If a charged particle is thrown with double the speed in a region of transverse magnetic field, how do its radius and time period of revolution change?

If a charged particle goes unaccelerated in a region containing electric and magnetic fields,

Two protons enter a region of transverse magnetic field. What will be ratio of time period of revolution if the ratio of energy is 2 sqrt2 : sqrt3 ?

If a charged particle is a plane perpendicular to a uniform magnetic field with a time period T Then

A charged particle moving with a uniform velocity vecv enters a region where uniform electric and magnetic fields vecE and vecB are present. It passes through the region without any change in its velocity. What can we conclude about the (i) relative direction of vecE , vecV and vecB ? (ii) magnetic of vecE and vecB ? or Find the condition under which the charged particle moving with different speeds in the presence of electric and magnetic field vectors can be used to select charged particles of a particular speeds.

A charge moves in a circle perpendicular to a magnetic field. The time period of revolution is independent of

Force acting on a moving charged particle in a region of electric and magnetic fields is called

A charged particle moves in a circular path in a uniform magnetic field. If its speed is reduced, then its tiem period will