An electron beam passes through a magnetic field of `4xx10^-3 weber//m^2` and an electric field of `2xx10^4Vm^-1`, both acting simultaneously. The path of electron remaining undeviated, calcualte the speed of the electrons. If the electric field is removed, what will be the radius of the electron path?

An electron beam passes through a magnetic field of 2xx10^-3 weber//m^2 and an electric field of 1*0xx10^4Vm^-1 both acting simultaneously. The path of electrons remaining undeviated, calculate the speed of the electrons. If the electric field is removed what will be the radius of the electron path?

An electron beam passes through a magnitic field of 2xx10^(-3) "weber"//m^(2) and an electric field of 1.0 xx 10^(4) "volt/m" both acting simultaneously. If the electric field is removed, what will be the radius of the electron path ?

An electron beam passes through crossed electric and magnetic fields of 3.4xx10^(4) Vm^(-1) and 2xx10^(-3)Wbm^(-2) respectively. If the path of the beam remains undeviated, calculate the speed of the electrons . If the electric field is removed, what will be the radius of the circular path described by the electrons ?

An electron beam passes through a magnetic field of 2xx10^(-3) Wb//m^(2) and an electric field of 3.2xx10^(4) V//m , both acting simultaneously. (vecE_|_vecB_|_vecV) If the path of electrons remains undeflected calculate the speed of [mass of electron =9.1xx10^(-31)kg ]?

An electron beam passes through a magnetic field of 2xx10^(-3) Wb//m^(2) and an electric field of 3.2xx10^(4) V//m , both acting simultaneously. (vecE_|_vecB_|_vecV) If the path of electrons remains undeflected calculate the speed of [mass of electron =9.1xx10^(-31)kg ]?

an electron beam passes through a magnetic field of magnetic induction 2 xx 10^(-3)T and an electric field of strength 3.4 xx 10^(4) V//m both acting simultaneously in mutually perpendicular directions. If the path of electrons remains undeviated, calculate the speed of the electrons. If the electric field is removed, what will be the radius of curvature of the trajectory of the electron path after 2s?

An electron beam is passing through a magnetic field of 5 xx 10^(-4) T and electric field of 3 xx 10^(5) V m^(-1) , both acting simultaneously. Calculate the speed of electrons if the electron beap goes undeviated. What will be radius of the path oh removal of electric field?