If the first orbit of a hydrogen atom the total energy of the electron is `-21.76 xx 10^(-19)J`, then its electric potential energy will be:

In hydrogen atom, the total energy of an electron in a given orbit is -1.5eV. The potential energy in the same orbit is

If the electron of a hydrogen atom is present in the first orbit. The total energy of the electrons is

If the electron of a hydrogen atom is present in the first orbit. The total energy of the electrons is

The energy of the electron in the first orbit of hydrogen atom is -13.6 eV. Its potential energy is

Calculate the energy of an electron in second orbit of an excited hydrogen atom the energy of the electron in the first Bohr orbit the energy of the electron in the Bohr orbit is -2.18 xx 10^(-11) erg

The total energy of an electron in an atom in an orbit is -3.4 eV. Its kinetic and potential energies respectively are :

The total energy of an electron in an atom in an orbit is -3.4 eV. Its kinetic and potential energies are, respectively:

The total energy of an electron in an atom in an orbit is -3.4eV . Its kinetic and potential energies are, respectively:

The total energy of an electron in an atom in an orbit is -3.4eV . Its kinetic and potential energies are, respectively: