I have laid out historically what happens every time a solar or lunar eclipse occurs. It is not good news, especially when it occurs during the US holidays between Nov. to Jan. Historically, large natural events occur just prior to, or closely after an eclipse event.

But there is some good news. The Nov. 25th event is a "partial" solar eclipse of which studies show there appears to be a quantitative factor. In other words - the larger the eclipse, the greater the effect on Earth.

A "total" Lunar eclipse follows next month on December 10th which history suggest could be present a greater intensity than Nov. 25th's solar event. What has happened in the past, and I predict will happen next and in the future, is for a large magnitude earthquake to occur within 14 days of either-side of eclipse events. This could also take the form of a volcano, hurricane, or tsunami.

Solar Eclipse Animation - CLICK HERE

My research suggest it is not the gravitational pull to be the main cause of earth changing events, but the rapid cooling and heating which occurs during eclipse events. Yes, gravitational pull does apply regarding lunar events, but I believe it is "fluid displacement" caused by tide shifts, along with rapid cooling and heating which is the majority cause of tectonic shifts.

Regarding solar events, this too, is caused by rapid heating and cooling, but more specific to solar, I believe magnetic flux also plays a major role on Earth's core, which in-turn causes a significant shift in ocean and jet stream currents as well as tectonic plates.

History of Lunar Eclipse: http://bit.ly/jG7loe

History of Solar Eclipse: http://bit.ly/uW3uyh

This is the fourth and final solar eclipse of the year and will occur at the Moon's ascending *node in western Scorpius. The event is visible from high latitudes in the Southern Hemisphere and includes southern South Africa, Antarctica, Tasmania and most of New Zealand.

At the instant of greatest eclipse (06:20:17 UT) the eclipse magnitude is 0.905, making it the largest partial eclipse of the year. At that time, the lunar shadow axis will pass just 330 km above Earth's surface near the coast of Antarctica.

This is the 53rd eclipse of **Saros 123. The family began with 6 partial eclipses from the years 1074 to 1164. By the time the series ends in 2318, it will have produced 70 eclipses in the following order: 6 partial, 27 annular, 3 hybrid, 14 total, and 20 partial eclipses.

*Node: The points where the lunar orbit intersects the plane of Earth's orbit are known as the nodes. The Moon's orbit is inclined about 5 degrees to Earth's orbit around the Sun. The Moon moves from south to north of Earth's orbit at the ascending node, and from north to south at the descending node.

**Saros 123 Cycle: The periodicity and recurrence of solar eclipses is governed by the Saros cycle, a period of approximately 6,585.3 days (18 years 11 days 8 hours). When two eclipses are separated by a period of one Saros, they share a very similar geometry. The two eclipses occur at the same node with the Moon at nearly the same distance from Earth and at the same time of year. Thus, the Saros is useful for organizing eclipses into families or series.

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