Authors: Manuel abarca hernandez
For last two years I have published several papers about DM on galaxies and cluster of galaxies. Data have been taken from recent papers written by prestigious researches. The main target of papers have been to calculate DM density through an original hypothesis which states that DM is generated by gravitational field according a Universal law. As consequence this hypothesis, gravitational field is calculated through a Bernoulli differential equation which gives rightly DM density named Bernoulli profile. Formula which relates DM density and gravitational field is DM density = A•E^B. Where A & B are parameters which are supposed to be valid for every gravitational system. Parameters A&B come from calculus made in paper  Abarca, M.2016. Specifically were calculated in M31 galaxy from rotation curve data for radius bigger than 40 kpc and lower than 200 kpc. In this region gravitational field is lower than 10^-11 m/s^2. Whereas inside Solar System gravitational field is billions of times bigger. However if it is supposed that DM generation mechanism is Universal then the same parameters should be right to study Dark matter density inside Solar System. It is remarkable the fact that through the same method I have published successful results for cluster of galaxies scale and galaxy scale. Unfortunately there is not experimental measures for DM inside Solar System yet so it is not possible for now check theoretical results published in this paper. The main results this paper are DM enclosed by spherical coronas defined by radius of Sun and planetary orbits. Through mass of Earth as unit of mass, results are the following ones: DM up to Mercury orbit is 71,8 MEARTH , up to Venus orbit is 75.76 MEARTH , up to Earth orbit is 77.5 MEARTH , up to Mars orbit is 79.5 MEARTH , up to Jupiter orbit is 83.96 MEARTH , up to Saturn orbit is 85.56 MEARTH , up to Uranus orbit is 87.04 MEARTH , up to Neptune orbit is 87.82 MEARTH , up to Pluto orbit is 88.25 MEARTH, up to Eris orbit is 88.98 MEARTH, up to half distance to Proxima Centauri is 92.33 MEARTH and up to Proxima Centauri distance is 92.39 MEARTH
Comments: 9 Pages. II version has calculated DM up to Eris orbit and up to Proxima Centauri distance
Unique-IP document downloads: 20 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.