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Gravity pulls the star in and tries to squeeze it down to a point. Because it pulls all of the atoms of the star in to the middle, gravity speeds them up, giving them energy. Eventually gravity gives enough energy to the atoms that they move fast enough that when they collide, they sometimes stick together and nuclear fusion happens. This is what gives a star its light and what keeps a star from collapsing further.
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What is the role that gravity played in the formation of planets stars and solar systems and in determining their motions?
There is no doubt that planets, stars, and solar systems could not ever have formed without gravity. All of these astronomical objects condensed out of clouds of interstellar gas and dust, under the influence of gravity. It is also true that planets orbit stars only because of the gravitational attraction of those stars.
What force pulls stars together?
The force that pulls stars together is gravity. This fundamental force arises from the mass of the stars, causing them to attract one another. In regions of space where a significant amount of matter is present, such as in star clusters or galaxies, gravity can lead to the formation of stars and the dynamics of their interactions. As stars accumulate mass, their gravitational pull strengthens, further contributing to their collective attraction.
How does gravity affect the galaxy?
Gravity plays a crucial role in galaxy formation and evolution. It acts as the force that pulls gas and dust together to form stars and holds together the structures of galaxies. Gravity also influences the motion of stars and other celestial bodies within a galaxy, shaping its overall structure and dynamics.
What is the relationship between gravity and galaxies?
Gravity plays a crucial role in the formation and structure of galaxies. It is the force that pulls matter together, allowing gas and dust to coalesce into stars and clusters, ultimately forming galaxies. Additionally, gravity governs the motion of stars and other celestial bodies within galaxies, influencing their orbits and interactions. Overall, gravity is fundamental to the dynamics and evolution of galaxies throughout the universe.
What force causes nebula to collapse?
Gravity is the force that causes nebulae to collapse. As particles within the nebula are pulled together by gravity, they begin to clump and form denser regions. This leads to the eventual formation of stars and planetary systems within the collapsing nebula.
How does gravity affect the formation of stars?
Gravity doesn't just "affect" the formation of stars; it's just about the only force that CAUSES the stars to form in the first place.
Which force drives the formation of new stars?
Gravity
What is the primary force involved in the formation of stars?
Please don't write "listed below" if you don't provide the list. That just wastes everybody's time.
How is the formation of your galaxy like the formation of a star?
Mainly in that gravity is involved in both cases.
What was gravity s role in the formation of the universe?
gravity clumped stars together, created planets and stopped everything from moving at the speed of light
Why is gravity vital?
Gravity is vital because it keeps objects grounded on Earth and helps to maintain the structure of the universe. It plays a crucial role in the formation of stars, planets, and galaxies. Without gravity, life as we know it would not exist.
What is the primary force involved in the formation of galaxies after the big bang?
Gravity is the primary force involved in the formation of galaxies after the big bang. Over time, the gravitational attraction between matter caused it to clump together, forming structures like galaxies and clusters of galaxies.
What is the role that gravity played in the formation of planets stars and solar systems and in determining their motions?
There is no doubt that planets, stars, and solar systems could not ever have formed without gravity. All of these astronomical objects condensed out of clouds of interstellar gas and dust, under the influence of gravity. It is also true that planets orbit stars only because of the gravitational attraction of those stars.
What force do scientists thinck was responsible for clumping matter together to form the first stars after the big bang?
Scientists believe that gravity was responsible for clumping matter together to form the first stars after the Big Bang. Gravity caused the dense regions of matter to attract more matter, which eventually led to the formation of the first stars.
What force pulls stars together?
The force that pulls stars together is gravity. This fundamental force arises from the mass of the stars, causing them to attract one another. In regions of space where a significant amount of matter is present, such as in star clusters or galaxies, gravity can lead to the formation of stars and the dynamics of their interactions. As stars accumulate mass, their gravitational pull strengthens, further contributing to their collective attraction.
What force is partially responsible for the formation of the solar system the movement of an object in your solar system and holds together stars and galaxies?
Gravity is the force responsible for the formation of the solar system, the movement of objects within the solar system, and holding together stars and galaxies. It is a fundamental force of nature that acts over large distances and is essential for understanding the structure of the universe.
Can you explain the differences between nuclear fusion and gravity in terms of their roles in the formation and behavior of celestial bodies?
Nuclear fusion and gravity are two key forces in the formation and behavior of celestial bodies. Nuclear fusion is the process where atomic nuclei combine to release energy, which powers stars like the Sun. Gravity, on the other hand, is the force that pulls matter together, causing it to clump and form celestial bodies like planets and stars. While nuclear fusion powers the energy output of stars, gravity is responsible for holding these celestial bodies together and shaping their orbits and interactions. In summary, nuclear fusion fuels the energy of stars, while gravity shapes the structure and behavior of celestial bodies.
