Theory of The Three Fields of Space

2018 ◽  
Vol 14 (3) ◽  
pp. 5765-5795
Author(s):  
Eduardo S. Guimaraes
Keyword(s):  
Solar System ◽  
The Sun ◽  
Rational Analysis ◽  
Perihelion Precession ◽  
Thermonuclear Explosion ◽  
Nuclear Masses ◽  
Celestial Bodies ◽  
Spatial Fields ◽  
Physical Phenomena ◽  
Micro Gravity

This article is a logical and rational analysis of the physical phenomena produced by the three fields that are generated in space: gravity field; field of terrestrial nuclear magnetism; and orbital field. Eduardo Guimarães, through the studies of the three nuclear masses of the Sun's nucleus, the three nuclear masses of the moon's nucleus, and the three nuclear masses of the Earth's nucleus. We discover the three spatial fields that are generated in the solar system and in the planets. Then, from the general theory of the three fields of space, we can understand all the mechanics that generate the dynamics and kinematics of celestial bodies. So now we can understand why the smaller celestial bodies orbit the orbital field of the largest celestial bodies. So now we can understand why the planets produce orbits of elliptical motions, around the orbital field of the Sun. Then we understand the orbital mechanics of the little planet Mercury, and its abnormal orbit around the orbiting field of the Sun. Then Mercury has a perihelion precession of 2 degrees per century, due to an approximation of the perihelion of Mercury which is attracted by the micro-gravity of the Sun, generating an orbital deviation of 2 degrees per century. In the future the planet Mercury will lose energy from its nucleus and will not be able to make the orbital curve of the perihelion because it will have been attracted by the gravitational field of the Sun's nucleus. The fall of Mercury on the Sun will generate two thermonuclear explosions of SUPERNOVA. The first thermonuclear explosion of SUPERNOVA will be generated by the thermonuclear collision of the gravity mass attraction of Mercury debris with the Sun's nucleus. The second thermonuclear explosion of SUPERNOVA will be generated by the thermonuclear collision of attraction of the mass of orbital attraction of Mercury debris with the nucleus of the Sun. These two thermonuclear explosions of SUPERNOVA will generate two immense thermonuclear shockwaves that will devastate the entire fragile geo-biome of the solar system.  

scholarly journals The Theory of The Nuclear Universe and The Secret of The Supernova

2018 ◽  
Vol 14 (2) ◽  
pp. 5535-5545
Author(s):  
Eduardo S. Guimarães
Keyword(s):  
Solar System ◽  
Old Age ◽  
21St Century ◽  
Chemical Elements ◽  
Early Time ◽  
Big Bang ◽  
The Moon ◽  
Rational Analysis ◽  
Nuclear Masses ◽  
The Universe

This article is a deep, logical and rational analysis of the three original nuclear and chemical elements of the architecture of the nuclear universe, and which give superconducting motion to the solar system and galaxies of the universe. After the so-called Big Bang of the universe came the space, a new time count and the nuclear universe, governed by the attractions and repulsions of the physical properties of the nuclear superconductivity mass. Then, three new superconductive materials emerged in space consisting of three new nuclear chemical elements. The first liquid superconductive mass of gravity appeared. Liquid superconductive masses of orbital attraction and the superconductive mass of orbital repulsion were formed. The mass of gravity by means of a gravitational turmoil and centrifuged the three nuclear masses. So in this way the solar system was created. Then, the natural moons were created from the volumetric rest of the matter that formed the planet. At this early time the moons had the rotational motion on their axis, similar to the planet. At this early time the planets already had the rotation movement. In "old age," the moon stopped the rotation and began the revolution movement. In the 21st century, the Earth's core is solid or pasty.

XV. Account of the changes that have happened, during the last twenty-five years, in the relative situation of double-stars; with an investigation of the cause to which they are owing

1803 ◽  
Vol 93 ◽  
pp. 339-382 ◽  
Keyword(s):  
Solar System ◽  
The Other ◽  
The Sun ◽  
Double Stars ◽  
Celestial Bodies ◽  
Planets And Satellites ◽  
The Subject ◽  
Elliptical Orbits ◽  
Asteroids And Comets

In the Remarks on the Construction of the Heavens, contained in my last Paper on this subject, I have divided the various objects which astronomy has hitherto brought to our view, into twelve classes. The first comprehends insulated stars. As the solar system presents us with all the particulars that may be known, respecting the arrangement of the various su­bordinate celestial bodies that are under the influence of stars which I have called insulated, such as planets and satellites, asteroids and comets, I shall here say but little on that subject. It will, however, not be amiss to remark, that the late addition of two new celestial bodies, has undoubtedly enlarged our know­ledge of the construction of the system of insulated stars. Whatever may be the nature of these two new bodies, we know that they move in regular elliptical orbits round the sun. It is not in the least material whether we call them asteroids, as I have proposed; or planetoids, as an eminent astronomer, in a letter to me, suggested; or whether we admit them at once into the class of our old seven large planets. In the latter case, however, we must recollect, that if we would speak with precision, they should be called very small, and exzodiacal; for, the great inclination of the orbit of one of them to the ecliptic, amounting to 35 degrees, is certainly remarkable. That of the other is also considerable; its latitude, the last time I saw it, being more than 15 degrees north. These circumstances, added to their smallness, show that there exists a greater variety of arrange­ment and size among the bodies which our sun holds in subor­dination, than we had formerly been acquainted with, and extend our knowledge of the construction of the solar, or insulated sidereal system. It will not be required that I should add any thing farther on the subject of this first article of my clas­sification; I may therefore immediately go to the second, which treats of binary sidereal systems, or real double stars.

scholarly journals The Physical Cause of Planetary Perihelion Precession

2021 ◽  
Author(s):  
Jian’an Wang
Keyword(s):  
Solar System ◽  
Gravitational Force ◽  
The Sun ◽  
Universal Gravitation ◽  
Perihelion Precession

Abstract According to the revised gravitation formula, the gravitational force on planets in the solar system is mainly provided by the sun, and only when the planet is far enough from the sun to treat the sun as a particle, the gravitational force on the planet coincides well with Newton's gravitational formula. The closer the planet is to the sun, the more the gravitational force on the planet deviates from (greater than) the value calculated by Newton's universal gravitation formula. The precession of the planet's perihelion is due to this property of gravity.

scholarly journals Synchronism of the Events on the Sun and the Earth - A Sign of External Influence on the Solar System

2019 ◽  
Vol 2 (3) ◽  
Keyword(s):  
Gravitational Field ◽  
Solar System ◽  
The Sun ◽  
Additional Energy ◽  
Gravitational Effects ◽  
External Influences ◽  
The Earth ◽  
The Galaxy ◽  
Celestial Bodies ◽  
Endogenous Activity

To solve fundamental and applied problems, it is useful to detect signs of external influences on the Solar system from the synchronous responses of the Earth’s shells, using a systemic and interdisciplinary analysis of solar-terrestrial relations - taking into account, along with solar activity and GCR fluxes, the endogenous activity of the Earth due to gravitational effects on the Earth with the sides of the Moon, the Sun and other celestial bodies of the Solar system during its barycentric motion in the gravitational field of the Galaxy, as well as the effects of perturbations on the Solar system as a whole. At the same time, the mechanism, energy, cyclicity, synchronism, change in the shape of the Earth and gravity, polar asymmetry and jump-like manifestations of solar-terrestrial relations, instability of the Earth’s daily rotation become explainable. The Solar system is subject to external influences of gravity of the heavy planets of Jupiter and Saturn in the course of its barycentric motion in the gravitational field of the Galaxy, as well as the bringing in solar system of additional energy when exposed to a heterogeneous interstellar environment.

scholarly journals Migration of Celestial Bodies in the Solar System

2004 ◽  
Vol 202 ◽  
pp. 190-192 ◽  
Author(s):  
S. I. Ipatov
Keyword(s):  
Solar System ◽  
Numerical Integration ◽  
Terrestrial Planets ◽  
The Sun ◽  
Circular Orbits ◽  
Celestial Bodies

Migration of planetesimals and embryos of forming planets was investigated on the basis of computer runs of the evolution of disks of gravitating bodies orbiting the Sun. Our results obtained earlier with the use of the spheres' method are close to the results obtained recently by other authors by numerical integration. Due to the interaction with migrating planetesimals, the embryos of Uranus and Neptune, which acquired most of their masses near the orbit of Saturn, could migrate to the present distances from the Sun moving all time in nearly circular orbits. Each of the terrestrial planets incorporated planetesimals from all feeding zones of these planets.

Tests in the solar system

2018 ◽  
Author(s):  
Nathalie Deruelle ◽  
Jean-Philippe Uzan
Keyword(s):  
Gravitational Field ◽  
Solar System ◽  
Relativistic Effects ◽  
Spherical Shape ◽  
Geodesic Equation ◽  
The Sun ◽  
Newtonian Theory ◽  
Shapiro Effect ◽  
Dimensionless Ratio ◽  
Celestial Bodies

This chapter describes observable relativistic effects in the solar system. In the solar system we can, as a first approximation, neglect the gravitational field of all the stars except the Sun. In Newtonian theory, the planet trajectories are then Keplerian ellipses. Relativistic effects are weak because the dimensionless ratio characterizing them is everywhere less than GM⊙/c² R⊙≃ 2 × 10–6, and so they can be added linearly to the Newtonian perturbations due to the other planets, the non-spherical shape of celestial bodies, and so on. The chapter first describes the gravitational field of the Sun using a Schwarzschild spacetime, before moving on to look at the geodesic equation. It also discusses the bending of light, the Shapiro effect, the perihelion, post-Keplerian geodesics, and spin in a gravitational field.

scholarly journals Solar System tests of Hořava–Lifshitz gravity

2010 ◽  
Vol 467 (2129) ◽  
pp. 1390-1407 ◽  
Author(s):  
Tiberiu Harko ◽  
Zoltan Kovács ◽  
Francisco S. N. Lobo
Keyword(s):  
Solar System ◽  
Free Parameter ◽  
Vacuum Solution ◽  
The Sun ◽  
Perihelion Precession ◽  
Deflection Of Light ◽  
Horava Gravity ◽  
Radar Echo ◽  
Radar Echo Delay ◽  
Echo Delay

In the present paper, we consider the possibility of observationally constraining Hořava gravity at the scale of the Solar System, by considering the classical tests of general relativity (perihelion precession of the planet Mercury, deflection of light by the Sun and the radar echo delay) for the spherically symmetric black hole Kehagias–Sfetsos solution of Hořava–Lifshitz gravity. All these gravitational effects can be fully explained in the framework of the vacuum solution of Hořava gravity. Moreover, the study of the classical general relativistic tests also constrains the free parameter of the solution. From the analysis of the perihelion precession of the planet Mercury, we obtain for the free parameter ω of the Kehagias–Sfetsos solution the constraint ω ≥3.212×10 −26  cm −2 , the deflection of light by the Sun gives ω ≥4.589×10 −26  cm −2 , while the radar echo delay observations can be explained if the value of ω satisfies the constraint ω ≥9.179×10 −26  cm −2 .

The Interpretation of Line Profiles

1977 ◽  
Vol 36 ◽  
pp. 191-215
Author(s):  
G.B. Rybicki
Keyword(s):  
Magnetic Fields ◽  
Atomic Physics ◽  
Velocity Fields ◽  
Spectral Lines ◽  
Inhomogeneous Structure ◽  
The Sun ◽  
Line Profiles ◽  
Physical Phenomena

Observations of the shapes and intensities of spectral lines provide a bounty of information about the outer layers of the sun. In order to utilize this information, however, one is faced with a seemingly monumental task. The sun’s chromosphere and corona are extremely complex, and the underlying physical phenomena are far from being understood. Velocity fields, magnetic fields, Inhomogeneous structure, hydromagnetic phenomena – these are some of the complications that must be faced. Other uncertainties involve the atomic physics upon which all of the deductions depend.

scholarly journals III. On the nature and construction of the sun and fixed stars

1795 ◽  
Vol 85 ◽  
pp. 46-72 ◽  
Keyword(s):  
Central Body ◽  
Planetary System ◽  
Considerable Progress ◽  
The Sun ◽  
Great Satisfaction ◽  
The Earth ◽  
The World ◽  
Celestial Bodies ◽  
The Universe ◽  
Made In

Among the celestial bodies the sun is certainly the first which should attract our notice. It is a fountain of light that illuminates the world! it is the cause of that heat which main­tains the productive power of nature, and makes the earth a fit habitation for man! it is the central body of the planetary system; and what renders a knowledge of its nature still more interesting to us is, that the numberless stars which compose the universe, appear, by the strictest analogy, to be similar bodies. Their innate light is so intense, that it reaches the eye of the observer from the remotest regions of space, and forcibly claims his notice. Now, if we are convinced that an inquiry into the nature and properties of the sun is highly worthy of our notice, we may also with great satisfaction reflect on the considerable progress that has already been made in our knowledge of this eminent body. It would require a long detail to enumerate all the various discoveries which have been made on this subject; I shall, therefore, content myself with giving only the most capital of them.

scholarly journals Note on the intensity decrement in the balmer series

1919 ◽  
Vol 96 (675) ◽  
pp. 112-119 ◽  
Keyword(s):  
Hydrogen Atom ◽  
Low Pressure ◽  
Quantitative Comparison ◽  
The Sun ◽  
Previous Knowledge ◽  
Balmer Series ◽  
Celestial Bodies ◽  
Theoretical Considerations

One of the most remarkable examples of spectrum lines which are common in celestial bodies, but which have hitherto resisted all attempts to reproduce them in the laboratory, is afforded by the higher members of the Balmer series of hydrogen. As many as 29 members of this series have been observed by Dyson and Evershed in the chromosphere of the sun, but the greatest number observed in the laboratory by Ames and by Cornu was only 13, and the last of these were of such a character that it would hardly have been possible to record them without a previous knowledge of their localisation. In many respects the failure to reproduce in the laboratory lines whose chemical origin is known, and which are so prominent in celestial spectra, is even more conspicuous than in the case of the nebular and coronal lines, which cannot yet be referred to any atom known in chemistry, and which may be due to substances which do not, or perhaps cannot, exist under terrestrial conditions. A further interest has been added to the problem by the important theoretical wrork of Bohr, whose theory of the production of the Balmer series requires that the space occupied by a hydrogen atom, in the process of emitting lines of the higher members of the Balmer series, is such that these radiations cannot be expected to be visible except under conditions of extremely low pressure. Bohr has pointed out that this view is consistent with the appearance of the lines in celestial spectra, and our inability to produce them under the conditions ordinarily obtaining in the laboratory. Liveing and Dewar have found that in a mixture of the more volatile gases of the atmosphere, consisting mainly of neon and helium and containing hydrogen, the Balmer series could be traced as far as the ninth member; and in a recent investigation we have made a quantitative comparison of the distribution of intensity in the earlier members of the series in hydrogen, and in neon containing hydrogen as an impurity. This observation of Liveing and Dewar is remarkable, but we have recently found that similar results can be obtained in helium containing hydrogen at pressures so great that, on the theoretical considerations above referred to, it would seem impossible that these radiations should be detected.

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