In sodium, one of the two yellow lines has a wavelength of 589.76 nm and is the transition from the 2P₁ state to the 2s, 1/2 1/2 state. If a sodium atom is placed in a magnetic field due to the anomalous Zeeman effect, it can be shown that the energy splitting may be determined by V = μBB extgm,. If the magnitude of the external magnetic field is 2.45 T, determine the difference in wavelength (in m) between the shortest and longest wavelength between these two states. 123 Tutorial m
In sodium, one of the two yellow lines has a wavelength of 589.76 nm and is the transition from the 2P₁ state to the 2s, 1/2 1/2 state. If a sodium atom is placed in a magnetic field due to the anomalous Zeeman effect, it can be shown that the energy splitting may be determined by V = μBB extgm,. If the magnitude of the external magnetic field is 2.45 T, determine the difference in wavelength (in m) between the shortest and longest wavelength between these two states. 123 Tutorial m
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Transcribed Image Text:In sodium, one of the two yellow lines has a wavelength of 589.76 nm and is the transition from the 2P₁
state to the 2s,
1/2
1/2
state. If a sodium atom is placed in a magnetic field due to the anomalous Zeeman effect, it can
be shown that the energy splitting may be determined by V = μBB extgm,. If the magnitude of the external magnetic field is 2.45 T, determine the difference in wavelength (in m) between the shortest and longest
wavelength between these two states.
123 Tutorial
m
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