The characteristic orange light produced by sodium in a flame is due to the intense emission called the "D" streak from sodium. This "streak" is actually a doublet, whose wavelengths (measured in vacuum) are 589.15788 and 589.75537 nm. The refractive index of air in the vicinity of 589 nm is 1.0002926. Calculate the frequency, wavelength, and wave number of each component of the "D" line, measured in air.
The characteristic orange light produced by sodium in a flame is due to the intense emission called the "D" streak from sodium. This "streak" is actually a doublet, whose wavelengths (measured in vacuum) are 589.15788 and 589.75537 nm. The refractive index of air in the vicinity of 589 nm is 1.0002926. Calculate the frequency, wavelength, and wave number of each component of the "D" line, measured in air.
Chemistry & Chemical Reactivity
10th Edition
ISBN:9781337399074
Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Chapter6: The Structure Of Atoms
Section6.3: Atomic Line Spectra And Niels Bohr
Problem 6.4CYU: The Lyman series of spectral lines for the H atom, in the ultraviolet region, arises from...
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The characteristic orange light produced by sodium in a flame is due to the intense emission called the "D" streak from sodium.
This "streak" is actually a doublet, whose wavelengths (measured in vacuum) are 589.15788 and 589.75537 nm.
The refractive index of air in the vicinity of 589 nm is 1.0002926.
Calculate the frequency, wavelength, and wave number of each component of the "D" line, measured in air.
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