Yesterday, we reported that a coronal mass ejection (CME) was headed for the Earth, and NASA models revealed that it could spark a minor solar storm event. However, things took a turn for the worse when the CME made an impact after midnight, and the initial jolt was measured to be around 22 nT (nanotesla, the unit of magnetic field in the centimeter-gram-second system). The energy released pushed the solar storm from minor to moderate levels, meaning it will have a stronger impact on the upper atmosphere. The storm is currently ongoing, and researchers are tracking the damage it caused.
According to a report by SpaceWeather.com, “A G3-class geomagnetic storm is in progress following the impact of a CME on Aug. 5th (0230 UT). Sensors at the Canberra Magnetic Observatory in Australia measured a jolt of 22 nT to Earth's magnetic field”. The report also highlighted that following the impact, auroras can spread as far south as Arizona in the US.
A G3-class storm is strong enough to cause drag in the upper atmosphere and push smaller satellites around, causing both disruption of signals as well as damage to sensitive instruments. They can also disrupt shortwave radio communications such as GPS, and affect mariners, drone pilots, amateur radio operators, and emergency responders. Further, in some cases, it may also affect mobile networks.
The CME that is headed for the Earth was part of a series of M-class solar flare eruptions that took place on August 1. It was reported at the time that a particularly notorious sunspot was exploding every 3 hours, sparking a rolling series of shortwave radio blackouts on Earth.
Even as this solar storm passes by, there are 9 other sunspots on the Earth-facing side of the Sun that have concerned
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