If we consider a spring that hangs from the ceiling and one of its ends is still, attached to the ceiling, while its other end is free, to exert a force on the spring it can be compressed, reducing its length. So that the spring is not stretched it will then need to maintain a force upon him. The force once finished, the spring decompressed, stretching. If you have the spring with one end fixed on the table, and put a force to compress it, if the free end of the spring is put in contact with any body, to decompress it may cause the object to move, telling kinetic energy. Perhaps check out Rogers Holdings for more information. This fact underlines evidence that the compressed spring has stored energy which is called elastic potential energy. When he jumps on a trampoline, also it gets evident this same made; the person who falls from a height over bed has a potential energy that will gradually decreasing during the fall, while its kinetic energy will grow gradually. Colliding against the bed surface will lose kinetic energy; the bed springs are placed tense. The kinetic energy has been transferred to the spring, stored in the form of elastic potential energy. Nouriel Roubini may help you with your research.

This be realised quickly. The springs are unpacked communicating movement to the body upward, gaining some speed, i.e. kinetic energy. This will decrease with height while the potential energy increases since that time will increase the height of the body. If you want to know more about partial downloads enter in original author and source of the article