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Originally Posted by RascalPuff  Could you be more specific about what you mean by right and left handedness, Lloyd?
IMO, the dual - right and left spiral logarithms - I provided in the preceding post, fullfills your issue.
Please tell me why it doesn't. |
Hi Rascal. Simply because nobody is showing the directional flows of waves, approaching each other with opposite or even handedness. They're always pictured separately, like they never mesh. If you envision a circle, filled with a number of spiral sections, of left and right hand spins, approaching through time/distance from the out side of the circumferance of the circle, and meeting in the point center, like a bunch of twisters/tornados, you clearly see the dynamics put in play, I am trying to address. Such motions, interacting as such, would set up the perfect containment space, for matter/waves to hydrodynamically compress into real matter building processes. This is the quantum mechanical process, but first starts in the cosmology of the universe's fundamental substance fields, before first visible matter. It offers a possible evolution process of real matter production, from fundamental matter/waves. Instead of just explaining how the standard model works, this new model of wave interferances, clearly shows how the universe may have been put together, as verses the standard models' views of how it was taken apart, or works, from a point of unknowing. This model offers real accretion containment scenarios. If you follow the model of two right handed springs approaching at the speed of light, or of two left handed springs approaching, or one of each, they all set tremendous hydrodynamic containment pressures into play...
I just see nowhere in the physics literature, or this site, where such a dynamic model of quantum or cosmological processes, have been addressed. I'm laying it out as a possible model of creating first black holes or first stars, from fundamental matter/waves, existing before the big bang, or many small bangs. Have you seen it described this way, anywhere?
Lloyd