![Given that I = moment of inertia, P(m) = magnetic dipole moment and B = magnetic induction, then the dimensional formula for I//P(m) B is same as that of Given that I = moment of inertia, P(m) = magnetic dipole moment and B = magnetic induction, then the dimensional formula for I//P(m) B is same as that of](https://d10lpgp6xz60nq.cloudfront.net/ss/web/367782.jpg)
Given that I = moment of inertia, P(m) = magnetic dipole moment and B = magnetic induction, then the dimensional formula for I//P(m) B is same as that of
![The magnetic moment of a circular coil of radius (r) , carrying a current (I) and number of turns (n) varies as The magnetic moment of a circular coil of radius (r) , carrying a current (I) and number of turns (n) varies as](https://i.ytimg.com/vi/zdokDrKMmGw/maxresdefault.jpg)
The magnetic moment of a circular coil of radius (r) , carrying a current (I) and number of turns (n) varies as
![The ratio of magnetic dipole moment of an electron of charge 'e' and mass 'm' in Bohr's orbit in hydrogen atom to its angular momentum is. The ratio of magnetic dipole moment of an electron of charge 'e' and mass 'm' in Bohr's orbit in hydrogen atom to its angular momentum is.](https://dwes9vv9u0550.cloudfront.net/images/395495/affaf688-3156-4b58-95f0-25ad0b99d68d.jpg)