Difference between revisions of "Why Some Particle Mass Ratios Nearly Equal Geometric Pattern Ratios"
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| title = Why Some Particle Mass Ratios Nearly Equal Geometric Pattern Ratios | | title = Why Some Particle Mass Ratios Nearly Equal Geometric Pattern Ratios | ||
| url = [http://www.naturalphilosophy.org/pdf/abstracts/abstracts_1005.pdf Link to paper] | | url = [http://www.naturalphilosophy.org/pdf/abstracts/abstracts_1005.pdf Link to paper] | ||
− | | author = [[Carl R | + | | author = [[Carl R Littmann]] |
| keywords = [[Elementary particles]], [[geometry]], [[mass]] | | keywords = [[Elementary particles]], [[geometry]], [[mass]] | ||
| published = 2008 | | published = 2008 | ||
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==Abstract== | ==Abstract== | ||
− | Some volume ratios, in simple geometric patterns, are nearly equal to some important particle mass ratios in physics -- such as the proton to electron ratio. Those correlations were detailed by me in a widely read journal in 1995. However, I did not then suggest why such correlations arise. Unless the correlations are merely coincidental, an explanation is desirable; and now I attempt it! It involves these notions: Low density aether votices or spheres in space having a Planck's quantum of angular momentum; maximum nuclear densities (as in Bohr's liquid-drop model); some aether-related speed-of-light limitations imposed on nuclear densities ; and those small and large aether balls in space containing small and large energies, respectively. Those ethereal spheres are determined by what fits into neat, close-packed sphere patterns in space, and they share some energies and angular momentum with gross particles.[[Category:Scientific Paper]] | + | Some volume ratios, in simple geometric patterns, are nearly equal to some important particle mass ratios in physics -- such as the proton to electron ratio. Those correlations were detailed by me in a widely read journal in 1995. However, I did not then suggest why such correlations arise. Unless the correlations are merely coincidental, an explanation is desirable; and now I attempt it! It involves these notions: Low density aether votices or spheres in space having a Planck's quantum of angular momentum; maximum nuclear densities (as in Bohr's liquid-drop model); some aether-related speed-of-light limitations imposed on nuclear densities ; and those small and large aether balls in space containing small and large energies, respectively. Those ethereal spheres are determined by what fits into neat, close-packed sphere patterns in space, and they share some energies and angular momentum with gross particles. |
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+ | [[Category:Scientific Paper|particle mass ratios nearly equal geometric pattern ratios]] | ||
[[Category:Aether]] | [[Category:Aether]] |
Revision as of 11:40, 1 January 2017
Scientific Paper | |
---|---|
Title | Why Some Particle Mass Ratios Nearly Equal Geometric Pattern Ratios |
Read in full | Link to paper |
Author(s) | Carl R Littmann |
Keywords | Elementary particles, geometry, mass |
Published | 2008 |
Journal | Proceedings of the NPA |
Volume | 5 |
Number | 1 |
No. of pages | 13 |
Pages | 130-136 |
Read the full paper here
Abstract
Some volume ratios, in simple geometric patterns, are nearly equal to some important particle mass ratios in physics -- such as the proton to electron ratio. Those correlations were detailed by me in a widely read journal in 1995. However, I did not then suggest why such correlations arise. Unless the correlations are merely coincidental, an explanation is desirable; and now I attempt it! It involves these notions: Low density aether votices or spheres in space having a Planck's quantum of angular momentum; maximum nuclear densities (as in Bohr's liquid-drop model); some aether-related speed-of-light limitations imposed on nuclear densities ; and those small and large aether balls in space containing small and large energies, respectively. Those ethereal spheres are determined by what fits into neat, close-packed sphere patterns in space, and they share some energies and angular momentum with gross particles.