
Mass attraction.
Here I give a brief overview of the problem.
The universe can only create one particle in the
classic Big Bang and is the only particle that is
active. There are two particles that are stable at
rest, one proton and one electron. Only the proton
can be a particle binder and it is atomic and molecular
binder. The mass attraction is created by the bonding
structures of the universe's core nuclei.
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There are more vectors pointing towards the
center than those pointing away from the
center, per. volume unit .. In addition to speed,
mass attraction is also linked to the volume in which it
operates.
There are two types of mass attraction:
Mass attraction of particle mass.
The formula for particle mass is mx = (Vx * c2) / V
Where the particle mass is Vx * c2 and V is the volume
to the calculation point.
Mass attraction
for molecular mass The formula for molecular
mass is mx = (Vx * v) / V Ex. Earth's volume is Vx
and v is Earth's gravity 9.8 m / s and V is volume to
the point of calculation
The point of
intersection is the bounded periphery of the
mass and the transition to the normal function of the
universe, after which the attraction is diminishing.
This is a ball formula, which assumes that the mass
is at rest. If the mass is not at rest, the basic
functions of the universe must be coordinated.
....................
Molecular
mass attraction (the gravity).
Formula of molecular mass attraction is m/s = (V_{x} * v^{2}) / V
The cutting point is the same as in mass attraction.
Example: The earth's cutting point is the surface and v = 9.8 m /s.
This is also a ball formula, which assumes that the Earth is
at rest. If the Earth is not at rest, there shall be
coordinated for the fundamental functions of the
universe, if it all shall be correct.
..................
The difference between the two systems is the combinatorial composition.
Mass attraction is that part of the universe which holds
the various particle parts together.
Example 1:
If we take the earth that is made up of molecules and
would like to calculate what the mass attraction is
at a height of 50 km above the surface:
The formula is m/s = (Vx * v^{2}) / V
Gravity is 9.8 m / s
The radius of the earth is 6,371 km equals 6 371 000 m.
The distance is 6,371 km + 50 km is = 6 371 000 m + 50
000 m = 6 421 000 m
Gravity is at 50 km altitude:
m / s = ((4/3 * pi * (6 371 000)^{3} ) * 9.8) / (4/3 * pi
* (6 421 000)^{3} ) = 9.57 m / s
The universe's
two main parameters are volume and velocity, if you
remove the volume parameter and replace it with a
charge system, then the error is so great that it cannot be
greater, all the basic systems will appear as an
incoherent incomprehensible chaos.
Example 2:
I show here an example of
calculating the mass attraction in a molecule.
A molecule consists of atoms and is a subdivision of the
functions of the atomic nucleus, there are two
parameters that bind the molecule together and one is
the mass attraction of the atomic nucleus.
The main function of the universe is made up of three
parameters; The product is stated kg.  the length is
indicated with the system  time in seconds. The values
used must therefore be converted to this system.
No consideration has been given to the temperature,
pressure, combinatorial composition of the mole mass,
the Brownian movements and is a function between two
elements.
I use hydrogen 1H.
Mole volume is 22.4 liters = 0.0224 m^{3}.
Mole masses (1H) = 1.00794 g / mol = 0.00100794 kg. / mol.
Here we must use the formula for solid core mass ((V_{x} *
c^{2}) / V
= (m_{x} / V).
The electrons have no influence on the molecular binding, so we can use a proton mass which
is m_{p} = 1.672621532E27 kg. and
V_{p} = 1.8610424413E44
m^{3}.
We therefore get the formula ((m_{p} / V = (V_{p} *
c^{2}) / V).
Number of atoms per mol = 0.00100794
kg./1.672621532E27 kg. = 6.026109199E + 23 pcs.
Medium volume per particle = 0.0224 m^{3} / 6.026109199E +
23 pcs. = 3.717157997E26 m^{3}.
The mass attraction (V_{p} *
c^{2}) / V = (1.8610424413E44 m^{3} * 8.9875517874E +
16 m / s^{2}) / 3.717157997E26 m^{3} = 0.044997321 m /
s^{2}.
All particles and masses that go from resting mass
to kinetic mass have action and reaction, this also
applies here.
The square root of 0.044997321 m / s^{2}. = 0.212125719 m / s
I translate it into energy
without explaining the turnover system 1.8610424413E44
m^{3} * 0.212125719 m / s = 3.947749659E45 kg.
The radiation pressure is = the mass attraction
3,947749659E45 kg in this bond.
I have shown an example of a part function in molecular microphysics.
It is a new way of making calculations, so there are
no direct systems to compare the result with, but it is
well below the gravitational force of 9.8 m / s, so the
expected result is acceptable at present.
 
The
Universe.
Classic
big bang.
Mass
formation.
Atom
structure.
Atom
binding.
Molecular
binding.
Particle
radiation
Magnetic
fields.
Mass
attraction.
Conclusion.
Micro physics
