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28 September, 19:39

g A 5.60-kilogram hoop starts from rest at a height 1.80 m above the base of an inclined plane and rolls down under the influence of gravity. What is the linear speed of the hoop's center of mass just as the hoop leaves the incline and rolls onto a horizontal surface? (Neglect friction.)

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Answers (2)
  1. 28 September, 21:16
    0
    4.24m/s

    Explanation:

    Potential energy at the top = kinetic energy at the button

    But kinetic energy = sum of linear and rotational kinetic energy of the hoop

    PE = mgh

    KE = 1/2 mv^2

    RE = 1/2 I ω^2

    Where

    m = mass of the hoop

    v = linear velocity

    g = acceleration due to gravity

    h = height

    I = moment of inertia

    ω = angular velocity of the hoop.

    But

    I = m r^2 for hoop and ω = v/r

    giving

    m g h = 1/2 m v^2 + 1/2 (m r^2) (v^2/r^2) = 1/2 m v^2 + 1/2 m v^2 = m v^2

    and m's cancel

    g h = v^2

    Hence

    v = √gh

    v = √10*1.8

    v = 4.24m/s
  2. 28 September, 21:36
    0
    Linear speed = 4.2 m/s

    Explanation:

    Potential Energy at top = Kinetic Energy at bottom

    Now, KE is the sum of linear and rotational kinetic energy.

    Thus,

    mgh = (1/2) mv² + (1/2) Iω²

    Moment of Inertia for hoop; I = mr² Also, angular velocity; ω = v/r

    Thus,

    mgh = (1/2) mv² + (1/2) (mr²) (v/r) ² = mgh = (1/2) mv² + (1/2) mv²

    mgh = mv²

    The m will cancel out and so;

    gh = v²

    9.81 (1.80) = v²

    v² = 17.658

    v = √17.658

    v = 4.2 m/s
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