Elastic Collision Solution: Solving for Final Velocities

AI Thread Summary
In an elastic collision problem involving a 0.450 kg ice puck moving east at 3 m/s and a stationary 0.9 kg puck, the correct approach involves using both conservation of momentum and conservation of energy equations. The user initially struggled with the algebra but received guidance to utilize these two equations to solve for the final velocities of both pucks. It was suggested to consider the relative velocities before and after the collision, which simplifies the process. After re-evaluating the problem, the user successfully calculated the final speeds: 1 m/s to the left for the first puck and 2 m/s to the right for the second. This demonstrates the importance of applying the correct principles in solving elastic collision problems.
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Homework Statement


a .450kg ice puck moving east with a speed of 3 m/s has a head on collision with a .9 kg puck initially at rest. Assuming a perfectly elastic collision what will be the speed and direction of each object after the collision?


Homework Equations


v1 +v1f = v2+v2f
m1*v1+m2*v2=m1*v1f+m2*v2f
.5*m1*v1i^2 + .5*m2*v2i^2 = .5*m1*v1f^2 + >5*m2*v2f^2

The Attempt at a Solution


I've used the first equation listed and rearranged it for V2f in order to solve for V1f, and plugged that back into the second equation without luck. I've googled the solution to elastic collisions but that only confuses me more. Which equation am I supposed to plug this into? Once i have V1f can i use the first equation to solve for V2f, or do i need to go through the whole process again? It's a bit of algebra so i may have gotten lost somewhere in there. COuld someone just give me a play by play of what I'm supposed to do here to do this the short way, as I know the long way is using the 2nd and 3rd equations and that's WAY more algebra. All help is appreciated! Thanks in advance!
 
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Your approach is almost correct, though I don't think the first equation is generally applicable.

You have two unknowns (final speed for both objects) so you do need two equations to solve them both. One is conservation of momentum (second equation) and the other is conservation of energy (third equation). Try using those.
 
Try this too... generally, for elastic collisions, the relative velocity of two objects before a collision is reversed after the collision.

You could also try working in another frame... imagine that you were actually on the moving puck, and that the stationary puck is actually moving towards you at 3 m/s. After the collision, the (initially stationary) puck should be moving away from you at 3 m/s as well.
 
I got it! Thanks for the help. I went through it again, and was able to solve it using the conservation of momentum eq after plugging in the velocities. Got 1 m/s to the left for the first object and 2m/s to the right for the second. time to fry bigger fish :D
 

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