Post by Pincho Paxton on Oct 10, 2016 6:32:18 GMT
The Big Bang leads to a beginning of the Universe, but that isn't likely to be correct. At each point in the Universe you need a cycle, and that cycle needs to cycle with a neighbouring point in a step sequence. The step sequence over a distance needs to cycle also. So if you use the weather as an example we have 1 side of the Earth facing the sun, the opposite side in pitch black darkness, so you have a cycle of temperatures, and a cycle of cloud formation. In space you have stars spread apart over distances that equal hot, and cold areas of space, magnetic changing to gravitational winds. At the centre of a galaxy you have a black hole creating magnetic outflows, changing to gravitational inflows. The Big Bang needs aligning with these repeating cycles which will result in a red shift over a distance.
One important change to the big bang is the black space future, that shouldn't happen with stepped distances of causality. What should happen instead is that matter is pushed apart until it leaves a gap for new matter to form. So if Galaxies are far apart to leave a large enough area of empty space a new Galaxy should form in the empty space. This will also depend on other physics however, and gravity collisions create galaxies, so you need a large empty space with gravity pointing towards gravity from opposite directions, the physics of galaxies moving apart should help this to happen.
The Big Bang is then an effect, and not a cause, so the cause of the Universe is changed towards gravity collisions which will create matter, and result in inflation. The Universe now looks like it started in patches like a camouflage jacket, and the patches are in a scattered sequence, not in line, or neighbouring sequence. So you might get a pattern like this where 1 represents a galaxy, and 0 = expansion...
101
1001
10001
100001
1001001
100010001
10000100001
1000100010001
You have a constant red shift with acceleration, but also new galaxies inbetween. The light of the Universe is not fading to blackness, but is maintained by new galaxy formation, you can do the same with stars.
Those patches are more random than in my example, but my example represents a perfect, average Universe. The zeros in my example also include a propagation length called a quro which also expands. When a quro expands the quantization of the universe expands, and that increases the smallest step distance possible. A step distance is like a wormhole, and you pop out of the other side in a single propagation step. With the wormholes growing in length timed with the expansion of the Universe you counter some of the distance between galaxies.
Gravity is flowing inwards all of the time, so expansion is due to gravity meeting at points with nowhere to escape to apart from outwards as magnetism. Gravity changes shape to become magnetism, and that shape that I came up with was that gravity changes from a string into a tube. A string can thread a tube so gravity can still flow inwards, and magnetism can flow outwards. my string, and tube physics match the Sun, and a bar magnet, so I think that the string, and tube is correct.
And that fixes the Big Bang.
Pincho Paxton
One important change to the big bang is the black space future, that shouldn't happen with stepped distances of causality. What should happen instead is that matter is pushed apart until it leaves a gap for new matter to form. So if Galaxies are far apart to leave a large enough area of empty space a new Galaxy should form in the empty space. This will also depend on other physics however, and gravity collisions create galaxies, so you need a large empty space with gravity pointing towards gravity from opposite directions, the physics of galaxies moving apart should help this to happen.
The Big Bang is then an effect, and not a cause, so the cause of the Universe is changed towards gravity collisions which will create matter, and result in inflation. The Universe now looks like it started in patches like a camouflage jacket, and the patches are in a scattered sequence, not in line, or neighbouring sequence. So you might get a pattern like this where 1 represents a galaxy, and 0 = expansion...
101
1001
10001
100001
1001001
100010001
10000100001
1000100010001
You have a constant red shift with acceleration, but also new galaxies inbetween. The light of the Universe is not fading to blackness, but is maintained by new galaxy formation, you can do the same with stars.
Those patches are more random than in my example, but my example represents a perfect, average Universe. The zeros in my example also include a propagation length called a quro which also expands. When a quro expands the quantization of the universe expands, and that increases the smallest step distance possible. A step distance is like a wormhole, and you pop out of the other side in a single propagation step. With the wormholes growing in length timed with the expansion of the Universe you counter some of the distance between galaxies.
Gravity is flowing inwards all of the time, so expansion is due to gravity meeting at points with nowhere to escape to apart from outwards as magnetism. Gravity changes shape to become magnetism, and that shape that I came up with was that gravity changes from a string into a tube. A string can thread a tube so gravity can still flow inwards, and magnetism can flow outwards. my string, and tube physics match the Sun, and a bar magnet, so I think that the string, and tube is correct.
And that fixes the Big Bang.
Pincho Paxton