A hydrogen atom is in the n = 6 state. (a) Count- ing all possible paths, how many different photon ener- gies can be emitted if the atom ends up in the ground state? (b) Suppose only An = 1 transitions were allowed. How many different photon energies would be emitted? (c) How many different photon energies would occur in a Thomson-model hydrogen atom?
A hydrogen atom is in the n = 6 state. (a) Count- ing all possible paths, how many different photon ener- gies can be emitted if the atom ends up in the ground state? (b) Suppose only An = 1 transitions were allowed. How many different photon energies would be emitted? (c) How many different photon energies would occur in a Thomson-model hydrogen atom?
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Transcribed Image Text:A hydrogen atom is in the n = 6 state. (a) Count-
ing all possible paths, how many different photon ener-
gies can be emitted if the atom ends up in the ground
state? (b) Suppose only An = 1 transitions were allowed.
How many different photon energies would be emitted?
(c) How many different photon energies would occur in a
Thomson-model hydrogen atom?
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