As shown in the figure below, cars #1 and #2 are sliding across a horizontal frictionless surface.   The cars are equipped with a coupling arrangement similar to the one on railroad cars. Car #1 overtakes car #2 and they have a totally inelastic collision and become coupled together. You know the mass of each car;  m1 = 16.5 kg and m2 = 46.0 kg. In addition, you are provided with the following graph, which shows the momentum of car #1 before, during and after the collision. Determine the velocity (in m/s) of car #2 before the collision.

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Hello I needed help with this question:
 
As shown in the figure below, cars #1 and #2 are sliding across a horizontal frictionless surface.
 
The cars are equipped with a coupling arrangement similar to the one on railroad cars. Car #1 overtakes car #2 and they have a totally inelastic collision and become coupled together. You know the mass of each car; 
m1 = 16.5 kg and m2 = 46.0 kg. In addition, you are provided with the following graph, which shows the momentum of car #1 before, during and after the collision. Determine the velocity (in m/s) of car #2 before the collision.
 
p (kg. m/s)
100
40
t (s)
Transcribed Image Text:p (kg. m/s) 100 40 t (s)
my
m2
Transcribed Image Text:my m2
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