Brandnew
In the journal "Bild der Wissenschaften 11/2005", p. 10, the following article was published: Galactical Zensus
It says about the work of the astronomers at the side of Jenica Nelan of the Yale University, USA. They examined:
The bigger the galaxies are, the older are their stars and the earlier their
formation was finished. There are hardly evidences for galaxy cannibalism. These results wouldn't fit to the
predominant models in the galaxy formation by cosmology.
In my English:
The bigger galaxies are, the sooner they were formed. Smaller
galaxies are jounger. The "emergence" of
galaxies at all events doesn't run by fusion generally.
Well,
there are no theory and no theoretical solution which would include this
observation.
Anyway! The evolution of the galaxies was published in my book
already since 1998 quite differently:
The first-rate protocosms of the universe open up
themselves and produce the first-rate rotation systems in the cosmos. These are
the oldest galaxies. They are the biggest galaxies at the same time. But
therefore: The first-rate galaxy nuclei go through an unstable stage like young stars
which is called: T Tauri stage. At this they collapse at every
vibration once more. The time between the vibration phases becomes longer and
longer. Each collapse produced of a part of the central mass unites a new
protocosm which is the second-rate protocosm, at first. That one decays into a
smaller and later born (younger) galaxy. The collapse of the center of that
galaxy produces the third-rate protocosms. Etc.. The evolution is a series of
transformations and newborn, in which smaller, younger and more complex
structures are produced down to the dwarf stars within the galaxies which are
enriched with heavy chemical elements.
"The first series of protocosms is filling the complete oscillation of the receptacle cosm. It consists of the first-rate protocosms. If one part of the opened mass of the first rank is collapsing again the second-rate protocosms are arising. This way the process of change of typical protocosm ranks is continuing until the opened mass hasn’t enough pressure energy any more to reach the collapse. Only the annihilation radiation coming back (as radiation cosm) together with the protocosms returning from the amplitude initializes a collapse again which leads to the general back-formation of protocosms (see section 4.2.)."