A small particle of mass m = 1 kg and charge of 1C enters perpendicularly in a triangular region of uniform magnetic field of strength 2T as shown in figure :

Calculate maximum velocity of the particle with which it should enter so that it complete a half-circle in magnetic region :

A small particle of mass m = 1 kg and charge of 1C enters perpendicularly in a triangular region of uniform magnetic field of strength 2T as shown in figure : In the previous question find the change in angular momentum of particle w.r.t centre of its circular path during its motion in magnetic field :

A small particle of mass m = 1 kg and charge of 1C enters perpendicularly in a triangular region of uniform magnetic field of strength 2T as shown in figure : In previous question, if particle enter perpendicularly with velocity 48 m/s in magnetic region. Then, how much time will it spend in magnetic region :

A particle enters the region of a uniform magnetic field as shown in figure. The path of the particle inside the field is shown by dark line. The particle is :

A charge particle of mass m and charge q is accelerated by a potential difference V volt. It enters in a region of uniform magnetic field Bas shown in figure-4.93. Find the time after which it will come out from the magnetic field.

Four particles enter a region of uniform magnetic field. Their trajectories are shown in figure. What are the signs of the charge of all four particles ?

A particle of mass m carrying charge q is accelerated by a potential difference V. It enters perpendicularly in a region of uniform magnetic field B and executes circular arc of radius R, then q/m equals

A particle of mass m=1.6xx10^-27 kg and charge q=1.6xx10^-19C enters a region of uniform magnetic field of stregth 1 T along the direction shown in figure. The speed of the particle is 10^7 m//s a. The magnetic field is directed along the inward normal to the plane of the paper. The particle leaves the region of the fiedl at the point F . Find the distasnce EF and the angle theta. b. If the direction of the field is along the outward normal to the plane of the paper find the time spent by the particle in the regin of the magnetic field after entering it at E .

A charged particle enters a region of uniform magnetic field at an angle of 85@ to the magnetic line of force . The path of the particle is a circle .

A particle of mass m and charge Q moving with a velocity v enters a region on uniform field of induction B Then its path in the region is s

In the figure shown, a charged particle of mass 2 g and charge 5 mu C enters a circular region of radius 10 cm , in which there is a uniform magnetic field of strength 4 T and directed perpendicular to the plane of circular region in the figure. If the particle velocity vector rotates through 90^(@) angle in passing through this region then its period is :