Absorption lines in the spectrum of an object can be produced by a cold, tenuous

Question

Absorption lines in the spectrum of an object can be produced by a cold, tenuous gas between the radiating object (like a star) and the spectrometer. These absorption lines occur due to particular photons being absorbed as they go through the tenuous gas (causing the electrons in the atoms to be excited to higher energy levels). How do you expect the wavelengths of these absorption lines to compare to the wavelength of emitted photons this same gas would emit if the gas were hot?

The wavelengths of the absorption lines would be smaller than the wavelengths of the emission lines

The wavelengths of the absorption lines would be longer than the wavelengths of the emission lines

The wavelengths are the same

The wavelengths of the absorption lines would be smaller than the wavelengths of the emission lines

The wavelengths of the absorption lines would be longer than the wavelengths of the emission lines

The wavelengths are the same

Explanation / Answer

A gas absorbs the same wavelengths of light that it emits.

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