Calculating m2: Spheres Collision Equation | Homework Help"

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The discussion centers on calculating the mass of a second sphere (m2) involved in a collision with a first sphere (m1) using the conservation of momentum. The initial conditions include m1 at 0.15 kg and moving at 4 m/s, while m2 is initially unknown and moving at 2 m/s. After the collision, m1 moves at 12 m/s and m2 at 10 m/s. The user initially calculated m2 as 0.04 kg but later corrected the equation to find m2 as 0.2 kg after consulting their teacher. The topic concluded with the correct value for m2 confirmed.
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Homework Statement



Two spheres S1 and S2 are moving towards each other. Let's say that the balls are the "O" letter

O--> <--O Where m1=0.15kg and u1=4m/s and m2=; and u2=2m/s. After the hit each other they will go like this
<--O O--> Where m1=0.15kg u1'=12m/s and m2=; u2'=10m/s
Find the m2

Homework Equations





The Attempt at a Solution



I did the following and i think it is correct.

m1*u1-u2=m1*u1'+u2'*v (v is the value m2 we are searching for)
0.15*4-2=-0.15*12+10*v
0.60-2=-1.8+10*v
0.4=10*v
10 10

v=0,04kg

Is this correct?
 
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0.15*4-2=-0.15*12+10*v
Missing the m2 just before the equal sign.
Each term in the momentum equation must be an m*v or m*u.
Easier to see that if you use m instead of v for mass.
 
Yes i know. My bad. I asked my teacher and it should be like that 0.60+1.8=2+10*v and then do 2.4/12 and we get 0.2. Thanks for the reply though. TOPIC CLOSED
 

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