Conservation of momentum velocity problem

AI Thread Summary
The discussion centers on a conservation of momentum problem involving a tube and two fragments. The individual believes the tube gains velocity after collisions with the fragments, particularly favoring movement to the left due to fragment A's greater impact. However, the provided answer states that the tube's velocity remains zero because the total momentum of the system is conserved and the fragments have equal and opposite momenta. The key takeaway is that momentum conservation, rather than just velocity changes, determines the system's behavior. The clarification resolves the confusion regarding the tube's motion post-collisions.
kozis
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Homework Statement are included in the attached image.

I've solved the first two parts, my question is about part c. It makes more sense for me to think that the tube has gained some velocity after the collisions and moves to one direction. Probably on the left because the velocity gained from fragment A is bigger than B. But the answer provided says that the velocity should be zero because nothing moves inside the tube and the system's momentum is zero. can someone please explain this to me? I really don't get it. As I mentioned before my thinking is that at first tube gains some velocity after fragment A collides on it and that after collision of fragment B,tube will still be moving with less velocity.
 

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kozis said:
It makes more sense for me to think that the tube has gained some velocity after the collisions and moves to one direction. Probably on the left because the velocity gained from fragment A is bigger than B.
What counts is the momentum, not just the velocity. And the fragments have equal and opposite momenta.
 
Ok I see now.. Thank you for your quick reply.
 

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