A powerful geomagnetic storm may hit Earth this weekend

A strong G3 geomagnetic storm may occur on Saturday, October 30, at the coronal mass ejection (CME) of the solar eruption that occurred on Thursday, the 28th, write X1, Reaches the Earth’s magnetic field.

But before we notice this geomagnetic event, it’s worth explaining what’s causing the problem. Coronal mass ejections (EMC) consist of the release of large amounts of matter from the Sun’s atmosphere, from the Sun’s corona during powerful, long-lasting volcanic eruptions. It is caused by extensive magnetic instability. It’s one of the most exciting events in solar activity, expelling billions of tons of plasma, as well as its blanketing magnetic fields, into space.

Storms like these, scheduled for October 30, could start Visually visible aurora as far south as Illinois and Oregon (usually 50° of geomagnetic latitude) and photographic aurora at low latitudes. Minor G1 and G2 storms may continue through Halloween. As for solar flares, they are massive blasts of radiation from the sun that release radiation-laden particles from the star.

according to NASA, flashes (flags) categorized in the letter system, As class C is relatively weak, class M is medium, and class X is the strongest.

Yesterday, a large X-class solar flare was detected

This Thursday, October 28, satellites were discovered in Earth’s orbit X1 class solar flare for AR2887 Earth-directed sunspot. The explosion caused a massive “tsunami” of plasma in the Sun’s atmosphere.

according to Space Weather Prediction Center (SWPC) Give NOAA, a North American institution that monitors climatic events in space, and this happened precisely at 4:35 pm (mainland Portugal time) when one of the strongest storms in the sun’s current climate cycle reached its climax, Resulting in the aforementioned X1 class solar flare, one of the most powerful.

The explosion also launched an EMC into space. Strong type II and type IV radio emissions have been reported by United States Air Force (USAF)Created by EMC that passed through the Sun’s atmosphere. The accelerating energetic particles at the forefront of the EMC attack have already reached Earth.

When will EMC itself arrive?

Radiant charged particles from coronal mass ejections May reach Earth between Saturday and Sunday (30 and 31), according to the site space climate. As a result of this, there may be Jamming of radio and satellite communications, with the overload of the aurora borealis in the arctic from the planet, which could cause intense lighting and possibly great photos.

Latest data from Coronagraph Soho It will give you a more accurate forecast, so we recommend that you remain vigilant.

The aforementioned explosion caused a temporary but extremely powerful radio blackout on the day-lit (sunlit) side of the Earth centered in South America.. Aircraft pilots, sailors, and radio broadcasters on the daylight side of the Earth may have observed individual propagation effects at frequencies below 30 MHz.

The Sun’s zone of influence is where a volcanic eruption becomes what we call a “geographical influence”. With the active region facing Earth, any additional volcanic eruptions from the AR2887 sunspot would be “geographically effective.”

It’s possible that AR2887 sunspot isn’t over yet. The active region is directly facing the Earth, so any additional volcanic eruptions must be ‘geoactive’. What does it mean to be “geographically efficient”? The sun has a so-called “zone of influence” where a volcanic eruption can have what we call “geographical influence”, which is on the eastern side of the solar disk because events take a certain time to leave the sun and hit us.

Usually the effects of a G3 storm on our technology are residual. However, a G3 storm has the potential to push the aurora away from its natural polar habitat, and if other factors join, auroras can be seen over the far northeast, midwest, and midwest. Washington we United States of America.