I mean no disrespect for those who enjoy the study of astrology. Some of the greatest astronomers of the past were also astrologers. To practice either line requires a deep understanding of our solar system, its movements and the relationship to the celestial sphere. The only thing I have difficulty swallowing is how a perfectly normal function could wreak havoc on planet Earth. Does an astrological prediction of an upcoming “Extreme SuperMoon” spell impending disaster – or is it just one more attempt to excite our natural tendencies to love a good gloom and doom story? That’s what I set about to find out…
On March 19, 2011 the Moon will pass by Earth at a distance of 356,577 kilometers (221,567 miles) – the closest pass in 18 years . In my world, this is known as lunar perigee and a normal lunar perigee averaging a distance of 364,397 kilometers (226,425 miles) happens… well… like clockwork once every orbital period. According to astrologer, Richard Nolle, this month’s closer than average pass is called an Extreme SuperMoon. “SuperMoon is a word I coined in a 1979 article for Dell Publishing Company’s HOROSCOPE magazine, describing what is technically termed a perigee-syzygy; i.e. a new or full Moon (syzygy) which occurs with the Moon at or near (within 90% of) its closest approach to Earth (perigee) in a given orbit.” says Richard. “In short, Earth, Moon and Sun are all in a line, with Moon in its nearest approach to Earth.”
Opinions aside, it is a scientific fact when the Moon is at perigee there is more gravitational pull, creating higher tides or significant variations in high and low tides. In addition, the tidal effect of the Sun’s gravitational field increases the Moon’s orbital eccentricity when the orbit’s major axis is aligned with the Sun-Earth vector. Or, more specifically, when the Moon is full or new. We are all aware of Earth’s tidal bulges. The average tidal bulge closely follows the Moon in its orbit, and the Earth rotates under this tidal bulge in just over a day. However, the rotation drags the position of the tidal bulge ahead of the position directly under the Moon. It produces torque… But is it above average torque when the Moon is closer? It you ask a geologist, they’ll tell you no. If you ask an astronomer, they’ll tell you that just about any cataclysmic Earth event can be related to stars. But if you ask me, I’ll tell you that you should draw your own opinion. Even the American Meteorlogical Society states: “Tidal forces contribute to ocean currents, which moderate global temperatures by transporting heat energy toward the poles. It has been suggested that in addition to other factors, harmonic beat variations in tidal forcing may contribute to climate changes.”
“SuperMoons are noteworthy for their close association with extreme tidal forces working in what astrologers of old used to call the sublunary world: the atmosphere, crust and oceans of our home planet – including ourselves, of course. From extreme coastal tides to severe storms to powerful earthquakes and volcanic eruptions, the entire natural world surges and spasms under the sway of the SuperMoon alignment – within three days either way of the exact syzygy, as a general rule.” says Nolle. “Obviously it won’t be the case that all hell will break loose all over the world within a few days either side of the SuperMoons. For most of us, the geocosmic risk raised by SuperMoon alignments will pass with little notice in our immediate vicinity. This is a rather roomy planet, after all. But the fact remains that a SuperMoon is planetary in scale, being a special alignment of Earth, Sun and Moon. It’s likewise planetary in scope, in the sense that there’s no place on Earth not subject to the tidal force of the perigee-syzygy.”
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