Difference between revisions of "Internal Energy and the Dynamics of Quantum Particles - Part I: Theory"
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Quantum mechanics (QM) is based on the assumption that particles such as electrons and protons are ?elementary'. This assumption has been invalidated by experimental work - scattering experiments have proved that ?elementary' particles are actually complex structures. Due to deformation, such structures accumulate internal energy, which cannot be neglected. Correctly applied i.e, without neglecting the internal energy, classical physics provides a deterministic and unitary description of virtually all non-relativistic phenomena regardless of scale, including the quantization of electromagnetic emissions, the double slit experiment, the tunneling effect, radioactivity and the discrete levels of atomic energy. This paper is aka "Internal Energy and the Dynamics of Quantum Particles: Classical Model", republished in <em>Galilean Electrodynamics</em>, V19, N1, pp. 3-9 (2008). | Quantum mechanics (QM) is based on the assumption that particles such as electrons and protons are ?elementary'. This assumption has been invalidated by experimental work - scattering experiments have proved that ?elementary' particles are actually complex structures. Due to deformation, such structures accumulate internal energy, which cannot be neglected. Correctly applied i.e, without neglecting the internal energy, classical physics provides a deterministic and unitary description of virtually all non-relativistic phenomena regardless of scale, including the quantization of electromagnetic emissions, the double slit experiment, the tunneling effect, radioactivity and the discrete levels of atomic energy. This paper is aka "Internal Energy and the Dynamics of Quantum Particles: Classical Model", republished in <em>Galilean Electrodynamics</em>, V19, N1, pp. 3-9 (2008). | ||
| − | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|internal energy dynamics quantum particles - theory]] |
[[Category:New Energy]] | [[Category:New Energy]] | ||
Revision as of 10:34, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Internal Energy and the Dynamics of Quantum Particles - Part I: Theory |
| Author(s) | Dan Brasoveanu |
| Keywords | Particles, Structure, Energy |
| Published | 2007 |
| Journal | Proceedings of the NPA |
| Volume | 14 |
| Number | 1 |
| Pages | 24-30 |
Abstract
Quantum mechanics (QM) is based on the assumption that particles such as electrons and protons are ?elementary'. This assumption has been invalidated by experimental work - scattering experiments have proved that ?elementary' particles are actually complex structures. Due to deformation, such structures accumulate internal energy, which cannot be neglected. Correctly applied i.e, without neglecting the internal energy, classical physics provides a deterministic and unitary description of virtually all non-relativistic phenomena regardless of scale, including the quantization of electromagnetic emissions, the double slit experiment, the tunneling effect, radioactivity and the discrete levels of atomic energy. This paper is aka "Internal Energy and the Dynamics of Quantum Particles: Classical Model", republished in Galilean Electrodynamics, V19, N1, pp. 3-9 (2008).
