An electron of mass m and charge q is accelerated from rest in a uniform electric field of strength E. The velocity acquired by it as it travels a distance l is …..

An electron of mass m and charge e is accelerated from rest through a potential difference V in vacuum. Its final velocity will be

An electron of mass m and charge e is accelerated from rest through a potential difference of V vot in vacuum. Ifs final speed will be

An electron moves a distance of 8cm when accelerated from rest by an electric field of strength 3 xx 10^(4) NC^(-1). Calculate the tme of travel.

A particle of charge q is placed at rest in a uniform electric field E and then released . The kinetic energy attained by the particle after moving a distance y is

A particle of mass m and charge q is thrown at a speed u against a uniform electric field E. How much distance will it travel before coming to momentary rest?

The velocity acquired by a charged particle of mass m and charge Q accelerated from rest by a potential of V is

A dipole of electric dipole moment p is placed in a uniform electrie field of strength E. If theta is the angle between positive directions of p and E, then the potential energy of the electric dipole is largest when theta is

A particle of mass 1 g and charge 2. 5 xx10^(-4) C is released from rest in an electric field of 1.2 xx 10^4 NC^(-1) (a) Find the electric force and the force of gravity acting on this particle. Can one of these forces be neglected in comparison with the other for approximate analysis? (b) How long will it take for the particle to travel a distance of 40 cm? (c) What will be the speed of the particle after travelling this destance? (d) how much is the work done by electric force on the particle during this period?

A block of mass m and positive charge q is placed on an insulated frictionless inclined plane as shown in the figure. A uniform electric field E is applied parallel to the inclined surface such that the block is at rest. Calculate the magnitude of the electric field E.