a. The magnitude of the change of the momentum of the 5-kg ball is equal to the magnitude of the change of momentum of the 10-kg ball.
c. The magnitude of the change of velocity the 5-kg ball experiences is greater than that of the 10-kg ball.
Explanation:
For an inelastic collision:
Using these facts, let's now analyze each statement given.
a. The magnitude of the change of the momentum of the 5-kg ball is equal to the magnitude of the change of momentum of the 10-kg ball. --> TRUE. Since the total momentum is conserved, we can write:
[tex]p_1 = p_1'+p_2'[/tex]
where
[tex]p_1[/tex] is the initial momentum of the 5-kg ball
[tex]p_1'[/tex] is the final momentum of the 5-kg ball
[tex]p_2'[/tex] is the final momentum of the 10-kg ball
The equation can be rewritten as
[tex]p_1-p_1'=p_2'[/tex]
which is equivalent to
[tex]-\Delta p_1 = \Delta p_2[/tex]
which means that the magnitude of the change of momentum of the two balls is the same.
b. Both balls lose all their momentum since the collision is inelastic. --> FALSE, the 10-kg ball gains momentum, so it does not lose it.
c. The magnitude of the change of velocity the 5-kg ball experiences is greater than that of the 10-kg ball. --> TRUE. We already said that the magnitude of the change in momentum of the two balls is the same. However, it can be written as
[tex]\Delta p = m\Delta v[/tex]
where m is the mass of the ball and [tex]\Delta v[/tex] its change in velocity. Therefore, the 5-kg ball (which has smaller mass) will have a larger [tex]\Delta v[/tex], so a larger change in velocity.
d. The magnitude of the change of velocity the 5-kg ball experiences is equal to that of the 10-kg ball. --> FALSE, as we discussed in c).
e. The magnitude of the change of velocity the 5-kg ball experiences is less than that of the 10-kg ball. --> FALSE, as we discussed in c).
Learn more about change in momentum:
brainly.com/question/9484203
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