A geomagnetic storm is caused by activity on the sun


Geomagnetic storm: Big orange ball of a sun sending out particles, which strike a large magnetic field surrounding a tiny Earth.
Artist’s concept of activity on the sun traveling across space, to interact with Earth’s magnetic field. Not to scale. The sun’s activity can cause a geomagnetic storm, which aren’t harmful to humans, but which can harm earthly technologies. Image via Wikimedia Commons.

What happens during a geomagnetic storm?

A geomagnetic storm is a temporary disturbance in the magnetic field surrounding Earth. Flares on the sun and/or coronal mass ejections (aka CMEs) cause these storms. When a flare erupts on the sun’s surface – and a CME, or cloud of charged particles, goes hurtling outward from the sun – a geomagnetic storm might follow a few days later. Earth would need to be in the path of the CME in order for the geomagnetic storm to take place.

The frequency of geomagnetic storms increases and decreases with the 11-year cycle of activity on the sun. So during solar maximum, geomagnetic storms occur more often.

During geomagnetic storms, people at far northern and southern latitudes on Earth see increased displays of the beautiful aurorae, or northern and southern lights.

Purple and yellowish green lights the sky behind a few dark clouds.
View at EarthSky Community Photos. | Kelly Morris captured this image on March 23, 2023. Kelly wrote: “From the frozen shores of Canyon Ferry Reservoir near Townsend, Montana. The clouds were open just enough to get a few good photos early in the evening before they totally covered the sky. I was pretty excited about my first ever aurora borealis photo shoot!” Thank you, Kelly!

The last solar cycle – cycle number 24 – peaked in April 2014. It was a substantially quieter peak than other recent solar cycles, with sunspot numbers and other activity on the sun down to a level that hadn’t been seen since cycles 12 to 15 (1878-1923).

Help! EarthSky needs your support to continue. Our yearly crowd-funding campaign is going on now. Donate here.

The current solar cycle

The current solar cycle – cycle number 25 – has been quite active so far and will continue through 2030. In fact, it’s expected to peak around 2025.

Recently, on March 23, 2023, EarthSky warned of a geomagnetic storm in our daily Sun activity post. And storm it did! People reported seeing the aurora as far south as Oklahoma, New Mexico, Arizona and Virginia. So stay tuned, we may see more geomagnetic storms over the next few years.

For current solar activity visit EarthSky’s Sun activity post.

By the way, auroras tend to happen more around the equinoxes.

Bottom line: Geomagnetic storms are disturbances in Earth’s magnetic field, caused by activity on the sun.

Read more: Aurora photos from the March 24, 2023, geomagnetic storm

The post A geomagnetic storm is caused by activity on the sun first appeared on EarthSky.



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Geomagnetic storm: Big orange ball of a sun sending out particles, which strike a large magnetic field surrounding a tiny Earth.
Artist’s concept of activity on the sun traveling across space, to interact with Earth’s magnetic field. Not to scale. The sun’s activity can cause a geomagnetic storm, which aren’t harmful to humans, but which can harm earthly technologies. Image via Wikimedia Commons.

What happens during a geomagnetic storm?

A geomagnetic storm is a temporary disturbance in the magnetic field surrounding Earth. Flares on the sun and/or coronal mass ejections (aka CMEs) cause these storms. When a flare erupts on the sun’s surface – and a CME, or cloud of charged particles, goes hurtling outward from the sun – a geomagnetic storm might follow a few days later. Earth would need to be in the path of the CME in order for the geomagnetic storm to take place.

The frequency of geomagnetic storms increases and decreases with the 11-year cycle of activity on the sun. So during solar maximum, geomagnetic storms occur more often.

During geomagnetic storms, people at far northern and southern latitudes on Earth see increased displays of the beautiful aurorae, or northern and southern lights.

Purple and yellowish green lights the sky behind a few dark clouds.
View at EarthSky Community Photos. | Kelly Morris captured this image on March 23, 2023. Kelly wrote: “From the frozen shores of Canyon Ferry Reservoir near Townsend, Montana. The clouds were open just enough to get a few good photos early in the evening before they totally covered the sky. I was pretty excited about my first ever aurora borealis photo shoot!” Thank you, Kelly!

The last solar cycle – cycle number 24 – peaked in April 2014. It was a substantially quieter peak than other recent solar cycles, with sunspot numbers and other activity on the sun down to a level that hadn’t been seen since cycles 12 to 15 (1878-1923).

Help! EarthSky needs your support to continue. Our yearly crowd-funding campaign is going on now. Donate here.

The current solar cycle

The current solar cycle – cycle number 25 – has been quite active so far and will continue through 2030. In fact, it’s expected to peak around 2025.

Recently, on March 23, 2023, EarthSky warned of a geomagnetic storm in our daily Sun activity post. And storm it did! People reported seeing the aurora as far south as Oklahoma, New Mexico, Arizona and Virginia. So stay tuned, we may see more geomagnetic storms over the next few years.

For current solar activity visit EarthSky’s Sun activity post.

By the way, auroras tend to happen more around the equinoxes.

Bottom line: Geomagnetic storms are disturbances in Earth’s magnetic field, caused by activity on the sun.

Read more: Aurora photos from the March 24, 2023, geomagnetic storm

The post A geomagnetic storm is caused by activity on the sun first appeared on EarthSky.



from EarthSky https://ift.tt/OMSP5Qr

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