Calimero said:
Radrook, you have the right to believe what you want, but please stop posting crackpot links. It is not opposing view, it is nonsense. Stephan's quintet is one of the most watched objects in the sky, and NGC 7320 is foreground galaxy. You can even see individual stars in it, because of its proximity.
But he believes otherwise for the following reasons.
Exzcerpt:
Stephan's Quintet
In "Quasars, Redshifts, and Controversies" (p. 96-101) Halton Arp discusses the five interacting galaxies NGC 7317, 7318A, 7318B, 7319, and 7320 that constitute Stephan's Quintet. The last one, NGC 7320, has a redshift value of 800 km/sec. The other four have redshifts of either 5700 km/sec or 6700 km/sec. Mainstream astronomers therefore claim those last four are about eight times farther away from us than NGC 7320. Therefore, they say, there cannot be any interaction between 7320 and the others.
Arp states "The deepest 200 inch (Mt. Palomar) plates that I have been able to obtain clearly show a 'tail' coming out of the southeast end of NGC 7320." He points out, "A tail like this from NGC 7320... must be an interaction tail - which could arise only from physical interaction with the adjacent high-redshift members of the Quintet."
He then states that at least one amateur has been able to see the tail but, "it is amazing that so many professionals have difficulty seeing it." NASA routinely crops their images of Stephan's Quintet to exclude the area where this tail would be seen.
However, my good friend, amateur astronomer John Smith acquired a full image of the Quintet.
The large, dark galaxy on the left is the low redshift NGC 7320. Then going counter-clockwise we have 7317, 7318A, 7318B, and 7319. At the top of the image is the small galaxy NGC 7320C. After some digital image processing (which only increased contrast), the result shown below was obtained.
It is apparent that a 'tail' does indeed extend out from NGC 7320 toward the left. In fact it appears to curve around and connect to the small galaxy NGC 7320C. The redshift of this small companion galaxy is z = 0.02 which is about 10 times that of NGC 7320.
So, once again we have evidence of a physical connection between two objects that have vastly different redshift values.
http://www.electric-cosmos.org/arp.htm
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Excerpt
Stephan’s Quintet
...It is possibly the single best example of visibly connected extragalactic objects with discordant redshifts in existence today. The physical connection between the objects is so plainly visible and their associated redshifts so disparate that one would think I would not hesitate to feature them on this website. Ironically, despite the overwhelmingly visible proof the following images provide, they also serve as stark reminders of just how stubborn and incredibly biased the current scientific community is in regards to discordant redshifts or any evidence that might throw the Big Bang Theory into question.
http://www.discordancyreport.com/stephans-quintet/
