A spot on the sun released an explosion that is on its way to Earth and could give us a good chance of catching the northern lights on Saturday.

The sun has certainly been quiet lately: in February it went an entire month without even a single sunspot. However, on March 17, a tiny, dark spot appeared on the sun's surface. A few days later, another sunspot appeared that eventually produced a solar flare.

The sun produced a C-class solar flare on March 20, and the subsequent stream of particles from a coronal mass ejection are on their way to Earth. (NASA/Helioviewer)

As is quite common, the flare was followed by a coronal mass ejection (CME) — a blast of charged particles from the sun that travel along the solar wind.

Our magnetic field protects us from these charged particles, but every so often a powerful, fast-moving CME will snap back the magnetic field lines, allowing the particles to funnel down into the poles where they interact with various molecules. And we see this as the brilliant northern lights.

Solar flares are measured on a scale of intensity: C-class, M-class, and the most powerful, X-class. The flare that erupted from the sunspot was a C-class flare, so not particularly intense. However, the following CME seems Earth-directed and ready to impact us sometimes on March 23.

NASA's Space Weather Prediction Center has issued a geomagnetic watch after an eruption from the sun called a coronal mass ejection. (NASA/SWPC)

The interesting story behind this eruption is that the sun is in a quiet phase of low activity, so it doesn't produce many sunspots. But every once in a while, a sunspot emerges capable of erupting, as it did on March 20.

NASA's Space Weather Prediction Center has issued a G2 geomagnetic storm watch. The scale goes from G1 to G5, the strongest. A G2 is considered moderate, but it also means the storm could produce northern lights visible as far south as the northern United States.

So, if you have clear skies on Saturday, try to head outside and see if you can catch them. Of course, there's no guarantee: it could miss us, it might not be as strong as anticipated or it may not dip down south enough for most Canadians to see it.

The latest <a href="https://twitter.com/hashtag/solarstorm?src=hash&ref_src=twsrc%5Etfw">#solarstorm</a> from new AR 12736 accompanied a coronal wave and dimming, also a C4.8 flare. From STEREO COR-2 data, the CME looks like Earth-bound. Monitor solar wind late on March 22 onward. <a href="https://twitter.com/SpaceWxMike?ref_src=twsrc%5Etfw">@SpaceWxMike</a> <a href="https://twitter.com/nenecallas?ref_src=twsrc%5Etfw">@nenecallas</a> <a href="https://twitter.com/TamithaSkov?ref_src=twsrc%5Etfw">@TamithaSkov</a> <a href="https://twitter.com/chunder10?ref_src=twsrc%5Etfw">@chunder10</a> <a href="https://t.co/AurFI6Wq9K">pic.twitter.com/AurFI6Wq9K</a> —@halocme

But there's a way you can find out. The strength of a geomagnetic storm is measured on something called the Kp index. A Kp index of 4 and you're likely to be able to see it in dark skies (though in places like Toronto and Southern Ontario, it may be a bit more difficult).

A Kp Index of 5 and higher and you have a better chance. As usual with any celestial event, try to get out to a dark site. If you check out the site from time to time, you might get a better idea of your chances.

There are also apps out there like My Aurora Forecast and Northern Lights Aurora Alerts.

And just because forecasters expect the CME impact to hit on Saturday, doesn't mean you shouldn't go give it a look on Friday or Sunday. You never know.