Matthew of Edessa, this machine weighed 3,400 kilograms (7,500 lb) and caused several casualties to the city's defenders.[57] Ibn al-Adim describes a mangonel capable of throwing a man in 1089.[60] At the siege of Haizhou in 1161, a mangonel was reported to have had a range of 200 paces (over 400 m (1,300 ft)). [61]
Decline
editWest of China, the mangonel remained the primary siege engine until the late 12th century when it was replaced by the counterweight trebuchet.[62] In China the mangonel was the primary siege engine until the counterweight trebuchet was introduced during the Mongol conquest of the Song dynasty in the 13th century.[63] The counterweight trebuchet did not completely replace the mangonel. Despite its greater range, counterweight trebuchets had to be constructed close to the site of the siege unlike mangonels, which were smaller, lighter, cheaper, and easier to take apart and put back together again where necessary.[64] The superiority of the counterweight trebuchet was not clear cut. Of this, the Hongwu Emperor stated in 1388: "The old type of trebuchet was really more convenient. If you have a hundred of those machines, then when you are ready to march, each wooden pole can be carried by only four men. Then when you reach your destination, you encircle the city, set them up, and start shooting!"[65] The mangonel continued to serve as an anti-personnel weapon. The Norwegian text of 1240, Speculum regale, explicitly states this division of functions. Mangonels were to be used for hitting people in undefended areas.[66] As late as the Siege of Acre (1291), where the Mamluk Sultanate fielded 72 or 92 trebuchets, the majority were still mangonels while 14 or 15 were counterweight trebuchets. The counterweight trebuchets were unable to create a breach in Acre's walls and the Mamluks entered the city by sapping the northeast corner of the outer wall.[67][68] The Templar of Tyre described the faster firing mangonels as more dangerous to the defenders than the counterweight trebuchets.[69]
-
Crouching tiger trebuchet (stationary mangonel) from the Wujing Zongyao
-
Five whirlwind trebuchets (swivel mangonels) from the Wujing Zongyao
-
Mangonel on a Song Dynasty warship from the Wujing Zongyao
-
12th century depiction of a mangonel (also called a perrier) next to a staff slinger
-
Sicilian-Byzantine depiction of a mangonel, 12th-13th century[70]
-
13th century depiction of a mangonel
-
Muslim mangonel, 1285
See also
editReferences
edit- ^ Purton 2006, p. 79.
- ^ a b c Purton 2009, p. 366.
- ^ Chevedden, Paul E.; et al. (July 1995). "The Trebuchet". Scientific American: 66–71. http://static.sewanee.edu/physics/PHYSICS103/trebuchet.pdf Archived 2015-06-15 at the Wayback Machine. Original version.
- ^ a b Graff 2016, p. 141.
- ^ Purton 2006, p. 80, 89.
- ^ a b Hoad, TF (ed), The Concise Oxford Dictionary of English Etymology (1993), Oxford University Press, ISBN 0-19-283098-8, p. 280a
- ^ Purton 2018, p. 58.
- ^ Konstantin Nossov; Vladimir Golubev. Ancient and Medieval Siege Weapons: A Fully Illustrated Guide to Siege Weapons and Tactics.
- ^ Larry J. Simon; Robert Ignatius Burns; Paul E. Chevedden; Donald J. Kagay; Paul G. Padilla. Iberia and the Mediterranean World the Middle Ages: Studies in Honor of Robert I. Burns, S.J.
- ^ Purton 2009, p. 410.
- ^ Purton 2009, p. 365.
- ^ Purton 2009, p. 411.
- ^ Fulton 2018, p. 449.
- ^ Tarver 1995, p. 165.
- ^ Bradbury 1992, p. 265 "The earliest version of the trebuchet, which worked on the principle of a pivoted beam, that is, the man-powered traction trebuchet, was operated by a crew pulling on ropes, which were attached to the short end of the beam, in other words by using manpower rather than a counterweight. Such machines date back as far as ancient China."
- ^ Chevedden 1995, p. 2 "The trebuchet, invented in China between the fifth and third centuries B.C.E., reached the Mediterranean by the sixth century C.E."
- ^ a b Chevedden 2000, pp. 71, 74. "The traction trebuchet, invented by the Chinese sometime before the fourth century B.C."
- ^ Graff 2016, p. 86 "With regard to stone-throwers, however, China and the Mediterranean world had followed quite different paths of development. Hellenistic and Roman stone-throwers were torsion machines that derived their propulsive power from twisted fibers or sinews, whereas in China, as we have seen, traction-based stone-throwers (or trebuchets) had been employed since ancient times and torsion-based devices are not attested. There has been much debate about whether even the simplest of the torsion machines, the one-armed “onager,” remained in use into the early Byzantine period. But the dominant trend was toward convergence, with the Byzantines adopting the traction trebuchet as their new stone-thrower (and possibly as early as 587)."
- ^ Graff 2016, p. 86.
- ^ Liang 2006 "We do however know that the forerunner of the giant catapults of the Medieval era, simple traction catapults based on the lever principle, were already in use during the Warring States period in China in the 5th – 3rd century B.C. Their description appeared in the writings of Mozi, in a Mohist text under a section on Siege Warfare."
- ^ a b c Liang 2006.
- ^ Needham 1994, p. 207-209.
- ^ a b Needham 1994, p. 206.
- ^ Needham 1994, p. 210.
- ^ Needham 1994, pp. 214–215.
- ^ Needham, Joseph (1987). Science and Civilisation in China: Military technology: The Gunpowder Epic, Volume 5, Part 7. Cambridge University Press. p. 166. ISBN 978-0-521-30358-3.
- ^ Franke, Herbert (1994). Denis C. Twitchett; Herbert Franke; John King Fairbank (eds.). The Cambridge History of China: Volume 6, Alien Regimes and Border States, 710–1368. Cambridge University Press. pp. 241–242. ISBN 978-0-521-24331-5.
- ^ Needham 1994, p. 214.
- ^ Needham 1994, p. 212.
- ^ a b c Needham 1994, p. 212-213.
- ^ Needham 1994, p. 212-214.
- ^ a b c d e f Needham 1994, p. 216-217.
- ^ "Murals of the Silk Road – Archaeology Magazine".
- ^ Chevedden 1995, p. 2 "Historians had previously assumed that the diffusion of trebuchets westward from China occurred too late to affect the initial phase of the Islamic conquests, from 624 to 656. Recent work by one of us (Chevedden), however, shows that trebuchets reached the eastern Mediterranean by the late 500s, were known in Arabia and were used with great effect by Islamic armies."
- ^ Graff 2016, p. 141 "Although neither the role of the Avars in the diffusion of the traction trebuchet and many other items of military technology westward across Eurasia nor the connection between the European Avars and the East Asian Rouran can be established with certainty, the fit is nevertheless a good one. The theory of an East Asian origin for at least a key component of the Avar elite is congruent with the evidence for the arrival of East Asian technologies in western Eurasia in the last decades of the sixth century ce."
- ^ Purton 2009, p. 33 "Neither the precise date, then, nor the route of its arrival can be determined with certainty. What is certain is that the only place known to have developed this form of artillery was China. It is equally possible that the Avars (with their origins in Central Asia), the Byzantines, or the Persians could have been the first to learn of and make use of the weapon in the western world."
- ^ Peterson 2013, p. 409.
- ^ Chevedden 1995, p. 2.
- ^ a b Purton 2009, p. 364.
- ^ a b Purton 2009, p. 30.
- ^ Kardaras 2019, p. 176.
- ^ a b Graff 2016, p. 142-144.
- ^ a b Purton 2009, p. 32.
- ^ a b Fulton 2018, p. 16-18.
- ^ Kardaras 2019, p. 178-181.
- ^ Purton 2009, p. 47.
- ^ Graff 2016, p. 86, 144.
- ^ Purton 2009, p. 367.
- ^ Noble 2009, p. 241 n.73.
- ^ Needham 1994, p. 233.
- ^ Purton 2009, p. 291.
- ^ Peterson 2013, p. 275.
- ^ Peterson 2013, p. 421-423.
- ^ Fulton 2018, p. 18.
- ^ Graff 2016, p. 144.
- ^ Peterson 2013, p. 421.
- ^ a b Fulton 2018, p. 24.
- ^ Fulton 2018, p. 22.
- ^ Fulton 2018, p. 22-23.
- ^ Fulton 2018, p. 25.
- ^ Needham 1994, p. 215.
- ^ Purton 2009, p. 29.
- ^ Jasper Becker (2008). City of heavenly tranquility: Beijing in the history of China (illustrated ed.). Oxford University Press. p. 64. ISBN 978-0195309973. Retrieved 2010-10-28.
- ^ Turnbull 2001, p. 33.
- ^ Needham 1994, p. 229.
- ^ Purton 2009, p. 386.
- ^ Fulton 2018, p. 298.
- ^ Fulton 2018, p. 299.
- ^ Fulton 2018, p. 293-295.
- ^ Fulton 2018, p. 420.
Bibliography
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- Chevedden, Paul E.; et al. (July 1995). "The Trebuchet" (PDF). Scientific American. 273 (1): 66–71. Bibcode:1995SciAm.273a..66C. doi:10.1038/scientificamerican0795-66. Archived from the original (PDF) on 2012-01-11.. Original version.
- Chevedden, Paul E. (2000). "The Invention of the Counterweight Trebuchet: A Study in Cultural Diffusion". Dumbarton Oaks Papers. 54: 71–116. doi:10.2307/1291833. JSTOR 1291833.
- Dennis, George (1998). "Byzantine Heavy Artillery: The Helepolis". Greek, Roman, and Byzantine Studies (39).
- Fulton, Michael S. (2016), Artillery in and around the Latin East
- Fulton, Michael S. (2018), Artillery in the Era of the Crusades
- Graff, David A. (2016), The Eurasian Way of War Military Practice in Seventh-Century China and Byzantium, Routledge
- Gravett, Christopher (1990). Medieval Siege Warfare. Osprey Publishing.
- Hansen, Peter Vemming (April 1992). "Medieval Siege Engines Reconstructed: The Witch with Ropes for Hair". Military Illustrated (47): 15–20.
- Hansen, Peter Vemming (1992). "Experimental Reconstruction of the Medieval Trebuchet". Acta Archaeologica (63): 189–208. Archived from the original on 2007-04-03.
- Huuri, Kalervo (1941). "Zur Geschicte de mitterlalterlichen Geschützwesens aus orientalischen Quellen". Societas Orientalia Fennica, Studia Orientalia. 9 (3): 50–220.
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- Jahsman, William E.; MTA Associates (2001). FATAnalysis (PDF).
- Kardaras, Georgios (2019), Byzantium and the Avars, 6th–9th Century AD: Political, Diplomatic and Cultural Relations, Brill
- Archbishop of Thessalonike, John I (1979). Miracula S. Demetrii, ed. P. Lemerle, Les plus anciens recueils des miracles de saint Demitrius et la penetration des slaves dans les Balkans. Centre National de la Recherche Scientifique.
- Liang, Jieming (2006). Chinese Siege Warfare: Mechanical Artillery & Siege Weapons of Antiquity – An Illustrated History.
- Needham, Joseph (2004). Science and Civilization in China. Cambridge University Press. p. 218.
- Needham, Joseph (1986). Science and Civilization in China: Volume 4, Part 2. Taipei: Caves Books, Ltd.
- Needham, Joseph (1994), Science and Civilization in China 5–6
- Nicolle, David (2002), Medieval Siege Weapons 1, Osprey Publishing
- Noble, T. F. X., ed. (2009), Charlemagne and Louis the Pious: The Lives by Einhard, Notker, Ermoldus, Thegan and the Astronomer, Pennsylvania State University Press
- Payne-Gallwey, Sir Ralph (1903). "LVIII The Trebuchet". The Crossbow With a Treatise on the Balista and Catapult of the Ancients and an Appendix on the Catapult, Balista and Turkish Bow (Reprint ed.). pp. 308–315.
- Peterson, Leif Inge Ree (2013), Siege Warfare and Military Organization in the Successor States, Brill
- Purton, Peter (2006), The myth of the mangonel: torsion artillery in the Middle Ages
- Purton, Peter (2009), A History of the Early Medieval Siege c.450–1200, The Boydell Press
- Purton, Peter (2018), The Medieval Military Engineer: From the Roman Empire to the Sixteenth Century
- Saimre, Tanel (2007), Trebuchet – a gravity operated siege engine. A Study in Experimental Archaeology (PDF)
- Schneider, Rudolf (1910). Die Artillerie des Mittelalters. Berlin: Weidmannsche Buchhandlung.
- Siano, Donald B. (November 16, 2013). Trebuchet Mechanics (PDF).
- Al-Tarsusi (1947). Instruction of the masters on the means of deliverance from disasters in wars. Bodleian MS Hunt. 264. ed. Cahen, Claude, "Un traite d'armurerie compose pour Saladin". Bulletin d'etudes orientales 12 [1947–1948]:103–163.
- Tarver, W.T.S. (1995), The Traction Trebuchet: A Reconstruction of an Early Medieval Siege Engine
- Turnbull, Stephen (2001), Siege Weapons of the Far East (1) AD 612–1300, Osprey Publishing
External links
edit- Res Gestae, 4th century, by Ammianus Marcellinus
- Medieval Mechanical Artillery, by the Xenophon Group
- Onager Physics. An analysis of the Onager/Mangonel