The electrostatic force of repulsion between two positively charged ions carrying equal charge is `3.7xx10^(-9)N` when they are separated by a distance of `5Å`. How many electrons are missing from each ion?

Calculate the force of repulsion acting between two positive charges of magnitude 20 esu and 30 esu when they are kept at a distance of 2 cm in air.

Two point charges +10muC and -10muC are separated by a distance of 40 cm in air. How much work is required to separate the two charges infinitely away from each other?

Two point charge q_(1) = 10 xx 10^(-8)C and q_(2) = -2 xx 10^(-8)C are separated by a distance of 6 cm in air. (ii) The electrostatic potential energy of the system is

Coulomb’s law for electrostatic force between two point charges and Newton’s Jaw of gravitational force between dependence on the distance between the charges/ masses. Compare the strength of these forces by determining the ratio of their magnitudes : for an electron and a proton and

An electric dipole is formed by two equal but opposite charges , each of magnitude 1mu C , separated by a distance of 5 cm. what is the magnitude of the torque required to place the dipole at right angles to an electric field of intensity 3 xx 10^5 N * C ^ ( - 1 ) ?

The electrostatic force between two point charges and the gravitational attractive force between two point masses- both are inversely proportional to the square of the distance between the charges and the masses, respectively. (1)(a) Compare the eletrostatic force (F_(C)) and the gravitational force (F_(G)) between an electron and a proton. (b) Compare F_(C) and F_(G) between two protons. (ii) Find out the accelerations of an electron and of a proton due to the electrostatic force between them when htey are placed at a distance of 1 Å