Question

A ball is placed on a compressed spring. When the spring is released, the ball is observed to fly. What form of energy does the compressed spring possess?

Answer 1

Hint: Potential energy, the energy that is stored, which depends on a system's relative location. If compressed or extended, a spring has more potential energy. A steel ball has more potential energy when it is raised above the ground than when landing on Earth. This is willing to do some more work in the raised position.


Complete step-by-step answer:
Potential energy is a mechanism and not a particular object or particle; the planet and the elevated ball-composition system, for example, has more potential energy as these are more isolated from each other. Potential energy occurs in systems with components which exert magnitude forces on each other depending on the configuration or relative location of the components. The influence of gravity between the two relies solely on the space between the two in the earth-ball method. Work performed to detach or lift the ball moves extra energy to the system, where it is stored as potential gravitational force.
Potential energy is the energy which is possessed by the spring. Once the spring is released, the ball will travel away because potential energy has been transferred to kinetic energy. Due to its compact state, the compressed spring has elastic potential energy. As released, the spring's potential energy is converted into kinetic energy, which works with the ball as the ball is put on it and it is the kinetic energy of the ball by which it bounces away.


Note: Potential energy includes other forms, too. The electrical potential energy is deposited between the plates on a charged capacitor. This is generally considered chemical energy, a substance 's power to function or to produce heat by altering its structure, may be defined as potential energy from the reciprocal interactions between its molecules and atoms. Nuclear power is also a potential energy source.