Question

A ball with a mass of `6 kg` and velocity of `8 m/s` collides with a second ball with a mass of `5 kg` and velocity of `- 2 m/s`. If `10%` of the kinetic energy is lost, what are the final velocities of the balls?

Answer 1

The final velocities are `=-0.61ms^-1` and `=8.33ms^-1`

Explanation:

We have conservation of momentum

`m_1u_1+m_2u_2=m_1v_1+m_2v_2`

The kinetic energy is

`k(1/2m_1u_1^2+1/2m_2u_2^2)=1/2m_1v_1^2+1/2m_2v_2^2`

Therefore,

`6xx8+5xx(-2)=6v_1+5v_2`

`6v_1+5v_2=38`

`5v_2=38-6v_1`

`v_2=((38-6v_1))/5`........................`(1)`

and

`0.9(1/2xx6xx8^2+1/2xx5xx(-2)^2)=1/2xx6xxv_1^2+1/2xx5xxv_2^2`

`6v_1^2+5v_2^2=363.6`...................`(2)`

Solving for `v_1` and `v_2` in equation s `(1)` and `(2)`

`6v_1^2+5(((38-6v_1))/5)^2=363.6`

`30v_1^2+36v_1^2-576v_1+1444-1818=0`

`66v_1^2-576v_1-374=0`

`33v_1^2-288v_1-187=0`

Solving this quadratic equation in `v_1`

`v_1=(288+-sqrt(288^2+4xx33xx(187)))/(2*33)`

`v_1=(288+-sqrt(107628))/(66)`

`v_1=(288+-328.1)/(66)`

`v_1=9.33ms^-1` or `v_1=-0.61ms^-1`

`v_2=-3.60ms^-1` or `v_2=8.33ms^-1`