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4 January, 10:50

A 5.5 g coin sliding to the right at 21.0 cm/s makes an elastic head-on collision with a 16.5 g coin that is initially at rest. After the collision, the 5.5 g coin moves to the left at 10.5 cm/s. (a) Find the final velocity of the other coin. cm/s (b) Find the amount of kinetic energy transferred to the 16.5 g coin. J

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  1. 4 January, 11:00
    0
    (a) 10.33 cm/s

    (b) 0.00088 J

    Explanation:

    Parameters given:

    Mass of first coin, m = 5.5g = 0.0055kg

    Mass of second coin, M = 16.5 = 0.0165kg

    Initial velocity of first coin, u = 21 cm/s

    Final velocity of first coin, v = - 10cm/s (because it's in the opposite direction of the initial motion)

    Initial velocity of second coin, U = 0 cm/s

    (a) Using principle of conservation of momentum:

    Total initial momentum = Total final momentum

    m*u + M*U = m*v + M*V

    U = 0

    => m*u + 0 = m*v + M*V

    m*u - m*v = M*V

    V = m (u - V) / M

    V = 0.0055 (21 - (-10)) / 0.0165

    V = 0.3333 * 31 = 10.33 cm/s

    (b) Kinetic energy is given as:

    KE = 0.5 * M * V²

    V = 10.33 cm/s = 0.1033 m/s

    KE = 0.5 * 0.0165 * 0.1033²

    KE = 0.00088 J
  2. 4 January, 11:40
    0
    (a) 0.105 m/s

    (b) 9.096*10⁻⁵ J

    Explanation:

    (a)

    From the law of conservation of momentum,

    Total momentum before collision = Total momentum after collision

    mu+m'u' = mv+m'v' ... Equation 1

    Where m = mass of the first coin, m' = mass of the second coin, u = initial velocity of the first coin, u' = initial velocity of the second coin, v = final velocity of the first coin, v' = final velocity of the second coin.

    Given: m = 5.5 g = 0.0055 kg, m' = 16.5 g = 0.0165 kg, u = 21.0 cm/s = 0.21 m/s, u' = 0 m/s (at rest), v = 10.5 cm/s = - 0.105 m/s (to the left)

    Substitute into equation 1

    0.0055 (0.21) + 0.00165 (0) = 0.0055 (-0.105) + 0.0165 (v')

    0.001155 = - 0.0005775+0.0165v'

    0.001155+0.0005775 = 0.0165v'

    v' = 0.0017325/0.0165

    v' = 0.105 m/s

    (b) The amount of kinetic energy transferred to the 16.5 g coin is given as

    Ek = 1/2m'v'²+1/2m'u'² ... Equation 2

    Given: m' = 0.0165 kg, v' = 0.105 m/s, u' = 0 m/s

    Substitute into equation 2

    Ek = 1/2 (0.0165) (0.105²) - 1/2 (0.0165) (0²)

    Ek = 1/2 (0.0165) (0.011025) - 0

    Ek = 9.096*10⁻⁵ J
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Home » Physics » A 5.5 g coin sliding to the right at 21.0 cm/s makes an elastic head-on collision with a 16.5 g coin that is initially at rest. After the collision, the 5.5 g coin moves to the left at 10.5 cm/s. (a) Find the final velocity of the other coin.
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