An 8kg ball travelling at 4m/s collides head on with a 3kg ball travelling at 14m/s. Rhe balls bounce off each other and travel back the way

Question

An 8kg ball travelling at 4m/s collides head on with a 3kg ball travelling at 14m/s. Rhe balls bounce off each other and travel back the way they came. The 8kg ball travels away at 2m/s calculate velocity of 3kg ball after the collision.

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Thành Công 3 years 2021-07-19T19:30:24+00:00 1 Answers 1576 views 7

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  1. phucdien
    3
    2021-07-19T19:32:13+00:00
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    Answer:

    Explanation:

    There are a couple of assumptions I had to make here and also a couple of rules based on what I use in my classroom when I teach the Law of Momentum Conservation. First of all, I am going to call the 8kg ball 1 and say that it is moving to the right (and right is positive), and that means that the 3kg ball is ball 2 and say that it is moving to the left (and left is negative). I had to assume that the 2 balls were moving towards each other; hence, the different signs assigned to their movement. I also added in another significant digit since we have only 1 in most of these values and adding in a .0 is not going to change the value of any number. The Law of Momentum Conservation in this particular instance says

    [m_1v_1+m_2v_2]_b=[m_1v_1+m_2v_2]_a which is the mathematical way of saying that the momentum after the collision is the same as the momentum before it. Filling in:

    [(8.0*4.0)+(3.0*-14)]_b=[(8.0*-2.0)+(3.0*v)]_a and doing the math here simplifies to

    32 – 42 = -16 + 3.0v and

    -10 = -16 + 3.0v and

    6.0 = 3.0v so

    v = 2.0 (and the positive indicates that ball 2 is now moving to the right)

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