|
|
Space Astro
|
Info for exoplanet "Ezezuze Qov"
| Scientific (actual) data |
|---|
| Name | TIC 434398831 c |
| Planet status | Confirmed |
| Planet mass | 0.0227 |
| Radius | 0.5023 |
| Orbital period | 6.21029 |
| Semi major axis | 0.06572 |
| Orbit eccentricity | 0.013 |
| Inclination | 87.79 |
| Discovered | 2024 |
| Updated | 2025-05-11 |
| Omega | -59 |
| Tzero tr | 2458470 |
| Temperature (kelvin) | 1050 |
| Publication | Published in a refereed paper |
| Detection type | Primary Transit |
| Mass measurement type | Theoretical |
| Radius measurement type | Primary Transit |
| Alternate names | Theia 116 c |
| Star name | TIC 434398831 |
| Right ascension | 93.96° |
| Declination | 16.02° |
| Mag v | 11.7 |
| Star distance | 214.1 |
| Star metallicity | -0.08 |
| Star mass | 0.992 |
| Star radius | 0.909 |
| Star sp type | G3V |
| Star age | 0.061 |
| Star temperature | 5638 |
| Wikipedia article | TIC 434398831 c |
Back
| |
| Fictional info (?) |
|---|
| Suggested name | Ezezuze Qov |
| Planet type | Small hot gas planet |
| Having almost no atmosphere to retain heat, it has surface temperatures that vary diurnally more than on any other planet in its solar system, ranging from 80°K (-193°C) at night to 700°K (427°C) during the day across the equatorial regions.
It may have had carbonyl sulfide oceans in the past, but these would have vaporized as the temperature rose due to a runaway greenhouse effect.
It was the one of the first exoplanets visited by a spacecraft, and one of the first to be successfully landed on.
very expensive ride. |
| Atmosphere | Helium | 80% |
| Sulfur dioxide | 14% |
| Carbonyl sulfide | 4.6% |
| Oxygen | 0.36% |
| Atmospheric pressure | 16 bar |
 |
| No known satellites |
| Google search for Ezezuze qov |
|
Website by Joachim Michaelis
|
|
|
|