Difference between revisions of "The Secret Life of the Neutron"
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==Abstract== | ==Abstract== | ||
| − | NEUTRON. Search by scientists for the fundamental particles have had expectation that such a particle must be small. Because a neutron in isolation is observed to decay into a proton, an electron and an anti-neutrino in about 15 minutes, too much importance is given to the bits. There was debate early in the twentieth century about the energy expenditure of the Sun. This was based on assumption, early history evolution of stars had hot beginnings. Universe at large however is cold and the existing elements of the periodic tables show overabundance of neutrons over protons far over 50%![[Category:Scientific Paper]] | + | NEUTRON. Search by scientists for the fundamental particles have had expectation that such a particle must be small. Because a neutron in isolation is observed to decay into a proton, an electron and an anti-neutrino in about 15 minutes, too much importance is given to the bits. There was debate early in the twentieth century about the energy expenditure of the Sun. This was based on assumption, early history evolution of stars had hot beginnings. Universe at large however is cold and the existing elements of the periodic tables show overabundance of neutrons over protons far over 50%! |
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| + | [[Category:Scientific Paper|secret life neutron]] | ||
Latest revision as of 11:26, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Secret Life of the Neutron |
| Read in full | Link to paper |
| Author(s) | Karl Teppo |
| Keywords | neutron |
| Published | 2009 |
| Journal | Unpublished |
| No. of pages | 12 |
Read the full paper here
Abstract
NEUTRON. Search by scientists for the fundamental particles have had expectation that such a particle must be small. Because a neutron in isolation is observed to decay into a proton, an electron and an anti-neutrino in about 15 minutes, too much importance is given to the bits. There was debate early in the twentieth century about the energy expenditure of the Sun. This was based on assumption, early history evolution of stars had hot beginnings. Universe at large however is cold and the existing elements of the periodic tables show overabundance of neutrons over protons far over 50%!
