A charged particle entering a magnetic field from outside in a direction perpendicular to the field

A charged particle moves through a magnetic field in a direction perpendicular to it. Then the

A n electrically charged particle enters into a uniform magnetic induction field in a direction perpendicular to the field with a velocity v then it travels

A proton and an alpha-particle enter a magnetic field in a direction perpendicular to it. If the force acting on the proton is twice that acting on the alpha-particle , the ratio of their velocities is

A charged particle entering magnetic field obliquely will describe a path

A proton and a deuteron with the same initial kinetic energy enter a magnetic field in a a direction perpendicular to the direction of the field . The ratio of the radii of the circular trajectories described by them is

A charged particle is moving in a magnetic field of strength B perpendicular to the direction of the field. If q and m denote the charge and mass of the particle respectively, then the frequency of rotation of the particle is

STATEMENT-1: When a charged particle eneters a magnetic field from outside, its cannot complete one rotation inside the field. STATEMENT-2: The entry and exit of a charged particle into and out of a uniform magnetic filed are symmetrical.

A charged particle enters into a uniform magnetic field with velocity v_(0) perpendicular to it , the length of magnetic field is x=sqrt(3)/(2)R , where R is the radius of the circular path of the particle in the field .The magnitude of change in velocity of the particle when it comes out of the field is