1
Question
A vertical conducting ring of radius R falls vertically under gravity in a horizontal magnetic field of magnitude B0. Direction of B0 is perpendicular to the plane of ring. when speed of ring becomes v,
A vertical conducting ring of radius R falls vertically under gravity in a horizontal magnetic field of magnitude B0. Direction of B0 is perpendicular to the plane of ring. when speed of ring becomes v,
Open in App
Solution
The correct options are
A Points C and D are at same potential.
C Time to gain speed v is more than vg
EMF across AB is BVl. So, there will be a charge movement and accumulation from B to A, until the electrostatic potential difference becomes equal to the EMF across A to B. Since, v is increasing, the EMF is also increasing, so there will be a continuous flow of charges from B to A. Because of this current, there will be a force on the ring in the upward direction. So the acceleration of the ring is less than g, so the time taken is more than vg.
The line joining C and D is along the direction of speed, so there is no induced EMF across C and D.
A Points C and D are at same potential.
C Time to gain speed v is more than vg
EMF across AB is BVl. So, there will be a charge movement and accumulation from B to A, until the electrostatic potential difference becomes equal to the EMF across A to B. Since, v is increasing, the EMF is also increasing, so there will be a continuous flow of charges from B to A. Because of this current, there will be a force on the ring in the upward direction. So the acceleration of the ring is less than g, so the time taken is more than vg.
The line joining C and D is along the direction of speed, so there is no induced EMF across C and D.
Suggest Corrections
8
Similar questions
View More
Join BYJU'S Learning Program
Explore more
Join BYJU'S Learning Program
