Oh, don't you worry about size when it comes to gravity, friend. Everything in all shapes and sizes has a little bit of gravity in them. How delightful is that? No matter how big or small, everything has its own little pull. Just like you're making the world a bit brighter with your curiosity.
if you are talking about a man made object then like the size of the great wall of chine or some really big like that but if you are talking bout something natural then like the size of big lakes it would just have to be reeally big
LONG STORY SHORT: ITS BIG. ((: Because it has a lot of mass. The more mass, the more gravity. For a more in depth answer the reason why the sun has so much gravity is because of the density not the mass, mass is different then density, and having so much density in such a small area gives it so much gravity, and if your using this for a science worksheet the sun i composed of about 2 thousand trillion tons of hydrogen and helium.
It depends on how much gravity that causes stars to form. It depends on how big the star in the galaxies is.
Gravity is a fundamental force of nature that has existed since the beginning of the universe. It is thought to have originated from the uneven distribution of mass in the early universe, leading to the formation of galaxies, stars, and planets. The theory of general relativity, developed by Albert Einstein, provides a mathematical description of how gravity works.
Gravity affects a satellite launch by pulling the satellite towards the Earth during its initial phase of ascent. This requires the rocket to generate enough thrust to overcome gravity in order to reach the desired orbit. Once the satellite is in orbit, gravity continues to affect its trajectory, helping to keep it in orbit around the Earth.
All objects with mass have gravitational attraction
Everything in the universe except zero gravity liscensed things
The force of gravity between two objects is stronger when the product of theirmasses is big than it is when the product of their masses is small. It doesn't matterwhether one object is humongous and the other is tiny, or whether the mass issplit equally between them. What matters is the product of the masses and thedistance between them.
You need to just muyiply pie and their you go.
Yes, the acceleration due to gravity on both small and big stones is equal because it depends only on the mass of the Earth and the distance from its center. The mass of the stone does not affect the acceleration due to gravity.
Yes, the gravity of all objects, regardless of their size, exerts a force that can be felt by other objects. The strength of the gravitational force depends on the mass of the object and the distance between objects.
An bigger thing on Universe, the more gravity but the Black hole is small but has the most gravity pushing in it and Stars had more gravity than the planets just like an Guy with an big muscle. he had the ability to push and pull and object.
A small object is more likely to touch the ground as it is affected more by gravity and generally has less support or stability compared to a larger object. This means that smaller objects are more easily influenced by factors leading to contact with the ground.
So that it can escape Earth's Gravity. The rockets work by burning so much fuel that they can overpower Earth's gravity.
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
if you are talking about a man made object then like the size of the great wall of chine or some really big like that but if you are talking bout something natural then like the size of big lakes it would just have to be reeally big