Anna litical and noah formula are doing the cart and the brick lab. they drop a brick on a 2.6 kg cart moving at 28.2 cm/s. after the collision, the dropped brick and cart are moving together with a velocity of 15.7 cm/s. determine the mass of the dropped brick. audio guided solution

Question

Physics

Rigoberto

17 April, 02:11

Anna litical and noah formula are doing the cart and the brick lab. they drop a brick on a 2.6 kg cart moving at 28.2 cm/s. after the collision, the dropped brick and cart are moving together with a velocity of 15.7 cm/s. determine the mass of the dropped brick. audio guided solution

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Rachel French · Answer 1

Assuming no friction and that dropping the brick does not add any force towards the cart's motion:

We considered momentum to be conserved, so before the brick is dropped, the cart's momentum is mass * velocity, or 2.6 kg * 28.2 cm/s = 73.32 kg-cm/s.

If the brick has mass x, then the new momentum would be (2.6 + x) kg * 15.7 cm/s. We equate this to 73.32.

73.32 = (2.6 + x) * 15.7

x = 2.07

Therefore the brick has a mass of 2.07 kg