Calculate the coulomb force between two electrons separated by `0.8xx10^(-15) m`.

Find the coulomb's force between two protons placed at 8 xx 10^(-14) m distance.

Gravitational force between two objects separated by 20 cm is 1.0xx10^(-8) N . If total mass of the two objects is 5.0 kg, then the mass of the objects in kg, are

The nucleus in an iron atom has a radius of about 4.0xx10^(-15) m and contains 26 protons. What is the magnitude of the repulsive electrostatic force between two of the protons that are separated by 4.0xx10^(-15)m ?

The force between two electrons separated by a distance r varies as

Calculate the force of attraction between a proton and an electron separated by a distance of 8xx10^(-14) m

The average separation between the proton and the electron in a hydrogen atom in ground state is 5.3xx10^-11m. a. Calculate the Coulomb force between tehm at this separation. b. When the atom goes into its first excited state the average separation between the roton and the electron increases to four times its value in the ground state.What is th Coulomb force in this state?

A proton is nearly 1,836 times more massive than the electron. The Coulomb force of repulsion between two protons separated by a finite distance is F. The electrostatic force between two electrons separated by the same distance is: