Dragon city aurora borealis legendary attack12/25/2023 However, they create disturbances in the upper atmosphere where they reside, and hopefully, new research will tell us more. The Auroras do not seem to affect weather patterns on Earth. The Earth’s magnetosphere is changing, and in recent years three satellites have been launched from Russia to discover more about this protective field. The Aurora is also evidence that the Sun and the Earth are a system connected by more than sunlight. The Aurora is one way we can visibly observe the magnetosphere in action. The Earth’s magnetosphere is imperative because it protects us from being blown away by the solar wind. Since the Earth’s magnetic pole is tilted approximately at an angle of 10 degrees, with respect to the Earth’s rotational axis, we tend to only see the Aurora in the so-called ‘Aurora Belt’, approximately between 60° and 70° of latitude. These collisions cause particles to break free of the magnetosphere and cascade toward the Earth’s magnetic field lines, usually travelling toward the poles. When it reaches the Earth’s outer atmosphere, it collides with charged particles that exist in our magnetosphere. A released stream of charged particles, known as the solar wind, travels through the solar system. The Northern Lights’ origin starts some 93 million miles away, on the Sun. Here we explain the science behind the Northern Lights and share tips on how to maximise your chances of witnessing this incredible spectacle. There are few places in the Northern Hemisphere where you can see them, but they can be elusive if you are really unlucky. They light up the night sky, dancing around in fantastic colours. The Aurora Borealis, also known as the Northern Lights, and Aurora Australis (Southern Lights) in the Southern Hemisphere, are a spectacular natural phenomenon.
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