About Tsiganok Gravitation Theory (TGT)

The Earth gravity acceleration was found experimentally. Geometric dimensions of different bodies, the distance to them, the average orbital velocities as well as the photos and video images of various bodies were found with the help of optical telescopes. Their chemical composition and temperature were found (determined) with the help of spectral analysis. American astronauts delivered the samples of lunar soil to the Earth. Automatic space stations studied the surfaces of Venus and Mars, and those of Mercury, Jupiter, Saturn, etc. from the orbit.


Introduction
The development of science and technology radically changed the outlook of the mankind. The use of modern methods and devices in studying the Universe made it possible to find the answers to a number of questions concerning the structure and functions of the Solar System and the Universe on the whole.
The Earth gravity acceleration was found experimentally. Geometric dimensions of different bodies, the distance to them, the average orbital velocities as well as the photos and video images of various bodies were found with the help of optical telescopes. Their chemical composition and temperature were found (determined) with the help of spectral analysis. American astronauts delivered the samples of lunar soil to the Earth. Automatic space stations studied the surfaces of Venus and Mars, and those of Mercury, Jupiter, Saturn, etc. from the orbit.
However, a number of other actual questions have not been answered yet [1].
Numerous attempts to find the answers to these questions have not been successful. The reason of such a situation may be attributed to insufficient foundation of the existing gravitation theories [2].

Analysis of Publications
The notions of weight and mass became an integral part of our ideas about our environment long ago. These notions were used by everybody, they were discussed in numerous books, articles and dissertations, there being no complete clarity so far [3]. The doubtful: Newtonian gravity (NG) [4], General relativity (GR) [5], Quantum gravity (QG) [6], Canonical quantum gravity [7], Kaluza-Klein theory (KK theory) [8], String theory [9], Supergravity [10], Modified Newtonian Dynamics (MoND) [11], Scalar-tensor-vector gravity (STVG) [12], Tensor-vector-scalar gravity (TeVeS ) [13], etc. were created on the basis of the known notions of weight and mass. In the result of such a pseudo-scientific activity no law of nature has been discovered in physics for the last 350 years. The mechanism of gravitation as well as that of electricity, light and other phenomena is still unknown. The mechanism of Pioneer anomaly [14] as well as of some other anomalies is also unknown.
While analyzing the results of the known researches one should mention the following main advantages of the work performed: -the discovery of the law of free falling by G. Galilei in 1604 [15]; -the discovery of centrifugal force by Ch. Huygens in 1659 [16]; -the experimental determination of the Earth gravity acceleration; -the determination of velocities of bodies velocities; -the determination of the distances between various bodies; The analysis of the known researches made it possible to formulate the following basic disadvantages of the work done: -the known theories of gravitation are insufficiently grounded; -the definitions and methods of determining the weight, mass, density (specific gravity) and other parameters of bodies are not grounded sufficiently; -it is impossible to obtain dimensions of force from the product of masses and squared distance between them in the formula of Newton doubtful gravitational law; -Cavendish gravitational constant from the doubtful Newtonian gravitational law was found from a doubtful formula, but not as a result of the known experiment with a torsion balance [17].
-the existence of the so-called gravitational mass and inertial mass was not explained [18]; -the absence of weight in the state of weightlessness wasn't proved; -the results of experimental definition of centrifugal force don't coincide with theoretical or calculations; -the validity of the second law of motion formula wasn't confirmed; -the so-called Pioneer anomaly wasn't confirmed; -the validity of Newton doubtful gravitation law and Newton doubtful gravitation theory with its mathematical apparatus weren't confirmed.

The Problem
In connection with the foregoing the research problems consist in: -discovering Tsiganok gravitation law, elaborating Tsiganok gravitation theory (TGT), (known earlier as the new gravitation theory (the NGT)) [19] and its mathematical apparatus; -giving the definition of body weight and body mass; -defining weight and mass of the Earth, the Sun, the Moon etc.; -finding gravity acceleration constant of gravity 1.0 g of the body; -defining gravity acceleration of the Earth, the Sun, the Moon, etc.; -finding gravitational constant; -working out a temporary standard-copy of body weight and temporary standard-copy of body mass for Tsiganok measurement system; -confirming or rejecting both experimentally and theoretically the validity of the measurement of density in -finding weight, mass, gravity acceleration, density (specific gravity) and other body parameters in various points of the Universe; -proving or disapproving both theoretically and experimentally that the Earth, the Sun, the Moon etc. have weight in the state of weightlessness; -proving or disapproving both theoretically and experimentally the existence of gravitational mass and inertial mass; -finding centrifugal force of the Earth, the Moon etc; -proving or disapproving both theoretically and experimentally the validity of centrifugal force formula; -finding the force of gravitational between the Sun and the Earth, between the Earth and the Moon; -defining the formula of the second law of motion; -proving or disapproving both theoretically and experimentally the existence of the so-called Pioneer anomaly; -creating the pre-requisites for defining weight, mass, gravity acceleration, density (specific gravity) and other parameters of atoms, atomic nuclei, electrons, protons, neutrons, the so-called elementary particles, etc.; -proving or disapproving both theoretically and experimentally the validity of the doubtful Newtonian gravitational law formula, the doubtful Newtonian gravitation theory and its mathematical apparatus; -proving or disapproving theoretically and experimentally the validity of Tsiganokgravitation law formula, TGT and its mathematical apparatus.

Results
TGT and its mathematical apparatus were elaborated in order to solve the problems that were put forward. In the process of TGT elaboration it was found that the majority of notions and formulas in physics don't correspond to reality. That's why the main notions and formulas were worked out for the first time. Some known notions and formulas were made more precise.
The force of gravitation-is the relation of the sum of the first body gravitation force to the second body 1 2 M g × and the second body to the first body 2 1 M g × to the squared distance between them 2 1 2 R − that is obtained by Tsiganok gravitation law formulas (1), (2) and (3), expressed in 2 gcm s : ; R 1-2 -is the distance between the first and the second bodies, cm.
Physical nature and the method of defining the force of gravitation between the first and the second bodies without using the so-called space time, gravitational lens, Higgsboson, etc. will be discussed later, in another work.
The references to define different parameters in other works are due to the fact that it is rather difficult to define the mechanism of the Universe functioning with practical calculations of each parameter on the examples of various bodies in accordance with TGT in one article. For this purpose not less than 4-6 articles may be necessary [20].
The force of gravitation between bodies, obtained with the help of the formulas of Tsiganok gravitation law (1), (2) and (3), differs sufficiently from the force in the formula of Newton doubtful gravitation law: -the formulas(1), (2) and (3) make it possible to define of the dimension force without taking into account gravitational constant; -the masses of bodies being attracted aren't multiplied by each other but are multiplied by the corresponding gravity accelerations and are summed up only after this; -gravitational constant has only those value dimensions that are included in the formulas(1), (2) and (3).
Centrifugal force of the second body is the force of repulsion of the second body (the Earth, the Moon, etc.) from the first body (the Sun, the Earth, etc.), equal to the force of gravitation between the first and the second bodies, equal to the relation of the product of the second body mass M 2 by the squared velocity of the second body 2 2 V to the distance from the first body to the second one 1 2 R − which is measured by the formula (4) expressed in 2 .

gcm s
The centrifugal force of the second body (the second body weight)is the force of repulsion of the second body with mass M 2 , that is located on the surface of the first body with mass M 1 , from the first body with mass M 1 , equal to the centripetal force of the second body with mass M 2 to the first body mass M 1 , equal to the second body weight on the surface of the first body equal to the relation of the product of the second body mass M 2 (the mass of standard-copy weight    The physical nature and the method of measuring the first cosmic velocity of the Earth, the Sun, the Moon etc. will be shown in another work. The centrifugal force of the second body (the second body weight) 1 2 F − was found by the formula R − -is the distance from the first body to the second one, cm.
It is reasonable to use the formula (4) to find the second body centrifugal force; the second body centripetal force; the second body weight on the surface of the first body having any radii; the weight of the second body immersed in a liquid or a gas on the surface of the first body having any radii.
The first body weight-is the product of the first body mass  The first body weight M 1 was found by the formula Where P 1 -is the first body weight, It is reasonable to use formula (5) for obtaining the weight of bodies in the space.
The second body weight-is the product of the second body mass M 2 (mass of the standard-copy weight   The results of our further calculations showed that gravitational force between the first body mass M 1 and the second body mass 2 1 2 M F − in the formulas (1), (2) and (3) is maximal at the contact between these bodies. The force of gravitation between the first body mass M 1 and the second body mass 2 1 2 M F − decreases according to increasing the squared distance between them 2 1 2 R − . The force of gravitation between the first body mass M 1 and the second body mass × and the method of determining the parameters of gravitational waves that are generated by all the objects in the Universe [21], will be shown in another work.
The second bodyweight P 2 was found by the formula Where P 2 -is the second body weight, The first body weight-is the product of the first body density (specific gravity) 1 ρ by the first body volume 1 V found by the formula The first body weight P 1 of was found by the formula Where P 1 -is the first body weight, 2 gcm s ; 1 ρ -is density (specific gravity) of the first body, It is reasonable to use formula (7) for obtaining the body weight of bodies in the space and for finding the second body weight on the surface of the first body that has different radii.
The first body mass-is the matter in an abstract form as a component of the body weight equal to the relation of the first body weight P 1 (weight standard-copy weight It is reasonable to use formula (9) to define the gravity acceleration of the body with mass 1.0g and having different radii.
Gravity acceleration of the first body 1 g -is the product of the first body mass 1 M by gravity acceleration constant 1.0g of body 1 M g that is defined by formula (10) and other TGT formulas, expressed in 2 cm s .
Where 1 g -is the first body gravity acceleration, It is reasonable to use (10) to define the gravity acceleration of various bodies having different radii.
The first body gravity acceleration-is the relation ofthe first body weight 1 P to the first body mass defined 1 M by formula (11) and by other TGT formulas, expressed in 2 cm s The body gravity acceleration 1 g , was found by the formula Where 1 g -is the first body gravity of acceleration, It is reasonable to use formula (11) to define the gravity acceleration of various bodies having different radii.
Density (specific gravity) of the first body-is the relation of the first body weight 1 P to the volume of the first body 1 V , that is defined by the formula (12) and by other TGT formulas,expressed by Density (specific gravity) of the first body 1 ρ was found by the Where 1 ρ -is the first body density (specific gravity), It is reasonable to use formula (12) to define the density (specific gravity) of various bodies having different radii.
Density (specific gravity) of the first body 1 ρ was found by the Where 1 ρ -is the first body density (specific gravity), It is reasonable to use the formula (13) to define the density (specific gravity) of the first body taking into account the second body gravity acceleration.
Physical nature and methods of obtaining mass, gravitational constant, gravity acceleration, velocity, first cosmic velocity, distance, gravitational radius and other parameters of different bodies with the help of physical and astrophysical constants according to TGT will be shown in some other work.
The elaboration of TGT was carried out with the help of Centimeter-Gram-Second System (CGS) and the data of NASA [22].
First, the parameters of the Earth were defined.
The Earth mass ear M , could be found by formula (8). However, to do this it was necessary to find the Earth weight ear P on the basis of the assumed average density (specific gravity) of the Earth.
The average Earth density (specific gravity) was found proceeding from the fact that the Earth rotates. Melted magma rotates with it. That's why in its centre, as in a milk separator there, are concentrated the lightest fractions of magma containing a sufficient quantity of gases (the approximate density (specific gravity) 3.50 ~ 4.50 g cm s ), that appear on the Earth surface during the eruption of volcanos. Taking into account the average density (specific gravity) of magma in the inner core, the average density (specific gravity) of the Earth's crust and water it was assumed that the Earth average density (specific gravity) is The Earth weight was found proceeding from the fact that it attracts itself.
The Earth weight ear M was found as the product of the assumed average density (specific gravity) of the Earth Our further calculations showed that for defining the weights of the Earth, the Sun, the Moon, etc. in the state of weightlessness one doesn't need scales a dynamometer.
The Earth gravity acceleration ear g was found as the relation of the The force of gravitation between the first body with mass The further calculations showed that this physical and astrophysical constant characterizes the masses of all the bodies in the Universe.
After measuring the Earth weight, mass and gravity acceleration it became necessary to measure the gravitational constant.
Where ear sta F − -is the force of gravitation between the Earth and weight standard-copy The standard-copy gravity acceleration of the weight Cavendish. However, determining gravitation forces between various bodies gave absurd results each time.
Our further calculations showed that the force of gravitation in Cavendish experiment is in fact equal to In the process of determining gravitational constant G we proceeded from the assumption that that any second body with smaller mass 2 M moving round the first body with larger mass 1 M experiences not only the attraction of this body but also centrifugal force (4), that repulses the second body from the first one.
The force of gravitation between the Sun and any planet (asteroid, comet, etc.) is to be equal to the centrifugal force of each planet (asteroid, comet, etc.). If they weren't equal, all the planets (asteroids, comets, etc.) would fall down on the Sun or flow away to the outer space.
The force of gravitation between the Earth mass Gravitational constant G was found proceeding from the mass standard-copy weight After obtaining gravitational constant G it became clear that for this one needs neither mountain Schiehallion; torsion balance of John Michell; nor lead, gold, platinum or optical glass balls, etc.; lead ingots, steel cylinders; flasks with mercury; melted tungsten wire or melted quartz fiber, etc.; pendulums; weightlessness, etc. [23].
Gravitational constant-is the area of the half of radial section of the gravitational field having the form of the curved shape area that is equal to the rectangle area with the length on the basis of the known standard-copy of 1.0kg in SI may be used before the formation of Tsiganok measuring system is completed. Tsiganok measuring system with new constant standard-copies will make it possible to replace the insufficiently grounded International System of Units (SI), Centimeter-gram-second system of units (CGS), Imperial and US customary units, etc. Moreover, most of the constant standards-copies in this system will be valid within the limits of the whole Universe, not only within the borders of separate states or branches on the Earth. When the creation of Tsiganok measurement system is completed there must be minted the medal with the known motto of Condorcet."Atous les temps, à tous les peuples".
The average density (specific gravity) of the Earth was found proceeding from the equality 1 2 In the process of TGT elaboration it was taken into account that some parameters of bodies always remain constant irrespective of the point of the Universe they are located while the value of others may change sufficiently. Thus, for example, the weight, mass, gravity acceleration and some other parameters of a given body won't change if it is moved from one point of the outer space to another. At the same time, for example, the average density (specific gravity) and some other parameters of the same body may change sufficiently if they are found in the conditions of other body gravity acceleration. So, for example, the weight and the average density (specific gravity) of a given body may be found in the conditions of gravity acceleration of the same body. However, these parameters may be found in the conditions of the Earth gravity acceleration or gravity acceleration of any other body. Our further calculations showed, for example, that the average density (specific gravity)of lunar soil, in the conditions of the Moon gravity acceleration is equal to Such calculations are necessary for defining the average density (specific gravity) of the Earth soil on the surface of the Sun, Mars, Jupiter, etc. and vice versa. Such calculations are also necessary for defining the average density (specific gravity), weight, mass, engines thrust and other parameters of space vehicles on the surface of the Moon, Mars, Jupiter, etc., as well as in the space.
This statement can be illustrated by the example of finding the weight, mass, gravity acceleration and average density (specific gravity) of the standard-copyweight The mass standard-copy weight (33) The average density (specific gravity) of the standard-copy  After determining the Earth parameters and the gravitational constant G, the measurement of the Sun parameters started. The Sun parameters could be found by the formulas (7), (8) and (11)   (35) This resulted in obtaining an equation with two unknowns: the force of gravitation between the first and second bodies 1 2 F − and the first body mass 1 M . It was necessary to get rid of one of these two unknowns. To do this, the formula (35) was equated to the formula (4) (36) When the equation (36) relatively to M 1 , was solved, there was obtained ( ) Using the formula (37) it became possible to find the unknown first body parameters by the second body known parameters.
First of all there were the attempts to clear out whether the left side of the equation (36) is equal to the right one. Taking into account that (36) was written in such a form (39) Taking into account that (42) Taking into account that, as it will be shown later,  (43) Taking into account that, as it will be shown in another paper (44) If 1 2 R − in the left side of equality (44) is cancelled, one will obtain two absolutely equal formulas (45) It means that the formula (36), including Where sun ear F − -is the force of gravitation between the Sun and the Earth, In this case we proceeded from the fact that the Earth moving along its orbit round the Sun experiences not only the gravitation of the Sun but also the centrifugal force that repulses the Earth from the Sun.
This resulted in obtaining an equation with only one unknown that is the Sun mass Other Sun parameters were measured after defining the Sun mass sun M .
The Sun gravity acceleration sun g was defined as the product of the The Earth centrifugal force sun ear F − , found by the formula (4), turned out to be equal to the force of gravitation between the Sun and the Earth sun ear F − , found by the formula (1), which shows the validity of these formulas.
The Sun weight sun P was found as the product of the Sun mass sun M by the Sun gravity acceleration by the formula (5) The Sun average density (specific gravity), taking into account the Earth gravity acceleration sun ear ρ − , was found as the relation of the Sun weight taking into account the Earth gravity acceleration sun ear P − to the Sun volume sun V by the formula (12) The Sun average density (specific gravity) sun ρ was found proceeding from the Sun average density (specific gravity) taking into account the Earth gravity acceleration sun ear ρ − , the Sun gravity acceleration sun g and the Earth gravity acceleration ear g by the formula (13) If we could take a sample of Solar soil from the Sun surface and deliver it to the Earth surface,then its average density (specific gravity) would be equal to the average density (specific gravity) of petroleum According to Newton doubtful gravitation theory, as many as 333000 masses of the Earth are necessary to obtain the mass of the Sun. In order to find the Sun gravity acceleration one needs 28 Earth gravity accelerations. It means that the Sun and the Earth are made up of atomic nuclei, neutrons, electrons, etc., which have different abilities to attract. According to TGT, 333000 Earth masses are needed to find the Sun mass and 333000 Earth gravity accelerations are needed to find the Sun gravity acceleration. It means that the Sun and the Earth are made up of atomic nuclei, neutrons, electrons, etc. that have the same ability to attract.
The Sun parameters were found with the help of the Earth centrifugal force (47).
The Sun parameters can be found without using the centrifugal force of the Earth, asteroids, comets, etc.
Physical nature and the method of obtaining the first body parameters, when there is no information about the centrifugal force of the second body rotating round the first body, with the help of physical and astrophysical constants according to TGT will be shown later in another work.
The Earth and the Sun parameters having been measured, there were obtained the parameters of the Moon.
The Moon parameters were found in the same way as the Earth parameters on the basis of the average density (specific gravity) of lunar soil delivered by the American astronauts to the Earth surface The Moon weight taking into account the Earth gravity acceleration The force of gravitation between the Earth and the Moon ear moo F − was found by the formula (1) 24 The force of gravitation between the Earth and the Moon ear moo F − found by the formula (66) turned out to be equal to the Moon centrifugal force ear moo F − found by the formula (65), which shows the validity of these formulas.
The Moon parameters can be found without using the Moon average density (specific gravity).
The nature and the methods of defining the first body parameters, when the second body that rotates round the first one isn't available, without using physical and astrophysical constants according to TGT will be shown in another work.
Some results of our calculations are given in Table 1.
The weight, mass, gravity acceleration and average density (specific gravity) of standard-copy weight In spite of the fact that the Earth and the Moon parameters were found proceeding from experimental data on average density (specific gravity) of these bodies, there remained some doubts as to the validity of the formulas (1), (2), (3), (4) and the equation (23).
It is problematic to confirm the validity of the formulas (1), (2) and (3) experimentally and to find the force of gravitation between the bodies in a laboratory on the Earth surface due to the lack of a dynamometer which could fix such an insufficient force. It appeared much more simple and obvious to confirm experimentally the validity of the formula (4) with the help of a dynamometer, a rope, a body and a stop-watch. The rotation of the Earth round the Sun and that  of the Moon round the Earth, etc. was replaced by the rotation of a dynamometer, a rope, a plastic bottle filled with water by the right hand. We took into account that the distance from the first body to the second body 1 2 R − , and the second body mass, 2 M in the left and of the right sides of the equation (23) are to be equal. If centrifugal force, which will be shown by the dynamometer in the process of the experiment on rotating body with mass 2 M will, coincide with centrifugal force 1 2 F − , found by the formula (4), according to TGT, it will mean that the second body mass 2 M in the left side on the equation (23) and the second body mass 2 M in the right side of the equation (23) are one and the same mass.
A number of experiments of rotating bodies with different weight and masses using the ropes of different length were carried out while elaborating TGT.
In such conditions the following circumstances were taken into account.
The expression the so-called of 1.0kg in SI according to Newton doubtful gravitation theory on dynamometer was corrected by It was necessary to substitute 1.0197g in TGT to the formula (4) instead of the so-called mass of 1.0kg in SI, and 2.039g in TGT instead of 2.0kg in SI to the formula (4), 3.059g in TGT instead of 3.0kg in SI, etc.
In our experiment the distance was counted from a ring, attached to a dynamometer, to the centre of gravity of the body, taking into account the length of the dynamometer, and that of the rope and the part of the body.
The experiment on measuring centrifugal force consisted in rotating three bodies (a dynamometer, a rope and a plastic bottle filled with water) by the right hand. In the process of rotating these bodies having different total weights and masses, the number of their rotations per minute and at different lengths of the rope was fixed by a stopwatch.
The first body with total weight The third body with total weight 2 3 1500.0 gcm P s = in TGT or ( 1.5kg in SI) was rotated using the rope having the length of The first body mass 1 M with the total weight 2 1 1000.0 gcm P s = was found by the formula (8) The third body mass 3 M with the total weight 2 3 1500.0 gcm P s = was found by the formula (8) In the process of rotation of each of three bodies we didn't see the dynamometer readings. However, in our dynamometer, the hand moved along the scale and in the process of rotation of these bodies we could fix its hand by a finger. When the rotation of these three bodies finished (a dynamometer, a rope, a plastic bottle filled with water) we could record the dynamometer readings at different weight and masses and with rope of different lengths.
aren't confirmed experimentally with the help of dynamometer, then it means inaccuracy of the same so-called masses in the left side of the equation doubtful Newton gravitation law and Newton gravitation theory. It means that the validity of the doubtful Newtonian gravitation law and doubtful Newtonian gravitation theory isn't confirmed either theoretically or experimentally.
If the centrifugal force of the first body  The second law of motion must be formulated in the form of the formula (4) according to TGT. In contradistinction to the known formula, the second law of motion according to the formula (4) will work on the surface of stars, planets, planetary satellites with are longer or shorter radii than the Earth radius.
The results of our calculations showed that all the bodies in the Universe have weight and mass simultaneously, they also have them in the state of weightlessness. Body weight can be obtained with the help of a dynamometer or scales or by formulas. The body weight characterizes material bodies. It is possible to touch a material body with hands. It is possible to define the density (specific gravity) of a material body measured in 2 2 g cm s . Body mass can't be defined with the help of a dynamometer or scales, but only with the help of formulas. Body mass characterizes non-material (virtual) bodies. It is impossible to touch a non-material body with hands. It is impossible to define the density (specific gravity) of a non-material body measured in The definition of body density (specific gravity) by the formula (12) showed that the known formula of Archimedes' principle doesn't correspond to reality. The repulsive force that acts on a body immersed in a liquid or a gas may be defined by the formulas (1), (2), (3), (4) and (7) according to TGT on the surface of stars, planets, planetary satellites, etc. and in weightlessness.
Physical nature and the method of determining the law of bodies floating in liquids and gases (Archimedes' principle) will be shown lather in another work.
The solution of the equation (23) showed that the so-called gravitational mass and inertial mass don't exist in reality (they are one and the same mass). It means, that all the known experiments for checking the so-called equivalence principle using lead balls, pendulums, torsion balance, hammers, bird feathers, lifts, atomic interferometers, etc. were not necessary [24].
The reason of the so-called Pioneer anomaly is the fact that the Sun, Jupiter, Saturn, etc. gravity acceleration is , etc. according to the doubtful Newtonian gravitation theory. It is also necessary to take into account that weight, mass, engine thrust and some other Pioneer 10/11 parameters aren't measured correctly according to the doubtful Newtonian gravitation theory.
Theoretical and experimental refutation of the existence of other so-called anomalies: dark matter, dark energy, perihelion precession of Mercury, etc. will be shown in some other work.
The law of electrostatics must be expressed in the form of (1), (2) and (3) formulas. It is known that the doubtful Coulomb's law was recognized because it was based the doubtful Newtonian gravitation law.
Physical nature and the method of definition of electrostatics law will be shown in another work.
The definition of body mass by the formula (8) and by other formulas of TGT showed that the so-called atomic weight, standard atomic weight, relative atomic mass, unified atomic mass unit, mass excess, atomic number, etc. don't correspond to reality. After finishing the work of the International Avogadro Coordination consortium of a new international standard-copy of the so-called kilogram 1.0 kg in SI [25] it will be possible to define weight, mass, gravity acceleration, average density (specific gravity) and other parameters of atoms. This new standard-copy of the so-called kilogram 1.0 kg in SI will be equated to a certain quantity of silicon 28Si atoms. After the quantity of atoms of silicon 28Si in the new standard-copy of the so-called kilogram 1.0 kg in SI is obtained it will be possible to find its weight, mass, gravity acceleration and other parameters. The weight of a silicon 28Si atom will be equal to the relation the new standard-copy weight The mass of a silicon 28Si atom can be found by the formula (8) or by the formulas of physical and astrophysical constants according to the TGT that will be shown in another work. The gravity acceleration of silicon 28Si atom can be found by the formulas (10), (11) or by the formulas of physical and astrophysical constants according to TGT shown in another work. The average density (specific gravity) of silicon 28Si atom can be found with the help of the formulas (12). The force of gravitation between silicon 28Si atoms can be found with the help of the formulas (1), (2) and (3), etc.
In the same way it will be possible to find the weight, mass, gravity