The electron in given Bohr orbit has a total energy of -3.4 eV.Calculate its
potential energy adn

The electron in given Bohr orbit has a total energy of -3.4 eV.Calculate its kinetic energy

The electron in given Bohr orbit has a total energy of -3.4 eV.Calculate its wavelength of the light eitted ,if an electron makes a transition to the ground state.(Ground state energy = -13.6 eV).

The total energy of an electron in the second excited state fo hydrogen atom is -1.51 eV .Calculate the potential energy of the electron in this state.

The eergy of the electron in the first Bohr orbit is -13.6 eV.Calculate energy of the electron in hte third orbit.

The correct Schrodinger's wave equation for a electron with total energy E and potential energy V is given by:

In a hydrogen atom, the electron and proton are bound at a distance of about 0.53 A. (a) Estimate the potential energy of the system in eV, taking the zero of the potential energy at infinite separation of the electron from proton. (b) What is the minimum work required to free the electron, given that its kinetic energy in the orbit is half the magnitude of potential energy obtained in (a)?

A single electron in an ion has ionization energy equal to 217.6eV . What is the total number of neutrons present in one ion of it?

In a hydrogen atom, the electron and proton are bound at a distance of about 0.53 A: (a) Estimate the potential energy of the system in eV, if the zero of potential energy is taken at 1.06 overset @A separation of the electron from proton? (b) What is the minimum work required to free the electron, given that its kinetic energy in the orbit is half the magnitude of potential energy obtained in (a)?