If a particle of charge q is moving with a velocity v in a direction opposite to the magnetic field B, then the force acting on the particle is.

A charged particle is moved along a magnetic field line. The magnetic force on the particle is

A particle of charge q moves with a velocity vecv = ahati in a magnetic field of vecB = b hatj + c hatk where a ,b and c are constants. The magnetic of the force experienced by the particle is

State the expression for magnetic force acting on a charge moving with velocity barv in an uniform magnetic field barB . State the important features of this force?

A charged particle moving with velocity vis subjected to electric field E and magnetic field B. The particle will go undeflected if

What will be the path of a charged particle moving along the direction of a uniform magnetic field?

A force of 1.732 xx 10^-2 N acts on a particle of charge moving with a velocity 1/(1000^th) of the velocity of light in a magnetic field 2sqrt3xx 10^-5T and perpendicular to the field then q is

An electron with charge e enters a uniform. magnetic field vec B with a velocity vec V . The velocity is perpendicular to the magnetic field. The force on the charge e is given by abs(vecF) = B ev Obtain the dimensions of vec B .

A conductor rod of length (l)is moving with velocity (v)in a direction normal to a uniform magnetic field (B).What will be the magnitude of induced emf produced between the ends of the moving conductor?

A particle of mass 'm' and charge 'q' is incident on XZ plane with velocity 'v' in a direction making angle theta with a uniform magnetic field applied along X-axis. The magnetic field applied along X-axis. The nature of motion performed by the particle is

A force of 1.732 xx 10^(-2) N acts on a particleof charge q moving with a velocity 1//1000^(th) of the velocity of light in a magnetic field of induction 2/sqrt(3) xx 10^(-5) Wb//m^(2) and perpendicular to the field then q is