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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.


What force do scientist think was reaponsible for clumping matter together to form the first stars?

Scientists believe that gravity was the primary force responsible for clumping matter together to form the first stars. In the early universe, slight density fluctuations in the primordial gas allowed gravity to pull matter together, leading to the formation of clumps. As these clumps grew denser, they formed protostars, eventually igniting nuclear fusion and becoming the first stars. This process was crucial for the evolution of the universe, paving the way for galaxies and planetary systems.


How can astronomer's make all these conclusions about star formation if no one is able to actually observe it from start to finish?

Astronomers study star formation by observing young stars and star-forming regions, tracking their properties and evolution over time. They use telescopes that can detect different wavelengths of light, such as infrared and radio waves, to peer through dust clouds and see where stars are forming. By combining observational data with theoretical models, astronomers can deduce the processes involved in star formation.


What happen when the matter in a globule collapses inward?

When the matter in a globule collapses inward, it typically leads to an increase in temperature and pressure at the core. This process can trigger nuclear fusion if the conditions are right, resulting in the formation of a star. If the collapse continues beyond the fusion stage, it can lead to the formation of more compact objects like neutron stars or black holes, depending on the mass involved. The surrounding material may also be expelled, contributing to the formation of new stars and planetary systems.


Which kind of pressure prevents stars of extremely large mass from forming?

Gravitational pressure prevents stars of extremely large mass from forming as this pressure would likely initiate nuclear fusion earlier, preventing the star from accumulating enough mass to exceed the upper limit for star formation. This prevents the formation of supermassive stars and instead leads to the formation of smaller stars.

Related Questions

Which force drives the formation of new stars?

Gravity


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.


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.


What force causes objects in space to be grouped together?

Gravity.Gravity.Gravity.Gravity.


What force was mostly responsible for the contraction of the gas cloud?

The primary force responsible for the contraction of the gas cloud is gravity. As the gas cloud, composed of hydrogen and other elements, begins to collapse under its own gravitational pull, it increases in density and temperature. This process can lead to the formation of stars and other celestial bodies as the gas accumulates and condenses.


What is the primary fuel of main sequence stars?

The primary fuel for all stars is hydrogen


What force do scientist think was reaponsible for clumping matter together to form the first stars?

Scientists believe that gravity was the primary force responsible for clumping matter together to form the first stars. In the early universe, slight density fluctuations in the primordial gas allowed gravity to pull matter together, leading to the formation of clumps. As these clumps grew denser, they formed protostars, eventually igniting nuclear fusion and becoming the first stars. This process was crucial for the evolution of the universe, paving the way for galaxies and planetary systems.


What is the rate of formation of new stars in the Milky Way galaxy?

The rate of formation of new stars in the Milky Way galaxy is estimated to be about 1-2 stars per year.


Importance of gravitational force?

Gravitational force is important because it is responsible for keeping planets in orbit around the sun, objects on the Earth's surface, and for the formation of galaxies and stars. It also plays a critical role in our understanding of the structure of the universe and the motion of celestial bodies. Additionally, it is involved in phenomena like tides, the movement of ocean currents, and the behavior of objects in free fall.


What is the Force that exists between objects even in the absence of direct physical contact?

That force is called gravity, which is what keeps objects in the universe attracted to one another. It is a fundamental force of nature that acts over long distances and is responsible for the formation of stars, planets, and galaxies.


What forces help the formation of stars?

gravitation


How can astronomer's make all these conclusions about star formation if no one is able to actually observe it from start to finish?

Astronomers study star formation by observing young stars and star-forming regions, tracking their properties and evolution over time. They use telescopes that can detect different wavelengths of light, such as infrared and radio waves, to peer through dust clouds and see where stars are forming. By combining observational data with theoretical models, astronomers can deduce the processes involved in star formation.