I have heard of plans to capture an asteroid in an orbit around the earth, to have it close by so that we could study it more easily.

Such objects can have very high velocities, (I assume) possibly several times the earth's escape velocity, and they wouldn't end up in an earth-centered orbit on their own.

  • Would it be possible to gravity-assist a common asteroid to slow it down enough to capture it in an orbit around the earth?
  • Where would the assist need to be made?
  • Are there other/better ways to capture an asteroid in ordbit?

1 Answer 1


You can certainly reverse a gravity assist to lose velocity. Most inner system probes do so.

For a classic gravity assist the object has to leave the influence of the assisting body so for capturing an asteroid the answer is technically no, there is no way to achieve a low altitude circular orbit of a single body purely by gravity assists.

It is certainly possible to take an eccentric earth crossing orbit, use assists to circularize it towards earths orbital velocity and use combinations of earth/moon interactions to either reach earth moon L4/l5 (hence why there are natural objects at the trojan points already) or in a highly eccentric earth orbit. Sort of reversal of this or these or in fact most of the missions listed here as 'gravity assist'. Note that all of them needed some form of boost out of LEO, so reversing the trajectories for an asteroid would involve a substantial rocket for the final maneuver or leaving the object in its near lunar eccentric orbit and using reasonably powerful (lunar orbiter class) rockets to match orbits close enough to actually visit it.

For the last part of the question, the answer is yes there really is no better way to add/remove velocity from an object than a gravity assist since it is independent of object mass, unlike anything involving rockets. The problem is that it is very slow (years/decades), depends on finding a suitable candidate in the first place and messing up leaves your asteroid hitting earth.

So the general assumption for an asteroid return mission would be getting as much as possible of the D/V budget from gravity assists, but some reasonable fraction would still involve a rocket.

  • $\begingroup$ To clarify a bit: you can use gravity assist from one body, which may speed up your projectile relative to that body but reduce the projectile's relative velocity compared to the ultimate (different) body. is that correct? $\endgroup$ Nov 25, 2019 at 15:37

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.