Wednesday 2 September 2015

Journal of Astrophysics & Aerospace Technology USA published a paper on ....'.No Dark Matter’ Prediction from Dynamic Universe Model Came True!....on July 05, 2015'

No Dark Matter’ Prediction from Dynamic Universe Model Came True!
Satyavarapu Naga Parameswara Gupta*

Published on July 05, 2015
Volume 3 • Issue 1 • 1000117

Astrophysics & Aerospace Technology ISSN: 2329-6542
Gupta, J Astrophys Aerospace Technol 2015, 3:1
http://dx.doi.org/10.4172/2329-6542.1000117


Abstract
This paper discusses about the theoretical “non-requirement” of dark matter, or in other words, there is no missing mass in galaxies. A singularity free and collision free n-body problem solution called dynamic universe model was used to find out the theoretical star circular velocity curves in a galaxy. Here five cases are presented. In the first case a HUGE mass at the center of galaxy, sun like stars and external galaxies are assumed, when plotted, the graph of last iteration shows disk formation and velocities achieved. This circular velocities verses radius graph looks exactly similar to observations by astronomers. In all the other cases, either the central mass is missing or external galaxies are missing or both are missing where resulting graphs look different. It can be inferred that the theoretical requirement of dark matter is calculation error, that no dark matter (missing mass) is required according to dynamic universe model. This prediction was first presented in Tokyo University in 2005. Later the findings from LUX in 2013 the (Large Underground Xenon) experiment confirmed this prediction. This new Tensor math in dynamic universe model was used for solving a large variety of physical problems which are otherwise not possible with present day physics. This method solved many unsolved problems earlier like existence of blue shifted galaxies galaxy disk formations, missing mass in galaxies, pioneer anomaly, non-collapsing large scale mass structures and new horizons trajectory predictions etc.
AMS subject classifications: 70F10 (n-body problems), 70F15 (celestial mechanics), 70E55 (dynamics of multi
body systems) 70-05 (experimental work) 70-08 (computational methods).
Keywords: Dark matter; Tensors; Quasars; stars; Rotation curves;
Missing mass in galaxies; Galaxy structure; Galaxy; Kinematics and
dynamics; Cosmology; Observations
Introduction
Rotation curve of galaxy: Missing mass/dark matter concept
Observationally a galaxy also looks like a star, but on the high
telescope resolution, the constituent stars are visible, the more stars,
therefore the more massive the galaxy. By the early 1960's, there were
indications coming for doubting about the missing mass. The first
indication that there is a significant fraction of missing matter in a
galaxy is from the studies our own milky way. The quantum of mass
inside sun’s orbit around the milky way center is observationally less
than the calculated one. A straight forward rotation curves from the
rotating wheel can be seen in Figure 1, which is true according to
Kepler’s third law also as planet-like or differential rotation. Notice that
the orbital speeds falls off as you go to greater radii within the galaxy.
This is called a Keplerian rotation curve as shown in second part of
Figure 1.

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