It relied on a torsion (twisting) to provide the energy for the throw, as opposed to a counterweight.
Gravity and air resistance are key forces acting on most catapults. Depending on the type of catapult, there will also be either tension or torsion. Both are forms of elasticity. Catapults with torsion acting on them are usually ballistas while catapults with tension acting on them are simply called catapults.
The Romans did need machines. They did not invent the two most important ones, the ballista (a crossbow -like catapult) and the crane because they adopted them from the Greeks. They developed them further, massively improving them. They invented the onager, a one armed torsion catapult which could fire bigger round projectiles
you make a catapult!
A mangonel is a catapult, not a bridge.
Yes, it is a type of torsion catapult, invented in 1888, used by children in the 1940's.
A mangonel is the perfect example of a torsion engine. The drive provided to this ancient catapult comes from a mass of twisted ropes which create torsion and when released provide the energy required to hurl whatever it is you wish.
The torsion catapult was invented by the ancient Greek engineer named Dionysius of Byzantium. He designed this type of catapult in the 3rd century BC, which utilized twisted ropes to store and release energy for launching projectiles.
he invented the torsion catapult. As well as the balista along with other killing machines
In a torsion catapult, the main forces that act upon it are the torsional force applied to the twisted rope or spring when it is released, the gravitational force pulling the projectile downward, and air resistance opposing the motion of the projectile through the air. The torsional force causes the arm of the catapult to rotate and launch the projectile forward.
It relied on a torsion (twisting) to provide the energy for the throw, as opposed to a counterweight.
A catapult is a type of siege engine, sort of a non-chemical artillery. They hurled heavy spears by releasing the energy stored in torsion. In Britain, a "catapult" is an elastic toy that throws marbles or small stones, in the US the same thing is called a slingshot.
The Greek catapult, also known as the torsion catapult, is believed to have been invented around 400 BC. It was developed by engineers and military strategists through a process of trial and error, inspired by earlier siege weapons and using principles of torsion to store and release energy for launching projectiles. This innovation revolutionized ancient warfare and was used in battles and sieges by the Greeks and later by the Romans.
Gravity and air resistance are key forces acting on most catapults. Depending on the type of catapult, there will also be either tension or torsion. Both are forms of elasticity. Catapults with torsion acting on them are usually ballistas while catapults with tension acting on them are simply called catapults.
A catapult is a device used for throwing stones or other projectiles. It uses tension or torsion to store energy and release it rapidly to propel the object. Catapults were historically used in warfare for sieges or to launch projectiles over walls.
A catapult is a type of ancient siege weapon that uses tension or torsion mechanisms to launch projectiles. It typically consists of a throwing arm, a frame, and a mechanism to apply force. Catapults were used in warfare to hurl objects long distances with significant force.
The Romans did need machines. They did not invent the two most important ones, the ballista (a crossbow -like catapult) and the crane because they adopted them from the Greeks. They developed them further, massively improving them. They invented the onager, a one armed torsion catapult which could fire bigger round projectiles