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The men and the minds behind the development of the atomic theory. ... The development of atomic theory is an interesting thing. In its history it has had four major developments. The developments were made by the ancient Greeks/John Dalton, J.J Thomson, Neils Bohr/Ernest Rutherford and Erwin Schrödinger/Werner Heisenberg.
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scienceray.com/physics/atomic-theory/
scienceray.com/physics/atomic-theory/
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Paul Dirac devised a form of quantum mechanics (developed by Schrodinger and Heisenberg), which provides the laws of motion that govern atomic particles. He then also applied to quantum mechanics the ideas of Einstein's special theory of relativity.
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www.hyperhistory.com/online_n2/people_n2/science_n2/ato...
www.hyperhistory.com/online_n2/people_n2/science_n2/atomic_theory.html
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In classical theory an atomic electron would emit radiation of the same frequency with which it orbited a nucleus, but the frequencies of spectral lines are practically unrelated to that orbital frequency and depend equally upon the ... Heisenberg started, therefore, with the spectral lines themselves, not an atomic model,
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science.jrank.org/pages/10933/Quantum-New-Quantum-Mecha...
science.jrank.org/pages/10933/Quantum-New-Quantum-Mechanics-Heisenberg-Schr-dinger-Dirac.html
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Who was schrodinger? Who is schrodinger do? Who is erwin shrodinger? Who is erwin schrodinger? Who was erwin schrodinger? What did Schrodinger find? Model of erwin schrodinger? What did schrodinger create? Schrodinger's atomic Theory?
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wiki.answers.com/Q/Which_atomic_model_did_erwin_schrodi...
wiki.answers.com/Q/Which_atomic_model_did_erwin_schrodinger_create
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Besides the Schrodinger theory is simplest than the Heisenberg's matrix mechanics although they are equivalent ; ... Also in 1927 Heisenberg gave indeterminacy principle. It says that there are pairs of the quantities that appear in atomic physics which can not be known simultaneously with a big accuracy. For example it is...
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library.thinkquest.org/19662/low/eng/indeterminate.html
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I knew of [Heisenberg's] theory, of course, but I felt discouraged, not to say repelled, by the methods of transcendental algebra, which appeared difficult to me, and by the lack of visualizability. ... This led to much easier calculations and more familiar visualizations of atomic events than did Heisenberg's matrix mechanics,
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www.aip.org/history/heisenberg/p08.htm
www.aip.org/history/heisenberg/p08.htm
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His papers at that time dealt with specific heats of solids, with problems of thermodynamics (he was greatly interested in Boltzmann's probability theory) and of atomic spectra; in addition, he indulged in physiological studies of colour (as a result of his contacts with Kohlrausch and Exner, and of Helmholtz's lectures).
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nobelprize.org/nobel_prizes/physics/laureates/1933/schr...
nobelprize.org/nobel_prizes/physics/laureates/1933/schrodinger-bio.html
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This was the second theoretical explanation of electrons in an atom, following Werner Heisenberg's matrix mechanics. Many scientists preferred Schrödinger's theory since it could be visualized, while Heisenberg's was strictly mathematical.
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www.pbs.org/wgbh/aso/databank/entries/bpschr.html
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In the early 1900's Niels Bohr developed a theory for the atom which was based upon the assumption that the electrons circled the nucleus in orbits much like the planets revolve about the sun. ... The current model of the atom was developed independently by Schrodinger and Heisenberg in 1927 and is now called Quantum Mechanics.
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erkki.kennesaw.edu/genchem2/ge00003.htm
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