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Earthquakes and Tsunamis are triggered by Star-quakes
India Daily News ^
| March 7, 2005
Posted on 03/06/2005 11:09:03 PM PST by bd476
Earthquakes and Tsunamis are triggered by Star-quakes the invisible interconnection between different parts of the Universe
The position of SGR1806-20 in a radio image
of the sky - 50,000 light-years away
Staff Reporter Mar. 7, 2005
Computer models are showing an interesting relationship between star-quakes and earthquakes. Supernova, star-quakes and similar burst of energy in the Universe triggers earthquakes and tsunamis.
According to researchers, most of the large earthquakes and Tsunamis happened when there was a burst of energy somewhere in the cosmos.
According to BBC, Astronomers say they have been stunned by the amount of energy released in a star explosion on the far side of our galaxy, 50,000 light-years away.
The flash of radiation on 27 December was so powerful that it bounced off the Moon and lit up the Earth's atmosphere.
The blast occurred on the surface of an exotic kind of star - a super-magnetic neutron star called SGR 1806-20.
One calculation has the giant flare on SGR 1806-20 unleashing about 10,000 trillion trillion watts.
Now computer models are showing that the burst of energy reached the earth slightly before the major earthquake happened which triggered the Tsunami.
Looking at the past, the computer models are finding a clear correlation between earthquakes, major volcanoes, and landslides, Tsunamis with major burst of energies reaching the earth due to earthquakes.
The models are also showing that the galactic cosmos level energy busts dictate intra-planetary tectonic movements.
It seems that the Universe is connected through these cosmos level energy bursts. If this theory is proven true then it can conjecture that major tectonic movements are caused by major events in the Universe. In other words, different parts the Universe is virtually interconnected.
TOPICS: News/Current Events
KEYWORDS: catastrophism; earthquake; earthquakes; gammarayrepeater; gps; iitresearch; magnetar; magneticfield; magnetism; neutronstar; poleshift; quake; supernova; tsunami; tsunamis
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To: Mr Ramsbotham
61
posted on
03/07/2005 12:26:04 AM PST
by
bd476
To: taxesareforever
taxesareforever wrote: "...If so, tell me what I had for dinner 20 years and 10 days ago."
No, you first.
62
posted on
03/07/2005 12:27:12 AM PST
by
bd476
To: bd476
They finally opened my rural route, so I no longer have to detour 6+ miles out of the way to get anywhere. Yay! They said the county road was "compromised" but it really was full of a mud and no one had cleared it. Bastages.
63
posted on
03/07/2005 12:28:16 AM PST
by
lainie
To: lainie
That's good news. Could you get a four wheel vehicle over the mud or did you get a bad case of cabin fever?
Resisting a very strong urge to say thank you for your input... arghhhhhhhh
64
posted on
03/07/2005 12:31:08 AM PST
by
bd476
To: BurbankKarl
65
posted on
03/07/2005 12:32:20 AM PST
by
bd476
To: lainie; All
India Daily News is like 'Mad TV' of India.
Here's one more article from the same source:
We are visited and controlled by UFOs from the M15 Globular Star Cluster the densest Black Hole driven Core Cluster the capital of the Universe
http://www.indiadaily.com/editorial/1801.asp
66
posted on
03/07/2005 12:33:32 AM PST
by
CarrotAndStick
(The articles posted by me needn't necessarily reflect my opinion.)
To: bd476
Could you get a four wheel vehicle over the mud or did you get a bad case of cabin fever?Both!
67
posted on
03/07/2005 12:37:35 AM PST
by
lainie
To: bd476
I guess not everybody watches Stargate SG1...
68
posted on
03/07/2005 12:39:24 AM PST
by
WestVirginiaRebel
(Carnac: A siren, a baby and a liberal. Answer: Name three things that whine.)
To: bd476
From
PhysOrg.com
The latest physics and technology news
RHESSI satellite captures giant gamma-ray flare
February 18, 2005
Astronomers around the world recorded late last year the brightest explosion ever of high-energy X-rays and gamma rays - a split-second flash from the other side of our galaxy that was strong enough to affect the Earth's atmosphere.
Image: This sketch shows how a seismic shift in the magnetar's crust can twist the strong magnetic field lines and generate currents (I) of charged particles that, through various processes, produce X-rays and gamma rays (squiggly orange arrows). (Image courtesy Robert Duncan, University of Texas, Austin)
The flash, called a soft gamma repeater flare, reached Earth on Dec. 27 and was detected by at least 15 satellites and spacecraft between Earth and Saturn, swamping most of their detectors. Some of the best observations were recorded by the Reuven Ramaty High Energy Solar Spectroscopic Imager (RHESSI), a NASA/University of California, Berkeley, satellite launched in 2002 to study gamma-ray emissions from solar flares.
"It was the mother of all magnetic flares - a true monster," said Kevin Hurley, a research physicist at UC Berkeley's Space Sciences Laboratory who leads a major international team studying the event.
Thought to be a mighty cataclysm in a super-dense, highly magnetized star called a magnetar, it emitted as much energy in two-tenths of a second as the sun gives off in 250,000 years. Its intrinsic power was a thousand times greater than the power of all other stars in the galaxy put together, and ten thousand times brighter than the brightest supernova.
"This is a key event for understanding magnetars," said Robert C. Duncan of the University of Texas at Austin, who along with Christopher Thompson of the Canadian Institute of Theoretical Astrophysics, originally proposed and developed the magnetar theory. They both worked with Hurley's team to understand the immense power of the Dec. 27 flare, which exceeded all previous magnetar outbursts in our galaxy by more than 100. The team's observations and analysis are summarized in a paper that has been submitted for publication in the journal Nature.
"Soft gamma repeater" bursts - pinpoint flashes of highly energetic X-rays and low-energy (soft) gamma rays coming repeatedly from one place in the sky - were first noticed in 1979 and remained a mystery until theorists proposed in 1992 that they originate from magnetically powered neutron stars, or magnetars. Formed by the collapsing core of a star throwing off its outer layers in a supernova explosion, neutron stars are extremely dense, with a mass greater than the Sun packed into a ball about 10 miles across. Many neutron stars spin rapidly - some rotating a thousand times a second - and are called pulsars because they signal their presence by the emission of pulsed radio waves.
Magnetars are a special kind of neutron star. They are born rotating very quickly, which causes their magnetic fields to get amplified. But after a few thousand years, their intense magnetic field slows their spin to a more moderate period of one rotation every few seconds. The magnetic fields both inside and outside the star twist, however, and according to the theory, these intense fields can stress and move the crust much like shearing along the San Andreas Fault. These magnetic fields are a quadrillion - a million billion - times stronger than the field that deflects compass needles at the Earth's surface.
The shear moves the crust around along with the magnetic fields tied to the crust, generating twists in the magnetic field that can sometimes break and reconnect in a process that sends trapped positrons and electrons flying out from the star, annihilating each other in a gigantic explosion of hard gamma rays.
The flare observed Dec. 27 originated about 50,000 light years away in the constellation Sagittarius, which means that the magnetar sits directly opposite Earth in the disk of the Milky Way Galaxy.
As the radiation stormed through our solar system, it blitzed at least 15 spacecraft, knocking their instruments off-scale whether or not they were pointing in the magnetar's direction. Such energetic X-rays and gamma rays pass right through satellites, Hurley said, though the Earth's atmosphere absorbs them, both protecting us and preventing observation by surface telescopes. One Russian satellite, Coronas-F, detected gamma rays that had bounced off the moon.
"While all the real X- and gamma-ray detectors in space were swamped, the particle detectors on NASA's Wind spacecraft gave us our best reading on the distribution of energies of the gamma rays, and the particle detector on RHESSI told us the total energy content of the flare," said Steven Boggs, assistant professor of physics at UC Berkeley, who is leading the analysis of the Wind and RHESSI data.
"The initial spike killed us - completely saturated the RHESSI telescope - but after a half second, RHESSI recovered to observe the X-ray tail in its entirety," he added. "The RHESSI particle detector, however, with its minimal sensitivity to gamma-rays, has just become the smallest gamma-ray telescope ever in space. The fact that it is so small is why it was able to operate properly throughout the entire initial spike."
The flare also ripped atoms apart, ionizing them, in much of the Earth's ionosphere for five minutes, to a deeper level than even the biggest solar flares do, an effect noticed via its effect on long-wavelength radio communications.
Hurley and his team combined information from many spacecraft, including neutron and gamma-ray detectors aboard Mars Odyssey and many near-Earth satellites, in order to localize the giant flare to a spot well-known to astronomers: a magnetar known as SGR 1806-20. This position was accurately confirmed by radio astronomers at the Very Large Array in Socorro, N.M., who studied the fading radio afterglow of the event and obtained important information about the explosion.
The tremendous power of the event has suggested a novel solution to a long-standing mystery - the origins of a strange phenomenon known as "short-duration gamma ray bursts." Hundreds of brief, mysterious flashes of high-energy radiation from deepest space, lasting less than two seconds, have been measured and recorded over decades, but nobody knew what they were.
"It now seems likely that a sizeable fraction of these events, at least, are magnetar flares in distant galaxies," Hurley said.
The similarity between the Dec. 27 burst and these short-duration bursts lies in the brief spike of hard gamma rays that arrives first and carries almost all the energy. In the recent burst, for example, the hard spike lasted only two-tenths of a second. This was followed by a "tail" of X-rays that lasted over 6 minutes. As the tail faded, its brightness oscillated on a 7.56 second cycle, the known rotation period of the magnetar.
According to Duncan and Thompson's theory, the oscillating X-ray tail that followed was due to a residue of electrons, positrons and gamma-rays trapped in the magnetar's magnetic field. Such a hot "trapped fireball" shrinks and evaporates over minutes, as electrons and positrons annihilate. The measurements of Hurley's team corroborate this picture. The tail's brightness appears to oscillate because the fireball is stuck to the surface of the rotating star by the magnetic field, so it rotates with the star like a lighthouse beacon.
Hurley and his team argue that the hard initial spike of these giant flares is so bright that it can be detected from very far away, meaning that the flares we see are from other galaxies, though the soft X-ray tails are too faint to be seen.
"If a magnetar flares up in a distant galaxy within a hundred million light-years of Earth, we should be able to detect it, assuming that it is as bright as the December 27 event," Hurley said. "Since there are very many galaxies within this distance range, we should see these events frequently."
A test of this theory should come soon, because the recently launched Swift satellite carries sensitive gamma-ray detectors designed, in part, to unravel the short gamma-ray burst mystery. Launched in November 2004 and gathering data only since January, it is designed to automatically turn its X-ray telescope toward a burst in order to accurately pin down its position.
Hurley's team estimates that Swift will spot an abundance of magnetars lurking in other galaxies. In some cases, Swift's X-ray telescope may even catch the oscillating tail and measure the rotation period of the faraway star. In any case, Swift will probably localize some short bursts of gamma-rays to galaxies within about 100 million light-years of Earth, betraying their magnetar origins.
"Swift will open up a new field of astronomy: the study of extragalactic magnetars," said Duncan.
Co-authors with Hurley, Boggs, Duncan and Thompson were D. M. Smith of the UC Santa Cruz physics department, RHESSI and Wind principal investigator and Space Sciences Laboratory Director Robert Lin, and teams of U.S., Swiss, Russian and German scientists.
Source: University of California - Berkeley
RHESSI satellite captures giant gamma-ray flare
69
posted on
03/07/2005 12:59:40 AM PST
by
bd476
To: WestVirginiaRebel
Oops, guilty without a hall pass.
70
posted on
03/07/2005 1:00:16 AM PST
by
bd476
To: lainie
Felt any earthquakes lately?We just had one near the North Pole today.
71
posted on
03/07/2005 1:06:33 AM PST
by
UCANSEE2
To: Lijahsbubbe; djf; lainie; BurbankKarl; oceanperch
From the article posted above (from PhysOrg.com and UC Berkeley):
"Astronomers around the world recorded late last year the brightest explosion ever of high-energy X-rays and gamma rays - a split-second flash from the other side of our galaxy that was strong enough to affect the Earth's atmosphere..."
and
" 'It was the mother of all magnetic flares - a true monster,' said Kevin Hurley, a research physicist at UC Berkeley's Space Sciences Laboratory..."
and
"...Thought to be a mighty cataclysm in a super-dense, highly magnetized star called a magnetar, it emitted as much energy in two-tenths of a second as the sun gives off in 250,000 years.
Its intrinsic power was a thousand times greater than the power of all other stars in the galaxy put together, and ten thousand times brighter than the brightest supernova..."
and
"As the radiation stormed through our solar system, it blitzed at least 15 spacecraft, knocking their instruments off-scale whether or not they were pointing in the magnetar's direction.
Such energetic X-rays and gamma rays pass right through satellites, Hurley said, though the Earth's atmosphere absorbs them, both protecting us and preventing observation by surface telescopes. One Russian satellite, Coronas-F, detected gamma rays that had bounced off the moon..."
72
posted on
03/07/2005 1:12:38 AM PST
by
bd476
To: bd476
This kinda stuff is way beyond my understanding.
(short nap eh....I got 2hrs in this morning and just finished a shift so I am going to lurk untill 2 and call it a night as 7am is just around the corner)
Dear God,
No more quakes tonight please or I will be halucinating due to lack of sleep. Thanks, OP
73
posted on
03/07/2005 1:22:01 AM PST
by
oceanperch
(2005 is going to be an Awesome Year, which way that will go only God knows)
To: oceanperch
Please get your rest, OP. It's nearly as important as eating.
74
posted on
03/07/2005 1:25:37 AM PST
by
bd476
To: oceanperch
The article reports basically that it was a huge source of energy hitting earth's atmosphere.
75
posted on
03/07/2005 1:27:13 AM PST
by
bd476
To: Calvin Locke
76
posted on
03/07/2005 1:30:02 AM PST
by
bd476
To: CarrotAndStick
77
posted on
03/07/2005 1:31:52 AM PST
by
bd476
To: taxesareforever
78
posted on
03/07/2005 1:33:36 AM PST
by
bd476
To: Mr Ramsbotham
79
posted on
03/07/2005 1:35:06 AM PST
by
bd476
To: bd476
Praise the Lord, and pass the tinfoil!
80
posted on
03/07/2005 1:37:24 AM PST
by
ApplegateRanch
(The world needs more horses, and fewer Jackasses!)
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