Deimos has a period of about 30.3 hours (~1.23 Martian sols) with 23,400 km versus the synchronous orbit's ~24.65 hour (1 sol) and 20,400. The duo differ by 5 and 2/3 hours and a smidge over 3,000 km. Close in a vague sense and barely noteworthy.
Never realized before Deimos was that close from Mars own GEO. Nor that the said martian GEO was so "low".
In passing, this also means Venus own GEO must be pretty similar to Earth's - just a bit less than 22 000 miles / 36000 km. At least there is no enormous Moon to gravitationnaly screw Venus GEO.
Quote from: Airlocks on 12/09/2022 10:47 amNever realized before Deimos was that close from Mars own GEO. Nor that the said martian GEO was so "low". It feels like an overlooked factoid. While speedy Phobos circles Mars three times daily, Deimos appears to move like a turtle; the fact it keeps pace fairly close to the stationary point means it doesn't set for 2 and a half days straight, then likewise vanishing from view for the same again before rising. Compared to Phobos or a would-be low Mars orbit satellite, this is more constant.Quote from: Airlocks on 12/09/2022 10:47 amIn passing, this also means Venus own GEO must be pretty similar to Earth's - just a bit less than 22 000 miles / 36000 km. At least there is no enormous Moon to gravitationnaly screw Venus GEO. Not remotely. If you want a Venus synchronous orbit, you're asking for something that rotates backward from rest of solar system and circles Venus once every 243 Earth days...because Venus spins retrograde very, very slowly. I wouldn't even be sure such an orbit is within Venus' Hill (i.e. gravity) sphere. Mars is just lucky to have a similar spin rate to Earth.
Not remotely. If you want a Venus synchronous orbit, you're asking for something that rotates backward from rest of solar system and circles Venus once every 243 Earth days...because Venus spins retrograde very, very slowly. I wouldn't even be sure such an orbit is within Venus' Hill (i.e. gravity) sphere. Mars is just lucky to have a similar spin rate to Earth.
My 7 year old kid love the fact that a Venus DAY is longer than a Venus YEAR (243 earth days vs 225).
Synchronous orbit, like Earth's saturated GEO, would be a sweet spot for communication needs for Mars. A sticking point is the fact it would be stationary; more specifically it'd be useless to a rover, lander, or base on the other side of planet. However, Deimos' not-so-synchronous position means it drifts, very slowly, from a Martian perspective. The entirety of Mars gets a view of Deimos, and a satellite emulating the moon means it could cover the planet while providing decent coverage for several days to specific sites; a compromise when your budget is low.
Quote from: redliox on 12/08/2022 04:04 pmSynchronous orbit, like Earth's saturated GEO, would be a sweet spot for communication needs for Mars. A sticking point is the fact it would be stationary; more specifically it'd be useless to a rover, lander, or base on the other side of planet. However, Deimos' not-so-synchronous position means it drifts, very slowly, from a Martian perspective. The entirety of Mars gets a view of Deimos, and a satellite emulating the moon means it could cover the planet while providing decent coverage for several days to specific sites; a compromise when your budget is low.I'm having a hard time seeing any mission where this would be a useful compromise for a comm sat.
If you're communicating from Earth a five minute window every couple of hours is more useful. The round trip is not exactly real time so you have to schedule blocks of work anyway. Being to do this multiple times on any day rather than on half of them is going to be a win. Unless you have really short autonomous work blocks, but that would hardly be state of the art.If you're communicating from a Mars base you either want the continuous coverage at the base, or at least a short period so you get lots of store and forward opportunities.
A synchronous satellite definitely should be over the base ideally, although depending on its location features like Tharsis can tug sats down like the mascons do on Luna. A distant, mobile satellite would be less effected by gravity anomalies. Regarding synchronous satellites, a paper about future communication needs and plans cites using one or two synchronous satellites and a mothership in an elliptical 24-hour orbit.
Quote from: redliox on 12/12/2022 12:38 pmA synchronous satellite definitely should be over the base ideally, although depending on its location features like Tharsis can tug sats down like the mascons do on Luna. A distant, mobile satellite would be less effected by gravity anomalies. Regarding synchronous satellites, a paper about future communication needs and plans cites using one or two synchronous satellites and a mothership in an elliptical 24-hour orbit.On second thought I think synchronous satellites may never appear over Mars. The use of physics to avoid math, and fixed geometry to avoid computation, is so mid-20th century. Starlink is the current pinnacle, but there are many related developments in cell phones, GPS and other fields. I think Moore's law will win the race over areostationary orbits.
Quote from: Barley on 12/13/2022 01:28 pmQuote from: redliox on 12/12/2022 12:38 pmA synchronous satellite definitely should be over the base ideally, although depending on its location features like Tharsis can tug sats down like the mascons do on Luna. A distant, mobile satellite would be less effected by gravity anomalies. Regarding synchronous satellites, a paper about future communication needs and plans cites using one or two synchronous satellites and a mothership in an elliptical 24-hour orbit.On second thought I think synchronous satellites may never appear over Mars. The use of physics to avoid math, and fixed geometry to avoid computation, is so mid-20th century. Starlink is the current pinnacle, but there are many related developments in cell phones, GPS and other fields. I think Moore's law will win the race over areostationary orbits.Moores law has to be paid for. Launching to Mars is a lot more expensive than launching to LEO (yes even with a Starship that magically hits all design and cost goals). As it will take a long time before you'd need global coverage, single targeted stationary satellites covering a few landing sites will be more economical than low orbit constellations for a long time as well.