A particle of charge `q` and mass `m` is prjected in a uniform and contant magnetic field of strength `B`.The initial velocity `vecv` makes angle `theta` with the `vecB`.Find the distance travelled by the particle in time `t`.

A positive charge particle of charge q and mass m enters into a uniform magnetic field with velocity v as shown in Fig. There is no magnetic field to the left of PQ. Find (a) time spent, (b) distance travelled in the magnetic field, (c) impulse of magnetic force.

A charged particle of charge q and mass m is shot into a uniform magnetic field of induction B at an angle theta with the field. The frequency of revolution of the particle

A positive charge particle of charge q, mass m enters into a uniform magnetic field with velocity v as shown in the figure . There is no magnetic field to the left of PQ . Find (i) time spent, (ii) distance travelled in the magnetic field (iii) inpulse of magnetic force.

A charged particle of mass m and charge q enters a magnetic field B with a velocity v at an angle theta with the direction of B . The radius fo the resulting path is

A particle of charge q and mass m, is fired perpenducular to a magnetic field (B) with a velocity v. What is the frequency of revolution of the particle?

A particle of charge -q and mass m enters a uniform magnetic field vecB (perpendicular to paper inward) at P with a velocity v_0 at an angle alpha and leaves the field at Q with velocity v at angle beta as shown in fig.

A charged particle of mass m & charge q enters a zone of uniform magnetic field B with a velocity v making an angle theta with the boundary of the zone, having width d , when the particle penetrates half-way into the zone, the change in energy of the particel is