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Questions Calculate the wavelength of light that must be absorbed in order to excite an electron from (n = 2) to (n = ?). This pertains to the highest energy level imaginable for an electron. Note that this means that at n = ?, the electron would be infinitely far from the atom. Show all your work including proper units. 2. Calculate the energy, in units of J/atom, for the transition from (n = 1) to (n = ?). Then express the calculated energy in units of kJ/mole. Compare the energy in kJ/mole with the literature value of the hydrogen ionization energy. Next comment on any observations. Using complete sentences define the term "Ionization Energy" for the hydrogen atom.

          Questions

Calculate the wavelength of light that must be absorbed in order to excite an electron from (n = 2) to (n = ?). This pertains to the highest energy level imaginable for an electron. Note that this means that at n = ?, the electron would be infinitely far from the atom. Show all your work including proper units.

2. Calculate the energy, in units of J/atom, for the transition from (n = 1) to (n = ?). Then express the calculated energy in units of kJ/mole. Compare the energy in kJ/mole with the literature value of the hydrogen ionization energy. Next comment on any observations. Using complete sentences define the term "Ionization Energy" for the hydrogen atom.

Questions

Calculate the wavelength of light that must be absorbed in order to excite an electron from (n = 2) to (n = ?). This pertains to the highest energy level imaginable for an electron. Note that this means that at n = ?, the electron would be infinitely far from the atom. Show all your work including proper units.

2. Calculate the energy, in units of J/atom, for the transition from (n = 1) to (n = ?). Then express the calculated energy in units of kJ/mole. Compare the energy in kJ/mole with the literature value of the hydrogen ionization energy. Next comment on any observations. Using complete sentences define the term "Ionization Energy" for the hydrogen atom.

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