Bohr had... discovered that the frequencies corresponding to very large integers could be calculated accurately from the classical mechanics; they were simply the number of times that an ordinary electron would complete the circuit of its orbit in one second when it was at a very great distance from the nucleus of the atom to which it belonged. This could only mean that when an electron receded to a great distance from the nucleus of its atom, it not only assumed the properties of an ordinary electron, but also behaved as directed by the classical mechanics. Yet the classical mechanics failed completely for the calculation of frequencies corresponding to small orbits.


Physics and Philosophy (1942)


Bohr had... discovered that the frequencies corresponding to very large integers could be calculated accurately from the classical mechanics; they...

Bohr had... discovered that the frequencies corresponding to very large integers could be calculated accurately from the classical mechanics; they...

Bohr had... discovered that the frequencies corresponding to very large integers could be calculated accurately from the classical mechanics; they...

Bohr had... discovered that the frequencies corresponding to very large integers could be calculated accurately from the classical mechanics; they...