Think of a Bowling ball sitting on a shelf. The ball itself is no different from a bowling ball sitting on the floor, but one of them contains enough potential energy to break the bones in your foot if you drop it.
The energy that is converted when you stretch the elastic or string from its relaxed state is called potential energy by analogy, even though there's really no potential field equivalent to gravity.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
catapault elastic band hairband
A string under tension has potential energy, which will be liberated as kinetic energy should the string break or be released.
When a stretched string is released, the potential energy in the string is converted to kinetic energy, causing the string to vibrate due to the release of stored energy.
When you compress a string, the potential energy stored in the string increases. This potential energy is due to the elastic properties of the material and is stored as strain energy. When the string is released, this energy is converted back into kinetic energy as the string returns to its original shape.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
catapault elastic band hairband
A string under tension has potential energy, which will be liberated as kinetic energy should the string break or be released.
When a stretched string is released, the potential energy in the string is converted to kinetic energy, causing the string to vibrate due to the release of stored energy.
kinetic energy
When you compress a string, the potential energy stored in the string increases. This potential energy is due to the elastic properties of the material and is stored as strain energy. When the string is released, this energy is converted back into kinetic energy as the string returns to its original shape.
Kinetic energy and then to heat.
When a stretched string is released, the potential energy stored in the string is converted into kinetic energy as the string vibrates. This kinetic energy causes the string to oscillate back and forth until the energy is dissipated as sound waves.
It should be string. That is elastic potential energy
When a stretched string is released, the potential energy is converted into kinetic energy as the string vibrates. The string's vibrations create sound waves, which carry energy away in the form of sound.
When a stretched string is released, the potential energy stored in the string is converted into kinetic energy as the string vibrates back to its equilibrium position. This kinetic energy causes the string to oscillate and produce sound waves.
When an archer pulls the string on the bow, mechanical energy from the archer's muscles is transformed into potential energy stored in the bent bow. When the archer releases the bow, the potential energy in the bow is converted back into kinetic energy of the arrow as it is propelled forward.