SoverT wrote: ↑Thu Jul 05, 2018 11:46 am
Something I have not found any satisfactory model for, is how a translational movement through space can affect the structure of an aggregate.
Space and time are always connected as motion. Any translation of space is inversely related to rotation in time.
All ratios of motion consist of one aspect of space and the other of time, and one aspect of translation (linear velocity) and one aspect of rotation (angular velocity). Like yin-yang, they never operate independently in Nature. Different story in the lab and with math, as we can only observe changes in space in the lab (not changes in time), and math is an artificial reality that can do anything it wants.
SoverT wrote: ↑Thu Jul 05, 2018 11:46 am
One of the compendiums on his work details how an inward spiral vortex causes the water/air to cool to the "anomaly point".
Two assumptions are involved here: first, is that he is talking about
living water, which will contain an "antimatter" component, such as antihydrogen hydroxide (
H-OH). Second is that it is a vortex structure, which contains BOTH a translational and rotational component, where one or both of the components are accelerating (a constant velocity in both radial and circumferential components give you a spring-like coil). (Might want to think about the conventional, electronic induction "coil" and Tesla's conic and pancake "vortex" coils.)
SoverT wrote: ↑Thu Jul 05, 2018 11:46 am
That an inward motion causes something to cool makes sense to me, since heat is a moment/vibration, a motion from the larger to the smaller is basically "unmotion", the reverse of heat.
However when I take a mental step back, I do not see why an individual motion in a collection of aggregates should be affected, only the aggregate as a whole should since it's change is relative to itself.
Consider what "heat" is, in the Reciprocal System: a low-speed vibration in the time region, that reduces a portion of the dimensional, inward motion (gravitation or attraction) between atoms (see the
Liquid State papers for details). Considering Nehru's sunspot research, there are three ways to cool:
- Remove heat by reducing the magnitude of thermal vibration in the time region.
- Increase heat into the 2nd dimension, to move to the inverse states of matter (the more energy, the colder it gets). Note that this method will produce significant magnetic effects.
- Increase cold by introducing a vibration into the space region.
The thermal motion in an aggregate is controlled by the thermal ionization level. Larson uses this, along with the electric and magnetic ionization levels), but never goes in to the actual mechanism of how this effect works. Ionization is probably better discussed as a separate topic, as I've only recently figured it out, but to put it simply, ionization is
coherence, like a laser beam versus a flashlight beam. It is just done with different dimensional structures.
Heat is a vibration. Consider a room full of tuning forks, then play a note on an instrument in that room that is the same frequency as the forks. What happens? All the forks "sing" at the same time--coherence. This is why thermal motion is distributed across an aggregate, like the furnace and all the objects in the room.
If you understand these principles, then you should be able to understand how a vortex implosion system works--and remember, implosion in space = explosion in time.