A particle of mass m and charge q moving with velocity v enters the region of uniform magnetic field at right angle to the direction of its motion. How does its kinetic energy get affected?

A particle of mass m and positive charge q ,moving with a uniform velocity v enters a magnetic field B as shown in figure.(a) Find the radius of the circular arc it describes in the magnetic field. (b)Find the angle subtended by the arc at the centre. (c) How long does the particle stay inside the magnetic field? (d)Solve the three parts of the above problem if the charge q on the particle is negative.

A particle having mass m and charge q is projected with a velocity v making an angle q with the direction of a uniform magnetic field B. Calculate the magnitude of change in velocity of the particle after time t=(pim)/(2qB) .

A proton, a deutron and an alpha - particle accelerated through the same potential difference enter a region of uniform magnetic field, moving at right angles to it. What is the ratio of their kinetic energy?

A charge particle of charge q and mass m is moving with velocity v as shown in fig In a uniform magnetic field B along -ve z-direction.Select the correct alternative (s).

A particle of mass m and charge q , moving with velocity v enters Region II normal to the boundary as shown in the figure. Region II has a uniform magnetic field B perpendicular to the plane of the paper . The length of the region II is l . Choose the correct choice(s).

A particle of mass m, charge e and velocity v moving in a magnetic field E perpendicular to the motion of particle. The radius of its paith is:

A particle of mass m, charge e and velocity v moving in a magnetic field B perpendicular to the motion of particle. The radius of its path is: