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Gravitational pull still acts in space, but when you are in space, you are too far from the earth to feel any of its gravitational force. Gravitational force between two objects depends on their distance from each other and the further two objects are apart, the weaker the force of gravity is. So when we are in space, the earth's gravitational pull is still acting on us, but it is too far away for us to feel it.
Theoreticly, it gets weaker.
Gravitational waves are formed when the masses that are found in the space distorts. And these moving objects emit waves that carry out energy away from the space.
That also increases.
"Strictly speaking, yes. There is gravitational force of mutual attraction between every two mass objects, no matter how large or far apart they are. That's why there's a gravitational force between me and YOUR pencil too." Correct however, this proof comes from space, you see, on Earth, Earth has Gravity, and so anything that could have gravity is pulled to the Earth. When in space unseen dust particles get attracted to you, and that is why certain things, when they come back from space, need to be washed.
Yes. Often the shearing pressure of traveling through space causes the asteroid to splinter or split. Collision with many many tiny objects in space causes stress to the asteroid as well. The tiny differences in gravitational pulls can also cause asteroids to slowly fall apart.
Gravity doesn't care what, if anything, is in the space between the objects. Whatever it is has no effect on the mutual gravitational forces of attraction between them. There's no such thing as "gravitational shielding".
The gravitational pull of other objects in space affect all
When you get out of earths gravitational pull, you aren't rotating around it like the moon. You are free to float into space.
Weight is due to gravitational forces between two objects. A single object inspace without another one reasonably nearby, or even in gravitational free-falltoward another object, is weightless. So you can not weigh an object in space.Determining the mass of objects in space is another matter.
Objects orbit because planets, stars, and other large objects in space have their own gravitational pull. If it gets close enough, it will be pulled toward the object with a gravitational pull. If it is at the edge of its gravitational pull field, it will be pulled, but not directly at it and instead increase the speed it is moving at
Law of gravity...gravitational pull