A charged particle would continue to move with a constant velocity in a region wherein,

A charged particle is moving with constant velocity in a region, then in which of the following possibility of E & B in that region, is this possible. (a) E=0, B=0 (b) E=0, Bne0 (c) Ene0, B=0 (d) Ene0, Bne0

A charged particle moving along +ve x-direction with a velocity v enters a region where there is a uniform magnetic field B_0(-hat k), from x=0 to x=d. The particle gets deflected at an angle theta from its initial path. The specific charge of the particle is

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 particle moves with constant angular velocity in a circle. During the motion its

If a particle is moving with a constant velocity, what is its acceleration?

Assertion: In successive time intervals if the average velocities of a particle are equal then the particle must be moving with constant velocity. Reason: When a particle moves with uniform velocity, its displacement always increases with time.