Dubbelosix Posted August 20, 2020 Report Share Posted August 20, 2020 (edited) [math]\Delta H = \frac{\pi v^2}{8 N_A k_B} \mathbf{R}(n_f\frac{h}{e} - n_i\frac{h}{e})^2[/math] The derivation was a bit arduous, but here we find the difference in Einstein slopes. Why not the gas constant? To Exchemist. Edited August 20, 2020 by Dubbelosix Quote Link to comment Share on other sites More sharing options...
Dubbelosix Posted August 20, 2020 Author Report Share Posted August 20, 2020 Not really sure why my latex ain't showing. But question still stands. Quote Link to comment Share on other sites More sharing options...
Dubbelosix Posted August 20, 2020 Author Report Share Posted August 20, 2020 Was just having issues nvm, post still holds Quote Link to comment Share on other sites More sharing options...
Vmedvil2 Posted August 20, 2020 Report Share Posted August 20, 2020 [math]\Delta H = \frac{\pi v^2}{8 N_A k_B} \mathbf{R}(n_f\frac{h}{e} - n_i\frac{h}{e})^2[/math] The derivation was a bit arduous, but here we find the difference in Einstein slopes. Why not the gas constant? To Exchemist.Exchemist isn't going to answer you, Exchemist hates you. Quote Link to comment Share on other sites More sharing options...
Dubbelosix Posted August 21, 2020 Author Report Share Posted August 21, 2020 I know. Lol Quote Link to comment Share on other sites More sharing options...
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