Showing posts with label sun spots. Show all posts
Showing posts with label sun spots. Show all posts

Wednesday, May 15, 2019

The Melchizedek Chronicles - Another Warning - How Vulnerable are we to Solar Disruption?


Reprint of a 2017 article - the threat still remains!!!  We have been forewarned of many weather anomalies by Melchizedek over the recent years in which natural disasters from hurricanes to floods, cyclones to tornadoes, have shattered historical records.

These massive outbreaks are natural actions taken by the planet Earth to correct the needs of the Earth as host to the humans and other species.  More prophecies are being compiled right now regarding our immediate future but one we seriously dismiss may be the greatest threat.  There is always a chance for a massive solar storm.  This is what we might expect from it.





A massive solar storm could wipe out almost all of our modern technology without warning

·                                  Rafi Letzter


Manhattanhenge is coming. On May 30, the sun's rays will stream dramatically down the avenues of New York City's central borough. For New Yorkers used to sunsets hidden behind brick and steel canyons, it will be an awesome reminder of the sun's beauty and power.
When the sun puts its power on display, we often can't see it all or predict it in advance. But the effects can be world-changing.
The last truly massive display of Sol's power happened in 1859, when an invisible wave crashed into the Earth.
Electrons, swept up like so much detritus in the magnetic current, coursed along telegraph wires. When they met an obstacle, like the hand of a telegraph operator, they crashed through it — delivering a sharp shock.
Papers in telegraph offices caught fire. Operators found that even if telegraphs weren't connected to power, the giddy subatomic stream could carry messages over vast distances. Lights danced in the sky.
It was the largest solar storm ever recorded. If it happened today, it would jeopardize global telecommunications, knock out orbiting satellites, and threaten to kill astronauts.
We'd have some warning, as instruments all over the world and in space now monitor the sun every second of the day. But even at the speed of light, a massive solar flare's telltale flash of radiation would leave humanity between just a few minutes and — if we were very lucky — a day to prepare for the wave of charged particles surging toward us through space.
Amazingly, in 1859, before all that monitoring equipment was put in place, an astronomer spotted the flare before the storm reached Earth.
Carrington's observation. The figures labeled A and B represent the flare. 


At 11:18 a.m. on September 1, the English astronomer Richard Carrington stood in his private observatory recording sunspots on an image of the sun projected through his telescope onto a small screen.
"Two patches of intensely bright and white light broke out," he wrote in his report, "Description of a Singular Appearance seen in the Sun," for the journal Monthly Notices of the Royal Astronomical Society.
"My first impression was that by some chance a ray of light had penetrated a hole in the screen attached to the object-glass, by which the general image is thrown into shade, for the brilliancy was fully equal to that of direct sunlight," he wrote.
The next morning before sunrise, "skies all over planet Earth erupted in red, green, and purple auroras so brilliant that newspapers could be read as easily as in daylight," according to NASA. "Indeed, stunning auroras pulsated even at near tropical latitudes over Cuba, the BahamasJamaicaEl Salvador, and Hawaii."
Spacewalking astronauts might have only minutes after the first flash of light to find shelter. ... Their spacecraft would probably have adequate shielding; the key would be getting inside in time.
In the (mostly) preelectric world of 1859, most of humanity experienced the storm as little more than a strange light show — if they were even awake to see it. And aside from a few smarting fingers, it doesn't seem to have harmed anyone in the long term.
As our world has become more reliant on electronics in the last century and a half, we've had few glimpses of the potential dangers of solar storms to our new infrastructure. Since 1972, NASA has recorded three instances of solar storms significantly disrupting daily life.
The latest example was in 2005, when X-rays from a solar flare disrupted satellite-to-ground communication and the GPS system for about 10 minutes — threatening satellite-guided air, sea, and land travel.
But none of those storms come close to the scale of the 1859 monster, known as the Carrington Event.
If a Carrington Event happened today, the world likely would have to deal with the simultaneous loss of GPS, cellphone reception, and much of the power grid. The global aircraft fleet might have to coordinate an unprecedented mass grounding without satellite guidance. Unguarded electronic infrastructure could fail outright.
We'd all have to wait — at least in the short term — for tomorrow's newspaper to come out to learn details of the aftermath.
"Humans in space would be in peril, too," NASA wrote. "Spacewalking astronauts might have only minutes after the first flash of light to find shelter from energetic solar particles following close on the heels of those initial photons. Their spacecraft would probably have adequate shielding; the key would be getting inside in time."
The best available estimates suggest a modern Carrington Event would cost humanity $1 trillion to $2 trillion in the first year and take another four to 10 years to achieve full recovery. A 2007 NASA estimate found that the damage to the satellite fleet would cost between $30 billion and $70 billion.
Fortunately, Carrington Event-level storms seem pretty rare, occurring perhaps once in 500 years. But we have no reliable way of predicting when the next one could happen. So this Manhattanhenge, enjoy the sunset — but remember its deadly power.

Friday, September 08, 2017

Conversations with Melchizedek - Mexico rocked by 8.1 Earthquake - Solar Flares threaten Earth - Are these manifestations of the Melchizedek Prophecy?

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Several months ago I presented the first of the Melchizedek Prophecies in the Coltons Point Times and the articles continue to gain interest and support.  An earlier article titled Earth's Weather Anomalies - Are there Dark Clouds on the Horizon?

Here are links to all previous Melchizedek articles.



The Melchizedek Teachings and Prophecy

Conversations with Melchizedek – Where is the Truth in Weather reporting?

Conversations with Melchizedek – Natural Disasters Reclaim the World for Mother Earth

Conversations with Melchizedek – Suppose Divine Intervention wiped out the Internet – could you survive?

Conversations with Melchizedek - Who is the mysterious Biblical person?

Conversations with Melchizedek - Earth's Weather Anomalies - Are there Dark Clouds on the Horizon?

Conversations with Melchizedek - Knowledge and Wisdom, what is the difference?

Conversations with Melchizedek - Time to Listen to Mother Earth - We are Running Out of Time

Conversations with Melchizedek - The Ascension of Jesus of Nazareth

Conversations with Melchizedek - The Meaning of Lent and Holy Week




Massive earthquake rocks Mexico
Yahoo News Photo Staff


Massive earthquake rocks Mexico


People react on a street in downtown Mexico City during an earthquake, on September 7, 2017.

An earthquake of magnitude 8.0 struck southern Mexico late Thursday and was felt as far away as Mexico City, the US Geological Survey said, issuing a tsunami warning. It hit offshore 120 kilometers (75 miles) southwest of the town of Tres Picos in the state of Chiapas.


(Alfredo Estrella/AFP/Getty Images)
Mexico’s president says that the magnitude of the earthquake that hit the country is 8.2, the biggest the country has seen in a century.

Enrique Pena Nieto confirmed that at least five people have died in the temblor. He also said that major damage has been caused and that 1 million initially had been without power following the quake, but that electricity had been restored to 800,000 of them.

He said that there have been 62 aftershocks and it’s possible one as strong as 7.2 could hit.

The U.S. Geological Survey has reported that the quake had a magnitude of 8.1. It hit off the coast of southern Mexico, toppling houses in Chiapas state, causing buildings to sway violently as far away as the country’s distant capital and setting off a tsunami warning. (AP)
Here are photos of the worst earthquake to ever hit Mexico in 1985.






Science
Massive Sunspots and Solar Flares: The Sun Has Gone Wrong and Scientists Don't Know Why
 Alexa Halford,Newsweek 

This article was originally published on The Conversation. Read the original article.
If you still have your solar viewing glasses from the eclipse, now is a good time to slap them on and look up at the sun. You’ll see two big dark areas visible on our star. These massive sunspots are regions of intense and complicated magnetic fields that can produce solar flares—bursts of high-energy radiation. You can just make them out with solar viewing glasses, but they’re better viewed through a solar telescope.
These two huge sunspots are currently causing quite a bit of consternation and interest. The solar storms they’ve sent toward Earth may affect communications and other technologies like GPS and radio signals. They’re causing amazing displays of the Northern and Southern Lights. And space weather scientists like us are excited because we wouldn’t normally expect this much activity from the sun at the moment.
The sun goes through 11-year cycles of solar activity. What scientists call a solar maximum is the time in the cycle when the sun is putting out the most energy. That’s when we tend to see the most sunspots, solar flares and associated solar storms. Some solar maxima are larger or more active than others—such as the 1990-1991 solar max. But this last cycle, which peaked in 2014, was quite small, and there were few large geomagnetic storms.
We’re heading into the bottom of solar minimum, when the sun tends to have fewer sunspots, solar flares and coronal mass ejections—large expulsions of plasma, electrons and ions, and magnetic fields. But despite where we are in the sun’s cycle, activity on the sun has dramatically picked up over the past few days. On and off, these two sunspots have been flaring and shooting out coronal mass ejections, directed toward Earth.
So what’s going on with the sun? And should we be concerned about this somewhat out-of-character solar behavior?
Here’s what’s happened so far



Huge solar flare recorded by NASA on September 6. NASA/GSFC/SDO

On September 4, the sun started sputtering. A moderately large flare (classified as an M5.5) erupted at approximately 18:30 UTC. It produced a coronal mass ejection aimed at Earth.
The sun continued to flare on September 5. A solar energetic particle event from the previous day’s activity arrived at the Earth, where it likely affected radio communications as well as the health of satellite systems.
On September 6, the sun produced two massive X-Class flares. This is the category for the strongest of all solar flares. NASA announced one was the most powerful since at least 2008. It produced another coronal mass ejection.


The second and strongest of the two X-class flares on September 6 produced a coronal mass ejection directed at Earth.NOAA

Over the next day, the same sunspots continued to spit out more solar flares. It took about an hour for the solar energetic particles they emitted to arrive at Earth. These protons are incredibly fast-moving. They can affect communication systems, typically in the polar regions where they are more likely to enter into the Earth’s atmosphere. As with all increases of radiation in space, they can also affect satellite systems and the health of astronauts.
Early in the morning hours of September 7 in the U.S., that first coronal mass ejection that erupted from the sun three days earlier arrived at Earth. Because of the way its magnetic field aligned with Earth’s, it generated only a small geomagnetic storm.
After being detected by spacecraft upstream from Earth in the solar wind, the massive coronal mass ejection from September 6 also hit Earth on the evening of September 7 EDT. Its arrival was a few hours earlier than space weather forecasting agencies around the world predicted.
What other effects will Earth see?



Both sunspots are visible on the sun’s surface, as well as the flare in the solar atmosphere. NASA/GSFC/SDO

All this solar activity has already caused a couple of radiation storms in Earth’s high latitude regions that blacked out radio communication at certain frequencies. The impacts extended toward the equator and have affected high-frequency communications, including ham radios, which are used in emergency and disaster relief management. Radio fade-out maps from the Australian Bureau of Meteorology show that high-frequency radio communication disruptions have likely occurred in the same areas being pummeled by Hurricane Irma.
There has likely been a loss of global navigation system satellite communications in those same areas, but it will take time for the data to be analyzed and for us to gain a full understanding of how this space weather activity has affected those on the ground. The radiation storms may also force flights over the polar regions to reroute to avoid increased radiation exposures for people on board and potential loss of communication and navigation systems for aircraft on these paths.


Northern Lights in the Arctic Circle, on September 5. Jonathan Nackstrand/AFP/Getty Images

With the collision of the coronal mass ejection from this X-Class flare with Earth come other impacts for the near-Earth space environment. Geomagnetic storms, like the one currently in progress, are known to wreak havoc on a range of satellite and ground-based communication technologies, as well as power grids, GPS/GNSS, and orbit predictions of satellites and space debris. It is also very likely to produce dazzling aurora activity as far south as the northern U.S. and Europe in the Northern Hemisphere, and as far north as southern Australia and New Zealand in the Southern Hemisphere.
While scientists and aurora-hunting enthusiasts closely watch the storm’s ongoing effects, others will be bracing for problems and disruptions to the many technological services that will be affected.
We don’t need to worry about this coronal mass ejection being “the big one”—a solar storm direct hit that could cause widespread power blackouts and trigger as much as $2 trillion worth of damage, according to a National Academy of Sciences study. But this storm, on the back of this month’s abnormally active space weather, may wind up on the larger end of the scale, and will be the subject of lots of analysis and research.


Images of the sun during solar cycle 23. You typically see more activity during a solar maximum (2001) than during a minimum (1996 or 2006). ESA&NASA/SoHO

We don’t yet fully understand everything that is happening. But the activity over the past few days, when the sun should be within its quietest period, shows that significant space weather events are possible at any stage of the 11-year solar cycle.
You can help us study this and other solar storms as a citizen scientist. Sign up for Aurorasaurus and let us know if you observe aurorae with this event.
Alexa Halford is a researcher in Physics and Astronomy at Dartmouth CollegeBrett Carter is senior research fellow at RMIT University, and Julie Currie is research officer at RMIT University, Australia.

Thursday, May 18, 2017

Another Warning - How Vulnerable are we to Solar Disruption?

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A massive solar storm could wipe out almost all of our modern technology without warning

·                                  Rafi Letzter


Manhattanhenge is coming. On May 30, the sun's rays will stream dramatically down the avenues of New York City's central borough. For New Yorkers used to sunsets hidden behind brick and steel canyons, it will be an awesome reminder of the sun's beauty and power.
When the sun puts its power on display, we often can't see it all or predict it in advance. But the effects can be world-changing.
The last truly massive display of Sol's power happened in 1859, when an invisible wave crashed into the Earth.
Electrons, swept up like so much detritus in the magnetic current, coursed along telegraph wires. When they met an obstacle, like the hand of a telegraph operator, they crashed through it — delivering a sharp shock.
Papers in telegraph offices caught fire. Operators found that even if telegraphs weren't connected to power, the giddy subatomic stream could carry messages over vast distances. Lights danced in the sky.
It was the largest solar storm ever recorded. If it happened today, it would jeopardize global telecommunications, knock out orbiting satellites, and threaten to kill astronauts.
We'd have some warning, as instruments all over the world and in space now monitor the sun every second of the day. But even at the speed of light, a massive solar flare's telltale flash of radiation would leave humanity between just a few minutes and — if we were very lucky — a day to prepare for the wave of charged particles surging toward us through space.
Amazingly, in 1859, before all that monitoring equipment was put in place, an astronomer spotted the flare before the storm reached Earth.
Carrington's observation. The figures labeled A and B represent the flare. 


At 11:18 a.m. on September 1, the English astronomer Richard Carrington stood in his private observatory recording sunspots on an image of the sun projected through his telescope onto a small screen.
"Two patches of intensely bright and white light broke out," he wrote in his report, "Description of a Singular Appearance seen in the Sun," for the journal Monthly Notices of the Royal Astronomical Society.
"My first impression was that by some chance a ray of light had penetrated a hole in the screen attached to the object-glass, by which the general image is thrown into shade, for the brilliancy was fully equal to that of direct sunlight," he wrote.
The next morning before sunrise, "skies all over planet Earth erupted in red, green, and purple auroras so brilliant that newspapers could be read as easily as in daylight," according to NASA. "Indeed, stunning auroras pulsated even at near tropical latitudes over Cuba, the Bahamas, Jamaica, El Salvador, and Hawaii."
Spacewalking astronauts might have only minutes after the first flash of light to find shelter. ... Their spacecraft would probably have adequate shielding; the key would be getting inside in time.
In the (mostly) preelectric world of 1859, most of humanity experienced the storm as little more than a strange light show — if they were even awake to see it. And aside from a few smarting fingers, it doesn't seem to have harmed anyone in the long term.
As our world has become more reliant on electronics in the last century and a half, we've had few glimpses of the potential dangers of solar storms to our new infrastructure. Since 1972, NASA has recorded three instances of solar storms significantly disrupting daily life.
The latest example was in 2005, when X-rays from a solar flare disrupted satellite-to-ground communication and the GPS system for about 10 minutes — threatening satellite-guided air, sea, and land travel.
But none of those storms come close to the scale of the 1859 monster, known as the Carrington Event.
If a Carrington Event happened today, the world likely would have to deal with the simultaneous loss of GPS, cellphone reception, and much of the power grid. The global aircraft fleet might have to coordinate an unprecedented mass grounding without satellite guidance. Unguarded electronic infrastructure could fail outright.
We'd all have to wait — at least in the short term — for tomorrow's newspaper to come out to learn details of the aftermath.
"Humans in space would be in peril, too," NASA wrote. "Spacewalking astronauts might have only minutes after the first flash of light to find shelter from energetic solar particles following close on the heels of those initial photons. Their spacecraft would probably have adequate shielding; the key would be getting inside in time."
The best available estimates suggest a modern Carrington Event would cost humanity $1 trillion to $2 trillion in the first year and take another four to 10 years to achieve full recovery. A 2007 NASA estimate found that the damage to the satellite fleet would cost between $30 billion and $70 billion.
Fortunately, Carrington Event-level storms seem pretty rare, occurring perhaps once in 500 years. But we have no reliable way of predicting when the next one could happen. So this Manhattanhenge, enjoy the sunset — but remember its deadly power.

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Friday, July 25, 2014

Why Didn't NASA Warn us in Real Time about the near destruction?

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Why is it our own government continues to hide the truth from us but expects our support? This article released today, July 25, 2012, details how close the Earth came on July 23, 2012 to be so fried by solar flares it might have knocked us back into the 18th century, a time before electricity.


Since NASA has satellites monitoring solar flares in real time why was no warning given of the biggest solar storm in modern history that might have caused a worldwide calamity?  If they are hiding such crucial facts from us what other truths is NASA hiding from us?

Here is the account two years too late by NASA.






Earth survived near-miss from 2012 solar storm: NASA

Washington (AFP) - Back in 2012, the Sun erupted with a powerful solar storm that just missed the Earth but was big enough to "knock modern civilization back to the 18th century," NASA said.

The extreme space weather that tore through Earth's orbit on July 23, 2012, was the most powerful in 150 years, according to a statement posted on the US space agency website Wednesday.



However, few Earthlings had any idea what was going on.

"If the eruption had occurred only one week earlier, Earth would have been in the line of fire," said Daniel Baker, professor of atmospheric and space physics at the University of Colorado.



Instead the storm cloud hit the STEREO-A spacecraft, a solar observatory that is "almost ideally equipped to measure the parameters of such an event," NASA said.


Scientists have analyzed the treasure trove of data it collected and concluded that it would have been comparable to the largest known space storm in 1859, known as the Carrington event.




A mass of swirling plasma rose up above the Sun, twisted and turned for almost a day, then broke away.  It also would have been twice as bad as the 1989 solar storm that knocked out power across Quebec, scientists said.

"I have come away from our recent studies more convinced than ever that Earth and its inhabitants were incredibly fortunate that the 2012 eruption happened when it did," said Baker.



The National Academy of Sciences has said the economic impact of a storm like the one in 1859 could cost the modern economy more than two trillion dollars and cause damage that might take years to repair.

Experts say solar storms can cause widespread power blackouts, disabling everything from radio to GPS communications to water supplies -- most of which rely on electric pumps.

They begin with an explosion on the Sun's surface, known as a solar flare, sending X-rays and extreme UV radiation toward Earth at light speed.



Hours later, energetic particles follow and these electrons and protons can electrify satellites and damage their electronics.


Next are the coronal mass ejections, billion-ton clouds of magnetized plasma that take a day or more to cross the Sun-Earth divide.


These are often deflected by Earth's magnetic shield, but a direct hit could be devastating.

There is a 12 percent chance of a super solar storm the size of the Carrington event hitting Earth in the next 10 years, according to physicist Pete Riley, who published a paper in the journal Space Weather earlier this year on the topic.

His research was based on an analysis of solar storm records going back 50 years.
"Initially, I was quite surprised that the odds were so high, but the statistics appear to be correct," said Riley.

"It is a sobering figure."      
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