A uniformly charged disc of radius r and having charge q rotates with constant angular velocity `omega`. The magnetic dipole moment of this disc is `(1)/(n)qomegar^(2)`. Find the value of n.

A uniformly charged thin conducting spherical shell of radius R and charge q is rotated with constant angular velocity omega about a diameter. The magnetic dipole moment of the system is

A uniform charged disc whose total charge has magnitude q and whose radius is r rotates with constant angular velocity of magnitude omega . What is the magnetic dipole moment?

A conducting ring of radius r having charge q is rotating with angular velocity omega about its axes. Find the magnetic field at the centre of the ring.

An electron of charge e , revolves round in an orbit of radius r with a uniform angular velocity omega . The magnetic dipole moment of the electron in the orbit is

Consider a nonconductiing disc of radius r and mass m which has a charge q distributed uniformly over it. The disk is rotated about its axis with an angluar speed omega .Magnetic moment of the disc is 1/Nqomegar^(2) .then find value of N .

A non-conducting disc having unifrom positive charge Q , is rotating about its axis with unifrom angular velocity omega .The magnetic field at the centre of the disc is.

A disc of radius R rotates with constant angular velocity omega about its own axis. Surface charge density of this disc varies as sigma = alphar^(2) , where r is the distance from the centre of disc. Determine the magnetic field intensity at the centre of disc.

A ring of mass m and radius R is given a charge q. It is then rotated about its axis with angular velocity omega .Find (iii)Magnetic moment of ring.

A disc of mass m has a charge Q distributed on its surface. It is rotating about an XX' with a angular velocity omega . The force acting on the disc is