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Unstoppable Or Is It.?
If I was in outer space and I threw an object , say an iron ball , would it travel for ever or could it eventually slow down ? I am assuming it is outer empty space therefore there would not be any gravity effects, or is some gravity everywhere of varying strengths. In which case could that slow it down or speed it up .
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For more on marking an answer as the "Best Answer", please visit our FAQ.Assuming spacetime is described well by the "Friedmann-Roberston-Walker" spacetime, http:// en.wiki pedia.o rg/wiki /Friedm ann&nda sh;Lema î tre&nda sh;Robe rtson&n dash;Wa lker_me tric , then effectively the ball will travel on for ever, following the curves of spacetime smoothly. However this is an idealised model and eventually the ball would slow down, losing energy to whatever else it bumps into along the way.
You say "...I am assuming it is outer empty space therefore there would not be any gravity effects..." Your assumption is incorrect. Gravit is expressed everywhere in the Universe.
Secondly, If you were in 'outer space' (which you need to define) as you threw the ball, you would move in the opposite direction with equal acceleration making it somewhat difficult to determine if you threw the ball or the ball threw you...
Your ball would eventually begin to orbit something somewhere. Think (meteroites, comets and glalaxies). Nice question though!
Secondly, If you were in 'outer space' (which you need to define) as you threw the ball, you would move in the opposite direction with equal acceleration making it somewhat difficult to determine if you threw the ball or the ball threw you...
Your ball would eventually begin to orbit something somewhere. Think (meteroites, comets and glalaxies). Nice question though!
I was aware that I would move backwards. I had thought of throwing it from the space station but felt that was too close to earth and space debris
so there was no guarantee that the ball would have a clear run.
I also wondered about sub atomic particles . We know that radiation and gravity has an unequal distribution throughout space so you might expect it to affect the ball. On the other hand if space is fundamentally neutral
then maybe these effects would cancel each other. However the universe is not stable so thats a non starter.
so there was no guarantee that the ball would have a clear run.
I also wondered about sub atomic particles . We know that radiation and gravity has an unequal distribution throughout space so you might expect it to affect the ball. On the other hand if space is fundamentally neutral
then maybe these effects would cancel each other. However the universe is not stable so thats a non starter.
It's only in a very very borderline case that your ball could be "captured" by the gravity of some other body. Basically, if it approaches a large body, but not on a collision course, it will be deflected, but not slowed down. You would see it leaving at the same speed that it had been arriving with, but in a different direction. It would only be if it collided with enough fragments of space debris when it was close to a larger body that it could possibly drift into a closed orbit, instead of escaping again. The further out into empty space that it was, the smaller would be the gravity effects of other bodies (but never zero), so the smaller (but never zero) would be the deflections they caused.