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From: Archimedes Plutonium on 6 May 2010 15:30 The Luminet team of researchers found a diameter of the Cosmos at 30 billion light years across with a Poincare Dodecahedral Space. I was wondering if that matches the 3rd layer Ring of Jarrett's mapping: > http://spider.ipac.caltech.edu/staff/jarrett/papers/LSS/ > The third layer (0.01 < z < 0.02) is dominated by the P-P > supercluster Apparently not as indicated by Wikipedia's redshift entry: --- quoting Wikipedia --- The highest redshift known for a quasar (as of December 2007) is 6.43, [2] which corresponds to a (comoving) distance of approximately 28 billion light-years from Earth. --- end quoting --- So today I am wondering if the 3rd layer of Jarrett's is the end of DISTANCE Calibration in Astronomy using only standard candles of luminosity and not using the "expansion redshift" --- quoting Wikipedia on Nova --- Novae as distance indicators Novae have some promise for use as standard candles. For instance, the distribution of their absolute magnitude is bimodal, with a main peak at magnitude -8.8, and a lesser one at -7.5. Novae also have roughly the same absolute magnitude 15 days after their peak (-5.5). Comparisons of nova-based distance estimates to various nearby galaxies and galaxy clusters with those done with Cepheid variable stars have shown them to be of comparable accuracy.[6 --- quoting Wikipedia on 1a Supernova --- Type Ia supernovae that have a very well-determined maximum absolute magnitude as a function of the shape of their light curve and are useful in determining extragalactic distances up to a few hundred Mpc. [9] A notable exception is SN 2003fg, the "Champagne Supernova," a type Ia supernova of unusual nature. --- end quoting --- So I am wondering today, if we dismissed all redshift distance accounting in Astronomy and relied only on well known physics of distance measure, whether the edge of the Universe is the 3rd layer as given by Jarrett with his "Ring". Now it says that the 1a Supernova are good for a few hundred megaparsecs. So I wonder if the 3rd layer Ring of Jarrett's mapping is this few hundred megaparsecs? Let us make a commonsense, a rational inference. Does it make sense to see pointlike objects of quasars that are redshifted and alleged to be 28 billion light years away, yet still seeing those objects optically? Or is the commonsense rational inference that the redshift has nothing to do with distance and that these quasars are not powered by some enormous energy source, meaning that they are nearby faint and dull stars. It is easy to know which of those two choices Occam's Razor would pick. What I am saying is that, if you can optically see a quasar that is alleged to be 28 billion light years away, then you have redshift theory all wrong. So where is the optical limit of Cosmology? We can see Supernova out to Jarrett's 3rd layer. Can we see Supernova out to 28 billion light years? We should if we can see faint red dull quasars out there. So why are we not seeing at least a Supernova explosion out in the Great Walls about one per day or in the quasar belt? And I suspect the answer is that these Great Walls and quasars are much closer to Earth. And that they are within Jarrett's 3rd layer. The trouble with Hubble's Law, redshift expansion, is that they never realized there is a optic limit to seeing astro bodies. Because of their bogus and erroneous interpretation of redshift, they have us believe quasars are optically visible at billions of light years away, far beyond where optic visibility of astro bodies ceased. It is commonsense, it is rational, that if I take my flashlight and walk a distance from an observer, that at some point the observer is never able to see the flashlight. This principle of Luminosity applies to astronomy. That at some distance, we simply cannot observe an object in space. But the Hubble Law and the redshift Big Bang expansion ignore this principle. Somehow they have been so propagandized as to believe that a quasar at 28 billion light years is able to be observed. The better idea is that in Jarrett's mapping of the Cosmos, there is a limit of observation of the optic and visible observation and I suspect that limit is the RING seen in Jarrett's third layer. Now I have to reeducate myself on astronomy's distance candles. I do not think anyone in astronomy has correlated the distances of supernova with the Doppler-Hubble redshifts and notices a glaring contradiction of distances. The many contradictions of distance in astronomy are routinely swept under the rug and ignored. Archimedes Plutonium http://www.iw.net/~a_plutonium/ whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies
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