Charged particles from a solar wind are attracted by the earth's magnetic field and collide with atoms of oxygen and nitrogen. This collision releases green, blue and red light.
The northern and southern lights occur when charged particles from the Sun called solar wind interact with the Earth's magnetosphere. This interaction causes the particles to collide with gases in the Earth's atmosphere, producing the colorful light displays known as auroras.
Energetic charged particles generated by the solar wind.
In the Southern Hemisphere, compasses still point towards magnetic north. The difference is that magnetic north is located in the Northern Hemisphere, so compasses in the Southern Hemisphere will point in a northerly direction.
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No, the magnetic needle in a northern hemisphere compass is attracted to the Earth's magnetic North Pole, while in a southern hemisphere compass, it is attracted to the South Pole. This means that compasses designed for each hemisphere will have their markings and adjustments oriented accordingly.
There is a 180-degree difference between a compass in the southern hemisphere and one in the northern hemisphere. This is due to the magnetic field lines of the Earth, which determine the orientation of the compass needle based on the geographic location.
Chad is located in the northern hemisphere.
Energetic charged particles generated by the solar wind.
because of electrons
The Northern and Southern lights, respectively.
The magnetic field, this also produces the northern and southern lights.
There's an Aurora Borealis (Northern Lights) at the north magnetic pole and an Aurora Australis (Southern Lights) at the south magnetic pole.
No. The Northern and Southern lights, called aurora, are the result of Earth's magnetic field funneling high-energy particles from the sun toward the poles. Mars does not have a magnetic field and so does not have aurora.
Several are: 1. A magnetic compass will always point to the North Magnetic Pole. 2. We have the Northern (and Southern) Lights. 3. We are shielded from deadly radiation emitted from the Sun.
There are magnetic forces in the Northern Pole and the Southern Pole. Those magnetic fields reflect off the sun and makes a bright and colerful light usually near the poles; (Antarctica, Greenland, Canada, ect.)
There are magnetic forces in the Northern Pole and the Southern Pole. Those magnetic fields reflect off the sun and makes a bright and colerful light usually near the poles; (Antarctica, Greenland, Canada, ect.)
These are called auroras, or the northern/southern lights, depending on which pole you are at. The northern lights are also known as the Aurora Borealis, while the southern lights are known as the Aurora Australis. It is the interaction of charged particles directed by the Earth's magnetic field.
northern and southern
The northern and southern lights, also known as auroras, are created by solar wind particles interacting with gases in Earth's atmosphere. When these charged particles collide with gases such as oxygen and nitrogen, they emit light, creating the colorful displays we see in the sky. The Earth's magnetic field guides these particles towards the polar regions, which is why auroras are most commonly visible near the North and South Poles.