An electron having charge `1.6xx10^(-19)C` and mass `9xx10^(-31)` kg is moving with `4xx10^(6)ms^(-1)` speed in a magnetic field `2xx10^(-1)` tesla in circular orbit. The force acting on electron and the radius of the circular orbit will be

An electron (mass =9xx10^(-31)kg . Charge =1.6xx10^(-19)C) whose kinetic energy is 7.2xx10^(-18) joule is moving in a circular orbit in a magnetic field of 9xx10^(-5) "weber"//m . The radius of the orbit is

An electron has mass 9xx10^(-31)kg and change 1.6xx10^(-19)C is moving with a velocity of 10^(6)m//s , enters a region where magnetic field exists. If it describes a circle of radius 0.10m , the intensity of magnetic field must be

The electron with change (q=1.6xx10^(-19)C) moves in an orbit of radius 5xx10^(-11) m with a speed of 2.2xx10^(6)ms^(-1) , around an atom. The equivalent current is

An electron in a television picture tube travels at 3xx10^(7) m/s. It is subjected to a transverse magnetic field of 2xx10^(-3)Wb//m^(2). What is the magnitude of the lateral foce acting on the electron, due to the action of the magnetic field ? Charge on the electron =-1.6 xx10^(-19) C.

An electron (mass =9.0xx10^(-31) kg and charge =1.6xx10^(-19) coulomb) is moving in a circular orbit in a magnetic field of 1.0xx10^(-4)"weber"//m^(2) . Its perido of revolution is

Electrons move at right angles to a magnetic field of 1.5xx10^(-2) Tesla with a speed of 6xx10^(7)m//s . If the specific charge of the electron is 1.7xx10^(11)C//kg . The radius of the circular path will be

An electron (q = 1.6 × 10^(-19) C) is moving at right angles to a uniform magnetic field of 3.534 xx10^(-5) T The time taken by the electron to complete a circular orbit is

The radius of the path of an electron moving at a speed of 3xx10^(7) ms^(-1) perpendiuclar to a magnetic field 5xx10^(-4) T is nearly

An electron is revolving in a circular path of radius 2xx10^(-10) m with a speed of 3xx10^(6) m/s. The magnetic field at the centre of circular path will be-