[" An electron having kinetic energy "10eV" is "],[" circulating in a path of radius "0.1m" in an "],[" external magnetic field of intensity "10^(-4)T" ."],[" The speed of the electron will be "]

An electron having kinetic energy 10eV is circulating in a path of radius 0.1 m in an external magnetic field of intensity 10^(-4) T. The speed of the electron will be

An electron having kinetic energy 10eV is circulating in a path of radius 0.1 m in an external magnetic field of intensity 10^(-4) T. The speed of the electron will be

An electron having energy 10 eV is circulating in path of radius 0.1m having magnetic field 1.0xx10^(-4) Tesla, the speed of the electron will be

An electron having a kinetic energy of 100eV circulates in a path of radius 10cm in a magnetic field. Find the magnetic field and the number of revolutons per second made by the electron.

An electron having a kinetic energy of 100eV circulates in a path of radius 10cm in a magnetic field. Find the magnetic field and the number of revolutons per second made by the electron.

An electron having a kinetic energy of 400 eV circulates in a path of radius 20 cm in a magnetic field.Find the magnetic field and the number of revolutions per second made by the electron.

An electron having 182 eV kinetic energy is moving on a circular path in a magnetic field of 10^(-4)T . The speed of the electron is ......

Electron of mass m and charge q is travelling with a speed v along a circular path of radius at right angles to a uniform magnetic field of intensity B. If the speed of the electron is doubled and the magnetic field is halved the resulting path would have a radius

An electron is moving with a velocity of 10^(7) ms^(-1) on a circular path of radius 0.57 cm in a magnetic field of 10^(-2) Wbm^(-2) . Find the value of e//m for the electron.