A thin non-conducting ring of mass m carrying a charge q can freely rotate about its axis. At t=0
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A non-conducting ring of mass m and radius R has a charge Q uniformly distributed over its circumference. The ring is placed on a rough horizontal surface such that plane of the ring is parallel to the surface. A vertical magnetic field B=B0t2 tesla is switched on. After 2 a from switching on the magnetic field the ring is just about to rotate about vertical axis through its centre. (a) Find friction coefficient μ between the ring and the surface. (b) If magnetic field is switched off after 4s, then find the angle rotated by the ring before coming to stop after switching off the magnetic field.
07
Sep
A non-conducting ring of mass m and radius R has a charge Q uniformly distributed over its circumference. The ring is placed on a rough horizontal surface such that plane of the ring is parallel to the surface. A vertical magnetic field B=B0t2 tesla is switched on. After 2 a from switching on the magnetic [...]
A thin non-conducting ring of mass m carrying a charge q can freely rotate about its axis. At t=0, the ring was at rest and no magnetic field was present. Then suddenly a magnetic field B was set perpendicular to the plane. Find the angular velocity acquired by the ring.
07
Sep
A thin non-conducting ring of mass m carrying a charge q can freely rotate about its axis. At t=0, the ring was at rest and no magnetic field was present. Then suddenly a magnetic field B was set perpendicular to the plane. Find the angular velocity acquired by the ring. A thin non-conducting ring of [...]