Solar storm that appeared as ‘a great fire’ in 1582 could hit Earth AGAIN, experts warn


The solar storm that appeared as ‘a great fire’ in 1582 could hit Earth AGAIN this century, causing billions in damage and destroying power grids around the world, experts warn

  • A solar storm hit Earth in 1582 that looked like a ‘great fire’ in the sky
  • The storm lasted three days and spread from Europe to East Asia.
  • Today, the storm would cause blackouts around the world and billions in damage.
  • The 1582 storm is said to occur every century, suggesting that Earth must

A “great fire” appeared in the sky over dozens of cities in Europe and Asia in 1582 and eyewitness accounts of this solar storm have recently been discovered.

Cornell University scientists found eyewitness observations reporting a ‘display of red fire in the sky’ that lasted for three days, while another said ‘streaks of fire erupted over the castle that were gruesome and gruesome’.

People of this time did not know that the event was a massive solar storm, but astronomers today are using storms to help predict future solar activity.

The solar storm that struck Earth on March 8, 1582 is comparable to those of 1909 and 1989, suggesting that they are ‘a once-in-a-century occurrence and’ one or two can be expected in the 21st century. ‘ the experts say.

If a similar intense solar storm were to hit our modern world, it would cause billions of dollars in damage and knock out power grids around the world.

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A “great fire” appeared in the sky over dozens of cities in Europe and Asia in 1582 and eyewitness accounts of this solar storm have been discovered. People around this time did not know the event was a massive solar storm, but astronomers today are using storms to help predict future solar activity (file image)

Extreme space weather, or solar storms, occurs when the sun shoots up boiling plasma in the form of solar flares and winds.

Although most solar storms are usually harmless, one large enough hitting Earth could have catastrophic effects.

But Ruiz Soares, an eyewitness to the solar storm of 1582, wrote: “All that part of the sky seemed to burn in fiery flames; it looked like the sky was burning. ‘

No one remembered seeing anything like this … At midnight, great rays of fire rose up over the castle that were hideous and frightening.

Cornell University scientists found eyewitness observations reporting a 'display of red fire in the sky' that lasted for three days, while another said that 'streaks of fire erupted over the castle that were gruesome and frightening'.  Accounts in the photo reported during the three-day event

Cornell University scientists found eyewitness observations reporting a ‘display of red fire in the sky’ that lasted for three days, while another said ‘streaks of fire erupted over the castle that were gruesome and gruesome’. Accounts in the photo reported during the three-day event

The solar storm that struck in 1909 is said to be one of the most intense of the 20th century.  According to the records of Japanese auroras, the bluish color began to appear first, followed by the reddish color.

The solar storm that struck in 1909 is said to be one of the most intense of the 20th century. According to the records of Japanese auroras, the bluish color began to appear first, followed by the reddish color.

‘The next day, the same thing happened at the same time, but it wasn’t that big and scary. They all went to the field to see this great poster. ‘

The solar storm that struck in 1909 is said to be one of the most intense of the 20th century, as Universe Today reported.

It exhibited violent levels of geomagnetic disturbance, caused widespread interference in telegraph systems, and brought spectacular auroras into the night sky.

Historical records show that it impacted Earth on September 9, which occurred as a shock wave from the solar wind that was later linked to the ejection of plasma from an active sunspot.

According to the records of Japanese auroras, the bluish color began to appear first, followed by the reddish color.

A more recent event that could have ended in deaths occurred in 1973 (pictured).  It happened during the Apollo era when the solar storm passed over Earth in August, but luckily the astronauts who explored the Moon that year had returned home a few months earlier.

A more recent event that could have ended in deaths occurred in 1973 (pictured). It happened during the Apollo era when the solar storm passed over Earth in August, but luckily the astronauts exploring the Moon that year had returned home a few months earlier.

And it disrupted telegraphic communications in low and mid latitudes.

Approximately 89 years later, a ‘moderately large’ storm was observed that destroyed Quebec’s power grid.

The study also highlights “the Carrington event in 1859, which is considered to be one of the most extreme space weather events reported,” the researchers wrote in the study in arxiv.

A more recent event that could have ended in deaths occurred in 1973.

It happened during the Apollo era when the solar storm passed over Earth in August, but fortunately the astronauts who explored the Moon that year had returned home a few months earlier.

The team hopes to use this data to develop better prediction models as more humans travel to space, specifically when NASA plans a mission to the moon in 2024.

WHAT IS THE EARTH’S MAGNETIC FIELD AND HOW DOES IT PROTECT US?

The Earth’s magnetic field is a layer of electrical charge that surrounds our planet.

The field protects life on our planet by deflecting the charged particles fired by the sun known as the “solar wind.”

Without this protective layer, these particles would likely deplete the ozone layer, our only line of defense against harmful ultraviolet radiation.

The Earth's magnetic field (blue) is a layer of electrical charge that surrounds our planet.  The field protects life on our planet by deflecting the charged particles fired by the sun (orange) known as 'solar wind' (artist's impression)

Earth’s magnetic field (blue) is a layer of electrical charge that surrounds our planet. The field protects life on our planet by deflecting the charged particles fired by the sun (orange) known as ‘solar wind’ (artist’s impression)

Scientists believe that the Earth’s core is responsible for creating its magnetic field.

As molten iron from the Earth’s outer core escapes, it creates convection currents.

These currents generate electrical currents that create the magnetic field in a natural process known as a geodynamic.

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