The energy stored in a compressed spring is called potential energy.
No, the energy stored in a compressed spring is called potential energy, specifically elastic potential energy. When the spring is released, this potential energy is converted into kinetic energy as the spring moves and accelerates.
The energy stored in a spring is called potential energy. This potential energy is stored when the spring is compressed or stretched, and it can be released as kinetic energy when the spring is allowed to return to its natural position.
A compressed spring has potential energy stored in the form of elastic potential energy. When the spring is released, this potential energy is converted into kinetic energy as the spring returns to its original shape.
Elastic potential energy is stored when you stretch a spring. This energy is a type of potential energy that is stored in an object when it is compressed or stretched.
Potential energy is stored in a spring when it is compressed or stretched. This potential energy is due to the elastic properties of the spring material, which allow it to store mechanical energy when deformed from its equilibrium position.
No, the energy stored in a compressed spring is called potential energy, specifically elastic potential energy. When the spring is released, this potential energy is converted into kinetic energy as the spring moves and accelerates.
The energy stored in a spring is called potential energy. This potential energy is stored when the spring is compressed or stretched, and it can be released as kinetic energy when the spring is allowed to return to its natural position.
A compressed spring has potential energy stored in the form of elastic potential energy. When the spring is released, this potential energy is converted into kinetic energy as the spring returns to its original shape.
Elastic potential energy is stored when you stretch a spring. This energy is a type of potential energy that is stored in an object when it is compressed or stretched.
Potential energy is stored in a spring when it is compressed or stretched. This potential energy is due to the elastic properties of the spring material, which allow it to store mechanical energy when deformed from its equilibrium position.
The work done by a spring when it is compressed or stretched is the energy stored in the spring due to the deformation. This energy is potential energy that can be released when the spring returns to its original shape.
Compressed springs release potential energy stored in the deformation of the spring when compressed. This potential energy is then converted into kinetic energy as the spring returns to its original shape and releases the stored energy in the form of mechanical work.
Elastic potential energy is stored in a stretched spring. When the spring is compressed or stretched, it gains potential energy that can be released when the spring returns to its original shape.
The potential energy of a spring is defined by this equation: U=.5kx2 U= potential energy (in joules) k= the spring constant x= the displacement of the spring from equilibrium. (the amount that the spring is stretched or compressed) This equation tells us that as a spring is compressed by a distance x, the potential energy increases proportionately to x2
When the handle of the plunger is released, the energy stored in the compressed spring is transferred into kinetic energy as the spring expands rapidly. This kinetic energy is then used to propel the plunger forward, performing work in the process.
True. A compressed spring has elastic potential energy due to the work done to compress it. This potential energy is stored in the spring and can be converted into kinetic energy when the spring is released.
No the energy stored in a compressed spring is not kinetic energy.