Q#04 (a) Calculate the ground state energy of the doubly ionized lithium ion, Li2+ , obtained when one removes two electrons from the lithium atom. (b) If the lithium ion Li2+ is bombarded with a photon and subsequently absorbs it, calculate the energy and wavelength of the photon needed to excite the Li2+ ion into its third excited state.

Q#04 (a) Calculate the ground state energy of the doubly ionized lithium ion, Li2+ , obtained when one removes two electrons from the lithium atom. (b) If the lithium ion Li2+ is bombarded with a photon and subsequently absorbs it, calculate the energy and wavelength of the photon needed to excite the Li2+ ion into its third excited state.

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Q#04 (a) Calculate the ground state energy of the doubly ionized lithium ion, Li2+
, obtained when
one removes two electrons from the lithium atom.
(b) If the lithium ion Li2+
is bombarded with a photon and subsequently absorbs it, calculate
the energy and wavelength of the photon needed to excite the Li2+
ion into its third excited
state.

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