Hydrogen produces emission lines (colored lines on the spectrum) with the following wavelengths: 410 nm, 434 nm, 486 nm and 656 nm. Where would you expect to see the absorption lines (dark lines) for hydrogen on its absorption spectrum and why? The absorption lines for hydrogen would appear at exactly the same O wavelengths because the energies of the photons emitted and absorbed by hydrogen are the same. The absorption lines for hydrogen would appear at shorter wavelengths than O the emission lines because the energies of the photons absorbed are higher than the energies of the photons emitted by hydrogen. The absorption lines for hydrogen would appear at longer wavelengths than O the emission lines because the energies of the photons absorbed are lower than the energies of the photons emitted by hydrogen. The absorption lines for hydrogen would be red-shifted because of the doppler effect.

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Chapter1: Chemical Foundations
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Hydrogen produces emission lines (colored lines on the spectrum) with the
following wavelengths: 410 nm, 434 nm, 486 nm and 656 nm.
Where would you expect to see the absorption lines (dark lines) for hydrogen on
its absorption spectrum and why?
The absorption lines for hydrogen would appear at exactly the same
wavelengths because the energies of the photons emitted and absorbed by
hydrogen are the same.
The absorption lines for hydrogen would appear at shorter wavelengths than
the emission lines because the energies of the photons absorbed are higher
than the energies of the photons emitted by hydrogen.
The absorption lines for hydrogen would appear at longer wavelengths than
O the emission lines because the energies of the photons absorbed are lower
than the energies of the photons emitted by hydrogen.
The absorption lines for hydrogen would be red-shifted because of the
doppler effect.
O
Transcribed Image Text:Hydrogen produces emission lines (colored lines on the spectrum) with the following wavelengths: 410 nm, 434 nm, 486 nm and 656 nm. Where would you expect to see the absorption lines (dark lines) for hydrogen on its absorption spectrum and why? The absorption lines for hydrogen would appear at exactly the same wavelengths because the energies of the photons emitted and absorbed by hydrogen are the same. The absorption lines for hydrogen would appear at shorter wavelengths than the emission lines because the energies of the photons absorbed are higher than the energies of the photons emitted by hydrogen. The absorption lines for hydrogen would appear at longer wavelengths than O the emission lines because the energies of the photons absorbed are lower than the energies of the photons emitted by hydrogen. The absorption lines for hydrogen would be red-shifted because of the doppler effect. O
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