If a particle of charge q is moving with velocity `v` along x-axis and the magnetic field B is acting along Y-axis, use the expression `vecF=q(vecv xx vecB)` to find the direction of force `vecF` acting on it.

A particle of charge ‘q’moves with a velocity v at an angle ‘0’ to a magnetic field ‘B’. What is the force experienced by the particle ?

An electron is moving along X-axis in a magnetic field acting along Y-axis. What is the direction of magnetic force acting on it?

An electron is moving along X-axis in a magnetic field acting along Y-axis. What is the direction of magnetic field acting on it?

The force vecF experienced by a particle of charge q moving with velocity vecv in a magnetic field vecB is given by vecF=q(vecv xx vecB) , which pair of vectors are always at right angle to each other?

A charged particle moves with velocity vecv in a uniform magnetic field vecB . The magnetic force experienced by the particle is

A charge q moves in a region, where electric field vecE and magnetic field vecB both exist, then the force on it is

Write a relation for the force vecF acting on a charge carrier q moving with velocity vecv through the magnetic field vecB in vector notation. Using this relation, deduce the conditions under which this force will be minimum?

Write a relation for the force vecF acting on a charge carrier q moving with velocity vecv through the magnetic field vecB in vector notation. Using this relation, deduce the conditions under which this force will be maximum?