An electron accelerated through 500 V , enters a transverse uniform magnetic field of magnitude 100 mT . The radius of the circular path described by the electron is nearly

An electron (mass m, charge -e), accelerated through a potential difference V, enters normally a uniform magnetic field B. What will be the radius of the circular motion of the electron ?

Electron oving with different speeds enters a transverse uniform magnetic field. They will describe circular path

An electron of mass m and charge e is accelerated by a potential difference V. It then enters a uniform magnetic field B applied perpendicular to its path. The radius of the circular path of the electron is

An electron of mass m and charge e is accelerated by a potential difference V. It then enters a uniform magnetic field B applied perpendicular to its path. The radius of the circular path of the electron is

An electron after being accelerated through a potential difference of 100 V enters a uniform magnetic field of 0*004T , perpendicular to its direction of motion. Calculate the radius of the path described by the electron.

An electron is accelerated through a PD of 100 V and then enters a region where it is moving perpendiculasr to a magnetic fiedl B=0.2T . Find the radius of the circular path. Repeat this problem for a proton.

An electron is accelerated through a PD of 100 V and then enters a region where it is moving perpendiculasr to a magnetic fiedl B=0.2T . Find the radius of the circular path. Repeat this problem for a proton.

A particle of mass m and charge q enters a magnetic field B perpendicularly with a velocity v , The radius of the circular path described by it will be

The path of an electron in a uniform magnetic field may be

An electron emitted by a heated cathode and accelerated through a potential difference of 2.0 kV, enters a region with uniform magnetic field of 0.15 T. Determine the trajectory of the electron if the field is transverse to its initial velocity.