Results 1 - 6 of 6 results out of about 1294 pages. (0.53 seconds)

GEOSBSP . . . 3 matches
...r and solar tides. A related analysis is on this wiki, for lower and more stable [[ LightOrbit | MXXX orbits ]]. * [[#LightPrecession | Precession of the argument of periapsis b...

18.8k - rev: 25 (current) last modified: 2015-01-16 04:53:35

ThinsatV6 . . . 1 match
... mostly aluminum, thicker than previous versions to insure orbit stability against [[LightOrbit|light pressure perturbations.]] ||{{attachment:ThinsatV6_1000.png| |width=250 }}||B...

12.3k - rev: 6 (current) last modified: 2015-08-05 22:08:05

ThinsatV4 . . . 1 match
... mostly aluminum, thicker than previous versions to insure orbit stability against [[LightOrbit|light pressure perturbations.]] ||{{attachment:ThinsatV4_488.png }}||Back side of a...

12.5k - rev: 15 (current) last modified: 2013-05-14 08:00:00

SbspInterference . . . 1 match
... way to keep them in a predictable orbit is to let it drift in a controlled way. [[ LightOrbit | Similar to a server sky array]], an array can be in an elliptical orbit, with peri...

11.8k - rev: 21 (current) last modified: 2015-05-19 15:05:26

NavigationV01 . . . 1 match
...with the light pressure causing this elliptical orbit to precess once per year. See LightOrbit for more details.|| MoreLater === Light pressure from Optical thrusters === The v...

16.3k - rev: 75 (current) last modified: 2022-03-15 23:58:42

EarthOrbits . . . 1 match
... || 81.3 || 38.2 || 162.4 || 253 || 0.43 || 5e-4 || MoreLater [[ LightOrbit | Light Pressure Modified Orbits ]] MoreLater === References === [[ http://en.wik...

5.6k - rev: 35 (current) last modified: 2014-05-30 20:53:59