(This is a frontier version for the SE wiki, which mainly has worlds from 0.980, 0.980e, and 0.990{+}. Some of the data had to be made up by me considering this version's smaller data set that worlds can have. Atmospheric data lacks even the composition so those have to be inferred, and so does the life type.)
Stellacom's information[]
Technicals[]
Physicals[]
The planet has a diameter of 5719.14 miles, or 0.72153 D⨁, with the mass being 0.37817 M⨁, and the density is 5.5666 grams per cubic centimeter. The oblateness is 0.005876128, with the effective temperature being 263.39 kelvin, and the Earth similarity index is 0.886. The rotational period is 17 hours, 58 minutes, and 43.84 seconds, with the axial tilt being 128*20’49.10”, and the ascending node being 183*40’44.95”, additionally the age is 128.517 million years. The gravity on the equator is 7.0826 meters per second, with the gravity on the poles being 7.2105 meters per second. The first cosmic value is 5.73 kilometers per second, with the 2nd cosmic value being 8.10 kilometers per second.
Atmospherics[]
The atmospheric pressure here is 14.454 atm, with the air density being 22.879 grams per cubic centimeter, and the effective height is 30 miles. The average molar mass is 25.097, with the relative mass being 2.2827*10^-5, and the real mass of the atmosphere is 8.6325*10^-6 M⨁. The average temperature is 263.39 kelvin, or -9.76 degrees Celsius, or 14.432 degrees Fahrenheit, and the greenhouse effect is 77.327 kelvin.
Orbitals[]
The planet has an elliptical orbit, with the parent being the main star in the system, and the period is 20.042 years. The semimajor axis is 9.864 AU, with the pericentric distance being 9.574 AU, and the eccentricity is 0.029, additionally the inclination is 275*54’05.62”. The ascending node is 184*42’05.86”, with the argument of pericenter is 189*14’03.69”, and the mean anomaly is 67*58’04.77”. The longitude of pericenter is 373*56’09.55”, and the mean longitude is 441*54’14.33”.
Store[]
Internals[]
The planet’s core makes up 37% of its internals, and is 105.2% of the Earth’s core in physical size. Because of how young this planet is, the core is still steaming hot from the formative primordial years, and thus is still very active. Scans of the planet’s internals indicate that this core rotates fast enough to generate a magnetic field way larger than the Earth’s, more akin to a neptune. That core also seems to have the active potential to cover the planet in large supervolcanoes, however it does not seem to do that. What is stopping it is a very thick mantle, which is way thicker in material / density than the Earth’s mantle, which allows it to handle large amounts of magma suddenly shooting up. This however does not mean that tectonic events like volcanoes and earthquakes do not happen here, they do, and they are of a high magnitude, geography shaking even. In short, thick mantle, big tectonic events if they do happen, and a very active core.
Geography[]
The planet’s geography is generally formed to be 50/50 when it comes to land and sea, and there are thousands of small islands. There are a few unique properties of this geography, first there are plenty of craters, these are remnants from the formation of the planet only 100 something million years ago. This is also seen in the mountain ranges, which sometimes are punctured by ancient craters whose hilly centers are an indicator of where the asteroid / comet directly impacted. A unique geographic structure found here and not the Earth is closely knit island clusters.These clusters are more like riverslands except isolated from any land outside of them, and here they dot the planet’s oceans. There are several other types of islands here, seen from the map of this world. There are 3 main continents here, 2 in equatorial to northern regions, and one massive one which comprises 70 - 80% of the southern hemisphere.
Map[]
Climate[]
The climate here is noted to be generally a more rustic one. On the land the climate is similar to that of Antarctic valleys, and is also plenty windy. Sandstorms get whipped up every so often because of this climate, and on the high seas, it becomes a little more humid but the wind is worsened. The climate on the seas is not too different from the land, however it is able to turn out more destructive cyclonic storms than the Earth, being able to generate a category 5 cyclone every 3 months, sometimes even less. This climate is primordial in nature and is likely to change in the near future, and it is predicted that if life does emerge in a more complex form, the climate will change to be more of a dry jungle.
Biosphere[]
The planet’s geography is generally formed to be 50/50 when it comes to land and sea, and there are thousands of small islands. There are a few unique properties of this geography, first there are plenty of craters, these are remnants from the formation of the planet only 100 something million years ago. This is also seen in the mountain ranges, which sometimes are punctured by ancient craters whose hilly centers are an indicator of where the asteroid / comet directly impacted. A unique geographic structure found here and not the Earth is closely knit island clusters.These clusters are more like riverlands except isolated from any land outside of them, and here they dot the planet’s oceans. There are several other types of islands here, seen from the map of this world. There are 3 main continents here, 2 in equatorial to northern regions, and one massive one which comprises 70 - 80% of the southern hemisphere.
Gallery[]
Moon system[]
The planet has a small moon system. It consists of one cold selena, peppered with craters, and it also has 2 small cold asteroids which are most likely remnants from formation which have managed to settle into the orbital plane like the one major moon. This system is likely to expand in size but not in moons in the future, like the Earth’s system.
Grenphone | Valentino | Warwrent | |
---|---|---|---|
Photograph | |||
Class | Cold selena | Cold asteroid | Cold asteroid |
Mass | 4.1089*10^-5 M⨁ | 4.18*10^11 tons | 7.5623*10^11 tons |
Diameter | 257.74 Miles | 3.08 Miles | 5.19 Miles |
Orbital period | 1.097d | 2.429d | 5.380d |
Star system[]
The star system that this planet is part of is a binary system made up of a white subgiant and an orange dwarf. The system has mostly barren worlds, and most of them are rocky worlds. There is not really that much to write home about this system besides the two terras which exist in its part of the system. The orange dwarf side of this star system is home to two fresh primordial worlds which already have complex life both on land and on sea, and they are not even 200 million years old. These two terras are B(E) I and B(F) (names based on Exoplanetary data naming conventions), and because of these two, this system is used as a case study in the “Environmental-based accelerated complexity in life” theory, which says that provided the materials and environment, life could be hastened and made complex even only <200 million years since formation. These conditions are more opposed on the main star’s side of the system which has less materials and is generally less hospitable for life, which is why this world’s life seems stunted in comparison to the other two. In short this is a very fertile star system with three worlds with life.