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2010-04-25 17:09:45
h4hagen
Whats my age again?
+91|6759|Troy, New York
Karma for any help.


Have a test tomorrow afternoon, going through my practice problems and realized I have no idea how to do energy level transitions.
Question is:
Find the wavelength of the third Balmer line of hydrogen. Is it visible (between 4000 and 7000 angstroms).

Similar Question:
Find the wavelength of the EM radiation emitted during the second Lyman transition of Hydrogen.

I think I want to use lambda = hc/ delta e but I have no idea how to do so. I'm familiar with Lyman Balmer and Paschen, but again not how to apply them.

Any help at all would be great.
2010-04-25 20:58:30
Spark
liquid fluoride thorium reactor
+874|7081|Canberra, AUS
formula you want

https://latex.codecogs.com/gif.latex?\bg_white%20\frac{1}{\lambda}=R_H\left(\frac{1}{n_f^2}-\frac{1}{n_i^2}\right)

gives you the wavelength of the emitted (or absorbed) photon in transition, you can work out its energy from E = hf. I assume you know how what RH is, and how to substitute the energy levels for nf, ni.

Last edited by Spark (2010-04-25 21:00:19)

The paradox is only a conflict between reality and your feeling what reality ought to be.
~ Richard Feynman

 

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