An electron entering field normally with a velocity `4 xx 10^7 ms^(-1)` travels a distance of 0.10 m in an electric field of intensity `3200 Vm^(-1)`. What is the deviation from its path?

An electron beam travels with a velocity of 1.6xx10^(7)ms^(-1) perpendicular to magnetic field of intensity 0.1 T. The radius of the path of the electron beam (m_(e)=9xx10^(-31)kg)

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.

An electron moving with a velocity 5 xx 10^(6)ms^(-1)hati in the uniform electric field of 5 xx 10^(7)Vm^(-1)hatj Find the magnitude and direction of a minimum uniform magnetic field in tesla that will cause the electron to move undeviated along its original path .

An electron beam is deflected by 1.76 mm in travelling a distance of 10 cm through an electric field of 1,800 V m^-1 acting perpendicular to its path. Find the electron chawrge to mass ratio, if average velocity of the electrons is 3xx10^7ms^-1

An electron is emittied with a veloctiy of 5 xx 10 ^(6) ms^(-1) . It is accelerated by an electric field in the direction of initial velocity at 3xx 10^(14) ms^(-2) . If its final velocity is 7xx10^(6) ms^(-1) calculation the distance coverd by the electron .

An electron moving with a velocity of 5 xx 10^(4)ms^(-1) enters into a uniform electirc field and acquires a uniform acceleration of 10^(4)ms^(-2) in the direction of its initial motion. Calculate the time in which the electron would acquire a velocity double of its initial velocity.