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Nebulae often form star-forming regions, such as in the Eagle Nebula. This nebula is depicted in one of NASA's most famous images, the "Pillars of Creation". In these regions the formations of gas, dust and other materials "clump" together to form larger masses, which attract further matter, and eventually will become big enough to form stars. The remaining materials are then believed to form planets, and other planetary system objects. Star formation is crucial to the existence of life in the universeAmanda age 13 grade 8 :)Hope this helped :)
Gravity and nuclear force
Gravity pulls gas and dust by exerting a force that attracts particles towards each other. The larger the mass of an object, the stronger its gravitational pull. As a result, gas and dust particles are pulled towards regions of higher mass, causing them to clump together and form structures like stars and planets.
Gravity plays a central role in causing gas to come together in clouds and gradually form dense clouds that eventually generate heat and then start up a nuclear reaction - a star. Gravity also causes rocks to clump together to form planets, and then it holds those planets in orbits round the star that they are close to, to form solar systems.
Yes. The reason for this is that all planets rotate, and if they rotate, then they must rotate about some axis. The cause of planetary rotation is a bit more complex. The origins of any planet begin in a nebula. Initially, the nebula is very large and has a very, very small amount of angular momentum (spin). As gravity begins to shrink the nebula, it spins faster and faster for the same reason a figure skater spins faster when he/she brings his/her arms closer. After the nebula flattens and forms and accretion disk and a star, the rest of the gas and dust clump together to form planets which still retain the original nebula's angular momentum, which causes them to spin. Since the nebula must have angular momentum in order for planets to form, all planets have angular momentum, and all planets rotate. If all planets rotate, then all of them must have an axis.
friend- a star begins to form when the gasses and dust particles in the nebula clump closer together enemy- it gains mass. over time, the star will form a gravitational center.
alcohol of any sort
A cloud of dust and gas is a collection of tiny solid particles and various gases, often found in space. These clouds can be the birthplaces of stars and planetary systems as gravity causes the particles to clump together and form denser regions. They're commonly referred to as "nebulae," and they come in various types such as molecular clouds, reflection nebulae, and emission nebulae.
Gravity does this in our atmosphere.
The air particles inside are less active, and tend to clump together because of the cold
A Nebula is a massive cloud of dust, gas and debris (sometimes left over from a star that has died in a supernova explosion) drifting in interstellar space. It is from these nebula that stars are thought to form. Once the stars "come to life" this is thought to kick start the formation of other stars and planets from the remaining gas, dust, rock, metal in the dust cloud.
To make very small particles/impurities clump together and form 'flocs' which can then be filtered out through sand and gravel filters.
Electrolytes trap suspended particles by causing them to clump together and fall to the bottom of the tank as sediment. These clumps are called floc, and the process is called flocculation.
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because it has a lot of dense.
Hydrogen bonding
Dry particles may clump together and become heavy enough to fall back to Earth's surface