For each of these collisions, can we see that momentum is conserved? Show why or why not, based on your data. Data TablePi (kgm/s)Pzi (kgm/s)Paf (kgm/s) Pzf (kgm/s)Ball 1: 1.00 m/s rightBall 2: 0.50 m/s left+0.50-0.75-0.06-0.19Ball 1: 1.00 m/s rightBall 2: 0.50 m/s right+0.50+0.75+0.31+0.94In the space below, calculate the total momentum of the system and the individual momentum changes of Ball1 and Ball 2. Record them in the table below.|+Ap: (kgm/s) Ap2 (kgm/s) Prot.i (kgm/s) Rrot.t (kgm/s)Ball 1: 1.00 m/s rightBall 2: 0.50 m/s left-0.56+0.56-0.25-0.25Ball 1: 1.00 m/s rightBall 2: 0.50 m/s right-0.190.191.251.25

According to law of conservation of momentum:Pi=Pf----(1)Expanding above…

Answered: For each of these collisions, can we…

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For each of these collisions, can we see that momentum is conserved? Show why or why not, based on your data.

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Question

For each of these collisions, can we see that momentum is conserved? Show why or why not, based on your data.

Data Table
Pi (kgm/s)
Pzi (kgm/s)
Paf (kgm/s) Pzf (kgm/s)
Ball 1: 1.00 m/s right
Ball 2: 0.50 m/s left
+0.50
-0.75
-0.06
-0.19
Ball 1: 1.00 m/s right
Ball 2: 0.50 m/s right
+0.50
+0.75
+0.31
+0.94
In the space below, calculate the total momentum of the system and the individual momentum changes of Ball
1 and Ball 2. Record them in the table below.
|+
Ap: (kgm/s) Ap2 (kgm/s) Prot.i (kgm/s) Rrot.t (kgm/s)
Ball 1: 1.00 m/s right
Ball 2: 0.50 m/s left
-0.56
+0.56
-0.25
-0.25
Ball 1: 1.00 m/s right
Ball 2: 0.50 m/s right
-0.19
0.19
1.25
1.25

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