Rydberg constant: Difference between revisions

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The Rydberg constant, often denoted as R_∞, originally defined empirically in terms of the spectrum of hydrogen, is given a theoretical value by the Bohr theory of the atom as:^[1]

R_{\infty }={\frac {m_{e}e^{4}}{4\pi \hbar ^{3}c}}\ \left({\frac {\mu _{0}c^{2}}{4\pi }}\right)^{2}\ .

Notes

↑ GW Series (1988). “Chapter 10: Hydrogen and the fundamental atomic constants”, The Spectrum of atomic hydrogen--advances: a collection of progress reports by experts. World Scientific, p. 485. ISBN 9971502615.

[1] GW Series (1988). “Chapter 10: Hydrogen and the fundamental atomic constants”, The Spectrum of atomic hydrogen--advances: a collection of progress reports by experts. World Scientific, p. 485. ISBN 9971502615.

[1]

@@ Line 7: / Line 7: @@
 </ref>
-:<math>R_{\infty} = \frac{m_ee^4}{4\pi \hbar^3 c}\ \left( {\mu_0 c^2}{4 \pi}\right)^2 \ . </math>
+:<math>R_{\infty} = \frac{m_ee^4}{4\pi \hbar^3 c}\ \left( \frac{\mu_0 c^2}{4 \pi}\right)^2 \ . </math>
 ==Notes==
 <references/>

Rydberg constant: Difference between revisions

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