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Space Astro
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Info for exoplanet "Thrymr"
| Scientific (actual) data |
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| Planet | BD+63 1405 b |
| Planet status | Confirmed |
| Mass sini | 3.96 |
| Orbital period | 1198.48 |
| Semi major axis | 2.06 |
| Orbit eccentricity | 0.88 |
| Discovered | 2021 |
| Updated | 2021-05-21 |
| Omega | 92.25 |
| Tperi | 2459440 |
| K | 186.01 |
| Publication | Published in a refereed paper |
| Detection type | Radial Velocity |
| Mass detection type | Radial Velocity |
| Star name | BD+63 1405 |
| Right ascension | 271.4° |
| Declination | 63.67° |
| Mag v | 9 |
| Star distance | 38.09 |
| Star sp type | K0 |
| Wikipedia article | BD+63 1405 b |
Back
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| Fictional info (?) |
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| Suggested name | Thrymr |
| Planet type | Cold planet |
| For this reason, scientists often classify Thrymr and Lethrymr as "cold planets" to distinguish them from the other planets. The interior of Thrymr is mainly composed of ices and rock. It is named after the deity Thrymr, the demon of nature.
At this time it may appear as a bright star-like object, but is often far more difficult to observe than Lethrymr.
It was the one of the first exoplanets visited by a spacecraft, and one of the first to be successfully landed on.
Future astrobiology missions are planned, including the Thrymr 1400 and ExoThrymr rovers. |
| Atmosphere | Ozone | 39% |
| Formaldehyde | 33% |
| Xenon | 27% |
| 2H2O | 0.59% |
| Methane | 1.0E-6% |
| Atmospheric pressure | 0.05 bar |
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| No known satellites |
| Google search for Thrymr |
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Website by Joachim Michaelis
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