Almost certainly. As the dust and gas fall into the nebula under its gravity, each atom will impart SOME sort of sideways momentum, and the total of all that is almost certainly not zero; there will be some angular momentum.
The force of gravity caused the solar nebula to contract. As the nebula collapsed under its own gravity, it began to spin and flatten into a disk shape, eventually forming the Sun and the planets. Additionally, the heat and pressure generated by the gravitational contraction contributed to the collapse of the nebula.
A nebula develops into a solar system through the process of gravitational collapse. As the nebula contracts due to gravity, it starts to spin and flatten into a spinning disk. Within this disk, the material begins to clump together and form planetesimals, which eventually coalesce to form planets, moons, and other objects in the solar system.
A solar nebula is a rotating cloud of gas and dust from which the sun and planets formed. I hope this helps :))
Uranus was formed from the light gases of the outer solar nebula.
The solar nebula was a rotating cloud of gas and dust that formed our solar system about 4.6 billion years ago. It consisted mostly of hydrogen and helium, with traces of other elements. Over time, gravity caused the nebula to collapse and form the Sun and the planets.
The force of gravity caused the solar nebula to contract. As the nebula collapsed under its own gravity, it began to spin and flatten into a disk shape, eventually forming the Sun and the planets. Additionally, the heat and pressure generated by the gravitational contraction contributed to the collapse of the nebula.
A solar nebula is related to the formation of our Solar System, any other nebula is just a nebula.
The solar system was produced by solar nebula. The nebula was disrupted by an unknow substance in the air.
A nebula develops into a solar system through the process of gravitational collapse. As the nebula contracts due to gravity, it starts to spin and flatten into a spinning disk. Within this disk, the material begins to clump together and form planetesimals, which eventually coalesce to form planets, moons, and other objects in the solar system.
an explosion disturbs the dust in the nebula
An explosion from outside the nebula
The Solar Nebula, which does not exist anymore.
An explosion disturbs the gas and dust in the nebula.
An explosion disturbs the gas and dust in the nebula.
Scientists believe that the solar system may have formed from the condensation of a large cloud of gas and dust called a solar nebula. As this nebula collapsed under its own gravity, it began to spin and form a flattened disk. The central region eventually became the Sun, while the outer regions coalesced to form the planets and other celestial bodies.
NO.
we stay together by gravitational forces and gravital orbitational circles. our solar system was either started by a solar nebula or meteoroids colliding. our solar system was started4,600 years old.