Difference between revisions of "Observations of the Properties of Physical Entities Part 2 - Shape and Size of Electron, Proton and Neutron"
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− | Part 2 cites and presents experimental data that reveal the existence, shape, and size of electrons, protons and neutrons. The Helicon Model of Elementary Particles is defined as a toroidal helical structure of charge fibers (one or more) that account for the electromagnetic energy (excited states) of elementary particles. The helicon is a physical model of a durable particle with specific geometry that describes its shape and size. A careful interpretation of scattering experiments performed by Arthur Compton and Robert Hofstadter gives precise agreement with the thin, flexible ring predicted by the Helicon Model. Plasma experiments of Winston Bostick, and S. C. Hsu and P. M. Bellan, provide additional data that support the Helicon Model of Elementary Particles.[[Category:Scientific Paper]] | + | Part 2 cites and presents experimental data that reveal the existence, shape, and size of electrons, protons and neutrons. The Helicon Model of Elementary Particles is defined as a toroidal helical structure of charge fibers (one or more) that account for the electromagnetic energy (excited states) of elementary particles. The helicon is a physical model of a durable particle with specific geometry that describes its shape and size. A careful interpretation of scattering experiments performed by Arthur Compton and Robert Hofstadter gives precise agreement with the thin, flexible ring predicted by the Helicon Model. Plasma experiments of Winston Bostick, and S. C. Hsu and P. M. Bellan, provide additional data that support the Helicon Model of Elementary Particles. |
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+ | [[Category:Scientific Paper|observations properties physical entities - shape size electron proton neutron]] |
Latest revision as of 10:47, 1 January 2017
Scientific Paper | |
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Title |
Observations of the Properties of Physical Entities Part 2 - Shape and Size of Electron, Proton and Neutron |
Author(s) | David L Bergman |
Keywords | Helicon model, Shapes, Topology |
Published | 2004 |
Journal | Foundations of Science |
Volume | 7 |
Number | 2 |
No. of pages | 12 |
Abstract
Part 2 cites and presents experimental data that reveal the existence, shape, and size of electrons, protons and neutrons. The Helicon Model of Elementary Particles is defined as a toroidal helical structure of charge fibers (one or more) that account for the electromagnetic energy (excited states) of elementary particles. The helicon is a physical model of a durable particle with specific geometry that describes its shape and size. A careful interpretation of scattering experiments performed by Arthur Compton and Robert Hofstadter gives precise agreement with the thin, flexible ring predicted by the Helicon Model. Plasma experiments of Winston Bostick, and S. C. Hsu and P. M. Bellan, provide additional data that support the Helicon Model of Elementary Particles.