Consider a hypothetic spherical body. Th...

Consider a hypothetic spherical body. The body is cut into two parts about the diameter. One of hemispherical portion has mass distribution m while the other portion has indentical charge distribution q. The body is rotated about the axis with constant speed `omega.` Then, the ratio of magnetic moment to angular momentum is

Similar Questions

Explore conceptually related problems

A non - conducting charged ring of charge q , mass m and radius r is rotated with constant angular speed omega . Find the ratio of its magnetic moment with angular momentum is

A thin uniform ring of radius R carrying charge q and mass m rotates about its axis with angular velocity omega . Find the ratio of its magnetic moment and angular momentum.

A thin uniformring of radius R carrying uniform charge Q and mass M rotates about its axis with angular velocity omega . The ratio of its magnetic moment and angular momentum is:

A thin uniform ring of radius R carrying charge q and mass m rotates about its axis with angular velocity omega . Find the ratio of its magnetic moment and angular momentum.

A non-conducting charged ring of charge q. mass m and radius r is rotated with constant angular speed omega . Find the ratio of its magnetic moment with angular momentum is ............. .

A charge q is given to a solid conducting sphere of mass m and is rotating about it's diameter with angular velocity omega .Then ratio of it's magnetic moment to its angular momentum is ..

A thin disc of radius R and mass M has charge q uniformly distributed on it. It rotates with angular velocity omega . The ratio of magnetic moment and angular momentum for the disc is

Similar Questions

Recommended Questions