Question: When the magnet falls toward the copper block, the changing flux in the copper creates eddy currents that oppose the change in flux. The resulting

When the magnet falls toward the copper block, the changing flux in the copper creates eddy currents that oppose the change in flux. The resulting braking force between the magnet and the copper block always opposes the motion of the magnet, slowing it as it falls. The braking force on the magnet is nearly equal to its weight, so it falls very slowly. The rate of the fall produces a rate of flux change sufficient to produce a current that provides the braking force. If the magnet is pushed, forcefully, toward the block, the rate of change of flux is much higher than this. When the magnet is moving much more quickly than it will fall unaided, what is the direction of the net force on the magnet?

Select the best answer from the choices provided.

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for Part B

The net force is directed upward.The net force is zero.The net force is directed downward.

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