A positively charged particle of charge 'q' enters in a uniform magnetic field B directed inward and is deflected a distance x after travelling a distance Y as shown in the figure. The magnitude of linear momentum of the particle is:

A charged particle q enters a region of uniform magnetic field B (out of page) and is deflected distance d after travelling a horizontal distance a. The magnitude of the momentum of the particle is

A charged particle q enters a region of uniform magnetic field B (out of page) and is deflected distance d after travelling a horizontal distance a. The magnitude of the momentum of the particle is

A positively charged particle moving due east enters a region of uniform magnetic field directed vertically upwards. The particle will

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

A positively charged particle moving due east enters a region of uniform magnetic field directed vertically upwards. The partical will be

A positively charged particle moving due east enters a region of uniform magnetic field directed vertically upwards. The partical will be

A positivively charged particle moving due east enters a region of uniform magnetic field directed vertically upwards. The particle will

A particle of charge+q eneters a region of uniform magnetic field B (directed into the plane of paper) as shown in the figure. Particle is deflected by a distance d along y-axis after travelling a distance of a along x axis. Find magnitude of linear momentum of particle in Newton-sec. (Given: a=3m, d=4m, Bq=0.32c-Tesla)