A neutral particle is at rest in a uniform magnetic field `vecB`.At `t=0`,particle decays into two particles each of mass `m` and one of them having charge `q` Both of these move off in separate paths lying in plane perpendicular to `vecB`.A later time,the particles collide.Find this time of collision neglecting the interaction force.

A neutral particle is at rest in a uniform magnetic field B . At time t = 0 it decays into two charged particles, each of mass m . (a) If the charge of one of the particles is +q , what is the charge of the other? (b) The two particles move off in separate paths, both of them lie in the plane perpendicular to B . At a later time, the particles collide. Express the time from decay until collision in terms of m, B and q .

A neutral particle is at rest in a uniform magnetic field B . At time t = 0 it decays into two charged particles, each of mass m . (a) If the charge of one of the particles is +q , what is the charge of the other? (b) The two particles move off in separate paths, both of them lie in the plane perpendicular to B . At a later time, the particles collide. Express the time from decay until collision in terms of m, B and q .

A charged particle moves with velocity v in a uniform magnetic field vecB . The magnetic force experienced by the particle is

A charged particle moves with velocity vecv in a uniform magnetic field vecB . The magnetic force experienced by the particle is

A charged particle moves with velocity vecv in a uniform magnetic field vecB . The magnetic force experienced by the particle is

A neutral particle at rest in a magnetic field decays into two charged particles of different mass. The energy released goes into their kinetic energy. Then what can be the path of the particles. Neglect any interaction between the two charges.

A neutral particle at rest in a magnetic field decays into two charged particles of different mass. The energy released goes into their kinetic energy. Then what can be the path of the particles. Neglect any interaction between the two charges.

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

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