The aurora borealis and aurora australis occur in the Ionosphere from around 100 km up. This layer of the atmosphere is also called the Thermosphere.
Auroras occur in the thermosphere, which is the region of the atmosphere located between the mesosphere and the exosphere. This is where charged particles from the sun interact with gases in the Earth's atmosphere, creating the colorful light displays known as auroras.
Auroras occur in the thermosphere, which is the second-highest layer of Earth's atmosphere. The thermosphere is located between the mesosphere and the exosphere, at an altitude ranging from about 80 km to 600 km above the Earth's surface.
Auroras occur primarily in the thermosphere, which is located about 80 to 600 kilometers (50 to 370 miles) above the Earth's surface. This layer of the atmosphere is where charged particles from the solar wind interact with the Earth's magnetic field and atmosphere, producing the stunning light displays typically seen near polar regions. Additionally, some auroras can extend into the lower part of the exosphere.
yeah boys am good
Auroras are caused by charged solar particles colliding with atoms of oxygen and nitrogen in the ionosphere, which is the highest level of the atmosphere.
Auroras occur in the thermosphere, which is the region of the atmosphere located between the mesosphere and the exosphere. This is where charged particles from the sun interact with gases in the Earth's atmosphere, creating the colorful light displays known as auroras.
No, it has no atmosphere.
The troposphere
A planet needs a strong magnetic field and an atmosphere to have auroras. The magnetic field helps to trap charged particles from the solar wind, which interact with molecules in the atmosphere to produce the colorful lights of auroras.
Auroras occur in the thermosphere, which is the second-highest layer of Earth's atmosphere. The thermosphere is located between the mesosphere and the exosphere, at an altitude ranging from about 80 km to 600 km above the Earth's surface.
Auroras occur primarily in the thermosphere, which is located about 80 to 600 kilometers (50 to 370 miles) above the Earth's surface. This layer of the atmosphere is where charged particles from the solar wind interact with the Earth's magnetic field and atmosphere, producing the stunning light displays typically seen near polar regions. Additionally, some auroras can extend into the lower part of the exosphere.
The suns radiation hitting our atmosphere
The suns radiation hitting our atmosphere
yeah boys am good
Auroras are caused by charged solar particles colliding with atoms of oxygen and nitrogen in the ionosphere, which is the highest level of the atmosphere.
A planet needs a magnetic field, an atmosphere, and solar wind to have auroras. Auroras occur when charged particles from the solar wind interact with a planet's magnetic field and atmosphere, creating beautiful displays of light in the sky.
Auroras on the moon are caused by the interaction of the solar wind and the moon's surface. Charged particles from the solar wind interact with the moon's magnetic field, resulting in auroras. However, the moon's lack of a significant atmosphere means the auroras are much fainter than those seen on Earth.