An electron is released from rest at one point in uniform field and moves a distance of 10c cm in `10^(-7)` s. What is the voltage between the points?

an electron is released from rest in a region of uniform electric and magnetic field acting parallel to each other. The electron will (A) move in a straight line (B) move in a circle (C) remain stationary (D) move in a helical path

In the uniform electric field of E = 1 xx 10^(4) N C^(-1) , an electron is accelerated from rest. The velocity of the electron when it has travelled a distance of 2 xx 10^(-2) m is nearly ( (e)/(m) of electron = 1.8 xx 10^(11) C kg^(-1) )

An electron of mass 9xx10^(-31) kg carrying 1.6xx10^(-19) C starts from rest from one point and reaches a second conductor with a velocity 10^(7)ms^(-1) . Calculate the potential difference between the points.

Two charged metal plates in vacuum are 10cm apart. A uniform electric field of intensity (45//16)xx10^(3)NC^(-1) is applied between the plates. An electron is released between the plates from rest at a point just outside the negative plate. (a) Calculate how long (t) will the electron take to reach the other plate? (b) At what velocity (v) will it be electron take to hits teh other plate?

A particle of mass m and charge q is released from rest in uniform electric field of intensity E. Calculate the kinetic energy it attains afect moving a distance x between the plates.

What is the distance between the points S(-6,-3) and R(-12,-7) ?

There exists a uniform cylindrically symmetric magnetic field directed along the axis of a cylinder but varying with time as B=kt. If an electron is released from rest in this field at a distance of 'r' from the axis of cylinder, its acceleration, just after it is released would be (e and m are the electronic charge and mass respectively)