The distance between a proton and an electron both having a charge `1.6xx10^-19` coulomb of a hydrogen atom is `10^-10` metre. The value of intensity of electric field produced on the electron due to proton will be

Infinite charges of magnitude q each are lying at x=1,2,4,8…… metre on x-axis. The value of intensity of electric field at point x=0 due to these charges will be

A simplified model of hydrogen atom consists of an electron revolving about a proton at a distance of 5.3 xx 10^-1 1m. The charge on a proton is +1.6 xx 10^-19 C. Calculate the intensity of the electric field due to proton at this distance.

In a hydrogen atom, the distance between proton and electron is 5.3xx10^-11m . The electrical force of attraction between them will be

A potential difference of 5000 volt is applied between two parallel plates 5cm apart a small oil drop having a charge of 9.6 xx 10^-19 C falls between the plates. Find (a) electric field intensity between the plates and (b) the force on the oil drop.

The number of electrons removed from a body in order to produce positive charge of 5 xx 10^-19 coulomb on it, will be

The force exerted by an electric field on a charge of 5 micro-coulomb is 10 xx 10^-4 N. What is the electric intensity of the field at the point?

The time period of revolution of electron in its ground state orbit in a hydrogen atom is 1.6 × 10–16 s. The frequency of revolution of the electron in its first excited state (in s–1) is:

An electron of mass m, charge e falls through a distance h metre in a uniform electric field E. Then time of fall