They're doing 6-12 month missions on the ISS these days, which would be roughly ...

hazov · on Nov 23, 2012

The gravitational field in the low earth orbit is quite large compared to what you would encounter in outer space.

The ISS is at a distance less than 5% the distance between us and the moon.

Symmetry · on Nov 23, 2012

The gravitational field you're in doesn't matter if you're in free-fall.

hazov · on Nov 23, 2012

You're probably right, I am not a physicist, but this is the only when you consider rigid bodies right?

Symmetry · on Nov 24, 2012

Nope, this is actually just a restatement of one aspect of Einstein's Theory of General Relativity, which applies to everything.

wololo · on Nov 23, 2012

isn't the problem weightlessness, not zero gravity?

ie, centrifugal acceleration canceling out low gravity in LEO

hazov · on Nov 23, 2012

No, weight is just mass plus some sort of acceleration, if there's something to substitute gravity everything would be well, the main problem is with body fluids, we evolved to deal with earth surface level of gravity, in the interplanetary space I do not see how centrifugal acceleration is possible unless it's something that the spaceship do to generate it, from what I know this is hard and do not see solved in the foreseeable future. I would love to be wrong.