Scientists believe galaxies form in one of two ways: superheated gas collapses upon itself to form huge clumps of stellar material before merging with other clumps to form galaxies, or clumps of superheated gas are the size of dozens of galaxies before breaking apart into smaller units. There are more than 100 billion galaxies of varying sizes, according to How Stuff Works.Know More
Most protogalaxies first formed nearly 14 billion years ago with the Big Bang, when hydrogen coalesced at the center and dark matter fanned out around the edges of galaxies. The basic units of galaxies are stars and star clusters. Stars clump together in clusters based upon their ages. These star clusters then form galaxies.
Scientists identify elliptical and spiral galaxies as the two main types. Elliptical varieties are similar to Earth's solar system in that all the stars form at once and retain a relatively spherical shape. Spiral types occur when stars form at different times and gravitational forces move stars into a rotating disc. About two-thirds of all observed galaxies are spiral shaped. Some types have unusual shapes, such as toothpicks or rings. When galaxies merge, astronomers believe the resulting galaxy always forms into the elliptical variety.Learn more about Stellar Astronomy
Spiral galaxies are the most common type of galaxy in the universe, making up 77 percent of all known galaxies. These galaxies have long arms that wrap around a bright bulging center.Full Answer >
There are between 30 and 54 known galaxies in the local group to which the Milky Way belongs. Some astronomers include dwarf galaxies in this number.Full Answer >
Stars form when clouds of interstellar dust and gas collapse in on themselves and heat up, eventually leading to the nuclear fusion of hydrogen into helium. Several stars typically form out of a single cloud, making star clusters extremely common.Full Answer >
Auroras are formed when charged particles that are emitted from the sun hit the Earth's magnetic field and the atoms in the atmosphere. This interaction causes the gases in the atmosphere to give out photons of different energies, which can be seen from Earth as light.Full Answer >