3. Consider an atom in which a single electron is attached to a positively charged nucleus. The ionization energy (the minimum energy necessary to completely remove the electron from the atom in its ground state) is 217.6 eV. (6) Find the energies of the ground state and the first and second excited states. () How many positive charges (Z) are there in the nucleus? () What are the longest and shortest wavelengths of the photons that can be absorbed by this atom in its ground state? > Gauth
3. Consider an atom in which a single electron is attached to a positively charged nucleus. The ionization energy (the minimum energy necessary to completely remove the electron from the atom in its ground state) is 217.6 eV. (6) Find the energies of the ground state and the first and second excited states. () How many positive charges (Z) are there in the nucleus? () What are the longest and shortest wavelengths of the photons that can be absorbed by this atom in its ground state? > Gauth
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Transcribed Image Text:3.
Consider an atom in which a single electron is attached to a positively charged
nucleus. The ionization energy (the minimum energy necessary to completely remove
the electron from the atom in its ground state) is 217.6 eV.
(6) Find the energies of the ground state and the first and second excited states.
() How many positive charges (Z) are there in the nucleus?
() What are the longest and shortest wavelengths of the photons that can be absorbed
by this atom in its ground state?
> Gauth
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