In an experiment done with a one-electron atom, wavelengths of the photons emitted from transitions ending in the ground state (n = 1) is shown in the energy-level diagram in the figure below. It is also observed that it takes 17.50 eV to ionize this atom. Based on this information, what is the energy of the atom in n= 1? 73.36 m A= 75.63mm A.17.50 eV B.-19.17 eV C.-18.50 eV D.-17.50 eV 961 X = 9454 mm I
In an experiment done with a one-electron atom, wavelengths of the photons emitted from transitions ending in the ground state (n = 1) is shown in the energy-level diagram in the figure below. It is also observed that it takes 17.50 eV to ionize this atom. Based on this information, what is the energy of the atom in n= 1? 73.36 m A= 75.63mm A.17.50 eV B.-19.17 eV C.-18.50 eV D.-17.50 eV 961 X = 9454 mm I
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Transcribed Image Text:In an experiment done with a one-electron atom, wavelengths of the photons emitted from
transitions ending in the ground state (n = 1) is shown in the energy-level diagram in the
figure below. It is also observed that it takes 17.50 eV to ionize this atom. Based on this
information, what is the energy of the atom in n = = 1?
A = 73.36 mm
75.63m
A.17.50 eV
B.-19.17 eV
C.-18.50 eV
D.-17.50 eV
A79.76 m
x=9454am
I
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