Post by Pincho Paxton on Nov 24, 2014 8:02:04 GMT
It is possible that Oxygen is just a quantum hole with an inflow. An inflow towards a point creates bonding, and cooling. The scale of oxygen would allow it to pass atomic nucleus which are other quantum holes. Between quantum holes are hole membranes, which are flow forces of gravity. Quantum holes can flow in or out from a point. The storage of energy is to flow inwards towards a point, and store gravity as a spin force, and later release that spin force as an outflow. Bonding requires that holes remain as the area of least resistance, and so they must keep emptying themselves. For a quantum hole to become empty a collision must occur between gravity from different directions. The gravity will then scale down to become the next quantum hole in a cycle. Gravity scales until it becomes a negative scale which is a hole.
How do I come to this conclusion?
Well first H2o has two points of oxygen in the right place for bonding chains together, and water would be those chains. I use quantum holes for bonding, and mass, so most likely Oxygen is a quantum hole.
Secondly in the brain the oxygen can be used for cooling, and moving X/Y/Z points together to attract plasma there. If you imagine the inflow as a movement of points together, then neurons would be those points moved together. Programming an artificial brain is helped by moving X/Y/Z points together like folding spacetime, but the analogy is 3D, so you are pinching space, and scaling it towards points. This would create pathways towards neurons.
The brain looks a lot like the web hidden in the Universe. Well this web is pinched towards black holes. Oxygen in the brain would be a miniature version of the galactic black holes in the Universe, and pinch together our thoughts. The propagation through those pinches would then automatically have paths leading from neuron to neuron.
Speed = Propagation distance.
The speed would be towards those neurons, because the paths leading up to them are elongated. X/Y/Z is stretched along axons towards dendrites.
People have often talked about the bending of spacetime, well it helps to actually take advantage of that by not having a linear X/Y/Z in computer models. You can bend X/Y/Z in your program, and create a result that pathways have preferences. This is especially useful for brain simulators.
Pincho paxton
How do I come to this conclusion?
Well first H2o has two points of oxygen in the right place for bonding chains together, and water would be those chains. I use quantum holes for bonding, and mass, so most likely Oxygen is a quantum hole.
Secondly in the brain the oxygen can be used for cooling, and moving X/Y/Z points together to attract plasma there. If you imagine the inflow as a movement of points together, then neurons would be those points moved together. Programming an artificial brain is helped by moving X/Y/Z points together like folding spacetime, but the analogy is 3D, so you are pinching space, and scaling it towards points. This would create pathways towards neurons.
The brain looks a lot like the web hidden in the Universe. Well this web is pinched towards black holes. Oxygen in the brain would be a miniature version of the galactic black holes in the Universe, and pinch together our thoughts. The propagation through those pinches would then automatically have paths leading from neuron to neuron.
Speed = Propagation distance.
The speed would be towards those neurons, because the paths leading up to them are elongated. X/Y/Z is stretched along axons towards dendrites.
People have often talked about the bending of spacetime, well it helps to actually take advantage of that by not having a linear X/Y/Z in computer models. You can bend X/Y/Z in your program, and create a result that pathways have preferences. This is especially useful for brain simulators.
Pincho paxton