The solar storm that could damage the energy supplies is ready to whip Earth's atmosphere TODAY

A solar storm that could damage the power supply, affect the satellites and trigger auroras is ready to whip Earth's atmosphere today. This image shows aurora when they appeared from space last night

A solar storm that could damage power supplies, affect satellite TVs and activate auroras is ready to close Earth's atmosphere today.

Scientists say a large hole has been opened in the solar corona, with auroras arranged to cover swaths of North America and the United Kingdom.

Rapidly moving solar winds are created where the star's magnetic field opens into space, captured as vast black regions in satellite images.

The charged particles now made their way into the solar system and began to hit the atmosphere of our planet.

The charged magnetic particles of the solar storm can interfere with the machinery in Earth's orbit, as well as on the surface of the planet, such as GPS systems and radio signals.

They can also threaten the airlines by disturbing the Earth's magnetic field.

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A solar storm that could damage the power supply, affect the satellites and trigger auroras is ready to whip Earth's atmosphere today. This image shows aurora when they appeared from space last night

A solar storm that could damage the power supply, affect the satellites and trigger auroras is ready to whip Earth's atmosphere today. TH

The National Oceanic and Atmospheric Administration (NOAA) has issued a storm warning for a G2 solar storm that is considered "moderate" on the 5-level scale (5 is the highest).

Geomagnetic storms are classified on a gravity scale, with G at the bottom, R at the middle and S at the top.

A G2 (Moderate) geomagnetic clock was issued for September 11, 2018 due to the anticipated start of the high-speed coronal hole flow, predicted the space weather center, which means that it is a fairly heavy storm. mild.

One of the most pleasing effects is that the northern lights, or northern lights, can be seen at high latitudes in the United States and the United Kingdom.

Very large flares can even create currents within power grids and cancel the power supply.

Solar activity tends to appear and disappear in cycles that last about 11 years, according to experts, and the star is currently experiencing a continuous period of inactivity.

According to NASA's calculations, it was forecast that the sun would reach its "solar minimum" low point in 2019 or 2020.

The solar minimum can improve the effects of space weather, interrupt communications and navigation, and even cause space debris to "stay", says NASA.

The National Oceanic and Atmospheric Administration (NOAA) has issued a storm warning for a solar storm of level G2 that is considered "moderate" on the scale of 5 levels (5 is the highest)

The National Oceanic and Atmospheric Administration (NOAA) has issued a storm warning for a solar storm of level G2 that is considered "moderate" on the scale of 5 levels (5 is the highest)

The National Oceanic and Atmospheric Administration (NOAA) has issued a storm warning for a solar storm of level G2 that is considered "moderate" on the scale of 5 levels (5 is the highest)

WHAT ARE THE SOLAR STORMS AND ARE DANGEROUS?

Solar storms, or solar activity, can be divided into four main components that can have impacts on Earth:

  • Solar eruptions: A big explosion in the sun's atmosphere. These flares are made of photons that travel directly from the site of the flare. Solar flares impact the Earth only when they occur on the side of the sun that faces Earth.
  • Coronal mass ejections (CME): Large clouds of plasma and magnetic field that come out of the sun. These clouds can explode in any direction, and then continue in that direction, traversing the solar wind. These clouds only cause impacts on the Earth when they point to the Earth.
  • High-speed solar wind currents: These come from coronal holes in the sun, which form in any part of the sun and, usually, only when they are closer to the solar equator the winds impact on the Earth.
  • Solar energy particles: It is believed that high energy charged particles are mainly released by shocks formed in the frontal part of coronal mass ejections and solar flares. When a CME cloud passes through the solar wind, solar energy particles can be produced and, as they are charged, they follow the magnetic field lines between the Sun and the Earth. Only the charged particles that follow lines of magnetic field that cross with the Earth will have an impact.

While these may seem dangerous, astronauts are not in immediate danger from these phenomena due to the relatively low orbit of manned missions.

However, they do have to worry about the accumulated exposure during spacewalks.

This photo shows the coronal holes of the sun in an X-ray image. The outer solar atmosphere, the corona, is structured by strong magnetic fields, which when closed can cause the atmosphere to suddenly and violently release gas bubbles and magnetic fields called coronal mass ejections.

This photo shows the coronal holes of the sun in an X-ray image. The outer solar atmosphere, the corona, is structured by strong magnetic fields, which when closed can cause the atmosphere to suddenly and violently release gas bubbles and magnetic fields called coronal mass ejections.

This photo shows the coronal holes of the sun in an X-ray image. The outer solar atmosphere, the corona, is structured by strong magnetic fields, which when closed can cause the atmosphere to suddenly and violently release bubbles or tongues of gas and fields Magnetic called coronal mass ejections.

The damage caused by solar storms

Solar flares can damage satellites and have a huge financial cost.

Charged particles can also threaten the airlines by disturbing the Earth's magnetic field.

Very large flares can even create currents within power grids and cancel the power supply.

When coronal mass ejections hit the Earth, they cause geomagnetic storms and enhanced aurora.

They can interrupt radio waves, GPS coordinates and overload electrical systems.

A large influx of energy could flow into high voltage power grids and permanently damage transformers.

This could close businesses and homes around the world.

Source: NASA – Solar Storm and Space Weather

NASA and NOAA track solar events using a series of telescopes and probes that help generate geomagnetic weather forecasts.

Researchers also study the sun to learn more about its structure, as well as obtain data to make predictions about different types of solar flares.

These include solar flares and coronal mass ejections, which are large clouds of plasma and the magnetic field that comes out of the sun.

Solar flares and particles ejected through coronal mass ejections are associated with dark spots on the surface of the sun.

These are areas of intense magnetic activity, and when the magnetic fields in a sunspot intersect with each other, it can result in an explosion of energy, known as a solar flare, that sends radiation into space.

Solar flares only impact the Earth when they occur on the side of the sun in front of the Earth.

Sometimes, these explosions can send coronal mass ejections: large clouds of plasma and magnetic fields that come out of the sun.

Meteorologists monitor these events, and when a storm seems to have a significant impact, engineers can shut down certain systems on satellites or prepare for impacts on the power grid.

The sun has a cycle of 11 years of sunspot activity, and the last maximum took place in April 2014.

WHAT ARE AURORAS AND WHAT SHOOT THE IMPRESSIVE NATURAL SCREENS?

The northern and southern lights are natural light shows activated in our atmosphere that are also known as the 'Auroras & # 39 ;.

There are two types of Aurora: Aurora Boreal, which means "sunrise from the north", and Aurora Australis, "dawn from the south".

The screens light up when electrically charged particles from the sun enter the Earth's atmosphere.

There are two types of Aurora: Aurora Borealis (file photo), which means "sunrise from the north", and Aurora Australis, "sunrise from the south". The screens light up when electrically charged particles from the sun enter the Earth's atmosphere

There are two types of Aurora: Aurora Borealis (file photo), which means "sunrise from the north", and Aurora Australis, "sunrise from the south". The screens light up when electrically charged particles from the sun enter the Earth's atmosphere

There are two types of Aurora: Aurora Borealis (file photo), which means "sunrise from the north", and Aurora Australis, "sunrise from the south". The screens light up when electrically charged particles from the sun enter the Earth's atmosphere

Generally, particles, sometimes called a solar storm, are deflected by the Earth's magnetic field.

But during stronger storms they enter the atmosphere and collide with gas particles, including hydrogen and helium.

These collisions emit light. Auroral screens appear in many colors, although pale green and pink are common.

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