Difference between revisions of "The Aether in Rigid Body Collisions"
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| − | During a collision, momentum is always conserved. The large scale kinetic energy on the other hand, may or may not be conserved. When kinetic energy on the large scale is conserved during a collision, we say that the situation is matched. It will be concluded that a matched collision involves only a large scale pulse of aether with a prodigious speed that is many orders of magnitude greater than the speed of light, and maybe even instantaneous. An unmatched collision on the other hand will involve both a large scale aether pulse as well as a microscopic particle compression wave with a finite speed in the order of the speed of sound. This aether pulse, which we will call a vitreous pulse, is a compression wave of aether involving an actual net aether flow that moves through a rigid body and causes large scale acceleration. This large scale acceleration is due to an aethereal force which we will call G5.[[Category:Scientific Paper]] | + | During a collision, momentum is always conserved. The large scale kinetic energy on the other hand, may or may not be conserved. When kinetic energy on the large scale is conserved during a collision, we say that the situation is matched. It will be concluded that a matched collision involves only a large scale pulse of aether with a prodigious speed that is many orders of magnitude greater than the speed of light, and maybe even instantaneous. An unmatched collision on the other hand will involve both a large scale aether pulse as well as a microscopic particle compression wave with a finite speed in the order of the speed of sound. This aether pulse, which we will call a vitreous pulse, is a compression wave of aether involving an actual net aether flow that moves through a rigid body and causes large scale acceleration. This large scale acceleration is due to an aethereal force which we will call G5. |
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| + | [[Category:Scientific Paper|aether rigid body collisions]] | ||
Latest revision as of 11:09, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Aether in Rigid Body Collisions |
| Author(s) | David Tombe |
| Keywords | {{{keywords}}} |
| Published | 2008 |
| Journal | General Science Journal |
| No. of pages | 10 |
Abstract
During a collision, momentum is always conserved. The large scale kinetic energy on the other hand, may or may not be conserved. When kinetic energy on the large scale is conserved during a collision, we say that the situation is matched. It will be concluded that a matched collision involves only a large scale pulse of aether with a prodigious speed that is many orders of magnitude greater than the speed of light, and maybe even instantaneous. An unmatched collision on the other hand will involve both a large scale aether pulse as well as a microscopic particle compression wave with a finite speed in the order of the speed of sound. This aether pulse, which we will call a vitreous pulse, is a compression wave of aether involving an actual net aether flow that moves through a rigid body and causes large scale acceleration. This large scale acceleration is due to an aethereal force which we will call G5.
