We are consistently looking at the evidence and saying "we know there are only 13.8 billion years to work with... why do we see mature galaxies as they were 11 billion years ago, where are all these huge webs of galaxies and massive voids existing at the dawn of time coming from, ect."
First question, what is the probabilty that space is actually expanding?
Assuming it is expanding, what is the probability it had to go back to a Big Bang? (Some models, have it contracting and expanding without a Big Bang)
And if there was a Big Bang, what is the probability that 2015 will be different than the last 90 years where how long ago the Big Bang happened gets pushed back a billion years once or twice a decade.
(Side note: This 1/H = 13.8 billion years business is fishy. If 1/H yeilds the age of physical reality as we know it right now, what'll happen 14 billion years from now? 1/H will give the same value for the "age of the universe" when it would be 28 billion years old. It's true that H is not thought to be constant, but if the expansion is now accelerating, H is moving in a different direction, therefore, with everyday, 1/H predicts a smaller age. It's growing younger. Yet, over the decades our calculations went from 2 billion to 4 billion to 8 to 10 to 12 to 13.8, our observations are forcing older ages. 1/H is suspiciously close to c/H, 14.2 billion light years, also known as Hubble's Length, or Hubble's Radius, or Hubble's Limit.)
It might be time for a rational cosmology. There isn't a certainty about the expansion of space, dark energy, inflation. There is a small sampling of reality known as our Hubble Volume, of which there are many, not just one centered on Earth. Galaxies would presumably exist trillions of light years beyond our ability to detect them with electromagenetic radiation.
In our Hubble Volume, there is a cold spot in the CMB to the south. Imagine a Hubble Volume centered 2 * Hubble Radius to the south of us. Does an observer in that Hubble Volume see the same cold spot to their south?
In this cosmology, the CMB is warmer to the north because there are more galaxies in that direction. That's considered an anomaly in the Big Bang theory because they should be equal, and equal to every Hubble Volume.
I am submitting this on behalf of MazeHatter, who originally posted it here in the most recent open tread. Go there to upvote if you like this submission.
Begin MazeHatter:
I grew up thinking that the Big Bang was the beginning of it all. In 2013 and 2014 a good number of observations have thrown some of our basic assumptions about the theory into question. There were anomalies observed in the CMB, previously ignored, now confirmed by Planck:
http://www.esa.int/Our_Activities/Space_Science/Planck/Planck_reveals_an_almost_perfect_Universe
We are also getting a better look at galaxies at greater distances, thinking they would all be young galaxies, and finding they are not:
http://carnegiescience.edu/news/some_galaxies_early_universe_grew_quickly
http://mq.edu.au/newsroom/2014/03/11/granny-galaxies-discovered-in-the-early-universe/
B. D. Simmons et al. Galaxy Zoo: CANDELS Barred Disks and Bar Fractions. Monthly Notices of the Royal Astronomical Society, 2014 DOI: 10.1093/mnras/stu1817
http://www.sciencedaily.com/releases/2014/10/141030101241.htm
http://www.nasa.gov/jpl/spitzer/splash-project-dives-deep-for-galaxies/#.VBxS4o938jg
Although it seems we don't have to look so far away to find evidence that galaxy formation is inconsistent with the Big Bang timeline.
http://www.natureworldnews.com/articles/7528/20140611/galaxy-formation-theories-undermined-dwarf-galaxies.htm
http://arxiv.org/abs/1406.1799
Another observation is that lithium abundances are way too low for the theory in other places, not just here:
http://news.nationalgeographic.com/news/2014/09/140910-space-lithium-m54-star-cluster-science/
It also seems there is larger scale structure continually being discovered larger than the Big Bang is thought to account for:
http://www.sciencedaily.com/releases/2014/11/141119084506.htm
D. Hutsemékers, L. Braibant, V. Pelgrims, D. Sluse. Alignment of quasar polarizations with large-scale structures. Astronomy & Astrophysics, 2014
http://www.sciencedaily.com/releases/2013/01/130111092539.htm
These observations have been made just recently. It seems that in the 1980's, when I was first introduced to the Big Bang as a child, the experts in the field knew then there were problems with it, and devised inflation as a solution. And today, the validity of that solution is being called into question by those same experts:
http://www.physics.princeton.edu/~steinh/0411036.pdf
What are the odds 2015 will be more like 2014 where we (again) found larger and older galaxies at greater distances, or will it be more like 1983?