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1 cze 2006 · In a series of four papers published in 1926, Schrödinger introduced characteristic frequencies (E/h) as the basic properties of interacting atomic systems, where the dynamics of atomic interactions is explained as a resonance phenomenon that does not defy space–time continuity:
27 wrz 2016 · The chapter also considers Bohr’s 1913 atomic theory, a crucial development in the history of quantum theory ultimately leading to Heisenberg’s discovery, and Schrödinger’s discovery of wave mechanics, initially from very different physical principles.
Atomism from cosmology: Erwin Schrodinger's work on wave mechanics and space-time structure. IN the early 1930s Schrodinger's intellectual situation appeared in. an unfavorable light. His program of interpreting wave mechanics in an intuitive way, that is, according to the paradigm of classical field.
1 cze 2006 · Whether the alleged pressure of Göttingen and Copenhagen physicists (predominantly Bohr and Heisenberg) forced Schrödinger to refrain from arguing his wave-mechanical interpretation in public is of socio-historical interest.
19 cze 2023 · By solving his wave equation in three dimensions and by fitting integer number of electron waves around the nucleus, Schrödinger had obtained the Bohr-Sommerfeld quantum numbers and also the energy levels of the Bohr-Sommerfeld quantum atom that depended on the principal quantum number n as \(1/n^{2}.\)
3 sie 2021 · Schrödinger considered that the greatest achievement of the new theory was that it could, by the localization of the atomic charge in space and time, compute both the frequencies and intensities of the emitted light using ordinary electrodynamics.
Werner Heisenberg was a pivotal figure in the development of quantum mechanics in the 1920s, and also one of its most insightful interpreters. Together with Bohr, Heisenberg forged what is commonly known as the ‘Copenhagen interpretation. Yet Heisenbergs.
