Question

A particle of mass m1 makes an elastic head on collision with a stationary particle of mass m2. the fraction of kinectic energy of m1 carried by m2?

Answer 1

Let initial velocity of particle `m_1` be `u_1`, final velocity of particle `m_1` be `v_1` and that of particle `m_2` be `v_2`.

Since collision is an elastic head on, from Law of Conservation of Momentum we have

`m_1u_1 = m_1 v_1 + m_2 v_2`
`=>m_2 v_2=m_1u_1 - m_1 v_1` .........(1)

From the Law of Conservation of kinetic energy we have

`1/2 m_1 u_1^2 = 1/2 m_1 v_1^2 + 1/2 m_2 v_2^2` .......(2)

Rewriting (1) as

`m_2v_2=m_1(u_1 - v_1 )` .......(3)

Rewriting (2) as

`m_2 v_2^2= m_1 (u_1^2-v_1^2)` .......(4)

Dividing (4) with (3)

`v_2=u_1+v_1` .......(2)

Eliminating `v_2` from (1) and (5) we get

`(m_1u_1 - m_1 v_1)/m_2=u_1+v_1`
`=>(m_1u_1 - m_1 v_1)=m_2u_1+m_2v_1`
`=>m_1u_1 -m_2u_1 =m_1 v_1+m_2v_1`
`=>(m_1 -m_2)/(m_1+m_2)u_1 =v_1` .........(6)

Fraction of KE of `m_1` carried by `m_2`

`(KE_i-KE_f)/(KE_i)=1-(KE_f)/(KE_i)=1-(1/2m_1v_1^2)/(1/2m_1u_1^2)=1-(v_1/u_1)^2`

Using (6) in above we get

Fraction of KE of `m_1` carried by `m_2` is

`1-[(m_1 -m_2)/(m_1+m_2)]^2=(4m_1m_2)/((m_1+m_2)^2)`