Difference between revisions of "Physics Q: Magnetic Moments Not Due to Valence Electrons"
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− | Stern-Gerlach experiments revisited for H and H<sub>2</sub>. Magnetically deflected hydrogen rays indicate ortho- and paramagnetic varieties. Of H and H<sub>2</sub>, there is no extranuclear electron in the hydrogen atom. Pauli's exclusion principle and the H-atom: according to Pauli even any valence electron has zero angular momentum. From a physical point of view a zero angular momentum is a zero angular velocity of the electron. It must crash into the nucleus and destroy the wonderful arranged electron shells. Pauli made the assertion that the orbital angular momentum in the ground state is zero in order to save the phenomena, namely the 2-beam outcome of the Stern-Gerlach experiment. The Phipps-Taylor experiment shows for hydrogen also a branching of 2 beams but there is a central undeviated beam, too. This experimental result contradicts the exclusion rules of Pauli.[[Category:Scientific Paper]] | + | Stern-Gerlach experiments revisited for H and H<sub>2</sub>. Magnetically deflected hydrogen rays indicate ortho- and paramagnetic varieties. Of H and H<sub>2</sub>, there is no extranuclear electron in the hydrogen atom. Pauli's exclusion principle and the H-atom: according to Pauli even any valence electron has zero angular momentum. From a physical point of view a zero angular momentum is a zero angular velocity of the electron. It must crash into the nucleus and destroy the wonderful arranged electron shells. Pauli made the assertion that the orbital angular momentum in the ground state is zero in order to save the phenomena, namely the 2-beam outcome of the Stern-Gerlach experiment. The Phipps-Taylor experiment shows for hydrogen also a branching of 2 beams but there is a central undeviated beam, too. This experimental result contradicts the exclusion rules of Pauli. |
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+ | [[Category:Scientific Paper|physics q magnetic moments valence electrons]] |
Latest revision as of 10:54, 1 January 2017
Scientific Paper | |
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Title | Physics Q: Magnetic Moments Not Due to Valence Electrons |
Author(s) | Johann Marinsek |
Keywords | Magnetic Moments, Valence Electrons, Stern-Gerlach Experiment, Pauli Exclusion Principle |
Published | 2008 |
Journal | None |
Abstract
Stern-Gerlach experiments revisited for H and H2. Magnetically deflected hydrogen rays indicate ortho- and paramagnetic varieties. Of H and H2, there is no extranuclear electron in the hydrogen atom. Pauli's exclusion principle and the H-atom: according to Pauli even any valence electron has zero angular momentum. From a physical point of view a zero angular momentum is a zero angular velocity of the electron. It must crash into the nucleus and destroy the wonderful arranged electron shells. Pauli made the assertion that the orbital angular momentum in the ground state is zero in order to save the phenomena, namely the 2-beam outcome of the Stern-Gerlach experiment. The Phipps-Taylor experiment shows for hydrogen also a branching of 2 beams but there is a central undeviated beam, too. This experimental result contradicts the exclusion rules of Pauli.