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26 January, 19:15

2) Two ice skaters have masses m1 and m2 and are initially stationary. Their skates are identical. They push against one another and move in opposite directions with different speeds. While they are pushing against each other, any kinetic frictional forces acting on their skates can be ignored. However, once the skaters separate, kinetic frictional forces eventually bring them to a halt. As they glide to a halt, the magnitudes of their accelerations are equal, and skater 1 glides twice as far as skater 2. What is the ratio m1/m2 of their masses

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  1. 26 January, 22:21
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    m_1 / m_2 = sqrt (1 / 2)

    Explanation:

    Given:

    - Initial velocity of both skaters V_i = 0

    - Velocity of skater 1 after push = V_1

    - Velocity of skater after push = V_2

    - Distance traveled by skater 1 = s_1

    - Distance traveled by skater 2 = s_2

    - s_1 = 2*s_2

    - Accelerations of both skaters to halt is equal

    Find:

    What is the ratio m1/m2 of their masses

    Solution:

    - Apply conservation of momentum for two skaters just before and after the push as follows:

    P_i = P_f

    0 = m_1*V_1 - m_2*V_2

    - Evaluate: m_1 / m_2 = (V_2 / V_1)

    - Apply Conservation of Energy on both skaters as follows:

    - Skater 1:

    0.5*m_1*V_1^2 = u_k*m_1*g*s_1

    -Simplify: 0.5*V_1^2 = u_k*g * (2*s_2)

    - Skater 2:

    0.5*m_2*V_2^2 = u_k*m_2*g*s_2

    -Simplify: 0.5*V_2^2 = u_k*g*s_2

    - Divide the two energy equations for skaters:

    (V_1 / V_2) ^2 = 2

    (V_2 / V_1) ^2 = 1 / 2

    - simplify: (V_2 / V_1) = sqrt (1 / 2)

    -Hence from earlier momentum conservation results:

    m_1 / m_2 = (V_2 / V_1) = sqrt (1 / 2)
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