Bohr radius

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Niels Bohr's theory (1913) of the hydrogen atom predicts a smallest orbit for the electron circulating the hydrogen nucleus. Today the radius of this orbit is called the Bohr radius. It is usually indicated by a₀. In the old quantum theory of Bohr and Arnold Sommerfeld, as well as in the new quantum theory of Werner Heisenberg and Erwin Schrödinger the radius is given by

${\displaystyle a_{0}={\frac {4\pi \epsilon _{0}\hbar ^{2}}{\mu e^{2}}}\approx 0.529\,177\,208\,59\cdot 10^{-10}\;\mathrm {m} }$

where ε₀ is the vacuum permittivity (electric constant), ${\displaystyle \hbar }$ is Planck's reduced constant, μ is the reduced mass of the hydrogen atom (is equal to the electron mass when the proton mass may supposed to be infinite; for the numerical value this is assumed) and e is the charge of the electron.

In quantum mechanics, a₀ appears in the solution of the Schrödinger equation for the hydrogen atom as the maximum in the radial distribution associated with the electronic wave function of lowest energy, the so-called 1s atomic orbital. That is, a₀ is the position of the maximum in the radial distribution 4πr ² |Ψ_1s(r) |².

External link

NIST value for bohr radius