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Which aspect of the nebula hypothesis accounts for the planets orbiting in the same direction and plane?
The conservation of angular momentum during the collapse of the primordial solar nebula is the aspect that accounts for the planets orbiting in the same direction and plane. As the nebula contracted and flattened into a spinning disk, this momentum caused the planets to form in a singular direction and plane, similar to the rotation of the original nebula.
What theory describes that the sun and planets formed out of the same cloud of gas and dust?
The theory that describes the formation of the sun and planets from a single rotating disk of gas and dust is the solar nebula theory. This theory suggests that as the nebula contracted under gravity, it flattened into a disk, with the sun forming at the center and the planets forming from material in the disk.
Can condense and become concentrated enough to form a star and possibly planets?
A nebula is a large cloud of gas and dust in space. As gravity pulls the particles in a nebula closer together, it can cause the material to condense and become concentrated enough to form a star and, eventually, planets.
How did planets and other objects in the solar system form?
Planets and other objects in the solar system formed from a rotating disk of gas and dust known as the solar nebula. Gravity caused the particles in the nebula to collide and stick together, gradually forming larger and larger bodies. Eventually, these bodies accreted into planets, moons, asteroids, and other objects in the solar system.
How did Earth form after the Big Bang?
Earth formed about 4.5 billion years ago from a cloud of gas and dust called the solar nebula. Gravity caused the nebula to collapse, forming the Sun at the center and the remaining material to clump together to form planets like Earth.
What did the solar nebula make?
Planets.
Is planetary nebula a misnomer?
Planetary nebula is a misnomer because it's a nebula but it has nothing to do with planets, it's about stars.
Why is planetary nebula a misnomer?
Planetary nebula is a misnomer because it's totally irrelevant to planets and it has something to do with stars. The short form is "nebula".
A model for the solar system in which the sun and planets condensed from a cloud (or nebula) of gas and dust?
A model for the solar system in which the sun and planets condensed from a cloud (or nebula) of gas and dust
Which planets was formed from the light gases of the outer nebula?
Uranus
The extra matter at the center of the solar nebula became the?
Inner planets
What force formed the sun planets and other objects from this nebula?
gravity
Which aspect of the nebula hypothesis accounts for the planets orbiting in the same direction and plane?
The conservation of angular momentum during the collapse of the primordial solar nebula is the aspect that accounts for the planets orbiting in the same direction and plane. As the nebula contracted and flattened into a spinning disk, this momentum caused the planets to form in a singular direction and plane, similar to the rotation of the original nebula.
What are the characteristics of the Jovian planets?
They have no solid surfaces. They are much larger than the terrestrial planets. They orbit far from the sun. They are composed of gases.
Why is it called planeterium nebula?
I think you mean, planetary nebula. They are balls of gas and plasma. The name originated with their discovery in the 1700s because of they looked similar to planets when viewed through small telescopes. They are not related to the planets of the solar system.
What theory explains that the planets formed through condensing of solar nebula?
The theory that explains the formation of planets through the condensing of a solar nebula is known as the Solar Nebula Theory. According to this theory, the solar system originated from a rotating cloud of gas and dust, known as the solar nebula. As the nebula collapsed under its gravity, it spun faster and flattened into a disk, allowing particles to collide and stick together, eventually forming larger bodies that became the planets. This process highlights the role of gravity and angular momentum in the formation of celestial bodies.
How do the motions of the sun and planets reflect the disk shape of the solar nebula?
The motions of the Sun and the planets reflect to disk shape of the solar nebula because they follow the same rotation as this disk shape. The rotation of the Sun and the planets is not a perfect circle.
