An electron enters in a magnetic held of induction 2 m T with velocity of `1.8 xx 10^(7)` m/s . The radius of circular path is

An electron moving at the speed of 10^(7) m/s , enters a magnetic field of induction 0.1 T at right angle to the velocity of electron . The radius of circular path followed by the electron is

An electron of mass 'm' is accelerated through a potential difference of V and then it enters a magnetic field of induction B . Normal to the lines of force. Then the radius of the circular path is

An electron entering a magnetic field of 0.01 T with a velocity of 10^(7) m s^(-1) describes a circle of radius 0.6 cm. Calculate e/m (specific charge) of the electron.

In a region of magnetic field 0.05 T directed along positive direction of Y-axis, a beam of charged particles enters the region along X-axis with a velocity of 2.5 xx 10^(4) m s^(-1) . Calculate the radius of circular path described by the charge particles if their charge to mass ratio is 7.5 xx 10^(6) C kg^(-1) .

If a charge particle of charge q , mass m , moves in a circular path in magnetic field of induction B , under a potential of V volts then radius of circular path is

An electron performs uniform circular motion in a region of magnetic field of induction 3 xx 10^(-3) Wb//m^(2) . If the radius of the circular path of the electron is 2 cm , then the momentum of the electron will be

calculate the force experinced by an electron when it enters a uniform magnetic field of strength 2 T with vleocity 0.2 xx 10^(8) m s^(-1) at right angles to the field. What kind of motion will it have in the magnetic field ? (Charge of electron 1.6 xx 10^(-19) coulomb.)

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