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5 May, 18:19

You hold a metal ring horizontally above a bar magnet standing on its end. You drop the ring and catch it before it reaches the magnet. When, if ever, is a current induced in the ring?

Only when the ring stops falling

only when the ring starts falling

while the ring is falling

never, current is not induced

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  1. 5 May, 18:31
    0
    never, current is not induced

    Explanation:

    The induced emf in the ring equals the rate of change of magnetic flux in the ring.

    E = - dФ/dt = - dAB/dt = - BdA/dt since B the magnetic field is constant.

    E = - BdA/dt

    Now dA/dt = dA/dy * dy/dt where dA/dy = rate of change of area with vertical distance as the ring is falling. dy/dt = speed of ring.

    Since the ring is falling freely before being caught, its speed v is gotten from v = u + at where u = 0 and a = - g

    v = 0 - gt = - gt

    v = - gt

    So, dA/dt = dA/dy * dy/dt = vdA/dy = - gtdA/dy

    So E = - BdA/dt = - B * - gtdA/dy = BgtdA/dy

    Since dA/dy = 0 since the area of the ring does not change with vertical distance. So,

    E = BgtdA/dy = Bgt * 0 = 0

    E = 0

    So, emf is never induced because the flux through the ring remains constant
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