Authors: Sylwester Kornowski
According to the Scale-Symmetric Theory (SST), visible mass (or baryonic mass) of most massive disc galaxies is about 0.85 multiplied by both 12 powers of ten and the solar mass. Calculated within SST the mean baryonic mass of discs of dwarf galaxies produced by such massive galaxies is 5.2 multiplied by both 7 powers of ten and the solar mass. The calculated within SST mean orbital speed of stars in such dwarf galaxies, which results from the interactions of stars with the dark-matter (DM) structures, is about 37 km/s. SST shows that the total number of dwarf galaxies in the early Universe should be about 2.2 multiplied by 12 powers of ten and should decrease with time because of their mergers and due to their absorption by the nearby massive galaxies (massive galaxies have mass higher than about 11 powers of ten multiplied by the solar mass and there should be a massive black hole in their centre). In the early Universe there should be about 1000 times more the dwarf galaxies than the massive galaxies. Contrary to the mainstream cosmology, SST shows that number of massive galaxies in the observed Universe should not depend on time i.e. it is an invariant. SST shows that we should not observe a smooth field of first stars or smooth field of first dwarf galaxies free from the massive galaxies. Moreover, reionization is an illusory phenomenon which follows from the “transition” of galaxies from the unseen period of evolution to the observed period - it took place in the time distance about 13.8 Gyr. All theoretical results obtained in this paper are consistent with observational facts.
Comments: 6 Pages.
[v1] 2016-12-29 01:37:07
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