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How do temperature differences in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority: that makes the outer planets.
How do temperature difference in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority. that makes the outer planets.
Collided to form planets?
Dust and gas particles in a protoplanetary disk collided and stuck together to form planetesimals, which then collided and accreted to form planets. The process of gravitational attraction and collisions led to the formation of larger bodies within the disk, eventually forming planets.
Why do you compare outer planets to inner planets?
Outer planets and inner planets are compared because they have distinct differences in size, composition, and characteristics. Inner planets are smaller, rocky, and denser, while outer planets are larger, gaseous, and have thick atmospheres. Studying these differences helps scientists understand how planets form and evolve in our solar system.
What are two major differences in the composition of the inner and outer planets?
the inner planets are rocky and warm and the outer planets are made out of gas and is cold
How do temperature differences in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority: that makes the outer planets.
How do temperature difference in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority. that makes the outer planets.
How the rocky inner planets were formed?
By "accretion" of "planetesimals" from the "protoplanetary disk".
. Scientists believe that Earth and the other planets formed _____.?
They believe the planets formed from a disc of gas and dust called a "protoplanetary disc".
How did Uranus form?
As best we know, the same way all the other planets did: accretion of objects in a protoplanetary disk.
How did Jupiter become the biggest planet?
Jupiter is the biggest simply because it got the most stuff out of the "protoplanetary" disk from which the planets formed.
Where did most of the material end up from the protoplanetary disk that formed our solar system?
Most of the material from the protoplanetary disk that formed our solar system ended up in the Sun and the eight planets, along with various moons, asteroids, and comets. The inner planets are made mostly of rock and metal, while the outer planets are composed mostly of gases and ice.
What do you think will happen if the arrangement of the planet in the solar system will reverse?
If the arrangement of planets in the solar system were to reverse suddenly, it would likely have catastrophic consequences for the stability and orbits of the planets. Gravity and orbital dynamics are finely balanced in our solar system, so a sudden reversal could lead to collision or ejection of planets from their orbits, resulting in significant disruptions to the entire system.
What will the protoplanetary disks eventually become?
That depends what the disk is forming round. If it is a large black hole it will form a quasar, if it is round a star, it will form planets (a solar system).
Collided to form planets?
Dust and gas particles in a protoplanetary disk collided and stuck together to form planetesimals, which then collided and accreted to form planets. The process of gravitational attraction and collisions led to the formation of larger bodies within the disk, eventually forming planets.
How were the planets invented?
Planets were not "invented" but rather formed naturally as part of the process of stellar evolution. Planets are thought to have originated from a swirling disc of gas and dust surrounding a young star, known as a protoplanetary disc, eventually accreting into planetary bodies.
What planets are very hot on one side and very cold on the other?
Astronomers have found evidence that suggests that the gas giants Jupiter and Saturn may experience extreme temperature differences between their day and night sides. These planets have fast rotation rates and thick atmospheres that contribute to the temperature gradients.
