Hubroid Star System: Difference between revisions

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(Created page with "Hubroid is a G9V Yellow Main Sequence star with a radius of {{Exp|7.78|5}} km (1.12 times Sol), mass of {{Exp|2.30|30}} kg (1.15 times Sol), temperature of 5000 K, and luminos...")
 
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Hubroid is a G9V Yellow Main Sequence star with a radius of {{Exp|7.78|5}} km (1.12 times Sol), mass of {{Exp|2.30|30}} kg (1.15 times Sol), temperature of 5000 K, and luminosity of {{Exp|2.69|26}} (0.70 of Sol).
{{Star Data
 
|type=G9V Yellow Main Sequence
; Location : 2 ly from the [[Tovina Star System]] / 5 ly from the [[Sigma Tamelos Sector]] in the [[Beeria Sector]]
|radius={{Exp|7.78|5}} km (1.12 times Sol)
|mass={{Exp|2.30|30}} kg (1.15 times Sol)
|temp=5000 K
|lum={{Exp|2.69|26}} (0.70 of Sol)
|loc=2 ly from the [[Tovina Star System]]<br>3 ly from the [[Tucana Star System]]<br>5 ly from the [[Sigma Tamelos Sector]] in the [[Beeria Sector]]
}}


{{Planet Data
{{Planet Data

Revision as of 00:48, 30 December 2021

Type: G9V Yellow Main Sequence
Radius: 7.78 x 105 km (1.12 times Sol)
Mass: 2.30 x 1030 kg (1.15 times Sol)
Temperature: 5000 K
Luminosity: 2.69 x 1026 (0.70 of Sol)
Location: 2 ly from the Tovina Star System
3 ly from the Tucana Star System
5 ly from the Sigma Tamelos Sector in the Beeria Sector

Hubroid Prime

Class: E
Distance: 6.89 x 107 km (0.46 AU)
Period: 10.58 Days
Radius: 6,363.38 km (Similar to Earth)
Gravity: 1.08 G

Although world is similar in size and composition to Earth it has little potential to develop into a Class M. At this time the surface is mostly molten with a very dense core, mostly of iron, silicone, and magnesium. There is a thin atmosphere composed mostly of hydrocarbons, carbon dioxide, sulfuric acid, and hydrogen sulfide. The planet is too close to Hubroid to develop into a Class M world and more than likely evolve into a large Class B / C or a very hot Class H / N world in several billion years. Due to its similar size to Earth, terraforming may be possible with heavy atmospheric changes once the core cools in several billion years. Heavy volcanic activity and tectonic instability cause considerable volcanic gas venting into the atmosphere, as such the atmosphere is particularly caustic and hot. Extreme caution should be taken if attempting to enter the atmosphere.