The force of attraction or repulsion of magnetic materials.
Personally, I think this question is with regards to the name of the phenomenon, which is the aurora borealis.
Aurora borealis or aurora australis, also known as the Northern Lights and Southern Lights respectively, are colorful and shimmering light displays in the sky caused by solar wind particles interacting with Earth's magnetic field. These charged particles collide with gases in the atmosphere, producing the glowing effect seen in the polar regions.
The glowing region of the atmosphere caused by charged particles from the sun is called an aurora. Auroras are usually seen in the polar regions and are known as the aurora borealis in the northern hemisphere and aurora australis in the southern hemisphere.
An aurora is a natural light display in the Earth's sky, predominantly seen in high-latitude regions. It is caused by charged particles from the sun interacting with the Earth's atmosphere, creating a glowing region of light.
Charged particles from the Sun striking the upper atmosphere.
Glowing colors in the polar atmospheres, known as the auroras, are caused by charged particles from the sun interacting with gases in Earth's atmosphere. When these particles collide with gases like oxygen and nitrogen, they emit light in different colors depending on the type of gas and the altitude of the collision.
Auroras are caused by electrically charged particles from the sun interacting with the Earth's magnetic field. When these particles collide with gases in the Earth's atmosphere, they produce beautiful light displays known as auroras.
The glowing region of the atmosphere caused by charged particles from the sun is called an aurora. Auroras are usually seen in the polar regions and are known as the aurora borealis in the northern hemisphere and aurora australis in the southern hemisphere.
An aurora is a natural light display in the Earth's sky, predominantly seen in high-latitude regions. It is caused by charged particles from the sun interacting with the Earth's atmosphere, creating a glowing region of light.
Charged particles from the Sun striking the upper atmosphere.
Auroras are caused by solar wind particles colliding with gases in the Earth's atmosphere, such as oxygen and nitrogen. These collisions create the beautiful light displays that we see in the sky.
Solar winds are caused by charged particles that are ejected into the upper atmosphere of the sun. The sun continues to make these streams of charged particles and sending them into space.
Northern lights, or auroras, are caused by the collision of energetic charged particles with atoms in the high altitude atmosphere. The charged particles originate in the magnetosphere and solar wind and are directed by the Earth's magnetic field into the atmosphere.
an arora is when high charged paritcles come from some where lets say the sun they go from 900 to 10,000 miles per hour and collide into the atmaspher to make the glowing areas at the north pole and the south pole
It's caused by charged particles coming from the sun being diverted into the Earth's atmosphere by its magnetic field, and collided with atoms in the atmosphere to emit light.
Auroras are caused by electrically charged particles from the sun interacting with the Earth's magnetic field. When these particles collide with gases in the Earth's atmosphere, they produce beautiful light displays known as auroras.
The Aurora borealis, also known as the Northern Lights, is caused by the interaction between charged particles from the sun and the Earth's magnetic field. When these particles collide with gases in the Earth's atmosphere, such as oxygen and nitrogen, they produce the colorful light display that we see in the sky.
Charged particles from the Sun that are attracted to Earth's magnetic poles can create beautiful auroras, also known as the northern and southern lights. These light displays are caused by the interaction of the solar particles with Earth's atmosphere, producing colorful and dynamic patterns in the sky.
The northern lights get their color from the interaction of charged particles from the sun with gases in Earth's atmosphere. Different gases produce different colors when they are excited by these particles. For example, oxygen molecules produce green and red colors, while nitrogen molecules produce blue and purple colors.