Magnetic moment of a particle with charge q rotating in a circular orbit of radius r and velocity v is p . Then

Statement I: Magnetic moment of an electron in the n-th orbit of hydrogen atom mu_n prop n . Statement II: Magnetic moment of a particle of charge e rotating in an orbit of radius r with velocity v is given by mu=1/2 evr .

A charge q is revolving along a circular path of radius r with velocity v . Determine its magnetic moment .

Two particles of equal charge are accelerated by a potential difference and they enter a uniform magnetic field perpendicularly. The particles started rotating in circular orbits of radii 10 cm and 5 cm. What is the ratio of their masses?

Define centripetal force.A particle of mass m is rotating around a circular path of radius r. Find the centripetal acceleration of the particle and the magnitude and direction of the centripetal force acting on it.

A particle of mass m is moving in a circular orbit of radius r in a force field given by vecF = -k/r^2 hatr . The angular momentum L of the particle about the centre varies as

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?

A particle of mass m is revolving along a circular path of radius r with uniform angular velocity omega . What will be the magnitude and direction of the angular momentum of that particle ?

Charge q_2 of mass m revolves around a stationary charge - q_1 in a circular orbit of radius r. The orbital periodic time of q_2 would be

Write the expression for Lorentz magnetic force on a particle of charge q moving with velocity oversetrarrV in a magnetic field oversetrarrB . Show that no work is done by this force on the charged particle.