Post by Pincho Paxton on Feb 8, 2024 8:25:46 GMT
Light Is Probably A Scalar Wave
Waves are usually used as a part of X/Y/Z with length, but the Universe also has scalar physics which you can call In/Out. In/Out also happens when things move towards you, and away from you so you can still work out red shift from that. But you also have to include the local scale of a space backdrop... the space resolution. The space resolution is what I call the Aether.
So when using X/Y/Z for waves a thing moves away from you, and you get red shift because propagation(movement) has physics which stretch the wave. But scientists don't use In/Out, because they don't know about it. When you add In/Out you can remove Relativity from space, because now you have some extra physics to use. Now when things move away from you they spin into holes which join together to make tubes. So you will either see the front of the spin vortex, or the back of the spin vortex. So a tornado is wide at the top, and thinner at the bottom, and we generally look at them from the bottom, and see the thin part. If we looked at a tornado on the moon(imaginary) we would generally see the wide part. So light from the front we see the narrow part, and light from the back we see the wide part. The wide part of the light vortex is therefore red, and the narrow part is blue.
Vortex touch vortex
All of the spins inside the Aether touch each other which keeps them separated. This gives you X/Y/Z built from all of the spins with scalar physics In/Out. The touching of the spins will have entropy(although I don't personally call it entropy, but for now I will), which means that all of the spins start to share their top scale throughout a galaxy with the bottom scale fitting through the middle of the toroidal spins. So the bottom of the tail being thinner leads the way when it comes to propagation. The wide part of the vortex is bumping between other spins. So blue shift leads the way, and red shift is at the back moving away from us.
Red shift in the entire Universe using X/Y/Z on its own to stretch the wave is not the same when you include In/Out. So you can forget that the Universe is expanding, and instead say that the wider part of the wave is being held back. If the Universe were shrinking then the red part of the wave is held back even more. You can deduce that a shrinking Universe has a red shift due to scalar physics. So this addition alters our understanding of the Universe.
In case you didn't notice.. a shrinking Universe has a red shift, not an expanding universe if you have a scalar wave, because the red shift is trapped as we look at it.
Remember Maths isn't physics. You have to work out the physics first to get the maths. (Yes I say Maths, I store words in my brain how best to use them, and maths works better than Mathematics, because its shorter, and better than Math, because that requires a special place holder in my brain.)
Pincho Paxton
Waves are usually used as a part of X/Y/Z with length, but the Universe also has scalar physics which you can call In/Out. In/Out also happens when things move towards you, and away from you so you can still work out red shift from that. But you also have to include the local scale of a space backdrop... the space resolution. The space resolution is what I call the Aether.
So when using X/Y/Z for waves a thing moves away from you, and you get red shift because propagation(movement) has physics which stretch the wave. But scientists don't use In/Out, because they don't know about it. When you add In/Out you can remove Relativity from space, because now you have some extra physics to use. Now when things move away from you they spin into holes which join together to make tubes. So you will either see the front of the spin vortex, or the back of the spin vortex. So a tornado is wide at the top, and thinner at the bottom, and we generally look at them from the bottom, and see the thin part. If we looked at a tornado on the moon(imaginary) we would generally see the wide part. So light from the front we see the narrow part, and light from the back we see the wide part. The wide part of the light vortex is therefore red, and the narrow part is blue.
Vortex touch vortex
All of the spins inside the Aether touch each other which keeps them separated. This gives you X/Y/Z built from all of the spins with scalar physics In/Out. The touching of the spins will have entropy(although I don't personally call it entropy, but for now I will), which means that all of the spins start to share their top scale throughout a galaxy with the bottom scale fitting through the middle of the toroidal spins. So the bottom of the tail being thinner leads the way when it comes to propagation. The wide part of the vortex is bumping between other spins. So blue shift leads the way, and red shift is at the back moving away from us.
Red shift in the entire Universe using X/Y/Z on its own to stretch the wave is not the same when you include In/Out. So you can forget that the Universe is expanding, and instead say that the wider part of the wave is being held back. If the Universe were shrinking then the red part of the wave is held back even more. You can deduce that a shrinking Universe has a red shift due to scalar physics. So this addition alters our understanding of the Universe.
In case you didn't notice.. a shrinking Universe has a red shift, not an expanding universe if you have a scalar wave, because the red shift is trapped as we look at it.
Remember Maths isn't physics. You have to work out the physics first to get the maths. (Yes I say Maths, I store words in my brain how best to use them, and maths works better than Mathematics, because its shorter, and better than Math, because that requires a special place holder in my brain.)
Pincho Paxton