It is the northern lights.
The northern lights are caused by charged particles that sometimes are sucked into the Earth on either ends of the poles.
They also have other names but I can't remember.
Thanks!!
Aurora
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 is caused by collisions between gaseous particles.
The area extending from 80km above the eart's surface to the edge of the atmosphere--the second-most outer layer, second only to the exosphere. Here free electrons can exist for short periods of time before they are captured by a nearby positive ion. The existence of charged particles at this altitude and above, signals the beginning of the ionosphere a region having the properties of a gas and of a plasma.
Atmosphere is the gaseous mass or envelope surrounding a celestial body, especially the one surrounding the earth, and retained by the celestial body's gravitational field. The air or climate in a specific place. While the magnetosphere is an asymmetrical region surrounding the earth, extending from about one hundred to several thousand kilometers above the surface, in which charged particles are trapped.
Aurora
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.
stratosphere
The Northern Lights, which are produced by particles from the sun interacting with the earth's magnetic field and the upper atmosphere.
NUCLEUS ---------------------------------------------------------------------- In an atom, there are three subatomic particles. Two of them are found in the central region known as the nucleus: the proton, which is positively charged and neutron that does not have a charge. Another region, containing the negatively charged electron, is known as a cloud, an electron cloud if you want.
All atoms consist of two regions. The nucleus is a very small region located near the center of an atom. In every atom the nucleus contains at least one positively charged particle called a proton and usually one or more neutral particles called neutrons. Surrounding the nucleus is a region occupied by negatively charged particles called electrons. This region is very large compared with the size of the nucleus. Protons, neutrons, and electrons are often referred to as subatomic particles.
All atoms consist of two regions. The nucleus is a very small region located near the center of an atom. In every atom the nucleus contains at least one positively charged particle called a proton and usually one or more neutral particles called neutrons. Surrounding the nucleus is a region occupied by negatively charged particles called electrons. This region is very large compared with the size of the nucleus. Protons, neutrons, and electrons are often referred to as subatomic particles.
the glowing region in the atmosphere is called an aurora. An aurora example of an aurora would be aurora borealis or the northern lights, or the aurora australis which is also known as the southern lights. *<=D
Because heat is electromagnetic radiation in the infrared region, therefore, it is emitted and absorbed by charged particles. Since there are mainly two kinds of charged particles; protons and electrons, the electrons are the ones involved in the outer part of an atom, and they either emit or absorb the electromagnetic radiation. This is a transfer of energy, which is synonymous with the transfer of electrons.
Not only can they, they must. At least one positively charged region and at least one negatively charged region.
Rutherford made the following conclusions:Since most of the alpha particles passed straight through the gold foil without any deflection, most of the space within the atoms is empty.Since some of the alpha particles (which are big in size) were deflected by large angles or bounced backwards, they must have approached some positively charged region responsible for the deflection. This positively charged region is now called the nucleus.As very few alpha particles undergone the deflection, it was concluded that the volume occupied by the central region ( nucleus ) is very small.Since alpha particles which are relatively denser, were deflected by the central volume of charge, it shows that almost the complete mass of the atom must be within the central volume.
Diffusion