Tuesday, October 6, 2009

Enough of this Foolishnecessity

Who cares about economies. Here's some more about the way gravity and water interact, which we will take to imply things about matter in general. Back to the example of what it is like when a jet plane is about to touch down onto the tarmac. This is where the human has the best chance of really visually seeing the effect of the gravity-time-matter interaction. This is where the human can see with his or her own eyes, that he or she is part and parcel of a quanta, part and parcel of the jet plane in this example, but then just as the wheels are about to touch down the view out the window changes and time speeds up for the viewer and things go by faster and faster, and then click, you're now part and parcel of Earth by that contact. And that participation, which we know as relativity, is what flows through everything around us in relation to one another, to form our sphere of influence. If you think of a kid blowing bubbles, the surface tension caused by blowing through the bubble wand closes as the bubble forms, then floats away. That surface tension is like all surface tensions, a product of atoms working together to conserve energy by creating a quanta out of themselves, (liquids have an easy time of this because they flow but they're also sticky). A millileter size bubble of mercury pools up with so much surface tension that it's like a small sphere sitting on a table. Take your hand and smack it flat on the surface of a pool or lake or bath tub and you'll spank the surface tension out of the immediate area, and you'll channel that energy out in a wave equivalent to the bouyancy you removed from the equation. As the surface tension of that disturbed area assesses its new situation and bounces back, it will recreate the shared equilibrium it found earlier. But this system of removing the tension and bouncing back is interesting from the gravitational standpoint, because it points out an interaction between human hand and quanta. This is where the advantage over gravity will come from. Fluxuating the surface tension of a quantity of liquid should prove useful tool in causing an unknown state within some of the material, allowing a small win to be made in the fight to conquer gravity. Compounding this scenario could provide enough areas of unknown stability to milk a small amount of lift out of the universe. That amount should equal the number of atoms that don't know where they are, or who they relate to. A moment of lost relativity is weightlessness. Much the same as an electron is an "unknown" place around an atom, this would be akin to "shocking" the atoms into becoming missing, as far as gravity is aware, from the surface tension shared energy pool.

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