No one knows. Nobody's been to deep space. But my guess is no.
Weight is due to gravitational pull on the massive objects. If acceleration due to gravity is 0, then weight too becomes 0 In free space any massive object having mass does not have weight at all.
they use light-years to determine the space between objects in space
Yes. Weight does.
On Earth there is gravity pulling objects down and adding weight. On the moon there is no gravity so objects are weightless.
Some Objects May Weight The Same But Sometimes They Don't But What Im Trying To Say Is That Some Specific Objects Don't Weight The Same
Deep space Objects!
The bull
Uranus
Objects dont have weight, its the gravity of whatever planet its on and its own gravity. If you were in space there would be no gravity therefore no weight.
Because weight is based on gravity, and gravity changes throughout space.
Yes, because weight it determined by gravity. Its mass however, does not.
I believe it is "interstellar". Intergalactic is the space between galaxies. Deep space. Interstellar space is the space between stars, nebulas, and all other objects WITHIN a galaxy.
If you leave earths gravitational field (sufficiently), objects will have a very negligible gravitational potential energy. You can consider it zero. But what if it were a compressed spring that you brought out into 'deep space'? It would still retain elastic potential energy. A bomb in deep space would still have explosive(?) potential energy. With that said, if you had two or more objects in deep space, they would have gravitational potential energy between the group of them, but not the earth.
Balance is mostly comparing the two objects weight so that relates to matter because matter is anything that takes up space and has weight. Balance takes up space and it mostly has weight.
Of course the objects mass will not change. Since there is no gravity in space(moon), only the objects weight will change.No matter where the object the mass will stay the same!
No, an objects mass will remain the same no matter where it is. (Its weight will however vary)
deep space antiprobe