Authors: Yongfeng Yang
In the past, various scenarios have been presented to account for the formation of the solar system and our galaxy, but ever-increasing observations prove these conceptions to be incomplete. Here we propose, all objects in the universe are organized in an orderly series of hierarchical two-body systems with gravitation. Within these systems, the two components of each two-body system are orbiting around the barycenter of this system, and at the same time each two-body system is orbiting around the barycenter of a superior two-body system. Based on this hierarchical two-body association, an approximate uniform velocity feature for all stars in a galaxy, and galaxies in a cluster, is determined. Under the effect of gravitation, a successive hierarchical orbital shrinkage results in high redshifts of distant galaxies and planar (disc) rotational profile of large-scale structures like the solar system and galaxy.
Comments: 11 pages, 7 figures and 2 tables. Cites as: Yang, Y. Y., Proceeding of the 18th annual conference of the NPA, College Park, Maryland University, USA, Vol.8: 712-721 (2011).
[v1] 26 Oct 2010
[v2] 23 Nov 2010
[v3] 26 Nov 2010
[v4] 1 Jan 2011
[v5] 10 Mar 2011
[v6] 18 Jul 2011
[v7] 21 Jul 2011
[v8] 23 Aug 2011
Unique-IP document downloads: 333 times
Add your own feedback and questions here:
You are equally welcome to be positive or negative about any paper but please be polite. If you are being critical you must mention at least one specific error, otherwise your comment will be deleted as unhelpful.