First, a disclaimer: This may sound correct or obvious, but if so, it is because that is the way I write. Nothing should be taken as either factual or as representing the opinions of educated physicists.
There should be a relatively simple experiment, at least in theory, to verify part of the proposed theory of everything; namely, that pressure of hydrogen ions h(0), removed from significant sources of electrons, should be lower than would be expected given the presence of protons and hence a positively charged electric field. Namely, as the temperature approaches absolute zero, and the density is appropriately low, pressure should also approach zero - if there aren't any electrons nearby.
This is a surprisingly difficult experiment to do. Electrons are everywhere.
Likewise, any positively charged body, in the absence of electrons, shouldn't exhibit the behavior that would be expected.
To explain what I think would be going on in these experiments, electron probability paths - probable orbits - exert a kind of pressure on the structures around them, pulling them in by virtue of the principle of least action - they could release a bit of their energy if the structures were closer and their orbits were less expensive, so, in the way of probability collapse, they release a bit of that energy, meaning energy has to be added back to the system to keep things in balance.
In a balanced electrical field, this pressure is balanced in all directions. If you have two positively charged structures, the electron pressure is uneven. This produces an apparent repulsive force.
And because we can't actually block electrons - at best we can put other electrons in their way, which just moves the problem - we can't get away from this problem.
I imagine you might be able to test this in a sufficiently large vacuum, but the dielectric potential of a vacuum means it would have to be a very large vacuum.
Or if we could find a nebula of ionized, particularly H(0), hydrogen - H(0) is, functionally, a cloud of protons. The electric field should be stronger than gravity at all distances, so such a nebula shouldn't exist. Unfortunately, as far as I can tell, the closest thing we have are temporary clouds of H(0) caused by ionizing radiation, heavily mixed with electrons.
No comments:
Post a Comment