Difference between revisions of "90 Antiope"
(Added link and image.) |
(Added links, images, content for Antiope.zip.) |
||
Line 54: | Line 54: | ||
In the release of ''Antiope.zip'' by ''Bluefrog'' in January 2003, 90 Antiope and S2000 90 1 were modeled to orbit around a common gravity center by creating a ficticious body "Antiope" with the solar orbital parameters of the twin body system as given in the table to the right, but, the fictitious body has a radius of 4.25 meters, mass of 10.325×10<sup>16</sup> kg, and was not given any visuals. 90 Antiope and S2000 90 1 were modeled as satellites of the fictitious body, orbiting each at 85000 km from Antiope each with the same mass, radius, and rotation periods. | In the release of ''Antiope.zip'' by ''Bluefrog'' in January 2003, 90 Antiope and S2000 90 1 were modeled to orbit around a common gravity center by creating a ficticious body "Antiope" with the solar orbital parameters of the twin body system as given in the table to the right, but, the fictitious body has a radius of 4.25 meters, mass of 10.325×10<sup>16</sup> kg, and was not given any visuals. 90 Antiope and S2000 90 1 were modeled as satellites of the fictitious body, orbiting each at 85000 km from Antiope each with the same mass, radius, and rotation periods. | ||
− | Sol.cfg is listed like this, 'Planet5' being whatever planet number you assign in your file: | + | Sol.cfg is listed like this, 'Planet5' being whatever planet number you assign in your file:<br> |
− | Planet5 = Antiope | + | Planet5 = Antiope<br> |
− | Antiope:Moon1 = 90 Antiope | + | Antiope:Moon1 = 90 Antiope<br> |
Antiope:Moon2 = S2000 90 1 | Antiope:Moon2 = S2000 90 1 | ||
Line 80: | Line 80: | ||
90AntiopeS2000901-MainBeltAsteroidszip.jpg|<center>S/2000 (90) 1 (left) and 90 Antiope (right) in Orbiter 2002P3 from ''MainBeltAsteroids051403.zip''</center> | 90AntiopeS2000901-MainBeltAsteroidszip.jpg|<center>S/2000 (90) 1 (left) and 90 Antiope (right) in Orbiter 2002P3 from ''MainBeltAsteroids051403.zip''</center> | ||
90Antiope-Antiopezip-Orbiter2003P2.jpg|<center>90 Antiope from ''Antiope.zip'' in Orbiter 2003P2</center> | 90Antiope-Antiopezip-Orbiter2003P2.jpg|<center>90 Antiope from ''Antiope.zip'' in Orbiter 2003P2</center> | ||
+ | 90Antiope-S2000901-Antiopezip-Orbiter2003P2.jpg|<center>90 Antiope (left) and S/2000 (90) 1 (right) from ''Antiope.zip'' in Orbiter 2003P2</center> | ||
The Antiope Doublet - Eso0718b.png|<center>[[w:Very Large Telescope|Very Large Telescope]] images of 90 Antiope and S/2000 (90) 1 in 2004</center> | The Antiope Doublet - Eso0718b.png|<center>[[w:Very Large Telescope|Very Large Telescope]] images of 90 Antiope and S/2000 (90) 1 in 2004</center> | ||
</gallery> | </gallery> |
Revision as of 02:30, 9 September 2024
90 Antiope | |
---|---|
90 Antiope from Antiope.zip in Orbiter 2002P3 | |
Designation | |
Name | 90 Antiope |
Reference body | Sun |
Planetary mean orbits | |
Epoch | 2003.441 |
Semimajor axis (a) | 541 399 341 300 m |
Eccentricity (e) | 0.154810771 |
Inclination (i) | 2.218798084° (0.038725332 radian) |
Longitude of the ascending node (LAN, ☊) | 70.35644109° (1.227951547 radian) |
Longitude of periapsis (ϖ) | 311.6958182° (5.440118292 radian) |
Mean longitude (L) | 82.86693862° (1.4463009199 radian) |
Selected physical parameters | |
Mean radius | 42500 km |
Mass | 4×1017 kg |
Rotation elements | |
SidRotPeriod | 59432 seconds (16.509 hours) |
SidRotOffset | 0 |
Obliqutiy | 0 |
LAN | 0 |
Note | *Elements given are from 90 Antiope.cfg (Antiope.zip) |
90 Antiopeis a double asteroid with S/2000 (90) 1 in the main asteroid belt between Mars and Jupiter, and was discovered on 1 October 1866 by Robert Luther. The name comes from Greek mythology. 90 Antiope was considered a single body until August 2000 when it was discovered to be two almost identical bodies, the mass differing by less than 2.5%. Antiope is now attributed to the larger body and the smaller body is desgnated as S/2000 (90) 1.
Antiope in Orbiter
90 Antiope was first introduced with the release of MainBeltAsteroids051403.zip in May 2003. Since Orbiter is not written for two bodies revolving about a gravity center, S/2000 (90) 1 is configured to revolve as a standard satellite about Antiope in this release.
In the release of Antiope.zip by Bluefrog in January 2003, 90 Antiope and S2000 90 1 were modeled to orbit around a common gravity center by creating a ficticious body "Antiope" with the solar orbital parameters of the twin body system as given in the table to the right, but, the fictitious body has a radius of 4.25 meters, mass of 10.325×1016 kg, and was not given any visuals. 90 Antiope and S2000 90 1 were modeled as satellites of the fictitious body, orbiting each at 85000 km from Antiope each with the same mass, radius, and rotation periods.
Sol.cfg is listed like this, 'Planet5' being whatever planet number you assign in your file:
Planet5 = Antiope
Antiope:Moon1 = 90 Antiope
Antiope:Moon2 = S2000 90 1
NOTICE TO PILOTS: The Antiope center body is invisible, but has a hard surface 4.25 meters in radius. Do be very careful when flying between the bodies as not to crash into Antiope.
Note that the landing surface of 90 Antiope as given in the config file is spherical, but the visual of these bodies are not, if you land, you will likely be above or below the visual surface.
Add-on | Source | Version | Author | Type | Release Date | Compatibility | Wiki article |
---|---|---|---|---|---|---|---|
Antiope | O-F Resources | 2004-01-24 | Bluefrog | Scenery | 24 January 2004 | ||
Main Belt Asteroids v1.0 | O-F Resources | v1.0 | Unknown OHM Addon Developer | Scenery | 14 May 2003 |
See also
Gallery
Very Large Telescope images of 90 Antiope and S/2000 (90) 1 in 2004
edit The Solar System | |
---|---|
Central star |
Sun (Sol) |
Planets |
Mercury - Venus - Earth - Mars - Jupiter - Saturn - Uranus - Neptune |
Natural satellites |
Moon - Phobos - Deimos - Io - Europa - Ganymede - Titan - more... |
Add-ons |
Planets - Dwarf Planets - Small objects - Natural satellites - Alternative star systems |