Cannibals & Their Lightning God


Two things the gringa loves most are science and history. When the two collide I believe I am in Paradise.  Add the spice of controversy and there is simply no going back for the gringa. Archaeologists in Greece have made this dream combination come true for the gringa.

Let us travel back 3,000 years to the bleak mountaintop of Mount Lykaion in southern Greece, which some ancient Greeks believed to be the birthplace of Zeus, rather than Crete. This is the revered resting place of an altar featuring a grisly design of sheep bone construction. This is where the religious leaders of Greece hoped to pacify their god of gods, Zeus himself. Offered up are the bloody sacrifices of what one would expect to be sheep or goats, considering what the altar is made of. Think again dear readers.

For those schooled in literature and philosophy, when Greece is mentioned, you hearken back to the days of Plato and Socrates. You believe these sophisticated thinkers of Greece gave birth to civilized society as we know it. As you cruise about town, passing homes with columned porches, you remind yourself that this bit of architecture was passed down from an exceptionally cultured society. Or not. Not when the skeletal remains of a teenage boy near Zeus’ altar indicates that young, human sacrifices were being bled out on top of a table made from sheep bones in efforts to gain favor with a god that might rain down lightning if he got pissed.

But Mount Lykaion is historically linked to Greek athletic festivals, isn’t it? Isn’t it one of the ancient sites with a stadium and hippodrome, all indicators of a culture that appreciated athletic competitions? The gringa wonders, was death the price for losing or, could it have been the price for winning, or, could it have been the “opening ceremony” after which a priest turns around and commands, “Let the games begin!” Who really knows at this time because this is a recent discovery.

And some scholars are not too happy about revelations of human sacrifice as part of ancient Greek religious ceremonies. I mean, after all, Greece way back then liked to call rival foreign nations nasty names like barbarians and cannibals. But, really, who do they think they are fooling? Remember, Socrates asked Adeimantos if he had heard the latest gossip about religious zealouts feasting on the remains of their human sacrifice. Socrates includes a gruesome description of a terrible recipe of mixing the entrails of different victims which, if ingested by some hapless cannibal, transforms them into a wolf. Considering that Adeimantos had already heard the story, it seems that the nasty religious practices going on atop Mount Lykaion were no big secret among the ancient Greeks. It’s just big news to us.

So what kind of science goes into the decision that the remains of this young man belong to a specific era and culture? Scientists have to analyze the composition of the altar itself. Considered an “ash altar”, the gringa’s depiction of it being constructed in the fashion of, say, a dining room table and made completely out of sheep bones is not an altogether clear picture of what scientists are dealing with. Imagine, if you will, that ancient priests led sheep and goats to a sacred place, slit their throat, then burned the remains. Each sacrifice slaughtered and burned atop the ones that went before. Eventually a mound of ash accumulates and becomes a ritual platform. At Mount Lykaion the mound was almost five feet high.

So, the scientists use their handy-dandy equipment to measure remains of bones to see which animal (or human) they belong to. If human, they measure the pelvis to see if it is male or female. Then they need to determine the age of the remains. The first thing that comes to mind is ye aulde carbon dating technique. But there are other methods that can be used on other objects and archaeological sites to determine age:

  • Stratigraphical: The science of geology comes into play with a method that relies on the accumulation of soil to calculate the passage of time. The premise is that the area where people live results in layers of earth becoming deposited. Gives a whole new meaning to the saying that a particular area sure has “built up”.
  • Astronomical Chronology: Astronomers have used their knowledge to study the fluctuations of solar radiation to calculate when ice ages have occurred. The common argument is that 5 have occurred.
  • Dendrochronology: This science was pioneered in 1904 by A.E. Douglass who created the technique of analyzing tree rings to determine not only the age of a tree but to find indicators of drought, disease and hearty growing seasons.

So, if history, science and drama are appealing to someone you know, remind them that there are still exciting discoveries to be made, particularly in Greece. For young people who long for the curiosities that are found in archaeological digs, remind them that not every ancient puzzle has been solved. Along with history, they should also have a strong foundation in STEM studies.  And lucky for me this archaeological site has its own website keeping fascinated individuals like myself up-to-date on their latest discoveries. Because the gringa really wants to know just went on up there.

Sources:

www.greekmythology.com

www.biblicalarchaeology.org

www.oocities.org

lykaionexcavation.org

Image Source: tse4.mm.bing.net

 

 

 

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Comet Fly-By Evidence For 1480BC


In the last installment of the gringa’s examination of “evidence” used by ufologists and ancient alien theorists to assert that ancient Egypt had extra-terrestrial contact or were extra-terrestrial hybrids, I explored the theories and ideas associated with the Tulli papyrus. Rather than perceive the dubious document as an ancient Egyptian record of a sighting of mass UFO visitation, the gringa interpreted the astronomical event to be a near fly-by of a comet cluster. So, the obvious next question is, “Were there any comets in Earth’s vicinity around the time of 1480BC or thereabouts?”

Even though expert translators dated the Tulli papyrus to 1480BC there is definitely room for error where that date is concerned. They could not definitively attribute it to the reign of Thutmosis III. They also did not have access to the alleged original papyrus to conduct Carbon 14 dating or any other diagnotic tests to determine its age. So, the gringa goes with the “1480BC or thereabouts” timeline.

When the gringa allows a bit of fluidity in the timeline, things do, indeed, get interesting. There seems to be astronomical and historical records to support a comet cluster or massive comet with a large tail. Author Graham Phillips asserts in his book, “The End of Eden”, that an extraordinary comet event occurred which the civilizations of Earth reacted to with awe and fear in 1486BC.

Confirming the 1486BC comet event are Chinese court records of observation of a comet with ten tails during this same time period. The Chinese record is preserved on a swath of silk, the Mawangdui Silk Almanac, and is preserved in Changsha, China at the Hunan Provincial Museum. This court record was discovered in the 1970s in a tomb and was part of an almanac of astronomical records. The almanac was dated to about 300BC and included an entry for the ten tailed comet of 1486BC.

The significance of this event is that it changed religious history in China as well as Egypt and could very well have been the catalyst for years of war and conquest that ensued throughout Asia, India and Egypt after it appeared. Monotheism worshipping a single great god began to be practiced in China and Egypt. Ancient glyphs depicting what appears to be the same comet appear in China and Egypt:

chinese lao tien yeh glyp

Chinese Lao-Tien-Yeh glyph

glyph of aten

Egyptian glyph of Aten

Considering that the Tulli papyrus recorded that the event was smelly and rained down fish and “volatiles” (the gringa supposes this would mean objects that were considered to have been burned, were on fire, hot or smelled sulphurous), if it was a comet fly-by, this would have been caused by tail debris breaking loose and passing through Earth’s atmosphere and raining down upon Egypt with large pieces impacting the rivers thus throwing up fish. Are there comets capable of this?

From 467BC-466BC ancient Greek celestial records report that a comet, possibly Halley’s comet, passed Earth. The Greek records indicate that a great meteorite impacted the northern region of Greece. Could this have really occurred? Does Halley’s Comet get close enough to Earth for tail debris to possibly be affected by Earth’s gravity, break away, enter the atmosphere, and, ultimately, if it doesn’t burn up during entry, impact the Earth?

In 1910 the New York Times reported that the tail of Halley’s Comet (it is 24 million miles long) would be traveling through Earth’s atmosphere for a duration of about six hours. It seems entirely possible that any large comet that passes near enough Earth to be seen with the naked eye, with a tail long enough that debris in the tail could enter Earth’s atmosphere, might have tail debris that could be affected by Earth’s gravity, break away and fall to Earth.

Halley's Comet.philosophyofscienceportal.blogspot

Interestingly enough Halley’s Comet has a predictable cycle and elaborate tail. It visits Earth about every 75 years. It’s earliest confirmed arrival is in Chinese astronomical records of 240BC. It is entirely possible this was the comet seen in China and Egypt 1240 years earlier in 1486BC. But there are also other comets that could have been seen:

7tail.de.cheseaux.1744

The “Great Comet of 1744”, also known as de Cheseaux’s comet, was a magnificent 7-tailed comet observed from November, 1743 until April, 1744. During these months it shone with such brightness it was visible to the naked eye. It was rated as being the sixth brightest classification for a comet. This means that even during the day it was as bright as the Sirius star at night.

It was observed all over the world with astronomical records of the United States, France, Russia and Japan among the many nations who have official records of the comet’s sighting. Japanese records even indicate that their astronomers detected audible noises and an aurora as tail particles interacted with Earth’s magnetosphere.

comet1680merian

The Great Comet of 1680 was visible from November, 1680 until February, 1681. Astronomers all over the world recorded this event and artists immortalized it. Official astronomical records can be found in Germany and the United States.

e.l.trouvelot.nypl.

The Great Comet of 1882, also called the Great Comet of 1881, or the Great September Comet of 1882, or Super Comet, may very well be the brightest comet ever observed by Earthlings. Italian sailors first reported it to authorities in September, 1882. It grew brighter as it traveled toward the Sun. Astronomical records from Spain called it a blazing star. Eventually it broke into four sections and could be observed for weeks as a bright heavenly object with a luminous tail.

With all of this data on comets and historical records confirming observances in China during the same event recorded on the Tulli papyrus, the gringa’s belief that the Tulli papyrus recorded a comet event is now stronger than ever.

Sources & Image Credit:

grahamphillips.net

www.coasttocoastam.com

idp.bl.uk

www.philosophyofscienceportal.blogspot.com

www.wired.com

en.wikipedia.org

adsabs.harvard.edu

www.wordcraft.net

oldweb.aao.gov.au

http://www.blog.flipclass.com

 

Space For Europe IS the ESA


With ESA Astronaut Tim Peake performing a spacewalk this week on the International Space Station, the gringa thinks it’s only fitting to turn the limelight toward Europe’s space agency and their long history of achievement. The European Space Agency (ESA) is to Europe what NASA is to the United States, JAXA is to Japan and Rocosmos is to Russia. ESA is comprised of 22 member states who collaborate with their financial resources and intellectual talents to provide a gateway to the stars for all of Europe. Members are: Austria, Belgium, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland and the United Kingdom. Canada, Bulgaria, Cyprus, Malta, Latvia, Lithuania, Slovakia and Slovenia all make their own contributions as well through contractual agreements of cooperation.

The goals of the ESA are to discover more about Earth and its surrounding Solar System, as well as the entire Universe. These goals are met while at the same time promoting development of European technologies and sharing these with the world’s other space agencies.

Paris is the location of ESA headquarters. Germany is where ESA’s Astronaut Centre and Space Operations Centre are located. Astronomy Centres are found in Canada and Spain with the Earth Observation centre in Italy. The UK houses the centre for Space Applications and Telecommunications and launch bases are scattered throughout Belgium, the U.S.A., Russia and French Guiana. It can be rather dizzying with all of these operational centres spread all over the world. So, to keep things simple, because the gringa likes simple, for more information about ESA, simply go to their website, www.esa.int, or drop them a line or pick up the phone:

Communication Department
European Space Agency
8-10 rue Mario Nikis
75738 Paris
Cedex 15
France

Tel: + 33 1 5369 7155
Fax: + 33 1 5369 7690

ESA desires to explore space for peaceful purposes. While doing this it wants Europeans to benefit economic growth from the support services required to travel to the stars. Since its conception over thirty years ago, ESA has focused on long-term goals that are adaptable to a world that changes rapidly. The gringa wishes to highlight just a smattering of successful ESA missions:

  • ESRO-4, 1972: The ESRO-4 (European Space Research Organisation) satellite carried five experiments concentrating on Earth’s ionosphere, atmosphere, radiation belts and penetration of solar particle radiation into the magnetosphere. It was launched on 22 November 1972, on a NASA Scout rocket from the Western Test Range in California, and reentered Earth’s atmosphere after a successful mission on 15 April 1974.
  • 1977-2002 Mission Meteosat: launched multiple weather satellites
  • 1979 Mission Ariane: first launch of commercial launcher to secure Europe’s independent space access
  • 1983 Mission Spacelab: launched laboratory module for NASA’s Space Shuttle
  • 1985 Mission Giotto: intercept of Halley’s Comet and Comet Grigg-Skjellerup
  • 1990 Mission Hubble Space Telescope: ESA contribution of solar arrays and Faint Object Camera for Hubble Space Telescope
  • 1998 Mission ARD: launch of first European experimental re-entry vehicle
  • 2003 Mission Mars Express: launch of Europe’s first Red Planet orbiter
  • 2005 Mission Venus Express: launch of Europe’s first Venus orbiter
  • 2008-2012 Mission ATV: launch space truck for ISS re-supply
  • 2015 Mission Lisa Pathfinder: launch of technology to detect gravitational waves

Which brings the gringa to the current ESA Mission, “Principia”.  This six month mission is named after Isaac Newton’s book on physics, “Naturalis Principia Mathematica”. Peake’s mission objectives are to maintain the weightless research laboratory, conduct over thirty scientific experiments, and perform a spacewalk with fellow crewman Astronaut Tim Kopra, working together to replace a Solar Shunt Unit.

Preparing for the spacewalk involves breathing pure oxygen for two hours (to purge nitrogen) before embarking. Once spacesuits are donned, the astronauts enter an airlock where air pressure is gradually reduced until they can safely exit the ISS.

Upon successful completion of Mission Principia, ESA will then turn its attention and efforts to the next scheduled mission, Mission Exomars. Later on this year ESA will launch a Mars orbiter, rover and surface platform to the Red Planet. The gringa is so excited! To Mars! To Mars!

 

Source and Photo Credit:  www.esa.int