In the elasticity of it being held down. It depends on which catapult mechanism, all catapults are powered by potential energy; for example the simple catapult is an elasctic band that is pulled back converting the energy used to pull it back (usually muscle power) into the potential energy in the stretched elastic band.
A catapult typically uses mechanical energy, which is converted from the potential energy stored in the tension of the catapult's arm or springs during its operation. When the catapult is triggered, this stored energy is released, propelling the object being launched.
It depends on the type of catapult but in broad terms:
During loading some physical effort is put in to pull the catapult into its firing position. Traditionally human energy but it could be an electric motor or some other form of energy. The energy is stored, typically in the form of spring compression. Some energy is lost as heat and sound.
When the catapult is fired the spring energy is converted into movement (kinetic) energy of the fired item. Some energy is lost as heat and sound.
From what I read about catapults, it seems that they store energy in torsion springs. The springs, of course, must be wound up - for example, with muscle power.
can someone help me?
It uses elastic energy.
A stretched catapult contains potential energy, specifically elastic potential energy, which is stored within the stretched material of the catapult. When released, this potential energy is converted into kinetic energy as the catapult launches an object forward.
A catapult has potential energy stored in the elastic material when it is pulled back. This potential energy is released when the catapult is triggered, converting into kinetic energy as the projectile is launched.
kenetic energy
A catapult uses the force of tension in the ropes or springs to launch a projectile. When the tension is released, it propels the projectile forward through a combination of mechanical energy and potential energy being converted into kinetic energy.
A catapult does not typically use a pulley. Catapults rely on stored energy, usually from a tension mechanism like a spring or twisted ropes, to launch projectiles. The release of this stored energy propels the projectile forward without the need for a pulley system.
A stretched catapult contains potential energy, specifically elastic potential energy, which is stored within the stretched material of the catapult. When released, this potential energy is converted into kinetic energy as the catapult launches an object forward.
A catapult has potential energy stored in the elastic material when it is pulled back. This potential energy is released when the catapult is triggered, converting into kinetic energy as the projectile is launched.
kenetic energy
A mangonel is a kind of catapult.
kinetic energy to gravitational potential energy
A catapult is actually a compound machine.
They used the catapult for war.
It relied on a torsion (twisting) to provide the energy for the throw, as opposed to a counterweight.
To achieve the most distance, you should set your catapult to release a projectile at 45 degrees angle relative to horizontal plane.Higher stored potential energy doesn't neccesarily mean more distance. Distance of the shot depends mainly on starting velocity, which in turn depends on rate at which catapult transfers the energy to the projectile. A limit for that depends on construction of the catapult.
You use a catapult to launch things into the air.
Bunjee jumping Catapult
Bones do not directly utilize energy for movement. Muscles, which are attached to bones, require energy in the form of adenosine triphosphate (ATP) to contract and generate movement. The bones themselves do not use energy for movement.