No edit summary |
No edit summary |
||
(One intermediate revision by the same user not shown) | |||
Line 32: | Line 32: | ||
|}<noinclude> | |}<noinclude> | ||
== Documentation == | == Documentation == | ||
Any value not given will default to unknown. Since this is for a binary star system, there | Any value not given will default to unknown, except the habitability which will only appear if it is specified, otherwise it will be omitted. Since this is for a binary star system, there are be 2 of each field present | ||
As a side-note, habitability can be calculated in a few ways, but for a binary or trinary system like this, one can go [http://astro.twam.info/hz/ here]. The exact region is given graphically and is an ellipse (2 stars, 2 focal points), since this doesn't have to be exact one can decide how precise they want to be. Wolfram Alpha can derive a lot of values for luminosity and temperature from a spectral class. | |||
Template is used as follows: | Template is used as follows: | ||
Line 92: | Line 94: | ||
|lumb={{Exp|4.23|24}} (0.01 of Sol) | |lumb={{Exp|4.23|24}} (0.01 of Sol) | ||
|distance={{Exp|3.04|7}} km (0.20 AU) | |distance={{Exp|3.04|7}} km (0.20 AU) | ||
|hab=Between 0.15 and 0.35 AU | |||
|loc=Alpha Valerian Sector<br>3 ly from the Theta Boromir System<br>7 ly from the Omega Aquarius Sector | |loc=Alpha Valerian Sector<br>3 ly from the Theta Boromir System<br>7 ly from the Omega Aquarius Sector | ||
}} | }} | ||
</noinclude> | </noinclude> |
Latest revision as of 22:10, 31 December 2021
Name: | Unknown | Unknown |
Type: | Unknown | Unknown |
Radius: | Unknown | Unknown |
Mass: | Unknown | Unknown |
Temperature: | Unknown | Unknown |
Luminosity: | Unknown | Unknown |
Distance: | Unknown | |
Location: | Unknown |
Documentation
Any value not given will default to unknown, except the habitability which will only appear if it is specified, otherwise it will be omitted. Since this is for a binary star system, there are be 2 of each field present
As a side-note, habitability can be calculated in a few ways, but for a binary or trinary system like this, one can go here. The exact region is given graphically and is an ellipse (2 stars, 2 focal points), since this doesn't have to be exact one can decide how precise they want to be. Wolfram Alpha can derive a lot of values for luminosity and temperature from a spectral class.
Template is used as follows:
{{Star Data |namea= Name of Main Star |nameb= Name of Companion Star |typea= Type of Main Star (Spectral Class / Type) |typeb= Type of Companion Star (Spectral Class / Type) |radiusa= Radius / Size of Main Star |radiusb= Radius / Size of Companion Star |massa= Mass of the Main Star |massb= Mass of the Companion Star |tempa= Temperature of the Main Star |tempb= Temperature of the Companion Star |luma= Luminosity of the Main Star |lumb= Luminosity of the Companion Star |distance= Distance between the Stars |hab= Habitability zone or ecosphere of the Star System |loc= Location of the Star / Star System }}
Example
The following code is for an example star:
{{Binary Star Data |namea=Vularan |nameb=Delule |typea=M1V Red Dwarf |typeb=M2V Red Dwarf |radiusa={{Exp|2.98|5}} (0.43 of Sol) |radiusb={{Exp|2.71|5}} (0.39 of Sol) |massa={{Exp|7.29|29}} kg (0.37 of Sol) |massb={{Exp|5.49|29}} kg (0.28 of Sol) |tempa=3200 K |tempb=3000 K |luma={{Exp|6.61|24}} (0.02 of Sol) |lumb={{Exp|4.23|24}} (0.01 of Sol) |distance={{Exp|3.04|7}} km (0.20 AU) |hab=Between 0.15 and 0.35 AU |loc=Alpha Valerian Sector<br>3 ly from the Theta Boromir System<br>7 ly from the Omega Aquarius Sector }}
This code creates:
Name: | Vularan | Delule |
Type: | M1V Red Dwarf | M2V Red Dwarf |
Radius: | 2.98 x 105 (0.43 of Sol) | 2.71 x 105 (0.39 of Sol) |
Mass: | 7.29 x 1029 kg (0.37 of Sol) | 5.49 x 1029 kg (0.28 of Sol) |
Temperature: | 3200 K | 3000 K |
Luminosity: | 6.61 x 1024 (0.02 of Sol) | 4.23 x 1024 (0.01 of Sol) |
Distance: | 3.04 x 107 km (0.20 AU) | |
Ecosphere: | Between 0.15 and 0.35 AU | |
Location: | Alpha Valerian Sector 3 ly from the Theta Boromir System 7 ly from the Omega Aquarius Sector |