Difference between revisions of "Physics S: Electricity"
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− | Faraday versus Amp?re: electrical conduction is not a flux of an electrical fluid (or a stream of charged particles) but a propagation of a polarization state of adjacent electric dipoles According to the prevailing quantum theory metallic bonding is an interplay of the free valence electrons that constitute the so-called electron cloud and the ion cores of the lattice atoms. The electrons allegedly drift in a random manner through the lattice of ion cores. The bonding model explains metals as a lattice of ion cores held together by a gas of free electrons! The electron gas cannot hold together the ion cores that are repelling each other! On no conditions the electron gas constitutes the electric current, namely a stream or flux of charged particles. Electrical conduction is not a transport of something along the wire. Nature has chosen the wave as a means of propagating states with a minimum transport of masses and charges. Case studies show that electrical conduction depends on crystal structure. This is not explainable in terms of the model of drifting electrons.[[Category:Scientific Paper]] | + | Faraday versus Amp?re: electrical conduction is not a flux of an electrical fluid (or a stream of charged particles) but a propagation of a polarization state of adjacent electric dipoles According to the prevailing quantum theory metallic bonding is an interplay of the free valence electrons that constitute the so-called electron cloud and the ion cores of the lattice atoms. The electrons allegedly drift in a random manner through the lattice of ion cores. The bonding model explains metals as a lattice of ion cores held together by a gas of free electrons! The electron gas cannot hold together the ion cores that are repelling each other! On no conditions the electron gas constitutes the electric current, namely a stream or flux of charged particles. Electrical conduction is not a transport of something along the wire. Nature has chosen the wave as a means of propagating states with a minimum transport of masses and charges. Case studies show that electrical conduction depends on crystal structure. This is not explainable in terms of the model of drifting electrons. |
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+ | [[Category:Scientific Paper|physics s electricity]] |
Latest revision as of 10:54, 1 January 2017
Scientific Paper | |
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Title | Physics S: Electricity |
Author(s) | Johann Marinsek |
Keywords | Electricity |
Published | 2008 |
Journal | None |
Abstract
Faraday versus Amp?re: electrical conduction is not a flux of an electrical fluid (or a stream of charged particles) but a propagation of a polarization state of adjacent electric dipoles According to the prevailing quantum theory metallic bonding is an interplay of the free valence electrons that constitute the so-called electron cloud and the ion cores of the lattice atoms. The electrons allegedly drift in a random manner through the lattice of ion cores. The bonding model explains metals as a lattice of ion cores held together by a gas of free electrons! The electron gas cannot hold together the ion cores that are repelling each other! On no conditions the electron gas constitutes the electric current, namely a stream or flux of charged particles. Electrical conduction is not a transport of something along the wire. Nature has chosen the wave as a means of propagating states with a minimum transport of masses and charges. Case studies show that electrical conduction depends on crystal structure. This is not explainable in terms of the model of drifting electrons.