Two protons in a `U^(238)` nucleus are `6.0xx10^(-15)m` apart. What is their mutual electric potential energy?

Two protons in a nucleus of U^238 are 6 xx 10^-15 m apart. Their mutual electrostatic potential energy is

In the nucleus of _(92) U^(238) , two porotns at a distance of 6xx10^-1 m . Calculate their electrostatic potential energy.

The classical method of a hydrogen atom in its normal, unexcited configuration has an electron that revolves around a proton at a distance of 5.3 xx 10^(11)m . (a) What is the electric potential due to the proton at the position of electron ? (b) Determine the electrostatic potential energy between the two particles.

The classical method of a hydrogen atom in its normal, unexcited configuration has an electron that revolves around a proton at a distance of 5.3 xx 10^(11)m . (a) What is the electric potential due to the proton at the position of electron ? (b) Determine the electrostatic potential energy between the two particles.

The radius of a nucleus ofa mass number A is given by R=R_(0)A^(1//3) , where R_(0)=1.3xx10^(-15)m . Calculate the electrostatic potential energy between two equal nuclei produced in the fission of ._(92)^(238)U at the moment of their fission

The nucleus of helium atom contains two protons that are separated by distance 3.0xx10^(-15)m . The magnitude of the electrostatic force that each proton exerts on the other is

The nucleus of helium atom contains two protons that are separated by distance 3.0xx10^(-15)m . The magnitude of the electrostatic force that each proton exerts on the other is

In an hydrogen atom, the electron revolves around the nucles in an orbit of radius 0.53 xx 10^(-10) m . Then the electrical potential produced by the nucleus at the position of the electron is

In an hydrogen atom, the electron revolves around the nucles in an orbit of radius 0.53 xx 10^(-10) m . Then the electrical potential produced by the nucleus at the position of the electron is