Question:medium

A conducting rod of length L and mass m falls vertically under gravity through a region of uniform magnetic field B, directed into the plane of the page. The rod is placed on two smooth, vertical conducting rails connected at the bottom by a resistor R. Assuming no friction or air resistance, and the rod quickly reaches a constant terminal velocity, find the expression for v in terms of B, L, m, R.

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In problems involving magnetic forces on moving conductors, remember that the current is induced by the motion of the rod through the magnetic field.

Updated On: Nov 26, 2025

\( \frac{mgR}{B^2 L^2} \)
\( \frac{mg}{B^2 L^2} \)
\( \frac{mgR}{B^2 L} \)
\( \frac{mR}{gB^2 L} \)

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