Get vibration frequency form absorption spectra line

AI Thread Summary
To determine the frequency of vibration from the absorption line at 3.5 μm for gaseous HCl, the wavelength is confirmed to be 3.5 μm. The frequency can be calculated using the equation frequency = speed of light / wavelength. Additionally, there is a query regarding the temperature required to thermally excite these vibrations, indicating a need for relevant equations or principles. The discussion highlights a gap in understanding the necessary formulas to solve these problems effectively. Understanding these concepts is crucial for solving the homework question.
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Homework Statement


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"Absorption spectra of gaeous HCl show a line at 3.5 μm which results form molecular vibration (oscillation from interatomic distance)" How do I get the frequency of vibration from this?

Homework Equations



? If I knew this, then I could probably solve the problem

The Attempt at a Solution



Is the wavelength 3.5μm? I don't see a relevant explanation in my book (An Introduction to Thermal Physics).
 
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Yes, the fact that the absorption line is at 3.5 μm means that the wavelength of the absorbed radiation is 3.5 μm. The question asks what frequency is this radiation.
 
OK, thanks.

Also, I'm unsure about the last part of this question - to approximately what temperature would the gas have to be heated to excite vibrations thermally? Again, I feel like there is just some equation or basic fact that I should know to solve this, but it isn't clear to me what that would be.
 

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