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Solaria Binaria: Origins and History of the Solar System

It appears that one has to work with a paradox: even as one studies a Universe that changes over billions of years, one studies local events where changes are measured in microseconds. Consequence, which is the last hope of causality, is often strained in the straddling of time. When the Solar System comes to be viewed in the light of newly discovered universal transactions, the idea necessarily arises that it has developed under time-collapsing conditions. Time measures — radiometric, geological and biological —that have been painstakingly manufactured to give billions of years of longevity to the system — must submit to a review of their credibility.


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The need to generate a new chronometry is enhanced by current reassessments of legends and knowledge that ancient and pre-historic human beings possessed. The authors would have ventured upon this reconstruction of the recent story of the Solar System were it not for the fossilized voices whose shouts about their catastrophic early world and sky sound louder even today than the shout heard in contemporary science about the exploding Universe. What the ancients said, and did not say, about the world are to be taken into account. Both their concepts of time and their visions of events deserve consideration.

This consideration and the others advanced before direct this monograph towards resolving the cosmogony of the Solar System into a model of a Solaria Binaria, the last stages of whose quick and violent quantavolution have been witnessed by human eyes.

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Although a note on method is appended to the present work, it may be well to stress in the beginning that a prerequisite of scientificity is the ability to suspend judgement on a case being tried. This is especially painful when one is expert on the matter at issue. Even so, a scientist who cannot suspend judgement must be deemed as incompetent as the judge who cannot suspend judgement while hearing a case in a court of law.

Contents Order Link. Synopsis The last years have seen immense progress in understanding electrical phenomena, and we are seeing voluminous evidence of plasma and magnetic fields always caused by electric currents in space. Introduction Since , when the theory of the expanding Universe was first expounded, the phenomena of astronomy have been viewed increasingly as intensely energetic. Accepting the notion that the Solar System may be presently at the end of a long binary trail leads to a theory that the Sun is electrical. This fundamental idea is the topic of the next chapter. Q-CD vol.

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The Sun, as star, radiates energy into the space surrounding it. Stars can be conceived to have originated from electrical cavities in the structure of space. Space, to our mind, is an infinite electrical medium. The movement energizes and carries material into the cavities which become and are the stars. Such electrical cavities or stars are observed in the millions, and inferred in the billions, in a fairly random distribution about the Sun. They form a lagoon of stars that is called the Galaxy, through which the Sun moves in a manner, and with conse- quences, to be described in the next chapter.

Materially, a star is an agglomeration of all that has accompanied the in-flow of electrical charges from surrounding space. The cosmic dust which astronomers see throughout the galaxies is matter yet to be forced into stellar cavities, or matter that has been expelled after a star dies. This dust is detected in greatest amounts in the vicinity of the most highly active stars [3].

Once in the cavity, the material cannot readily escape; it ac- quires increasing density because of electro-chemical binding and electrical accumulation. A cavity or star is increasingly charged but during its lifetime it cannot be more charged than the medium around it [4]. The Sun is highly charged, as some scientists have lately concluded Bailey, The life history of any new star may normally proceed as its cavity acquires first matter, and then charges continuously until its charge density reaches equilibrium with the surrounding medium, which is to say that the cavity has then been filled.

Thereupon the star releases or mixes its material with the medium until it no longer possesses distinction as a body. The majority of stars seem to transact quietly with their surrounding space, whether they are small red stars, or giant red stars. They end their existences as they lived, quietly, passing their accumulated material into the medium of space, eventually becoming indistinguishable from the medium itself.

However, the fact that the star is in motion within the galactic medium poses an occasional problem. It may journey into regions of the Galaxy which present it with greater or lesser electrical differences than it has been used to. Then quantavolution occurs.

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The star becomes one of the types to which astronomers pay the most attention - the variable stars, the highly luminous stars, the binary stars, the exploding stars. It was in one such adventure in space that the original Super Sun lost its steady state, fissioned, and became Solaria Binaria. In recent times, according to the central theme of this book, this Solaria Binaria encountered a galactic region whose charac- teristics rendered the lesser stellar partner of the system unstable.

Bruce , p9 sees the process of stellar evolution as a cyclic build up of an electrically charged atmosphere above the star. As the star journeys through galactic space, its surface nature changes in response to differences in galactic potential. In short, the star becomes a nova. In his cosmogony Bruce argues that binary stars form by division of an original stellar nucleus.

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A possible reverse jet blast from the explosion might also cause the rotation to occur. Stars then, should have maximum rotation during the nova outburst. Fission of the star into a binary would then logically happen most frequently by rotational fission Kopal, , p immediately after a nova outburst. Close-binary pairs should be found among the post-nova stars Clark et al. The Solar System is probably the descendant of a Super Sun, a body containing at least eleven percent more material than the existing Sun, which became electrically unstable and underwent a nova explosion.

Turning our attention to the Sun itself, we observe an opaque layer called the photosphere. Above the photosphere lies the transparent solar atmosphere, which is difficult to observe. Perhaps the key to star behavior is the distinction between the photosphere and chro- mosphere. The light is emitted during the collisions.


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Collisions occur after short journeys, after short mean free paths of electrical accumulation. The electrical field is small. Energy is transmitted with some, but not great, amounts of conversion of energy into internal atomic structures excitation.

Origin of the Solar System

By contrast, the spectrum of the chromosphere represents the release of the internal energy of excited atoms and ions. Light is emitted not so much at the moment of collision among atoms, but it is cast off by rapidly accelerating atoms moving to and from collisions, that is, between rather than during collisions.

The mean free path is long, not short. The electrical field is large, not small as in the photosphere. The photosphere, thus, is a region where the transmission of energy is observed. What is important is the contribution of each region to the electrical system of the Sun. The photosphere glows brightly with a silver color Menzel, , p Blemishing this visible face of the Sun are dark, slightly cooler regions called sunspots, the average spot lasts less than a day Abell, , p Viewed by telescope, the whole photosphere, except where sunspots obscure it, shows a granular appearance. The photosphere and the behavior of the solar atmosphere which lies above it can best be explained using a model based upon electrical processes.

Bruce , p6 , and later Juergens , pp9ff and Crew , p have shown that photosphere granules have the properties of a large number of parallel electrical arcs. Further, Juergens maintains that highly energetic electrons are transmitted from the Galaxy down through the solar atmosphere to the photosphere. Instead it is the electrical processes that govern the energy exchanges in the solar gas.

We see this transition as the hot chromosphere. The bladed or spiculed structure of the chromosphere consists of jets of gas moving upwards at about 30 kilometers per second. These spicules rise some to 20 kilometers above the photosphere Abell, , ppff [7]. Instabilities in the arc discharges lead to a build-up of charged regions in the solar atmosphere.

The result is a sunspot Bruce, , p6. The upper atmosphere of the Sun is the apparently intensely hot corona [9]. The gas atoms of the corona have been stripped of several electrons [10] by collisions with inflowing energetic cosmic electrons. The removed electrons are drawn towards the Sun so other ions can flow outwards into the corona allowing the coronal ions to recede into the solar wind. The spectrum of the lower corona shows the atoms stripped of several electrons emitting light between collisions, and the emission from the energetic electrons during collision.

The corona seems to be constantly ejecting its contents into space as the solar wind. The fraction of the solar output repre- sented by the solar wind is about one-millionth.

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Haymes states that the whole corona is lost and replaced in about one day [11]. Stellar wind flows of 10 to Sun masses per year have been inferred with measured velocities from to kilometers per second respectively Lamers et al. Sudden explosive eruptions, called flares, occur above the solar surface. Energy in the form of light, atoms, and ions, is accel- erated away from the Sun. A large flare releases in an instant about one-fortieth of the continuous solar output. Flares start near sunspots, with associated faculae, and develop over hours. Once accelerated, the flare gases escape the Sun and modify the solar wind significantly.

The cause of flares is baffling to conventional theories, which underplay electrical forces in cosmic processes. Most flare models involve some kind of magnetic driver to blow the gases from the Sun with great force Babcock, p, p The presence of magnetism implies an electric source. As we shall show in Chapter Six, the Sun once had an electrical connection to its companion, within which energy was released that created and sustained life within the binary system.

The solar wind consists of coronal gases which have been boiled away from the hot solar atmospheric discharges.

studio.bluetangent.org/typ-sexo-telefono-gratis.php The electron-deficient atoms ions , by escaping from the Solar System, increase the negative charge on the Sun. It follows that in the past, when the Sun was less negatively charged, more current flowed from the Sun to the Galaxy.


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Thus the present flow of solar wind is less than the flow in ages past when the Sun was more out of equilibrium than it is now. In the past the solar wind flow was very complex because we believe that the Sun was a binary star and its companion, Super Uranus, was not in electrical equilibrium with it. In this connection we may explain the origin of the heavier ele- ments in the Solar System.

They were not built up from primordial hydrogen and helium, which show up so prominently in spectroscopic observation, but rather represents an accumulation in a period measurable in thousands of years of the fragments of heavy materials scattered initially near the Sun, near its binary partner, and along the electrified axis between the two see ahead to Figure 7. The theory that heavier elements are sparse in the interior of the Sun is probably incorrect. Spectroscopy cannot penetrate to beyond the photosphere; therefore it must show only a cloud of hydrogen admixed with metal and molecular vapors Ross and Aller, Table 1, p at low density [12].

The mass of the Sun is calculated as a function of the orbital motion of the planets.