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We cross posted see my edits on above post in terms of other data such as metalicity and temperature changes
Although there are other factors affecting the observed data, the above three assumptions are still valid.Gege01 said:This conclusion is based on the following assumptions:
1. Hubble's law is valid at small distances and velocities.
2. Special relativity can be satisfied in a very small space-time range.
3. There is a functional relationship between star velocity and distance:
V=V (r)
Ned Wright said:Many Distances
With the correct interpretation of the variables, the Hubble law (v = HD) is true for all values of D, even very large ones which give v > c. But one must be careful in interpreting the distance and velocity. The distance in the Hubble law must be defined so that if A and B are two distant galaxies seen by us in the same direction, and A and B are not too far from each other, then the difference in distances from us, D(A)-D(B), is the distance A would measure to B. But this measurement must be made "now" -- so A must measure the distance to B at the same proper time since the Big Bang as we see now. Thus to determine Dnow for a distant galaxy Z we would find a chain of galaxies ABC...XYZ along the path to Z, with each element of the chain close to its neighbors, and then have each galaxy in the chain measure the distance to the next galaxy at time to since the Big Bang. The distance to Z, D(us to Z), is the sum of all these subintervals:
Dnow = D(us to Z) = D(us to A) + D(A to B) + ... D(X to Y) + D(Y to Z)
And the velocity in the Hubble law is just the change of Dnow per unit time. It is close to cz for small redshifts but deviates for large ones. The space-time diagram below repeats the example from Part 1 showing how a change in point-of-view from observer A to observer B leaves the linear velocity vs. distance Hubble law unchanged:
Ned Wright said:Note that the redshift-velocity law is not the special relativistic Doppler shift law
What is R now? Is it different from r or just inconsistent notation?Gege01 said:When we study specific problems, for example, the distance between A and B is R and r+dr, then, in the range of R to r+dr, it is a small area. Special relativity is satisfied
I'm sorry! R is r. I made a mistakeDale said:What is R now? Is it different from r or just inconsistent notation?
It would really help if you had a valid reference. I know you have the Chinese article that you have tried to post several times, but the language of this forum and the professional scientific community is English. If this is the only source where this concept is published then its credibility is minimal.
Without a valid reference this discussion cannot continue. @Gege01 please post a valid reference in your next post or this will be closed.
Thank you for your help.Mordred said:As you mentioned luminosity to distance the formula I am familiar with is ##D_L=a_Or_1 (1+z^2)## for k=0 where ##r_1=f_k (z)## if k=1 then ##sin f (z)## if k=-1 ##sinh f(z)##
If I recall that was from one of Liddles textbooks