"In 1918 the central role played by the adiabatic principle almost entirely eclipsed the correspondence principle in Bohr's theory, and we mustn't forget that, but over the years it faded into the background, while the correspondence theory gained importance and incorporated new, useful applications from calculus. "One of the most significant changes we have found is the reversal of the importance of the two fundamental principles," notes Pié i Valls. They also detected the mutual influence there was between Bohr and German physicist Arnold Sommerfeld, who advanced his own formulation of 'quantification' and had a significant influence on developing the old quantum theory, the backdrop against which all the studies prior to the birth of quantum mechanics in 1925 were set. The authors studied the use Bohr gave to the adiabatic hypothesis from when Austrian physicist Paul Ehrenfest set it out in 1911 until his Danish colleague raised it to a 'principle' and developed it to get the most out of it. "This theory rested on two fundamental pillars: the adiabatic principle, a method to find possible quantum states within the atom and the correspondence principle, which links classic electrodynamics with the new quantum theory forged at that time," explains Pié i Valls who, together with Professor Enric Pérez, has published these historical analyses on the topic in the journal ' Annalen der Physik'. But it also attempted to explain in a unified way all the quantum phenomena that had been observed to date. ![]() ![]() The model was proposed more than a century ago by Danish physicist Niels Bohr based on Rutherford's first model, the principles of classical mechanics and emerging ideas about 'quantisation' (equations to apply initial quantum hypotheses to classical physical systems) advanced by Max Planck and Albert Einstein.Īs Blai Pié i Valls, a physicist at the University of Barcelona, explains: "Bohr published his model in 1913 and, although it was revolutionary, it was a proposal that did little to explain highly varied experimental results, so between 19 he established a much more wide-ranging, well-informed theory which incorporated his previous model."īohr's theory, which was named quantum theory, proposed that electrons circle the nucleus following the classical laws but subject to limitations, such as the orbits they can occupy and the energy they lose as radiation when they jump from one orbit to another. ![]() Most schools still teach the atomic model, in which electrons orbit around the nucleus like the planets do around the sun.
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