Question

A dry cleaner throws a 20 kg bag of laundry onto a stationary 8.3 kg cart. the cart and laundry bag begin moving at 2.6 m/s to the right. find the velocity of the laundry bag before the collision. answer in units of m/s. answer

Answer 1

The total momentum before and after the collision must be conserved.

- Let's start from the end: at this point, both cart and laundry bag are moving together, with a total mass of (m1+m2) and velocity 2.6 m/s. Therefore, the total momentum is

`p_f = (m_1+m_2) v_f =(20 kg+8.3 kg)(2.6 m/s)=73.6 kg \cdot m/s`

- The momentum must be conserved, so the initial momentum must be equal to this value:

`p_i = p_f = 73.6 kg \cdot m/s`

- At the beginning, the cart is stationary, so its momentum is zero. There is only one momentum, the one of the bag, which has a mass of 20 kg and unknwon velocity vi:

`p_i = m_1 v_i`

- So, using the conservation of momentum we find

`m_1 v_i = 73.6 kg \cdot m/s`
and from this, the initial velocity of the laundry bag:

`v_i = (p_f)/(m_1)= (73.6 kg \cdot m/s)/(20 kg)=3.7 m/s`