A particle carrying a cahrge equal to 100 times the charge on an electron is rotating per second in a circular path of radius 0.8m the value of the magnetic field produced at the centre will be `(mu_0`=permeability for vaccum)

An electron moving in a circular orbit of radius makes n rotations per second. The magnetic field produced at the centre has magnitude :

A current of 1 A is flowing through a circular coil of radius 10 cm having N turns. If the magnetic field produced at the centre of the coil be 4pixx10^(-6)T , what is the value of N ?

An alpha -particle moves in a circular path of radius 0.83 cm in the presence of a magnetic field of 0.25 Wb//m^(2) . What is the de Broglie wavelength associated with the particle?

How does the radius of a circular path of a charged particle moving in a uniform magnetic field depend on its momentum and charge?

A charged particle enters a magnetic field vec(B) perpendicularly with velocity v and keeps rotating along a circular path of radius r. What will happen if the magnitude of vec(B) is increased?

The radius of the first electron orbit of a hydrogen atom is 0.5overset@A . The electron moves in this orbit with a uniform speed of 2.2xx10^6 m/s . What is the magnetic field produced at the centre of the nucleus due to the motion of this electron?

An electron in a circular orbit of radius 0.05nm performs 10^(16) revolutions per second. The magnetic moment due to this rotation of electron is (in A . m^(2) )