JUST IN: Scientists Beginning to Identify Signs That Galactic Cycles are Analogous with Sun-Earth’s Circumvolution

A Description of Extraterrestrial Galactic Obedience and Disobedience evolving within a tangled yet symmetrical display of what to some would appear to be as though disjointed and without direction. HOWEVER, when a person as myself, having watched closely for over 16 years and having intimately documented and published my research of the Sun-Earth connection, I found myself in a most optimized position to systematize newly disclosed research.


Sunspots → Solar Flares (charged particles) → Magnetic Field Shift → Shifting Ocean and Jet Stream Currents → Extreme Weather and Human Disruption (mitch battros 1998).

Such findings include new discoveries of the inner-workings of our galaxy ‘Milky Way’ and its interaction with or solar system and of course our home planet Earth. Near mind-blowing insights into the mechanics of celestial events such as supernovas, gamma ray burst, pulsars, galactic cosmic rays, and closer to home – solar flares and coronal mass ejections.


New Equation:
Increase Charged Particles and Decreased Magnetic Field → Increase Outer Core Convection → Increase of Mantle Plumes → Increase in Earthquake and Volcanoes → Cools Mantle and Outer Core → Return of Outer Core Convection (Mitch Battros – July 2012).

New findings released yesterday described a large supernova event occurred in a galaxy near our own Milky Way named M74. The exploding star was 200 times larger than our Sun. The sudden blast hurled material outward from the star at a speed of 10,000 kilometers a second. That’s equivalent to 36 million kilometers an hour or 22.4 million miles an hour.

The massive explosion was one of the closest to Earth in recent years, visible as a point of light in the night sky starting July 24, 2013, said Robert Kehoe, SMU physics professor, who leads SMU’s astrophysics team.


“There are so many characteristics we can derive from the early data,” said astrophysicist Govinda Dhungana of Southern Methodist University. “This was a big massive star, burning tremendous fuel. When it finally reached a point its core couldn’t support the gravitational pull inward, suddenly it collapsed and then exploded.”


The star’s original mass was about 15 times that of our Sun, Dhungana said. Its temperature was a hot 12,000 Kelvin (approximately 22,000 degrees Fahrenheit) on the tenth day after the explosion, steadily cooling until it reached 4,500 Kelvin after 50 days. The Sun’s surface is 5,800 Kelvin, while the Earth’s core is estimated to be about 6,000 Kelvin.

The new measurements are published online here in the May 2016 issue of The Astrophysical Journal, “Extensive spectroscopy and photometry of the Type IIP Supernova 2013j.”