If it’s still in geostationary orbit, no. Generally debris aren’t in a perfectly defined orbit like that, though.
If it’s debris that used to be in geostationary orbit, they’re going to be in an array of slightly different orbits, and so will have an epicycle of some kind as seen from the earth.
Also, note that intelligence satellites tend not to be geostationary, because that would limit their collection area. I don’t know about this specific one.
I was talking about Intelsat 33e which is was a communication satellite, not for espionage, on a geostationary orbit. The russian espionage satellite Olymp-K mentioned in the other reply, however is on a geosynchronous orbit, as you suggested.
Does debris in the geostationary orbit move relatively to each other and the satellites?
If it’s still in geostationary orbit, no. Generally debris aren’t in a perfectly defined orbit like that, though.
If it’s debris that used to be in geostationary orbit, they’re going to be in an array of slightly different orbits, and so will have an epicycle of some kind as seen from the earth.
Also, note that intelligence satellites tend not to be geostationary, because that would limit their collection area. I don’t know about this specific one.
I was talking about Intelsat 33e which
iswas a communication satellite, not for espionage, on a geostationary orbit. The russian espionage satellite Olymp-K mentioned in the other reply, however is on a geosynchronous orbit, as you suggested.Oh, okay. It’s a funny name then.
Its named after the * International Telecommunications Satellite Consortium*
Oh yeah, I think I have heard that name before. (It’s organization, though)
Obviously the naming is not consistent among the wikipedia articles in different languages:
https://de.wikipedia.org/wiki/Intelsat_33e