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23 March, 16:33

A uniform thin rod of length 0.400 m and mass 4.40 kg can rotate in a horizontal plane about a vertical axis through its center. the rod is at rest when a 3.0 g bullet traveling in the rotation plane is fired into one end of the rod. as viewed from above, the bullet's path makes angle θ = 60° with the rod. if the bullet lodges in the rod and the angular velocity of the rod is 17 rad/s immediately after the collision, what is the bullet's speed just before impact?

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  1. 23 March, 17:19
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    The rod has a mass of m = 4.4 kg and a length of L = 0.4 m.

    Its polar moment of inertia is

    J = (mL²) / 12

    = (1/12) * [ (4.4 kg) * (0.4 m) ²]

    = 0.05867 kg-m²

    The mass of the bullet is 0.3 g.

    If its velocity is v m/s, then its linear momentum is

    P = (0.3 x 10⁻³ kg) * (v m/s)

    Its linear momentum perpendicular to the rod is

    P*sin (60°) = 2.5981 x 10⁻⁴ v (kg-m) / s

    The angular momentum about the center of the rod when the bullet strikes is

    T = (2.5981 x 10⁻⁴ v (kg-m) / s) * (0.2 m) = 5.1962 x 10⁻⁵ v (kg-m²) / s

    Because the bullet lodges into the end of the rod, the combined polar moment of inertia is

    J + (0.3 x 10⁻³ kg) * (0.2 m) ² = 0.05867 + 1.2 x 10⁻⁵ = 0.0587 kg-m²

    The initial angular velocity is ω = 17 rad/s.

    Because angular momentum is conserved, therefore

    5.1962 x 10⁻⁵ v (kg-m²) / s = (0.0587 kg-m²) * (17 rad/s)

    v = 19204 m/s

    Answer: 19204 m/s
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