Albert Einstein

This study

Comparison of capacity of sets:

The geometric metric defines all the properties of gravity:

The inertia is a special case of gravity. Inertia is self-induction and is determined by the task of geometry:

$\text{Geometry}\supset \text{Inertia}\supseteq \text{Gravitation}$

$\text{Gravitation}\supset \text{Inertia}\left(\text{Geometry}\right)$

The mass of a black hole in the center of the galaxy:

The mass of the black hole is large:

The mass of a black hole is identically zero. Only the flow of matter through the cross section of a black hole is determined:

$M\left(\text{blackhole}\right)\to \infty$

$M\left(\text{blackhole}\right)\equiv 0$

$J\left(\text{blackhole}\right)~const$

The amount of matter at the outer edge of the galaxy:

At the outer boundary of the galaxy, matter is synthesized due to vacuum quantization:

Closing streams. The amount of matter that has passed through the center of the galaxy is approximately equal to the amount of matter at the outer edge of the galaxy:

$M\left(\text{outergalaxyborder}\right)\approx 0$

$J\left(\text{outergalaxyborder}\right)\approx J\left(\text{blackhole}\right)$

Motion of matter along the arm of galaxy:

Translational motion of matter without rotation. The constancy of velocity is the result of the curvature of space.

Translational-screw motion, analogous to the Archimedes’ screw. Please do not confuse the spirality of the galaxy with the spirality of the galaxy arm:

$S\left(\text{galaxyarm}\right)=0$

$S\left(\text{galaxyarm}\right)\ne 0$

Generation of gravitational waves:

This requires collisions of massive bodies, that is, gravitational waves can be generated at collisions of two massive black holes or large neutron stars:

The gravitational waves (vortex) can be generated by various objects, including small planets in the solar system:

${\displaystyle \sum M}~M\left(\text{balckhole}\right)$

${\displaystyle \sum M}~M\left(\text{planet}\right)$

The frequency of gravitational waves:

The frequency is determined by the size of the generating system, thus the gravity waves have frequencies such as in the LIGO and VIRGO experiments:

The frequency is determined by the size of the generating system, thus the gravity waves have frequencies such as in the in future eLISA experiment:

$\lambda ~L\left(\text{balckhole}\right)$

$\lambda ~L\left(\text{solarsystem}\right)$