TITLE:
Theory to the Mystery of the Super Massive Black Holes
AUTHORS:
Ahti Rahikainen
KEYWORDS:
Black Hole, Galaxy Rotation, Dark Matter, Atom Theory
JOURNAL NAME:
World Journal of Mechanics,
Vol.13 No.5,
May
31,
2023
ABSTRACT: Vera Rubin measured the rotational speeds of galaxies, Ref. [1] 1983, and she found that the masses
of galaxies were not enough to produce the measured speeds of rotation.
Therefore, it was inferred that there must be an unknown matter which is many times the known visible and dark matter. In
this study, the solution to the dark matter
mystery of spiral galaxies is a four-dimensional mass in the space of
four distance dimensions, coordinates: x,y,z,x', in which x' is the
fourth distance dimension. The four-dimensional mass is a black hole, and it
generates the main gravitation field of the galaxy. This mysterious black hole
is located in the fourth dimension at the distance x' = X'. The rotational speed distribution
curves of the galaxy NGC 3198 have been
presented in Ref. [2]. The
speed distribution curve of the galactic halo in that publication corresponds
to the speed distribution curve of
the four-dimensional black hole in
this study. In order to find out how well this four-dimensional model
functions, the speed distribution curve of the four-dimensional black hole was
calculated, and it was compared with the halo curve of Ref. [2]. The
conclusion was that the calculated speed distribution curve of the black hole
was a good match to the halo curve of Ref. [2].
Furthermore, the rotational speed distribution curves of the four-dimensional
black hole were calculated by using different values of the reduced distance X', which yielded at the distance X' = 0 a black hole of radius R = 7.7 × 1017 m. By using the relativistic Lorentz transformation, it was
shown in this study that a star falling into the four-dimensional black hole
remains rotating it at near speed of light, and cannot fall into the actual
black hole.