Gravity.
A solar nebula begins to form when a cloud of gas and dust in space collapses under its own gravity. This collapse can be triggered by a nearby supernova explosion, a shockwave from a passing star, or other disturbances in the interstellar medium.
Universe, galaxy,nebula,solar system, star, planet
The hypothesis on how the solar system was formed is known as the solar nebula theory. This theory posits that the solar system formed from a massive, rotating cloud of gas and dust called the solar nebula. Over time, gravity caused the material in the nebula to clump together, eventually forming the sun and the planets.
All of the celestial bodies in the solar system are believed to have formed from a spinning disk of gas and dust called the solar nebula, which collapsed under gravity around 4.6 billion years ago. This process, known as the solar nebula theory, explains the formation of planets, moons, asteroids, and comets in our solar system.
The solar system formed from the gravitational collapse of a cloud of interstellar gas.
An explosion from outside the nebula
The solar system was produced by solar nebula. The nebula was disrupted by an unknow substance in the air.
A nebula is a vast cloud of gas and dust in space. A solar nebula specifically refers to the cloud of gas and dust from which our solar system formed around 4.6 billion years ago.
NO.
A solar nebula begins to form when a cloud of gas and dust in space collapses under its own gravity. This collapse can be triggered by a nearby supernova explosion, a shockwave from a passing star, or other disturbances in the interstellar medium.
an explosion disturbs the dust in the nebula
There is no such thing as a nebula star.
Each star in the solar system starts out in a nebula, a cloud of dust particles and gas.
An explosion disturbs the gas and dust in the nebula.
An explosion disturbs the gas and dust in the nebula.
If the solar nebula had no angular momentum initially, it would not have been able to form a spinning disk, which is necessary for the formation of a solar system. This spinning motion is what causes the material in the nebula to flatten into a disk shape, leading to the formation of planets and other celestial bodies. Without angular momentum, the material in the nebula would not have been able to come together to form a solar system as we know it.
No. A nebula is generally much larger than a solar system. We believe that our sun and solar system came to be when a nebula collapsed under the influence of gravity, and the gas of the nebula became the Sun and our planets - and everything else.