Momentum Conservation in Collisions: Equal Mass Carts

In summary, momentum is conserved at each instant before, during and after a collision between two carts. This is due to Newton's 1st, 2nd and 3rd Laws. If the carts have equal mass and the collision is perfectly elastic, they will exchange velocities after the collision.
  • #1
nietzsche
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Homework Statement



When two carts collide, is momentum conserved at each instant before, during and after the collision? If the carts are of equal mass what happens to their individual momenta during and after the collision?

Homework Equations


The Attempt at a Solution



I'm actually unsure of what the question means. "If the carts are of equal mass what happens to their individual momenta during and after the collision?" During the collision? I'm confused because we normally just consider before the collision and after the collision, leaving out the complex in-between stuff.

As for after the collision, I think the answer is this. If cart 1 is moving at a velocity v relative to cart 2, and cart 2 is at rest, then after the collision, cart 1 will have 0 final momentum relative to cart 2, and cart 2 will have the same initial momentum that cart 1 had. Please correct me if I'm wrong.
 
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  • #2
Momentum is conserved at each instant before, during and after a collision. This is why,

1. Before and after a collision Newton's 1st Law holds, "An object will maintain its state of motion unless an unbalanced force acts on it." Each cart experiences no unbalanced force.

2. During the collision momentum is conserved because of Newton's 2nd and 3rd Laws. Cart 1 experiences a force due to Cart 2 and exerts an equal and opposite force on Cart 2 (Newton's 3rd Law.) Now from Newton's 2nd Law, momentum change (impulse) is force times time interval over which the force acts. Since the forces that the carts exert on one another are equal and opposite and act for the same time (as long as the carts are in contact), then the changes in momentum are equal and opposite. This means that their sum is zero, i.e. momentum is conserved. The masses of the carts are irrelevant.
 
  • #3
Thank you.

So does this necessarily mean that cart 1 will end up with cart 2's initial velocity, and cart 2 will end up with cart 1's initial velocity?
 
  • #4
No it does not necessarily mean that. The two carts will exchange velocities if (a) the masses are equal and (b) the collision is perfectly elastic.
 
  • #5
Ah thank you. Makes sense.
 

Related to Momentum Conservation in Collisions: Equal Mass Carts

1. What is conceptual momentum?

Conceptual momentum is the tendency of an idea or concept to continue to be accepted and utilized, even when new evidence or information challenges it. It is similar to the physical concept of momentum, where an object in motion tends to stay in motion unless acted upon by an external force.

2. How does conceptual momentum affect scientific progress?

Conceptual momentum can either hinder or aid scientific progress, depending on the situation. On one hand, it can prevent scientists from questioning and reevaluating long-held theories and ideas. On the other hand, it can also provide a foundation for new discoveries and help guide research in a certain direction.

3. What factors contribute to the development of conceptual momentum?

There are several factors that can contribute to the development of conceptual momentum, including societal and cultural beliefs, confirmation bias, and the influence of authority figures or experts in a particular field. It can also stem from the desire for simplicity and the tendency to resist change.

4. How can scientists overcome or challenge conceptual momentum?

To overcome or challenge conceptual momentum, scientists must be open-minded and willing to question and reevaluate their own beliefs and theories. This can involve actively seeking out new evidence and being open to alternative explanations. Collaboration and communication with other scientists can also help to challenge and overcome conceptual momentum.

5. Is conceptual momentum always a bad thing?

No, conceptual momentum is not always a bad thing. It can serve as a starting point for scientific inquiry and help guide research in a certain direction. However, it is important for scientists to be aware of its influence and not let it hinder their ability to critically evaluate and progress in their field.

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