A charge particle of mass m and charge q enters in a region of uniform magnetic field as shown in figure.The magnitude of change in linear momentum due to magnetic field will be

A proton of mass m and charge q enters a region of uniform magnetic field of a magnitude B with a velocity v directed perpendicular to the magnetic field. It moves in a circular path and leaves the magnetic field after completing a quarter of a circle. The time spent by the proton inside the magnetic field is proportional to:

If a charged particle enters perpendicular in the uniform magnetic field then

In the figure shown a positively charged particle of charge q and mass m enters into a uniform magnetic field of strength B as shown in the figure.The magnetic field points inwards and is present only within a region of width d .The initial velocity of the particle is perpendicular to the magnetic field and phi=30^(@) .Find the time spent by the particle inside the magnetic field if d=0.2 m,B=1T,q=1C,m=1kg and v=1m//s .Use sin 45^(@)=0.7 if required .

Two charges q_(1) and q_(2) having same magneitude of charge are moving parallel to each other and they enter into a region of uniform magnetic field as shown. If they have same mass and the time spent by them in the magnetic field are t_(1) and t_(2) respectively, then

The figure shows two regions of uniform magnetic field of strengths 2B and 2B. A charged particle of mass m and charge q enters the region of the magnetic field with a velocity upsilon = (q B w)/(m) , where w is the width of each region of the magnetic field. The time taken by the particle to come out of the region of the magnetic field is

A charge particle of mass m=5gm and charge q=12 muC enters along AB at point A in a uniform magnetic field of magnitude B=100 Tesla existing in a rectangular region of size (8m xx 6m) and into the plane of paper as shown in figure. The particle leaves the region at 'C' . The speed of the charge particle (in m/s) as it leaves the region is

A charged particle is moving in a circular path in uniform magnetic field. Match the following.

When a charged particle enters a uniform magnetic field its kinetic energy

A particle of mass m and charge q is thrown in a region where uniform gravitational field and electric field are present. The path of particle:

A charged particle of mass m and charge q describes circular motion of radius r in a uniform magnetic field of strength B the frequency of revolution is