The Third Industrial Revolution has begun (4) - In The Electric Universe: real physics in the Electric Solar System

<blockquote>'..our ignorance of the electrical nature of matter and of gravity.' - Thornhill</blockquote>


<blockquote>'There is definitely real physics beyond Einstein’s speculations. The unquestioning acceptance of his idiosyncratic theories of relativity has diverted untold resources down blind alleys for almost a century. It is time to divert attention to the Electric Universe in this 21st century!'

- Wal Thornhill, Astronomical Myths of Mercury & the Sun, 14 January 2008</blockquote>


'..Electric Universe cosmogony (theory of creation of the Solar System) is unknown to astrophysicists. It is radically different from the nebular theory of planet formation. It unites an interdisciplinary forensic investigation of the entire human record of the appearance of the sky, stretching back to Neolithic petroglyphs, with experimentally confirmed modern plasma cosmology'

<blockquote>'..Planet and star formation by gravitational accretion has never been observed and it cannot be shown to work in theory. “There is a general belief that stars are forming by gravitational collapse; in spite of vigorous efforts no one has yet found any observational indication of confirmation. Thus the ‘generally accepted’ theory of stellar formation may be one of a hundred unsupported dogmas which constitute a large part of present-day astrophysics.” —Hannes Alfvén, G. Arrhenius, Evolution of the Solar System, NASA 1976.

The alternative Electric Universe cosmogony (theory of creation of the Solar System) is unknown to astrophysicists. It is radically different from the nebular theory of planet formation. It unites an interdisciplinary forensic investigation of the entire human record of the appearance of the sky, stretching back to Neolithic petroglyphs, with experimentally confirmed modern plasma cosmology. Because of its broad interdisciplinary base, the Electric Universe has great explanatory and predictive power—key measures of a good theory.

There are two possible electrical origins of planets in the solar system. First, the Sun may become electrically unstable and eject sufficient matter to form a gas giant companion. Currently, astrophysicists are unable to account for powerful jets of matter seen issuing from stars and galaxies. The electrical model interprets them as electric discharge phenomena. So stars undergoing a nova outburst may give birth to gas giant planets, which explains the discovery of giant planets in very close orbits about nearby stars. It is similarly proposed that rocky planets are ‘born’ fully formed by material jetted from within a brown dwarf star or gas giant planet undergoing an electrical ‘flaring’ or ‘nova’ outburst. As British physicist Peter Warlow wrote in 1982, “...the obvious place for a small heavy planet to form is at the core of a large gaseous planet. This is the ideal place to collect together the heavier elements and if, for the same but unknown reason that quasars eject material from their cores, the core of that large planet is also ejected, then we will have a source of Earth-like and Venus-like planets. If the lesser nova eruptions of stars are, in fact, manifestations of the same process, then we have a source of the larger Jupiter-like planets.” — The Reversing Earth, 1982.

The second possible origin for giant planets like those in our solar system, which orbit at great distances from the Sun, is electrical capture. That would explain the great differences between Jupiter, Saturn, Uranus and Neptune. But how do we know there are any free-floating gas giants in the galaxy? By tracing galactic magnetic fields, plasma cosmologists have shown that electric current flows along the spiral arms of a galaxy. Like cosmic streetlights, all stars in interstellar space are connected to the galactic power lines (Birkeland current filaments). So instead of being dark and dead, independent giant planets shine as dim stars — red or brown dwarfs. And these dwarf stars are the most numerous in the galaxy.

The cross-section for electrical capture of a dwarf star by the Sun is huge, involving the plasma sheaths of both bodies. For example, the Sun’s plasma sheath is roughly 200 AU in diameter or .07% of the distance to the star system of Alpha Centauri. When stellar plasma sheaths touch the two stars ‘see’ each other electrically for the first time and an ‘anomalous’ acceleration toward the Sun (also experienced by charged spacecraft) takes the interloper in its grip. The electric light of the dwarf star is snuffed out and it becomes a gigantic comet, flaring and fragmenting to form new satellites, comets and ejecta rings before settling as a new gas giant into a solar orbit that provides electrical equilibrium.

- Wal Thornhill, More on Mercury’s Mysteries, 05 March 2008</blockquote>


Context ‘…to go beyond mathematical equations…’

<blockquote>The Electric Universe - Peer-review of Plasma Cosmology (2011)

Management & organization in the third millennium - Material

Bazaarmodel - Management & organization

Economics, Plasma Cosmology & Gravity

Overview Project C (pdf)

Affective Introspection</blockquote>