7amood
Lots of things do NOT happen. Better read an article on star formation and find out what DOES happen.
Gas and radiation flowing away from a newly formed massive star can blow away nearby gas and dust forming star formation pillars. Where nearby gas and dust clouds are compressed, new star formations can be triggered.
constilation
The beginning stage in the formation of a star is called a protostar. This is when a dense core within a molecular cloud begins to accumulate gas and dust, causing it to heat up and eventually become a star.
It is called stellar birth or star formation. Gravitational forces cause the cloud to collapse, leading to the formation of a protostar that eventually ignites nuclear fusion to become a full-fledged star.
Stellar recycling is the act of a supernova forming. A supernova is a violent star explosion that completely destroys the star. The star material is blown out into other regions.
Star Wars Movies do not affect the formation of magma.
Star Recycling is a company that recycles all types of scrap metal. They are open to the public and also have locations for construction debris that is recycled to create new materials.
Bio-recycling is recycling waste such as septic tank waste and other similar organic based waste. It is then returned safely to the land as fertilizer.
Not exactly: Star formation is believed to be a slow process, compared to a human lifetime; scientists have, however, seen stars in different phases of their formation.
A Star
Lots of things do NOT happen. Better read an article on star formation and find out what DOES happen.
general circulation
Mainly in that gravity is involved in both cases.
star formation and protoplanitery disks the solar system formed 4.5-4.6 billions ago
The formation of new stars is closely related to supernovae and planetary nebulae, as both phenomena contribute to the recycling of stellar material. When a massive star explodes in a supernova, it disperses heavy elements and gas into space, enriching the interstellar medium and providing the raw materials for new star formation. Similarly, the outer layers of a dying star can be expelled as a planetary nebula, also contributing gas and dust to the surrounding region. These processes create regions of higher density that can collapse under gravity, leading to the birth of new stars.
Gas and radiation flowing away from a newly formed massive star can blow away nearby gas and dust forming star formation pillars. Where nearby gas and dust clouds are compressed, new star formations can be triggered.