The kind of potential energy in a catapult is known as elastic potential energy. The potential energy that is in the catapult is used when you activate the catapult and the rock (or any kind of ammo) fires.
The energy in a catapult is stored as potential energy, specifically elastic potential energy. This energy is stored in the stretched material of the catapult, such as a spring or elastic band, ready to be converted into kinetic energy when the catapult is released.
A catapult has potential energy stored in its elastic materials or tension system. When the catapult is released, this potential energy is converted into kinetic energy, causing the projectile to launch forward.
When a catapult is fired, potential energy stored in the tensioned ropes or springs is rapidly converted into kinetic energy as the projectile is launched. The release mechanism of the catapult allows the potential energy to quickly transform into kinetic energy, propelling the projectile forward with force. This transfer of energy is what enables the catapult to launch objects over a distance.
A catapult has elastic potential energy when the elastic has been pulled back. This potential energy is stored in the stretched elastic material. When the catapult is released, this potential energy is converted into kinetic energy as the projectile is launched forward.
kenetic energy
The energy in a catapult is stored as potential energy, specifically elastic potential energy. This energy is stored in the stretched material of the catapult, such as a spring or elastic band, ready to be converted into kinetic energy when the catapult is released.
A catapult has potential energy stored in its elastic materials or tension system. When the catapult is released, this potential energy is converted into kinetic energy, causing the projectile to launch forward.
When a catapult is fired, potential energy stored in the tensioned ropes or springs is rapidly converted into kinetic energy as the projectile is launched. The release mechanism of the catapult allows the potential energy to quickly transform into kinetic energy, propelling the projectile forward with force. This transfer of energy is what enables the catapult to launch objects over a distance.
A catapult has elastic potential energy when the elastic has been pulled back. This potential energy is stored in the stretched elastic material. When the catapult is released, this potential energy is converted into kinetic energy as the projectile is launched forward.
kenetic energy
Elastic energy.
Elastic potential energy is stored when objects are bent or stretched. This type of energy is potential energy that is stored in an object when it is deformed (compressed, stretched, or bent) and has the ability to return to its original shape.
When a rubber band is stretched, it has potential energy. Any type of stored energy is known as potential energy.
That would be elastic potential energy.
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.
The stretched rubber band has potential energy due to its stretched position. This potential energy can be converted into kinetic energy when the rubber band is released and returns to its unstretched state.
When a rubber band is stretched, it has elastic potential energy. This energy is stored in the rubber band as a result of the deformation of its shape.