I'm at, I'm no, I'm Ben, and we are stuff they don't want you to know. Each week we cover the latest and strangest in fringe science, government cover ups, allegations of the paranormal, and more. New episodes come out every Friday on iTunes, Spotify, Google Play, and anywhere else you get your podcasts. Welcome to brain Stuff from How Stuff Works. Hey, brain Stuff, this is Christian Sager. We've all heard of the Northern lights, right, those beautiful manifestations
of colors that are in the sky. Well, they've inspired many myths. In Viking legends. They were considered the by Frost, the many colored bridge between Earth and Asgar, the home of the gods, and in Finland they actually believe the lights were a sign of the archangel Michael battling the devil bills above. Scandinavians believed that they were reflections off of the shields of the Valkyries. But despite being observed for thousands of years, there are still many misconceptions about
what the Northern lights are. First of all, it's false that their sunlight reflecting off of polar ice caps. It's also false that their moonlight reflecting off of ice crystals in the air. The Aurora borealis, as it was coined by Galileo Galilei and means northern dawn or dawn of the North in Latin, is also at the South pole, known as the Aurora Australia's. In eighteen nineties six, their
real origin was discovered by Norwegian scientist Christian Burkeland. He tested his theory in controlled experiments and here's the truth of the matter. Solar winds stream away from the Sun and flow around the Earth's magnetosphere. They're charged electrons interact with elements in our atmosphere at points where the magneto sphere is weakest, the North and the South poles. So these solar winds the Sun's corona continuously amidst them a
stream of electrically charged particles. They stream away from the Sun at speeds of one million miles per hour. They reach Earth in forty hours from the Sun. Now, this is forty times faster than a spacecraft needs to be to escape Earth's gravity. It's pretty fast. Solar activity currently follows an eleven years cycle, and longer cycles affect the Aurora, and we've actually seen them increased Solar activity in the
last few centuries. When they get here, though, these solar winds strike the magnetic force generated by the Earth's core. Then they flow through this magneto sphere, a shield area of charged electrical and magnetic fields. This shield is then blown into a tear drop shape by the solar winds. The magneto sphere protects Earth from dangerous solar and interstellar particles, and most are directed away from Earth, but some are
trapped near the magnetic poles. The electrons from these solar winds interact with elements in Earth's atmosphere somewhere between sixty to two hundred miles up in the air. This is ten times higher, by the way, than most airlines fly. These electrons collide with oxygen and nitrogen, transferring energy into these gases and making them excited. When they calm down, they emit photons and small little bursts of energy form light. The shifts and flow of this energy can reach twenty
million ampiers at fifty thousand volts. Compare that to your circuit breaker at home disengaging over fifteen to thirty ampiers at one volts. So it's a lot of energy. Now, the color of the aurora depends on which element, whether it's oxygen or nitrogen, that is struck, and at what altitude it's struck at. Since it's dimmer than sunlight, the
aurora actually can't be seen during the day. But oxygen emits either a greenish yellow light somewhere around up to a hundred and fifty miles up in the air, or a red light over a hundred and fifty miles up in the air. Nitrogen, however, emits a blue light up to sixty miles up in the air. If you blend them all together, however, you can produce purples, pinks, and
white light. But one note. While some say they have quote heard the Northern lights, the air where they're formed is actually too thin to conduct sounds, so that's not possible. It would be impossible for sound to travel from the upper atmosphere to the ground. So you're probably asking yourself, these sound pretty cool. Where do I get to see the Northern lights? Where do they occur? Well, they center around Earth's magnetic poles, not the geographic polls, and they're
in ring shaped spots called auroral oval. These are between five hundred and fifteen hundred kilometers wide and expand during geomagnetic storms. These roughly correspond to the Arctic and Antarctic circles and can be seen from space, so the best places to see them are Central Canada, Alaska, Greenland, northern Scandinavia, and northern Russia. And yes, if you're asking, other planets also have auroras. They've also been observed on Saturn, Jupiter,
and Urinus. Check out the brain stuff channel on YouTube, and for more on this and thousands of other topics, visit how stuff works dot com.