Landing a Spacecraft: Understanding Gravity in Space

AI Thread Summary
Spacecraft do not truly come to rest in space; they maintain high speeds while in orbit to avoid falling into celestial bodies. To achieve stable orbits, spacecraft shed excess velocity using retro-rockets or other propulsion systems, often employing gravity assists to optimize fuel efficiency. Geostationary satellites orbit the Earth at the same rotational speed, appearing stationary from the surface. When approaching other celestial bodies, such as the Moon, spacecraft fire rockets backward to reduce speed for orbital insertion. Understanding these dynamics is crucial for successful spacecraft navigation and landing.
emma149
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how do space ships come to rest when they get into space?
 
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emma149 said:
how do space ships come to rest when they get into space?

Rest with respect to what?
 
Are you thinking of geo-stationary orbits ? Or 'entering' the L4/L5 halo positions ? Taking up Mercury or Mars orbit ??

To 'get there', you need relative velocity, then you must shed that excess velocity with Retro-rockets or whatever you want to call the payload's final propulsion system. To minimise fuel use, spacecraft may use gravity assists, a diminishing succession of elliptical orbits with sparing thrust at critical time, ion thruster or aero-braking...

A really careful trajectory that uses planetary gravity to sling-shot probes can easily double or treble the available payload...
 
emma149 said:
how do space ships come to rest when they get into space?

The short answer is that they don't really come to rest when in space. Like roller coasters without brakes they are (by intention of the designers) always moving (actually, free falling) with fairly great speed "around" the body they orbit so that they won't "fall into" the body.

In case you are thinking of geo-stationary satellites, as Nik mentions, you should know that such satellites are in fact orbiting the Earth, they just do so at exactly the same rate as the Earth rotates, so when you view one from the surface of Earth the satellite appears to just hang there (see [1]). Its like a child sitting on a merry-go-round watching her (fairly athletic) dad running along on the ground just outside with his video camera keeping up with the rotation of the merry-go-round; the man is not moving relative to the view of his child even though he is running like mad over the ground.

[1] http://en.wikipedia.org/wiki/Geostationary_orbit
 
with respect to the moon.
 
welcome to pf!

hi emma! welcome to pf! :smile:
emma149 said:
with respect to the moon.

the usually fire their rockets "backwards" on the way to the Moon, to reduce their speed relative to the Moon, and then again on the other side of the Moon, to make the orbit circular

see eg http://en.wikipedia.org/wiki/Apollo_8#Lunar_sphere_of_influence" :wink:
 
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