Yes..where there is matter there is gravitational force..!
That is what has been observed, except that spiral galaxies rotate faster than would be expected based on the matter we can see. Thus we infer the existence of dark matter in the rims of these galaxies. An alternative hypothesis is that something is terribly wrong with our theory of gravity. To the best of our knowledge the rules of physics are the same no matter where you go.
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.
Galaxies are held together by gravity. So are Solar Systems. In the case of galaxies, and galaxy clusters, it isn't entirely clear what type of masses provide this gravity - the amount of known matter is simply too small, by a factor of 5-10. For more information, do some reading on "dark matter".
Galaxies are not spread uniformly throughout the universe. They are actually structured into clusters, groups, and superclusters, with vast voids of empty space in between. This distribution is influenced by gravity and the large-scale structure of the universe.
Where can you find gravity in the universe? If your feet are on the ground, then look no further! Gravity is the force that holds you to the earth. Gravity is what holds the moon spinning round the earth, and not floating away. Gravity holds the oceans on the earth, as well as the atmosphere.
All of them
In theory, all galaxies originate from the Big Bang, which is the name that describes the explosion that propelled all matter into the cosmos. All galaxies are moving. All galaxies produce energy like light and gravity. Think of galaxies like you would human beings. Although very different in some ways, they are mostly the same.
For starters, if there were no separation between two (or more) galaxies, it would be considered a single galaxies, not two or more. The reason matter is clumped together into galaxies at all (with separations in between) is because of gravity - gravity tends to do that, i.e., to clump things together.
Yes, all galaxies in the universe are bound by the force of gravity, which governs their interactions with one another as well as their internal structure and motion. Gravity is the dominant force shaping the formation and evolution of galaxies over cosmic timescales.
That is what has been observed, except that spiral galaxies rotate faster than would be expected based on the matter we can see. Thus we infer the existence of dark matter in the rims of these galaxies. An alternative hypothesis is that something is terribly wrong with our theory of gravity. To the best of our knowledge the rules of physics are the same no matter where you go.
one kind is lenticular galaxies
Gravity is crucial for the formation and structure of galaxies in our universe. It pulls together gas, dust, and stars, allowing them to clump together and form galaxies. Without gravity, galaxies would not be able to hold together and maintain their shape. Additionally, gravity plays a key role in the interactions between galaxies, influencing their movement and behavior within the universe.
Yes, gravity is a fundamental force that exists throughout the universe, including other galaxies. The strength of gravity depends on the mass of an object, so larger galaxies will have stronger gravitational fields.
It depends on how much gravity that causes stars to form. It depends on how big the star in the galaxies is.
The force that draws two interacting galaxies toward each other is gravity. Gravity is the fundamental force of attraction between all objects with mass, including galaxies. This force can cause galaxies to merge or distort their shapes when they get too close to each other.
Gravity is the force that attracts all matter to other matter. It is responsible for keeping the planets in orbit around the sun and holding galaxies together.
Gravity is the force that is present between all objects in the universe. It is responsible for the attraction between objects with mass, such as planets, stars, and galaxies.