Abstract

The beginning of the formation of galaxies can be recognized in the planetary and stellar systems. The rotation speed of a galactic center determins the form of a galaxy an the ongoing processes. The forces of attraction and the rotation of stars firstly form binary systems. The objects that are locked down by their tidal forces or that posses an extremely slow rotation, i.e. they have no independent rotation – they don't have other objects orbiting around themselves; for example: Mercury, Venus and the majority of satellites. A very fast cyclone rotation (in an elliptical galaxy) creates huge friction, whichheats up matter; that can be seen on quasars and very fast-rotating small objects (stars) through the emission of radiation that takes place on the poles. A vast number of stars and other matter (the center of a galaxy), when rotating around the common center, act as a single body, related to the rest of the galaxy. A slow rotation of a galactic center (as in the stellar clusters) does not create a recognizable center (the center looks more like the ones of close binary systems), while the fast rotation creates the center that ranges from the northern to the southern pole of the center. The speed of rotation is not exclusively responsible for the size of an object (a galaxy, a star,...) because a fast rotation is a characteristic of both dwarf and giant galaxies. The same goes for a slow rotation. The same principle applies to stars. There are big stars with different speeds of rotation, and the same goes for small stars. There are hot stars with very small mass, but there are also hot giant stars. Cyclones (in the north and south poles of the galaxy nucleus) are responsible for acceleration and deceleration of galactical and stellar rotations (as well as the death of stars). The influx of hotter matter accelerates the rotation of an object (the influx of stars to the cyclone in the center of a galaxy).

Highlights

  • The goal of this article is to sum up the processes of the objects' formation in Universe, with a special review of galaxies

  • The observation of the rotational effects can be done through the orbits of objects around a central object

  • The speed of an object that approaches a central object has nothing to do with the American Journal of Astronomy and Astrophysics 2018; 6(3): 72-80 appearance of the orbit, because if it did, we would have had orbits around the poles [7]

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Summary

Introduction

The goal of this article is to sum up the processes of the objects' formation in Universe, with a special review of galaxies. In this article, these basic laws of nature are used: a constant process of growth, valid for all objects in Universe [1]; matter attraction feature [2]; the effects of objects' rotation around their axes [3] and inside a system; a decrease of radiation intensity and temperature with the increase of distance from a source of radiation or temperature (an object that creates and emits radiation) [4]; the absence of light in Universe; a short debate on dark matter from the other angle [5]. I consider the rotation of objects as the central process which creates the systems of stars, galaxies, the clusters of galaxies, Universe, Multiverse,...; it creates all systems, determines their appearance and, related to stars, their temperatures, radii, colors, orbital speeds of the objects around a star, their numbers, asteroid belts and gas disks. [6]

The Formation of a System by Rotation
Gravitationally Bound Objects
The Formation of Galaxies
Dark Matter
Findings
Conclusion

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