Abstract
When [in 1905] the c-theory [Special Theory of Relativity] was born, both the mathematical formalism and its physical interpretation were established simultaneously; merely some questions of physical logic and axiomatics remained to be clarified. The story is quite different in the case of h-theory. To start with, two apparently quite different mathematical theories emerged, known as ‘wave mechanics’ (Schroedinger) and ‘matrix mechanics’ (Heisenberg-Born-Jordan), respectively. The underlying physical conceptions and, hence, the first physical interpretations were entirely different: Schroedinger believed he had reduced the quantum phenomena to a classical eigenvalue problem of the sort known from the theory of oscillations while Heisenberg-Born-Jordan understood their theory as a fundamental generalization of classical mechanics satisfying Bohr’s principle of correspondence. The progress achieved in the following time consisted of three main steps.
Translated from ‘Grundlagen der modernen Physik — Teil III: h-Theorie (Quanten-mechanik)’, in Mikrokosmos-Makrokosmos, Vol. 2 (ed. by H. Ley and R. Löther), Berlin 1967.
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© 1972 D. Reidel Publishing Company, Dordrecht, Holland
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Strauss, M. (1972). Foundations of Quantum Mechanics. In: Modern Physics and its Philosophy. Synthese Library, vol 43. Springer, Dordrecht. https://doi.org/10.1007/978-94-010-2893-6_19
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