Any star can form from a nebula. all it needs is some force to make it collapse, like a nearby supernova or gravitational pull.
New stars form in younger galaxies and nebula that have enough cosmic matter to form the foundation for new stars. These galaxies are commonly referred to as star nurseries.New stars form most everywhere, but particularly in dark nebulae
Interstellar gas is inelastic. To compress it some event typically must occur. A supernova, for example, produces a shockwave that collapses interstellar gas, precipitating nearby star formation. Another force is gravity--we have seen stars form in the swirling wake of passing black holes. When two nebula collide, we might infer star formation across the "impact zone," much as water droplets precipitate when a moist warm air mass collides with a cooler, denser mass of air.
A Nebula is A Cloud in space of Steller Dust And Gas In Which dust and gas particles collapse inwards to form new stars and the remaining debris could form new planets. Picture It Like a bag of soil. The Nebula Cloud is the soil and new stars are growing from it. Sometimes when large masses of matter collapse inwards new galaxies are formed.
A nebula is a massive cloud of gas and other materials that is revolving around one focal point which is the most massive point and therefore has the strongest gravity which makes the rest of the cloud revolve around it. This eventually creates a star. Nuclear fusion on the other hand is simply the combination of two particles such as when hydrogen atoms collide to create helium (this is the most common kind of fusion in stars). Basically fusion takes two and makes one (basically, it can emit more particles too) while a nebula is a giant space cloud, the birth of stars.
The two types of air that combined are hot/warm and humid air.
There is no such thing as a nebula star.
New stars form in younger galaxies and nebula that have enough cosmic matter to form the foundation for new stars. These galaxies are commonly referred to as star nurseries.New stars form most everywhere, but particularly in dark nebulae
Lagoon Nebula; Trifid Nebula
Eagle Nebula Orion Nebula
Interstellar gas is inelastic. To compress it some event typically must occur. A supernova, for example, produces a shockwave that collapses interstellar gas, precipitating nearby star formation. Another force is gravity--we have seen stars form in the swirling wake of passing black holes. When two nebula collide, we might infer star formation across the "impact zone," much as water droplets precipitate when a moist warm air mass collides with a cooler, denser mass of air.
Interstellar gas is inelastic. To compress it some event typically must occur. A supernova, for example, produces a shockwave that collapses interstellar gas, precipitating nearby star formation. Another force is gravity--we have seen stars form in the swirling wake of passing black holes. When two nebula collide, we might infer star formation across the "impact zone," much as water droplets precipitate when a moist warm air mass collides with a cooler, denser mass of air.
Sort of. Its just part of a nebula, and the collapsing "ball" must convert itself into a disk (the spin and the local gravity field will do that). To get planets you need something solid (i.e. dust. the chief aggregators are those elements which have polarity, thus metals, ice, and stone {silicon oxide}) to condense and aggregate (thus the first stars had no planets). The "balls" don't spin unless two or more "planetoids" hit each other in such a way to produce a spin
Andromeda, Milky Way These are galaxies ^ Orion Nebula Eagle Nebula
binary stars are two stars that orbit each other while supernovas and novas stars are stars that explode when it runs out of fuel
A Nebula is A Cloud in space of Steller Dust And Gas In Which dust and gas particles collapse inwards to form new stars and the remaining debris could form new planets. Picture It Like a bag of soil. The Nebula Cloud is the soil and new stars are growing from it. Sometimes when large masses of matter collapse inwards new galaxies are formed.
Meteors (two to three an hour on a typical clear night), comets on occasion, and if you have a good telescope, other galaxies and the occasional planetary nebula.
A nebula is a massive cloud of gas and other materials that is revolving around one focal point which is the most massive point and therefore has the strongest gravity which makes the rest of the cloud revolve around it. This eventually creates a star. Nuclear fusion on the other hand is simply the combination of two particles such as when hydrogen atoms collide to create helium (this is the most common kind of fusion in stars). Basically fusion takes two and makes one (basically, it can emit more particles too) while a nebula is a giant space cloud, the birth of stars.