Post by Pincho Paxton on Dec 24, 2016 12:14:17 GMT
Scientists have started using the word 'Axions' to explain Dark Matter. If I use that word it would be as a word to describe the Aether all around us. All physics require a circuit board propagating information in various directions, and so space cannot be empty, it has to be full. Axions allow space to be full with propagators, and they would direct light, and other physics through space. A simple way to hide axions is to have them built from opposing physics... 1 + -1 = 0.
1 + -1 = 0...
... it is best described as a hole, and a filler that merge together like Lego to vanish into zero. The energy to propagate in all directions is best described by a sphere, so a spherical hole, and filler. The patterns in space would therefore be spherical stacking systems, and then you can apply fractals from Newton's Kissing Number problem.
From those patterns you can build axis as propagation directions through a sort of Icosahedron. Those axis can be compared to a toy gyroscope with a bar through the middle in the Y axis, and a spin around the bar as the X/Z axis. So axions would take on that shape through a very simple evolution process which is practically instant. Then you need to include scale in all of that, because a pre-determined scale would require intelligence, yet atoms have a scale. To get scale from the Axions you need to allow the axions to pulsate like jellyfish. The pulsation would have to find the area of least resistance from its neighbour's pulsations. The area of least resistance will lead to an entropy of scale.
So now you have X/Y/Z plus scale which is a pulsation we can call In/Out.
The old Aether theory had sink, and squirt added to it, and sink, and squirt would be the same as In/Out.
Heat propagation takes the spin of X/Z, and the string of 'Y' towards, and away from a point which is In/Out.
'In' is cold, and 'out' is hot.
Those physics create fractals through the axion propagation, and the best way to see 'In' is in the fractals of snowflakes. Out tends to lose its fractals, because bonding requires the string of 'In' to create fractals. Losing bonding loses fractals, so you end up with a outwards blasting blob of heat.
To measure heat therefore is to measure In/Out at quantum points, and then take an average of those points, or just use the quantum information as Data.
Those are the physics for Hot, and Cold.
Pincho Paxton
1 + -1 = 0...
... it is best described as a hole, and a filler that merge together like Lego to vanish into zero. The energy to propagate in all directions is best described by a sphere, so a spherical hole, and filler. The patterns in space would therefore be spherical stacking systems, and then you can apply fractals from Newton's Kissing Number problem.
From those patterns you can build axis as propagation directions through a sort of Icosahedron. Those axis can be compared to a toy gyroscope with a bar through the middle in the Y axis, and a spin around the bar as the X/Z axis. So axions would take on that shape through a very simple evolution process which is practically instant. Then you need to include scale in all of that, because a pre-determined scale would require intelligence, yet atoms have a scale. To get scale from the Axions you need to allow the axions to pulsate like jellyfish. The pulsation would have to find the area of least resistance from its neighbour's pulsations. The area of least resistance will lead to an entropy of scale.
So now you have X/Y/Z plus scale which is a pulsation we can call In/Out.
The old Aether theory had sink, and squirt added to it, and sink, and squirt would be the same as In/Out.
Heat propagation takes the spin of X/Z, and the string of 'Y' towards, and away from a point which is In/Out.
'In' is cold, and 'out' is hot.
Those physics create fractals through the axion propagation, and the best way to see 'In' is in the fractals of snowflakes. Out tends to lose its fractals, because bonding requires the string of 'In' to create fractals. Losing bonding loses fractals, so you end up with a outwards blasting blob of heat.
To measure heat therefore is to measure In/Out at quantum points, and then take an average of those points, or just use the quantum information as Data.
Those are the physics for Hot, and Cold.
Pincho Paxton