Difference between revisions of "The Double Helix and the Compound Centrifugal Force"
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− | While on the one hand it may seem valid to argue that the wave behavior of light requires the existence of a dense dielectric medium, it is equally valid to counter-argue on the other hand that such a particulate medium would cause friction in planetary motion. The double helix rescues us from this dilemma. This most fundamental pattern in nature converts potential frictional effects into the more ordered inertial effects that we recognize as the centrifugal force and the Coriolis force. A state of Brownian motion, when pervaded by double helix patterns, channels a distinct electrostatic force of attraction directly between unlike magnetic poles in an electrically neutral backdrop, and it can also create a hovercraft effect for the planets orbiting in space.[[Category:Scientific Paper]] | + | While on the one hand it may seem valid to argue that the wave behavior of light requires the existence of a dense dielectric medium, it is equally valid to counter-argue on the other hand that such a particulate medium would cause friction in planetary motion. The double helix rescues us from this dilemma. This most fundamental pattern in nature converts potential frictional effects into the more ordered inertial effects that we recognize as the centrifugal force and the Coriolis force. A state of Brownian motion, when pervaded by double helix patterns, channels a distinct electrostatic force of attraction directly between unlike magnetic poles in an electrically neutral backdrop, and it can also create a hovercraft effect for the planets orbiting in space. |
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+ | [[Category:Scientific Paper|double helix compound centrifugal force]] |
Latest revision as of 11:12, 1 January 2017
Scientific Paper | |
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Title | The Double Helix and the Compound Centrifugal Force |
Read in full | Link to paper |
Author(s) | David Tombe |
Keywords | {{{keywords}}} |
Published | 2012 |
Journal | Proceedings of the NPA |
Volume | 9 |
No. of pages | 2 |
Pages | 629-630 |
Read the full paper here
Abstract
While on the one hand it may seem valid to argue that the wave behavior of light requires the existence of a dense dielectric medium, it is equally valid to counter-argue on the other hand that such a particulate medium would cause friction in planetary motion. The double helix rescues us from this dilemma. This most fundamental pattern in nature converts potential frictional effects into the more ordered inertial effects that we recognize as the centrifugal force and the Coriolis force. A state of Brownian motion, when pervaded by double helix patterns, channels a distinct electrostatic force of attraction directly between unlike magnetic poles in an electrically neutral backdrop, and it can also create a hovercraft effect for the planets orbiting in space.