trebuchet n : medieval artillery used during sieges; a heavy war engine for hurling large stones and other missiles [syn: catapult, arbalest, arbalist, ballista, bricole, mangonel, onager, trebucket]

English

Pronunciation

• a UK /ˈtɹɛb.jə.ʃeɪ/|/ˈtɹɛb.jʊu.ʃeɪ/; "trEb.j@.SeI/|/"trEb.j@U.SeI/
• a US

Noun

1. A medieval siege engine consisting of a large pivoting arm heavily weighted on one end. Considered to be the technological successor to the catapult.

Translations

• Swedish: blida

A trebuchet or trebucket is a siege engine that was employed in the Middle Ages either to smash masonry walls or to throw projectiles over them. It is sometimes called a “counterweight trebuchet” or "counterpoise trebuchet" in order to distinguish it from an earlier weapon that has come to be called the “traction trebuchet”, though this is redundant.

The counterweight trebuchet appeared in both Christian and Muslim lands around the Mediterranean in the twelfth century. It could fling three-hundred-pound (140 kg) projectiles at high speeds into enemy fortifications. On occasion, disease-infected corpses were flung into cities in an attempt to infect the people under siege—a medieval variant of biological warfare. Trebuchets appear in China in about the 4th century BCE and in Europe in the 6th century CE, and did not become obsolete until the 16th century, well after the introduction of gunpowder. Trebuchets were far more accurate than other medieval catapults.

The basic workings of a trebuchet

A trebuchet works by using the mechanical principle of leverage to propel a stone or other projectile much farther and more accurately than a catapult, which swings off of the ground. The sling and the arm swing up to the vertical position, where usually assisted by a hook, one end of the sling releases, propelling the projectile towards the target with great force.

Many advancements have been made upon the trebuchet. Scientists are still in argument over whether the ancients used wheels to absorb some of the excess power and put it back into the projectile. It is known that troughs, often rotated in either direction for aiming, were used for the projectile to slide along, thus increasing accuracy. A bar placed at the stopping point of the arm may have been used to take more advantage of the wood (or metal)'s natural springiness, though this much more resembles a catapult.

Trebuchets vs. Torsion

The trebuchet is often confused with the earlier, less powerful torsion engines. The main difference is that a torsion engine (examples of which include the mangonel and ballista) uses a twisted rope or twine to provide power, whereas a trebuchet uses a counterweight on a fulcrum, usually much closer to the fulcrum than the payload for mechanical advantage, though this is not necessary. A trebuchet also usually has a sling holding the projectile, which provides a larger arc without having to have a taller trebuchet, because it can be tucked underneath.

Both trebuchets and torsion engines are classified under the generic term "catapult," which includes any non-handheld mechanical device designed to hurl an object without the aid of an explosive substance.

Floating Arm Trebuchet

A floating arm trebuchet (FAT) is a modern variant of a trebuchet. The main difference is that an FAT drops the weight straight downwards from a longer height, and the arm is mounted on wheels to keep it from interfering. This increases the energy output, even with an arm with less mechanical advantage.

History

The trebuchet derives from the ancient sling. A variation of the sling contained a short piece of wood to extend the arm and provide greater leverage. This evolved into the traction trebuchet by the Chinese, in which a number of people pull on ropes attached to the short arm of a lever that has a sling on the long arm. This type of trebuchet is smaller and has a shorter range, but is a more portable machine and has a faster rate of fire than larger, counterweight-powered types. The smallest traction trebuchets could be powered by the weight and pulling strength of one person using a single rope, but most were designed and sized for between 15 and 45 men, generally two per rope. These teams would sometimes be local citizens helping in the siege or in the defense of their town. Traction trebuchets had a range of 100 to 200 feet when casting weights up to 250 pounds. It is believed that the first traction trebuchets were used by the Mohists in China as early as in the 5th century BCE, descriptions of which can be found in the Mojing (compiled in the 4th century BCE).

The traction trebuchet next appeared in Byzantium. The Strategikon of Emperor Maurice, composed in the late 6th century, calls for "ballistae revolving in both directions," (Βαλλίςτρας έκατηρωθεν στρεφόμενας), probably traction trebuchets (Dennis 1998, p. 99). The Miracles of St. Demetrius, composed by John I, archbishop of Thessalonike, clearly describe traction trebuchets in the Avaro-Slav artillery: "Hanging from the back sides of these pieces of timber were slings and from the front strong ropes, by which, pulling down and releasing the sling, they propel the stones up high and with a loud noise." (John I 597 1:154, ed. Lemerle 1979)

There is some doubt as to the exact period in which traction trebuchets, or knowledge of them, reached Scandinavia. The Vikings may have known of them at a very early stage, as the monk Abbo de St. Germain reports on the siege of Paris in his epic De bello Parisiaco dated about CE 890 that engines of war were used. Another source mentions that Nordic people or "the Norsemen" used engines of war at the siege of Angers as early as CE 873.

The first clearly written record of a counterweight trebuchet comes from an Islamic scholar, Mardi bin Ali al-Tarsusi, who wrote a military manual for Saladin circa 1187. He describes a hybrid trebuchet that he said had the same hurling power as a traction machine pulled by fifty men due to "the constant force [of gravity], whereas men differ in their pulling force." (Showing his mechanical proficiency, Tarsusi designed his trebuchet so that as it was fired it cocked a supplementary crossbow, probably to protect the engineers from attack.) http://www.historynet.com/wars_conflicts/weaponry/3823351.html?page=2&c=y.

He allegedly wrote "Trebuchets are machines invented by unbelieving devils." (Al-Tarsusi, Bodleian MS 264). This suggests that by the time of Saladin, Muslims were acquainted with counterweight engines, but did not believe that Muslims had invented them. Al-Tarsusi does not specifically say that the "unbelieving devils" were Christian Europeans, though Saladin was fighting Crusaders for much of his reign, and the manuscript predates the Chinese and Mongol weapons (Needham p. 218). They took about twelve days to build depending on how big the structure was going to be.

In his book, Medieval Siege, Jim Bradbury http://books.google.com/books?id=fKFRvUiLEQYC extensively quotes from Mardi ibn Ali concerning mangonels of various types, including Arab, Perisan and Turkish, describing what could be trebuchets, but not quoted as above. In On the Social Origins of Medieval Institutions http://books.google.com/books?id=OVX8j0zR6QYC, more detailed quotes by Mardi ibn Ali may be found on the various types of trebuchets, including the "Christian" type used by the Crusaders.

P.E. Chevedden states that his recent research shows that trebuchets reached the eastern Mediterranean by the late 500s, were known in Arabia and were used with great effect by Islamic armies. The technological sophistication for which Islam later became known was already manifest. He says that in particular, Islamic technical literature has been neglected. The most important surviving technical treatise on these machines is Kitab Aniq fi al-Manajaniq ( كتاب أنيق في المنجنيق, An Elegant Book on Trebuchets), written in 1462 by Yusuf ibn Urunbugha al-Zaradkash. One of the most profusely illustrated Arabic manuscripts ever produced, it provides detailed construction and operating information.

Chevedden further states: Engineers thickened walls to withstand the new artillery and redesigned fortifications to employ trebuchets against attackers. Architects working under al-Adil (1196–1218), Saladin’s brother and successor, introduced a defensive system that used gravity-powered trebuchets mounted on the platforms of towers to prevent enemy artillery from coming within effective range. These towers, designed primarily as artillery emplacements, took on enormous proportions to accommodate the larger trebuchets, and castles were transformed from walled enclosures with a few small towers into clusters of large towers joined by short stretches of curtain walls. The towers on the citadels of Damascus, Cairo and Bosra are massive structures, as large as 30 meters square.

At the Siege of Acre in 1191, Richard the Lionheart assembled two trebuchets which he named "God's Own Catapult" and "Bad Neighbour". During a siege of Stirling Castle in 1304, Edward Longshanks ordered his engineers to make a giant trebuchet for the English army, named "Warwolf". Range and size of the weapons varied. In 1421 the future Charles VII of France commissioned a trebuchet (coyllar) that could shoot a stone of 800 kg, while in 1188 at Ashyun, rocks up to 1,500 kg were used. Average weight of the projectiles was probably around 50-100 kg, with a range of ca. 300 meters. Rate of fire could be noteworthy: at the siege of Lisbon (1147), two engines were capable of launching a stone every 15 seconds. Also human corpses could be used in special occasion: in 1422 Prince Korybut, for example, in the siege of Karlštejn shot men and manure within the enemy walls, apparently managing to spread infection among the defenders.

Counterweight trebuchets do not appear with certainty in Chinese historical records until about CE 1268, when the Mongols laid siege to Fancheng and Xiangyang, although Joseph Needham has propounded the view that Qiang Shen, a Chinese commander of the Jurchen Jin Dynasty, 1115-1234, may have invented an early counterweight engine independently in CE 1232 (Needham, Volume 4, p. 30). At the Siege of Fancheng and Xiangyang, the Mongol army, unable to capture the cities despite besieging the Song defenders for years, brought in two Persian engineers who built hinged counterweight trebuchets and soon reduced the cities to rubble, forcing the surrender of the garrison. These engines were called by the Chinese historians the Huihui Pao (回回砲)("huihui" means Muslim) or Xiangyang Pao (襄陽砲), because they were first encountered in that battle.

The largest trebuchets needed exceptional quantities of timber: at the siege of Damietta, in 1249, Louis IX of France was able to build a stockade for the whole Crusade camp with the wood from 24 captured Egyptian trebuchets.

With the introduction of gunpowder, the trebuchet lost its place as the siege engine of choice to the cannon. Trebuchets were used both at the siege of Burgos (1475-1476) and siege of Rhodes (1480). The last recorded military use was by Hernán Cortés, at the 1521 siege of the Aztec capital Tenochtitlán. Accounts of the attack note that its use was motivated by the limited supply of gunpowder. The attempt was reportedly unsuccessful: the first projectile landed on the trebuchet itself, destroying it.

In 1779 British forces defending Gibraltar, finding that their cannons were unable to fire far enough for some purposes, constructed a trebuchet. It is unknown how successful this was: the Spanish attackers were eventually defeated, but this was largely due to a sortie.

Models

• Medieval Warfare
• Onager
• Siege Engine

References

• Scientific Americanhttp://www.deremilitari.org/resources/pdfs/trebuchet.pdf
• Scientific American (Original Version)http://www.deremilitari.org/resources/pdfs/trebuchet.pdf
• Scientific American (Reduced Online Version with fewer images)http://www.deremilitari.org/resources/pdfs/sciam.pdf
• Dumbarton Oaks Papers, No. 54http://www.doaks.org/DOP54/DP54ch4.pdf
• Dumbarton Oaks Papers, No. 54http://www.doaks.org/DOP54/DP54ch4pl.pdf
• Medieval Siege Warfare
• http://www.middelaldercentret.dk/acta.html
• The Counterweighted Trebuchet -- an Excellent Example of Applied Retromechanicshttp://www.thehurl.org/tiki-download_file.php?fileId=9
• FATAnalysis http://www.ripcord.ws/FATAnalysis.PDF
• Miracula S. Demetrii, ed. P. Lemerle, Les plus anciens recueils des miracles de saint Demitrius et la penetration des slaves dans les Balkans
• Chinese Siege Warfare: Mechanical Artillery & Siege Weapons of Antiquity - An Illustrated History
• Science and Civilization in China
• Needham, Joseph (1986). Science and Civilization in China: Volume 4, Part 2. Taipei: Caves Books, Ltd.
• The Crossbow With a Treatise on the Balista and Catapult of the Ancients and an Appendix on the Catapult, Balista and Turkish Bow
• TREBUCHET – A GRAVITY-OPERATED SIEGE ENGINE A Study in Experimental Archaeologyhttp://tank.offline.ee/lugemine/Trebuchet.pdf
• Trebuchet Mechanicshttp://www.algobeautytreb.com/trebmath35.pdf
• 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"

External links

• Secrets of Lost Empires: Medieval Siege (building of and history of trebuchets), from the NOVA website
• Trebuchet Mechanics (in PDF format)
• Video of a Spring Trebuchet in action
• Homemade Propped CW Trebuchet Design
• Historical accounts of the Trebuchet
• Evolution of Sling Weapons
• Blueprints for a Trebuchet