It is a simple ideas. If we look at the center of the milky way and at another galaxy and compare in R, then the same ordering when taken from the center of the milky way should hold. The shared dimension is a separable mode of sequence in teach vacuum quant. Then nothing else matches except there will buy barely observable dual curvature of light So, the vacuum in our locality has a barely seen offset, among other regions there is a mediator of these offsets. Space is not expanding, a slight compression wave spirals through it. There is an orthogonal curvature in which vacuum deviations close, but it causes everyone's R to tend to zero that heir vacuum units be resorted. Lifeguards in the aether.
The earth center system of the universe. Worked great, at the time wi seasonal correction. I hear its wrong, but they still show sun centered universe to our kids every day.
It is not wrong, it is R, R can always be ordered and has utility if the instruments are not precise. R ordering should still work when treated as a toroidal geodesic. But the farther out one looks, the greater the spiral effect. The R ordering maintained but looking like bunched up distances.
Barely means we can work it out, find the Largrange spots. But it becomes a kind of Bayesian problem. We knows the path compressions from about six different possibilities. One clue is the increased observance of opposite curved protons far out, likely near nodal points. Try turning your spin experiment into a compass, point it along the axis where R is bunched, vs a sparse part of the axis. Put this experiment in orbit, far orbit. It becomes a kind of telescope. Then examine light bunched on the red shift spectrum. Are neutrinos the key?
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