Finding the Mass of a Puck in a 2-Dimensional Collision

AI Thread Summary
The discussion revolves around solving a physics problem involving a 2-dimensional collision between two pucks. Puck A has a known mass and velocities, while puck B's mass is unknown. The initial calculations using momentum conservation did not yield the correct answer, which is 0.22 kg according to the textbook. A participant identified a mistake in measuring the angle for puck A, which was incorrectly noted as 54 degrees instead of 45 degrees. With the corrected angle, the problem aligns with the textbook solution, confirming the importance of accurate angle measurement in collision problems.
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having trouble with this problem in my textbook

two pucks collide, puck A has a mass of 0.32kg, and an initial velocity of 0.04 m/s [54 N of E], and a final velocity of 0.034 m/s [N]
puck B's mass is unknown but has an initial velocity of 0.038 m/s [S of W] and a final velocity of 0.028 m/s [46.5 N of E]. Puck B's mass needs to be found.

Wheni tried it i used components but i did not get the right answer, the answer in the back of the book is 0.22kg. Does anyone else get this answer? if so could you explain how?? thanx.
 
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what equations did you use...i'm assuming pure elastic?
 
yeah i assumed that it was pure elastic, the equation used was..

(m1x)(v1x) +(m2x)(v2x) = (m1x)(v1fx) +(m2x)(v2fx)

(m1y)(v1y) +(m2y)(v2y) = (m1y)(v1fy) +(m2y)(v2fy)
 
Could you show me your complete procedure?
 
try using the conservation of Energy rather than momentum...cuz with teh Cons of Mom...it'd be best if you showed those angles...sorry lazy to draw it out myself.
 
bah! sorry for wasting your time, i measured the one angle wrong it was 45 instead of 54! thanks for your time though, with that change the problem does work out to the solution in the back.
 

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