New Planets with no info
- 1 Greyiafil
- 2 Juange
- 3 Postrameda
- 4 DAWS99812
- 5 HUE-M4851
- 6 Poolyarda
- 7 Fwample
- 8 Alayria
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Project SBAAH
SBAAH (Or SpaceBurger's Asteroid Atmosphere Hunt) strives to catalogue asteroids with atmospheric pressures exceeding 0.00001 atmospheres, or around 1 pascal. My end goal is to find an asteroid with lakes (if possible). All discoveries will be within the galaxy RG 0-1-3-1338, a max-size E1 galaxy with ~20 trillion stars.
SBAAH is no longer going to be updated.
Superpartes bureaucratic rights
I have made this blog for some peace of mind to have it written down somewhere not hidden. I have given Superpartes the rights to be a bureaucrat, but this is done as an 'honor' assignment. This is not due to some practicality as I would have not done this if that was the case. I do not expect him to use the powers of the position he is now in considering that he has not been on the wiki for the last 7 years. This is an honor thing considering that they are the founder of the wiki, and I see it as sort of 'not right' that they don't have any real powers besides being a mere content moderator. While I can not remove him from that position of power, I do not expect him to come back anytime soon, nor do I expect him to do much with that power …
My Libertarian approach to Wiki administration
This is an explanation as to why I take the Libertarian approach to some wiki issues and administration and for my future doings with this wiki. Wikis have one fundamental issue, and one that I wish to erase entirely, that being fandom policing. Fandom policing is the ethics of forcing a fandom to conform to a rigid set of social principles, normally mandated by a primary wiki's administration. I do not see immediately how an environment-based game like Space Engine could become an extension of Fandom Policing, I do not wish to see it become one, and after thinking about it and realizing that this wiki and many others that are part of the SE game could get infested by Fandom Policing. These are my personal policies around topics and it wil…
Yellow giant
Information:
Spectrum: G
Star class: III
Yellow giants or G-type giants represent stars with masses of 2 M⨀ or more that end the main sequence, they have an appearance similar to G-type main sequence stars
Lifespan:
from 388 million years (lightest) to 147 million years (heaviest)
Potential for habitable planets:
Yellow giants have the potential to host habitable planets
Orange giant
Information:
spectrum: K
Star class: III
Orange giants or K-type giants represent low- and medium-mass stars at the end of the main sequence and are the precursor stages of red giants
lifespan:
from 41 million years (lightest) to 24 million years (heaviest)
Potential for habitable planets:
Orange giants have the potential to host habitable planets
Red giant
Information:
spectrum: M
Star class: III
Red giants represent low- and medium-mass stars that evolved after the end of the main sequence, they range in mass from 0.25 M sol (lightest) to 12 M sol (heaviest), the sun The future will also be a red giant star in about 7 billion years
Lifespan:
Red supergiants have an expected lifespan ranging from 8 million years (heaviest) to 4 billion years (lightest).
Possibility of habitable planets:
red giants have the potential to host habitable planets although challenged by stellar winds and luminosity
Y-type star (brown dwarf)
Information:
Y-type brown dwarfs are the faintest type of brown dwarfs in the universe with a spectrum from Y0V-Y9V
Appearance:
They are almost black and emit very little light, with only a few faint red clouds on the brown dwarf's surface.
lifespan:
Y-type brown dwarfs can live from 300 trillion years to 1 million billion years. Brown dwarfs end up as dark dwarfs (like black dwarfs).
Possibility of habitable planets:
the light from Y-type brown dwarfs resembles that emitted by Rogue planets, so it is unlikely to support habitable planets
My civilizations
In this post I want to systematize all my civilizations that I wrote about in articles.
Civilizations about which almost nothing is known will not be listed here.
Will be supplemented.
- 1 Classification
- 1.1 Species
- 1.1.1 Possible note
- 1.2 Technology level
- 1.2.1 Symbols
- 1.3 Status
- 1.1 Species
- 2 Civilizations and intelligent species
- 3 Notes
- Mammalian
- Reptilian
- Avian
- Insectoid
- Arthropoid
- Plantoid
- Aquatic
- Machine
- Exotic
- Unclassifiable
- Unknown
- Parasite
- Marine
- Pre-sapiens
- Stone Age
- Bronze Age
- Iron Age
- Pre-Industrial
- Industrial
- Post-Industrial
- Interplanetary
- Interstellar
- Intergalactic
- Unknown
- Unclassifiable
- → — Indicates progress and transition to a new technological level. For example: Iron Age → Pre-Industrial
- ← — Indicates regression and a fall to the previous technological level. For example: Pre-In…
The difference between "Terrae" and "Terras"
"Terrae" is the plural form for terra, this may seem straight forward, but there is a bend in that logical line. All the worlds in the Terrae category are all life harboring worlds that have oceans and continents, and most of the time life inhabits both. These are what you would call "Garden worlds" but SED does not have a category for that so Terrae fits it nicely. Terras are worlds like Terrae, but they lack the life aspect, they have dead oceans and lifeless continents, and fit around more stars than the traditional Terrae. You could call these worlds marine, but that is a broad category that takes up multiple others so it would not make sense, there is no such thing as a "Temperate marine marine".
This is where I make the distinction.
Te…
T-type star (brown dwarf)
Information:
T-type stars are the second dimmest type of brown dwarf after Y-type stars. They are brown dwarfs that are least likely to have planets that support life. T-type brown dwarfs are divided into the following 3 types:
Faint T-type stars (T4-T9): These stars are not visible because they are too dim. They only emit a minimal amount of infrared rays (mostly not enough for genetically modified plants).
Type T stars have medium brightness (T1-T3): they emit faint light (not enough for plants)
Bright T-type stars (T0): They emit an amount of light that is not enough for normal plants but enough for genetically modified plants.
Life:
T-type stars can live for 100-200 trillion years. T-type stars evolve along two different paths:
Low-mass T-typ…
Red supergiant
Spectrum class: M
Star class: Ia,Iab,Ib
Information:
Red supergiants are an evolutionary form of stars with masses of 8M⨀ or more. They have short lifespans and strong stellar winds
Habitability
Red supergiant stars have short lifespans and quite strong stellar winds. However, they can still have habitable planets. The issue of longevity is not too much of a concern because human lifespan is extremely short compared to stars. The problem of stellar wind is not too worrying because the planet orbits at a distance (about 200-300 AU, depending on the star's brightness), so the stellar wind will be relatively weak at that distance. The problem is that the star The more massive and brighter the stars are, the more active they are compared to lighter…
Minhkhifg political system
1 Communist Emperor (Minhkhifg) 1: Minhkhifg National Assembly Minhkhifg communist Party
2 Prime minister
3:Ministers
L-type star (brown dwarf)
Information:
L-type stars are a type of brown dwarf that is common throughout the universe and faint. They may have habitable planets. If two L-type brown dwarfs collide, they will create an M-type red dwarf
Life:
L-type stars live for hundreds of billions of years. L-type stars do not undergo hydrogen fusion (because their mass is too small compared to the conditions needed for hydrogen fusion to occur), so they evolve by burning Deuterium in their cores. When Deuterium is exhausted they simply cool. However, after hundreds, even trillions of years, they will slowly shrink and become blue dwarfs (like orange dwarfs due to its predicted K-type spectrum) The star will eventually become a hydrogen white dwarf before cooling into a black dwarf
Ha…
O-type star
Information:
Type O stars are the heaviest, brightest, and rarest stars. They have only a few habitable planets
Life:
O-type stars live for about 2-8 million years. Their evolution time is very fast. O-type stars are divided into the following 4 types:
Faint O-type stars (O7-O9) evolve into red supergiants and then explode as supernovae, leaving behind neutron stars
O-type stars with average brightness (O4-O6) evolve into red supergiants (class 0 or Ia, Ib, Iab) that explode into supernovas, leaving behind black holes, which can also collapse into black holes.
Highly luminous O-type stars (O1-O3) evolve into red supergiants and then continue to evolve into LBV or Wolf-rayet stars and then explode into unstable supernova pairs, leaving no stella…
B-type star
Information:
B-type stars are super rare, super bright and massive stars. These stars rarely have habitable planets
Life:
B-type stars have a fairly short lifespan, only about 10-180 million years. However, B-type stars are divided into 2 types:
Faint B-type stars (B3-B9) evolve into red giants (class II or III) and then collapse into white dwarfs Ne-O-Na-Mg
Bright B-type stars (B0-B2) evolve into red supergiants (class Ia, Iab, Ib or II) and then explode as supernovas leaving behind neutron stars
Habitability:
B-type stars are less likely to form habitable planets due to their large radiation. Many planets (or moons) are habitable because the planets have been captured in interstellar space. Although However, this planet will face many problems. …
A-type star
Information:
A-type stars are bright and rare. They are unlikely to host a habitable planet.
Life:
Type A stars live for about 170 - 800 million years. They evolve faster and die faster because they are more massive and brighter.
Habitability:
Class A stars with habitable planets are quite rare due to their short lifespans. However, these planets are unlikely to support life due to their high UV emission. The ozone layer is probably non-existent. enough. Therefore, humans need a shield placed in orbit to block most UV rays from passing through.
F-type star
Information:
F-type stars are quite rare, they are hotter and brighter than Sol and are also good candidates for habitable planets.
Life:
F-type stars live for about 2-5 billion years, then the star ends the main sequence and becomes a red giant and then ends and becomes a carbon-oxygen white dwarf but it happens much faster because Type F is heavier and brighter than Sol.
Habitability:
F-type stars are strong candidates for having habitable planets. However, colonization will be more difficult because the star is brighter and emits more UV rays. So the planet must There is a thick layer of Ozone (O₃) to protect living organisms from UV rays. Without Ozone, organisms can only live underwater or underground until the ozone layer is created. F-ty…
G-type star (yellow dwarf)
Information:
G-type stars are the third most abundant stars in the universe. They are good candidates for habitable planets.
Life:
G-type stars live for 8-14 billion years. After the end of the main sequence, they become red giants and then become carbon-oxygen white dwarfs
Habitability:
G-type stars are stars that are most similar in brightness and size to Sol. In fact, Sol is a G2-class star. They are good candidates for habitable planets since this has been established. Prove with Sol-Earth that because the Earth is habitable, it is thought that there are many other G-type stars that also have habitable planets.
K-type star (orange dwarf)
Information:
K-type stars or orange dwarfs are the second faintest type of star in the universe. They are the second most common in the universe after red dwarfs. They are the best candidates for hosting habitable planets.
Life:
Normally, K-type stars have a lifespan of 20-50 billion years, making life more likely to proliferate. After the end of the main sequence phase, K-type stars will become red giants and then become a carbon white dwarf
Habitability:
K-type stars are more likely to host habitable planets than G-type stars because they are more common. The fact that K-type stars are dimmer means the planet must orbit closer to the star. The planet also experiences forces. The tides are stronger so there is less chance of having a moon, but…
Red dwarf type star
Information:
Red dwarfs are the dimmest stars in the universe. Because they have a small mass, which means the hydrogen fusion reaction is slower than Sol. In return, they last longer and are much more common. Many scientists suggested that they could be candidates for having planets that support life and human colonization.
Life:
Red dwarf stars live for tens of billions of years. That is very beneficial for life because it has enough time for life to develop if the planet is in the right position.
According to scientists, at the end of their lives, most red dwarfs will heat up and become blue dwarfs with a brightness equivalent to 0.5 L⨀. After the blue dwarf phase ends, they will continue to evolve into Helium white dwarfs (because red dwar…
All worlds created by me.
- 1 Some notes
- 1.1 Notes for myself
- 1.2 Unique Naming System
- 2 All locations that I have lored.
- 2.1 November 2022
- 2.2 December 2022
- 2.3 January 2023
- 2.4 February 2023
- 2.5 March 2023
- 2.6 April 2023
- 2.7 May 2023
- 2.8 June 2023
- 2.9 July 2023
- 2.10 August 2023
- 2.11 September 2023
- 2.12 October 2023
- 2.13 November 2023
- 2.14 December 2023
- 2.15 January 2024
- 2.16 February 2024
- 2.17 March 2024
- 2.18 April 2024
- 2.19 May 2024
- 2.20 June 2024
- 2.21 July 2024
- 2.22 August 2024
- 2.23 September 2024
- 2.24 October 2024
- 2.25 November 2024
- 2.26 December 2024
- 2.27 January 2025
Some locations that I have created may not be mentioned here, as Fandom has a habit of overlooking certain things. I also realized that the peak of my activity on this wiki in terms of page creation was not from January to December, but from November - Decem…
Minhkhifg data center
Status: Active
Information:
As a facility based in the capital of Minhkhifg, it is home to 30,000 people, it is responsible for remembering the data sent by probes for the purpose of studying whether the planet can be terraformed. no, in addition, it is also a place of research and experimentation of many scientists to test whether terraforming is possible. Currently it is under construction again.
Space ship
space ships: Defined as ships used for the transport of people and goods between planets or star systems, they may be of the following types:
1: Cargo ships: They are usually heavy, long, large to accommodate more cargo, they can transport oxygen, nitrogen, liquid hydrogen, water and metal materials
2:People transport ship: They have 2 main purposes: One is to transport people to and from the colonies, the other is for tourism purposes, they should have cosmic ray radiation shields, the more advanced ships have radiation shields. radiation against gamma rays (primarily of nebulae)
Addition of "WIP" and "On Hold" Templates and Explanation
Hey folks, I have some news regarding a couple new templates. I hope they're useful for everyone! The boxes should explain their purpose. Feel free to add these to your pages or discuss the proposed parameters. I also have a summary under each template:
Designed for pages in active development. I saw a few handmade notices so I decided to make this for everyone. To add, place to a page you'd like to pause.
Things needed for colonization
1 House: Houses on other planets than earth houses, It can be built by 3D printing, the shape can be dome divided into many areas such as: dining area, living area, working area, planting area and laboratory experience.
2 Mining: Mineral deposits were necessary for colonization purposes
3 Electric Factory: power plants needed to provide electricity and light as well as O2. These include: Thermal power (as long as the planet has coal ore), hydroelectricity (not applicable on arid planets, very well applied in Terra or Oceanic) Wind power (not applicable on planets) very cold or too hot or less windy)solar power (applicable on planets with a lot of light, not on planets with little or bad light, nuclear power: Divided into 2 types
Fission: Requ…
Terraforming
define:
Terraforming is the process of transforming a planet (Terrae or Aquaria, Carbonia, Ferria) into a habitable place for humans. They can do the following:
Add water: (If the planet is arid Terrae)
Extra Air (N2,O2): If the planet has no air or toxic air, this happens often because most planets have CO2 or SO2 in large amounts, in addition to NH3 (armonia), H2S (Hydro sulfide). These gases need to be removed
Shield from host star light: If a Terra (or an Oceanic) is too close, the planet will inevitably heat up and become either Warm Terra or Hot Terra. Hot oceanic Aquaria are also common. If not shielded, the planet will act. The planet will become the new Venus
More greenhouse gases: If the planet (or moon) is far from the star
More Light…
Alara
"Alara" is a new system that I am working on, and one I will stick too. I have had an idea about writing astronomy from the perspective of an alien civilization, that has always fascinated me. All new articles I make will be centered around Alara in some way, but still stick to the usual cataloguing planets too. I hope you all enjoy the work i put into my articles and the lore I add.
New Articles
Currently working on a bunch of stuff! I love to add immense amounts of detail to articles, so anyone who likes a good read will like what I write
Stay tuned
Largest star
3.AHL-6: 103.84 AU
- KFK-1: 137.79 AU
- RS 0-0-0-1583-25547-0-0-32 A: 121.54 AU
4.AHL-5: 98.27 AU
5.AHL-4: 91 AU
6.RS 0-0-0-1583-28834-0-0-291 A: 81.99 AU
7.RS 0-0-0-1583-28852-0-0-5 A: 66.4 AU
8.RS 0-0-0-1583-28848-0-0-146 A: 65.7 AU
Version Notation that I use
This is the notation I use for versions of Space Engine
0.990.43.1890 - The version which still has Rodrigos mod and is also the newest.
0.990.43.1890* - That version but modded.
GR/0.990 - The modern version of Space Engine as of writing this summer of '23
0.990* - The same modern version but modded in some way that features the said object (planets that are part of modded galaxies)
0.980 - The old (and personally better for me) version that was made between '16 - '17
0.980* - The same version made between '16 - '17 except modded in some way that features the object. (Like a modded galaxy)
This notation applies to all versions I may use.
Minhkhifg communist state
Total population: 194×10⁹
Total colony: 34 (29 terrae,4 aquaria,1 gas giant)
Total state: 33
Total Territory: 1 (1 gas giant)
Total military base: 1
Total GDP: 250 qd dollar
average income: 410000 dollar
Highest income: 455000 dollar
Lowest income: 360000 dollar
HDI: 0.964
Economy: 99.91
Tax: 22% (highest: 26.4%)
Total solider: 4.4×10⁹
Defense budget: 2.6% GDP
Environment budget: 1.6% GDP
Science and technology development budget: 3% GDP
colonist mission
mission 1: find planet like earth
mission 2: Landing and setting up the first base
Mission 3: mapping
Mission 4: mining
Mission 5: build the first farm
page will be updated later...
Should I add all the planets I have made into my profile?
I have got a bunch of worlds, should I add all of them /w links?
SED needs to become "better" (more optimized)
The Space Engine database is a wiki dedicated to cataloging all the planets (majority procedural) that started in 2017. The current admin and only admin is the user "Superpartes", and they seem to have left in that same year. Whilst being on the wiki during that time period, the wiki was in a golden era, and pages were created every day and the wiki was generally optimized for its time. After Superpartes left the wiki and the other early users, the wiki entered a sort of dark age with it getting a new page every week or more. It has been now 5 years since, and the space engine wiki has entered into a new active era that might still be categorized as still part of the dark age, and should transition back to that age in early 2017. The categ…
About my planets
I will be glad if you correct something in my articles. I'm sure almost all my mistakes will be related to grammar.
If you want to add something, please read these points:
1. This should not change the lore or the history of the planet. Also, the abrupt addition of "alien civilization" is undesirable(But if you write me a proposal about it, then I don't mind)
2. I allow you to insert different images related to the planet in articles.
3. Please notify me of any changes you make.
Also, I will be grateful if you offer some pretty interesting ideas.
Note here
If anyone sees Amura in my blog post, you will notice that this planet is created by me and you will not find it in the game itself. From now on, anyone planets that I created and possibly you guys will always be in the vlogs for now. If you want the planet to be in your game, let me know and comment it here. I don't know who would want it, maybe three or five people might be interested, but for right now, I will have to wait and see.
Amura
- 1 Description
- 2 Climate
- 3 Features
- 4 Flora and Fauna
- 5 Amuri
- 6 Clans
- 7 Extras
Amura is a warm terra located 125.54 light years from Earth. It is one of four planets (Other three being Voodovevor, Notop, and Oso) that orbit around a star called Beid (Omicron1 Eridani) and it is about 2.90 AU from the star. It alongside Notop are binary planets, orbiting around one another while making them both position second from Beid. Amura only has one moon, a titan called Tillo. It and all other objects in the system except for Voodovevor have life on them.
The planet is 366.175 million years old; meaning it has been around since the Devonian period on Earth, making the life there relatively young. Although the planet has oxygen in the atmosphere for the life evolvin…
Planet Pics
Well, I created this and take this cool picture. What are the objects by the way? Well from left to right, that is Amura, Notop, and Tillo. All are habitable. The star in the background is a real star called Beid (Omicron1 Eridani). By the way, I created those object, so you will not find them in Space Engine.