# Does compressing a spring gives it potential energy?

## Does compressing a spring gives it potential energy?

If an outside force (Fapplied) does work on the spring to stretch or compress it then the spring will gain energy. An object possesses elastic potential energy if it is stretched or compressed from its equilibrium position by an outside force (Fapplied).

When a compressed spring is placed in acid it dissolves what happens to the stored potential energy?

When the acid dissolves the spring molecules the P.E. stored in it is converted to K.E. and the new molecule it forms with acid ion has this extra K.E. Due to this the temperature of the acid increases slightly. It means that the elastic potential energy is converted to heat energy.

When a spring is compressed work is done on it its elastic potential energy?

This work done is stored in spring as elastic potential energy (PE) when the spring is compressed and hence elastic potential energy decreases.

READ ALSO:   What foods cause acid reflux to flare up?

### Is a compressed spring kinetic or potential energy?

For a spring, the potential energy is maximal when the spring is compressed and the kinetic energy is maximal when the mass passes equilibrium.

When a spring is compressed it is transferring elastic energy to the surroundings True or false?

Work is done when a spring is extended or compressed . Elastic potential energy is stored in the spring. Provided inelastic deformation has not happened, the work done is equal to the elastic potential energy stored.

When a spring is compressed the work is done on the spring the potential energy of the spring?

The elastic potential energy is equal to the work done on the spring, i.e. 1/2 kx2, where k is the spring constant and x is the change in the length of spring from normal position to the compressed position.

## When a compressed spring is released which energy is possessed by the spring?

The energy stored in a spring if it is compressed is called potential energy. It will be converted to kinetic energy when we release a compressed spring.

What is the elastic potential energy stored in the compressed spring?

Elastic potential energy is the potential energy stored by stretching or compressing an elastic object by an external force such as the stretching of a spring. It is equal to the work done to stretch the spring which depends on the spring constant k and the distance stretched.

When a spring is compressed and work is done on it its elastic potential energy?

This work done is stored in spring as elastic potential energy (PE) when the spring is compressed and hence elastic potential energy increases.

### When a spring is compressed or stretched the potential energy of the spring Mcq?

Explanation: The potential energy of a spring increases when it is compressed or stretched because work is done on it when it is compressed or stretched. 5.

What happens to elastic potential energy when a spring is compressed?

What energy is released when a compressed spring is released?

The compressed spring has stored potential energy. When you release the spring it is releasing that stored potential energy. So you release potential energy. Strain energy, to be specific. What that potential energy is converted into is another question. It is converted into kinetic energy if that stored energy is used to accelerate a mass.

READ ALSO:   How do I take animation courses?

## What happens when you compress a spring?

When we compress or extend a stretched spring, we experience a force equal to that applied by us in the opposite direction. But as soon as the stress is relieved, the spring attains its normal shape instantly. This is called as the spring potential energy.

What happens to potential energy when a spring is mixed with acid?

The potential energy stored in the atom of the spring will be converted into kinetic energy when they dissolve in the acid. and if the atoms dissolved in the acid have more kinetic energy the solution will take it as heat energy. so ultimately the potential energy will be converted to heat energy, i think.