I installed the Iracema addon from kikinho on Celestia 1.4.1. It woks well so far. It's a binary star system with a solar systems around each star. It is using a barycenter orbited by the two stars.
So i tryed to use the Solar System Browser to explore these star systems. I figured out, that only one system is shown in the browser. That one, which is the last listed in the sct-file. I tryed two hours to solve this problem with the sct file, but i didn't get it working. I selected the other star in the binary system and opened the solar system browser. But it shows me only the one star with it's planets in the browser.
I hope there is a simple solution which i don't see right now. If not, it would be nice, when this will be fixed in the new version of celestia.
Please forgive me my english. I hope there is no topic about this problem, i couldn't find any.
I will anser if there are more questions about this problem.
Can the Solar System Browser handel binary Starsystems?
-
Topic authorJack@Daniels
- Posts: 2
- Joined: 29.12.2006
- With us: 17 years 11 months
- Location: Germany
I am having the same prob. I am using this stc file, which I found here in the forums.
Not only does the System browser not work for each star, but the planets I put around Antares A, actually orbit the barycenter. I am confused about something, but don't know what-the stc file or my scc files.
Any help would be cool.
Thanx
Tim
Here are the scc files-
Code: Select all
Barycenter "Antares:HIP 80763"
{
RA 247.351917
Dec -26.432003
Distance 604
}
80763 "Antares A"
{
OrbitBarycenter "Antares"
SpectralType "M1I"
AbsMag -5.14
SemiAxes [1 0.75 0.75]
EllipticalOrbit
{
Period 878
SemiMajorAxis 537
Eccentricity 0
Inclination 82.980
AscendingNode 67.708
ArgOfPericenter 3.774
MeanAnomaly 200.119
}
RotationPeriod 24
}
"Antares B"
{
OrbitBarycenter "Antares"
SpectralType "B4V"
AbsMag -0.84
SemiAxes [1 0.75 0.75]
EllipticalOrbit
{
Period 878
SemiMajorAxis 537
Eccentricity 0
Inclination 82.980
AscendingNode 67.708
ArgOfPericenter 183.774
MeanAnomaly 200.119
}
RotationPeriod 24
}
Not only does the System browser not work for each star, but the planets I put around Antares A, actually orbit the barycenter. I am confused about something, but don't know what-the stc file or my scc files.
Any help would be cool.
Thanx
Tim
Here are the scc files-
Code: Select all
"Antares A-1" "Antares A"
{
Class "planet"
Texture "tim2.jpg"
Radius 1780
CustomOrbit "Antares A-1 1780 "
EllipticalOrbit {
Period 0.09
SemiMajorAxis 0.18
Eccentricity 0.00001
Inclination 1.44871
AscendingNode 233.22
LongOfPericenter 100.56
MeanLongitude 298.73
}
EquatorAscendingNode 94.97
RotationOffset 296.86
Albedo 0.2
#------------Data Block-----------
# Mass 0.0130491673 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Antares A-II" "Antares A"
{
Class "planet"
Texture "hab6.jpg"
HazeColor [ 0.87 0.87 0.87 ]
HazeDensity 0.04
Radius 5620
Atmosphere {
Height 70
Lower [ 0 0 0.63 ]
Upper [ 0 0 1 ]
Sky [ 0 0 1 ]
Sunset [ 0.5 0.25 0 ]
CloudHeight 8
CloudSpeed 90
CloudMap "earth-clouds.png"
}
CustomOrbit "Antares A-II 5620 "
EllipticalOrbit {
Period 0.99
SemiMajorAxis 0.36
Inclination 0.07006
AscendingNode 250.24
LongOfPericenter 87.82
MeanLongitude 192.19
}
RotationPeriod 23
EquatorAscendingNode 352.8
RotationOffset 38.29
Albedo 0.29
#------------Data Block-----------
# Mass 0.4107066534 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon 3" "Antares A/Antares A-II"
{
Class "moon"
Texture "asteroid.jpg"
Radius 2130
CustomOrbit "Moon 3 2130 "
EllipticalOrbit {
Period 30.7
SemiMajorAxis 29630
Inclination 0.38797
AscendingNode 100.18
LongOfPericenter 58.62
MeanLongitude 232.77
}
RotationPeriod 210
EquatorAscendingNode 57.76
RotationOffset 147.63
Albedo 0.25
#------------Data Block-----------
# Mass 0.022359475 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon 2" "Antares A/Antares A-II"
{
Class "moon"
Texture "asteroid.jpg"
Radius 1650
CustomOrbit "Moon 2 1650 "
EllipticalOrbit {
Period 26.4
SemiMajorAxis 27480
Inclination 0.13814
AscendingNode 16.43
LongOfPericenter 137.52
MeanLongitude 108.35
}
EquatorAscendingNode 106.48
RotationOffset 341.49
Albedo 0.17
#------------Data Block-----------
# Mass 0.0103938064 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon 1" "Antares A/Antares A-II"
{
Class "moon"
Texture "asteroid.jpg"
Radius 1400
CustomOrbit "Moon 1 1400 "
EllipticalOrbit {
Period 21.2
SemiMajorAxis 24660
Inclination 5.98947
AscendingNode 243.42
LongOfPericenter 207.07
MeanLongitude 36.02
}
RotationPeriod 3114
EquatorAscendingNode 5.65
RotationOffset 37.09
Albedo 0.13
#------------Data Block-----------
# Mass 0.006349023 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Antares A-III" "Antares A"
{
Class "planet"
Texture "tim7.jpg"
Radius 8970
CustomOrbit "Antares A-III 8970 "
EllipticalOrbit {
Period 3.86
SemiMajorAxis 0.57
Inclination 4.45807
AscendingNode 94.09
LongOfPericenter 136.4
MeanLongitude 104.28
}
RotationPeriod 38
EquatorAscendingNode 282.68
RotationOffset 330.98
Albedo 0.47
#------------Data Block-----------
# Mass 2.0241662171 Earth Masses
# Density 4
# Class Type "Martian"
#-----------End Data Block--------
}
"Antares A-IV" "Antares A"
{
Class "planet"
Texture "tim19.jpg"
Radius 22421
CustomOrbit "Antares A-IV 22421 "
EllipticalOrbit {
Period 7.41
SemiMajorAxis 0.98
Inclination 1.51276
AscendingNode 225.95
LongOfPericenter 35.27
MeanLongitude 201.97
}
RotationPeriod 16
EquatorAscendingNode 154.24
RotationOffset 250.01
Albedo 0.53
#------------Data Block-----------
# Mass 12.6442702779 Earth Masses
# Density 1.6
# Class Type "Sub-Jovian"
#-----------End Data Block--------
}
Code: Select all
"Antares B-I" "Antares B"
{
Class "planet"
Texture "tim31.jpg"
Radius 2800
CustomOrbit "Antares B-I 2800 "
EllipticalOrbit {
Period 2.8
SemiMajorAxis 3.3
Inclination 4.57707
AscendingNode 300.53
LongOfPericenter 195.61
MeanLongitude 329.82
}
EquatorAscendingNode 8.15
RotationOffset 154.89
Albedo 0.18
#------------Data Block-----------
# Mass 0.0507921838 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Antares B-II" "Antares B"
{
Class "planet"
Texture "tim43.jpg"
Radius 9800
CustomOrbit "Antares B-II 9800 "
EllipticalOrbit {
Period 4.6
SemiMajorAxis 7.3
Inclination 1.86956
AscendingNode 180.88
LongOfPericenter 166.67
MeanLongitude 127.25
}
RotationPeriod 140
EquatorAscendingNode 184.95
RotationOffset 145.74
Albedo 0.2
#------------Data Block-----------
# Mass 2.177714881 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Antares B-III" "Antares B"
{
Class "planet"
Texture "hab10.jpg"
Radius 9200
Atmosphere {
Height 60
Lower [ 0 1 1 ]
Upper [ 0 0.5 0.75 ]
Sky [ 0.5 1 1 ]
Sunset [ 1 0.5 0.25 ]
CloudHeight 6
CloudSpeed 50
CloudMap "radyo-clouds.png"
}
CustomOrbit "Antares B-III 9200 "
EllipticalOrbit {
Period 8.1
SemiMajorAxis 10.2
Inclination 0.11775
AscendingNode 20.01
LongOfPericenter 352.47
MeanLongitude 21.93
}
RotationPeriod 24.6
EquatorAscendingNode 87.78
RotationOffset 140.5
Albedo 0.32
#------------Data Block-----------
# Mass 3.0028595746 Earth Masses
# Density 5.5
# Class Type "Terrestrial"
#-----------End Data Block--------
}
"Antares B-IV" "Antares B"
{
Class "planet"
Texture "gas2.jpg"
Radius 12670
CustomOrbit "Antares B-IV 12670 "
EllipticalOrbit {
Period 12.8
SemiMajorAxis 16
Inclination 0.38933
AscendingNode 166.27
LongOfPericenter 74.75
MeanLongitude 118.7
}
RotationPeriod 12.8
Obliquity 0.003
EquatorAscendingNode 177.18
RotationOffset 34.35
Albedo 0.36
#------------Data Block-----------
# Mass 1.8538818338 Earth Masses
# Density 1.3
# Class Type "Jovian"
#-----------End Data Block--------
}
"Moon4" "Antares B/Antares B-IV"
{
Class "moon"
Texture "asteroid.jpg"
Radius 1780
CustomOrbit "Moon4 1780 "
EllipticalOrbit {
Period 28
SemiMajorAxis 31680
Inclination 0.02024
AscendingNode 253.58
LongOfPericenter 190.88
MeanLongitude 32.27
}
EquatorAscendingNode 334.36
RotationOffset 272.78
Albedo 0.2
#------------Data Block-----------
# Mass 0.0130491673 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon3" "Antares B/Antares B-IV"
{
Class "moon"
Texture "asteroid.jpg"
Radius 1200
CustomOrbit "Moon3 1200 "
EllipticalOrbit {
Period 36
SemiMajorAxis 23420
Eccentricity 0.00227
Inclination 3.39873
AscendingNode 29.48
LongOfPericenter 244.41
MeanLongitude 163.51
}
EquatorAscendingNode 69.09
RotationOffset 128.53
Albedo 0.16
#------------Data Block-----------
# Mass 0.0039982186 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon2" "Antares B/Antares B-IV"
{
Class "moon"
Texture "asteroid.jpg"
Radius 570
CustomOrbit "Moon2 570 "
EllipticalOrbit {
Period 24
SemiMajorAxis 18960
Inclination 0.00243
AscendingNode 37.96
LongOfPericenter 46.17
MeanLongitude 0.09
}
RotationPeriod 36
EquatorAscendingNode 119.41
RotationOffset 193.25
Albedo 0.13
#------------Data Block-----------
# Mass 0.0004284966 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Moon1" "Antares B/Antares B-IV"
{
Class "moon"
Texture "tim15.jpg"
Radius 230
CustomOrbit "Moon1 230 "
EllipticalOrbit {
Period 21
SemiMajorAxis 16480
Inclination 0.58265
AscendingNode 271.33
LongOfPericenter 299.78
MeanLongitude 6.75
}
EquatorAscendingNode 214.59
RotationOffset 75.73
Albedo 0.12
#------------Data Block-----------
# Mass 0.0000281518 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
"Antares B-V" "Antares B"
{
Class "planet"
Texture "tim18.jpg"
Radius 86000
CustomOrbit "Antares B-V 86000 "
EllipticalOrbit {
Period 16.4
SemiMajorAxis 19.1
Inclination 4.9604
AscendingNode 235.62
LongOfPericenter 140.57
MeanLongitude 38.66
}
RotationPeriod 14.6
EquatorAscendingNode 182.19
RotationOffset 282.24
Albedo 0.51
#------------Data Block-----------
# Mass 579.7590783195 Earth Masses
# Density 1.3
# Class Type "Jovian"
#-----------End Data Block--------
}
"Moon5" "Antares B/Antares B-V"
{
Class "moon"
Texture "asteroid.jpg"
Radius 160
CustomOrbit "Moon5 160 "
EllipticalOrbit {
Period 16
SemiMajorAxis 10200
Inclination 0.29175
AscendingNode 176.36
LongOfPericenter 170.81
MeanLongitude 92.62
}
EquatorAscendingNode 56.04
RotationOffset 226.35
Albedo 0.11
#------------Data Block-----------
# Mass 0.0000094773 Earth Masses
# Density 3.3
# Class Type "Rock"
#-----------End Data Block--------
}
Tim,
1. Be consistent with your HIP definitions
Antares is the name that Celestia already has associated with the HIP catalog entry 80763.
The way you are redefining the names, you're making Antares and Antares A be synonyms and confusing the heck out of Celestia. Don't declare the HIP catalog entry (the numeric id) to be named Antares A: make it the barycenter.
2. Revisit your calculations of the planets' orbital sizes around Antares A. As they are now, they're smaller than the radius of the star they're orbiting, placing them inside the star.
3. Don't use "CustomOrbit" declarations. They're only for predefined orbits in the solar system. Celestia ignores them if it doesn't recognize the orbit names, but they confuse the heck out of people reading the ssc catalogs.
1. Be consistent with your HIP definitions
Antares is the name that Celestia already has associated with the HIP catalog entry 80763.
The way you are redefining the names, you're making Antares and Antares A be synonyms and confusing the heck out of Celestia. Don't declare the HIP catalog entry (the numeric id) to be named Antares A: make it the barycenter.
Code: Select all
Barycenter 80763 "Antares:HIP 80763"
{
RA 247.351917
Dec -26.432003
Distance 604
}
Star "Antares A"
{ ... [remainder omitted]
2. Revisit your calculations of the planets' orbital sizes around Antares A. As they are now, they're smaller than the radius of the star they're orbiting, placing them inside the star.
3. Don't use "CustomOrbit" declarations. They're only for predefined orbits in the solar system. Celestia ignores them if it doesn't recognize the orbit names, but they confuse the heck out of people reading the ssc catalogs.
Last edited by selden on 25.08.2007, 10:57, edited 3 times in total.
Selden
Jack,
I've never downloaded Iracema, and at almost 150MB, I really don't want to.
Can you quote the STC file here?
My guess is that the Barycenter and Star definitions are confused, much like the ones Tim has been using.
p.s.
In fact, Celestia's "Solar System Browser" does need to be rewritten so it can handle Barycenters correctly. It does not understand them now.
I've never downloaded Iracema, and at almost 150MB, I really don't want to.
Can you quote the STC file here?
My guess is that the Barycenter and Star definitions are confused, much like the ones Tim has been using.
p.s.
In fact, Celestia's "Solar System Browser" does need to be rewritten so it can handle Barycenters correctly. It does not understand them now.
Selden
Thanx selden, that worked. Another confussing fact. I found a chart on the internet, that has the habitable zones for dif class stars. It says the habit zone for a class M star is 0.23-0.017. That's where I got my semimajor axis for the scc files I am making. But like you pointed out they ended up inside the star. ???
Thanx
Tim
Thanx
Tim
Ah that makes sense. They should have put that on the chart LOL.
I wish I could use another star, but it is part of the Trek universe I am working on. I have 99 systems defined by canon sources with their "real life" stars. The chart in the Purgatory thread were invaluable. Plus the Star Trek Star Chart book, the Star Trek Encyclopedia, StarTrek.com, and Memory Alpha canon website.
Tim
I wish I could use another star, but it is part of the Trek universe I am working on. I have 99 systems defined by canon sources with their "real life" stars. The chart in the Purgatory thread were invaluable. Plus the Star Trek Star Chart book, the Star Trek Encyclopedia, StarTrek.com, and Memory Alpha canon website.
Tim
Tim,
Wikipedia has a page describing how the habitable zone is calculated. The formula on that page might be a reasonable one to use.
http://en.wikipedia.org/wiki/Habitable_ ... table_zone
Wikipedia has a page describing how the habitable zone is calculated. The formula on that page might be a reasonable one to use.
http://en.wikipedia.org/wiki/Habitable_ ... table_zone
Selden
- Hungry4info
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- With us: 19 years 2 months
- Location: Indiana, United States
Be careful about making Star Trek systems in Celestia scientifically accurate. On one STNG episode, Enterprise-D visits a pre-warp civilization in the Mintaka system.
Mintaka is a blue giant eclipsing binary (I think). I can't imagine a reasonable habitable zone in the system. i.e. the "UV habitable zone" is much farther out, where it would be too cold for water to exist as a liquid".
Mintaka is a blue giant eclipsing binary (I think). I can't imagine a reasonable habitable zone in the system. i.e. the "UV habitable zone" is much farther out, where it would be too cold for water to exist as a liquid".
Current Setup:
Windows 7 64 bit. Celestia 1.6.0.
AMD Athlon Processor, 1.6 Ghz, 3 Gb RAM
ATI Radeon HD 3200 Graphics
Windows 7 64 bit. Celestia 1.6.0.
AMD Athlon Processor, 1.6 Ghz, 3 Gb RAM
ATI Radeon HD 3200 Graphics
Maybe right about Mintaka. I did find some info on it I did not have yet. It is a binary star-a class O and a class B compact binary-orbit period of 5.73 days-max seperation is .3"- 52 arc second distance-.5 Ly seperation-2 dimmer and remote companions-a 6.8 mag B class .25LY distant and a closer mag 14 (no class stated)
So I will say star A and B orbit a barycenter, then star C and D orbit A and B.
Sounds like a solor system made of stars.
How in the world would you make a stc file that made sense of this info?
Thanx
Tim
So I will say star A and B orbit a barycenter, then star C and D orbit A and B.
Sounds like a solor system made of stars.
How in the world would you make a stc file that made sense of this info?
Thanx
Tim
- LordFerret
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- Location: NJ USA
fungun wrote:So I will say star A and B orbit a barycenter, then star C and D orbit A and B.
There was a recent discovery (in real life) of just such a system.
HD 98800 - 4 star system
http://shatters.net/forum/viewtopic.php?t=11345