Question

A spring with a constant of `6` `kgs^-2` is lying on the ground with one end attached to a wall. An object with a mass of `7` `kg` and speed of `2` `ms^-1` collides with and compresses the spring until it stops moving. How much will the spring compress?

Answer 1

When the initial kinetic energy, `14` `J` is converted to spring potential energy, the spring will be compressed by `2.16` `m`.

Explanation:

The kinetic energy of the moving mass will be converted to spring potential energy.

Initial kinetic energy:

`E_k=1/2mv^2=1/2*7*2^2=14` `J`.

Final spring potential energy:

`E_p=1/2kx^2`.

Rearranging: `x=sqrt((2E_p)/k)=sqrt((2*14)/6)~~2.16` `m`