Conservation of momentum theory question

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Homework Help Overview

The discussion revolves around the concept of conservation of momentum in physics, particularly in scenarios involving collisions and direction of motion. The original poster presents a situation with two skaters, questioning how to determine when one skater's velocity might be in the opposite direction after an interaction.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the implications of momentum being a vector and question how to identify when momentum is conserved or when direction changes occur. There is a focus on understanding the conditions under which skaters might move in opposite directions after a push.

Discussion Status

Participants are actively questioning the assumptions related to momentum conservation and directionality. Some guidance has been offered regarding the application of conservation of momentum, but there is no explicit consensus on recognizing the conditions for direction changes.

Contextual Notes

There is an underlying assumption that momentum is always conserved, which some participants are examining. The complexity of different scenarios involving collisions is acknowledged, with a note that additional information may be required for more complicated cases.

Apollinaria
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Hi,

I was wondering how one could know when velocity would be in the opposite direction in a momentum question.

For example, two skaters are skating together (as one) at the same speed.
Skater A pushes skater B and B moves at 13m/s. Find the speed of skater A.

I found it and it's the correct answer. But I assumed skater A would still be moving in the same direction as opposed to the opposite direction (after pushing).

So, logic?...
 
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Recall that momentum is a vector. So if the direction of motion of skater A were reversed, his momentum would be different. Only one solution will conserve momentum.
 
True. But when is it reversed? How do I know when it is reversed?
Edit: Just based on the fact that momentum is conserved? In that case, how do I know when it's conserved? I assumed it always is.
 
Apollinaria said:
Edit: Just based on the fact that momentum is conserved? In that case, how do I know when it's conserved? I assumed it always is.
That would be a good assumption.
 
Doc Al said:
That would be a good assumption.

How do we end up with people/objects going in different directions upon collision then? I've done those types of questions too. Sometimes I get the correct answer and sometimes I don't. I'd like to know a way of recognizing the problem.
 
Apollinaria said:
How do we end up with people/objects going in different directions upon collision then? I've done those types of questions too. Sometimes I get the correct answer and sometimes I don't. I'd like to know a way of recognizing the problem.
All you need to do is apply conservation of momentum. It will tell you the direction of motion.

That's all you need for this problem. Other problems may be more complicated and might require additional information.
 
Lol, okay, thanks very much for your help :)
 

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