The aurora borealis, or northern lights, occurs in the Earth's upper atmosphere, specifically in the thermosphere and exosphere. This phenomenon typically takes place between about 80 to 300 kilometers (50 to 200 miles) above the Earth's surface. It is caused by the interaction of charged particles from the solar wind with the Earth's magnetic field and atmosphere, resulting in stunning displays of light.
Aurora Borealis (northern lights) and Aurora Australis (southern lights) occur in the thermosphere layer of the atmosphere. This layer is located between the mesosphere and exosphere and is where interactions between solar particles and gases in the atmosphere create these beautiful light displays.
No, the aurora borealis is not dangerous to Earth's atmosphere. It is a natural phenomenon caused by solar particles interacting with the Earth's magnetic field and atmosphere, resulting in beautiful light displays in the sky. The aurora borealis poses no harm to the Earth's atmosphere.
The aurora borealis occur at times of heightened states of solar activity, this also applies to the aurora australius.
The Aurora Borealis and its southern counterpart the Aurora Australis are formed high in the atmosphere in the ionosphere, which is sometimes considered as part of the thermosphere, the outermost actual atmosphere. Above this layer, the exosphere has so few molecules that they can escape into space.(see the related question below)
Auroras are typically located in the Earth's atmosphere in the polar regions near the magnetic poles. The Northern Lights or Aurora Borealis occur near the North Pole, while the Southern Lights or Aurora Australis appear near the South Pole. These phenomena are caused by solar wind particles interacting with the Earth's magnetic field.
Aurora Borealis (northern lights) and Aurora Australis (southern lights) occur in the thermosphere layer of the atmosphere. This layer is located between the mesosphere and exosphere and is where interactions between solar particles and gases in the atmosphere create these beautiful light displays.
The Thermosphere.
No, the aurora borealis is not dangerous to Earth's atmosphere. It is a natural phenomenon caused by solar particles interacting with the Earth's magnetic field and atmosphere, resulting in beautiful light displays in the sky. The aurora borealis poses no harm to the Earth's atmosphere.
The aurora borealis occur at times of heightened states of solar activity, this also applies to the aurora australius.
The Aurora Borealis and its southern counterpart the Aurora Australis are formed high in the atmosphere in the ionosphere, which is sometimes considered as part of the thermosphere, the outermost actual atmosphere. Above this layer, the exosphere has so few molecules that they can escape into space.(see the related question below)
Aurora Borealis is caused by particles hitting earth's atmosphere thermosphere and they are stopped, so they give of their energy in the "Northern Lights" or Aurora Borealis.
Aurora Borealis is caused by particles hitting earth's atmosphere thermosphere and they are stopped, so they give of their energy in the "Northern Lights" or Aurora Borealis.
the aurora Borealis is caused by radiation and u.v rays shining through the carbon dioxide and atmosphere. This is the right answer
Auroras are typically located in the Earth's atmosphere in the polar regions near the magnetic poles. The Northern Lights or Aurora Borealis occur near the North Pole, while the Southern Lights or Aurora Australis appear near the South Pole. These phenomena are caused by solar wind particles interacting with the Earth's magnetic field.
The term for the colorful lights that occur in the atmosphere above the earth's Northern geomagnetic pole is the aurora borealis, also known as the Northern Lights. This phenomenon is caused by the interaction of charged particles from the sun with the Earth's magnetic field.
thremosphere
The Aurora lights occur when charged particles from the sun enter the Earth's atmosphere and collide with gases such as oxygen and nitrogen. These collisions emit light, creating the colorful displays known as the Aurora Borealis (Northern Lights) and Aurora Australis (Southern Lights).