Ceres (planetulus)
asteroides
Vide etiam paginam discretivam: Ceres.
Ceres (planetulus) | |
---|---|
Ceres | |
Genus | Planetula |
Res orbitales epochae 4 Ianuarii 2010 | |
Excentricitas | .079221937086145 |
Axis semimaior | 2.76572318733308 UA |
perihelion | 2.546617238988486 UA |
aphelion | 2.984829135677673 UA |
Inclinatio orbitalis | 10.58625542718085° |
Longitudo nodi ascendentis | 80.39385218745325° |
Argumentum perihelii | 72.69269240394317° |
Anomalia media | 70.43400313899033° |
Periodus orbitalis | 4.5996127420141 anni |
Res physicae | |
Diameter | 960 × 932 km |
Massa | 8.7 × 1020 kg |
Densitas media | 2.0 g/cm3 |
Periodus rotationis | 9 h 4.4999886 m |
Classis spectralis | Tholen: G, SMASS: C |
Magnitudo absoluta | 3.34 |
Albedo | 0.090 |
De recognitione | |
Primus repertor | I. Piazzi |
Repertum | die 1 Ianuarii 1801 |
Designationes aliae | 1943 XB, A899 OF |
Ceres (-eris, f.), diu appellatione 1 Ceres (symbolum: )[1] agnita tanquam asteroidum primus, est planetula systematis solaris, quae inter Martem et Iovem circum solem movetur. In eadem regione, hodie sub nomine cinguli asteroidum nota, permulti asteroides reperiuntur; Ceres autum multo maiore est diametro et massa.
Ceres die 1 Ianuarii 1801 ab Iosepho Piazzi, astronomo Italico, inventa est, qui ab initio se cometem novum repperisse credebat. Ceres, e qua haec planetula appellata est, fuit Romana fructuum dea.
Bibliographia
recensere- Filippo Giacomo Carrozzo et al., "Nature, formation, and distribution of carbonates on Ceres" in Science Advances vol. 4 no. 3 (14 Martii 2018)
- Queenie H. S. Chan et al., "Organic matter in extraterrestrial water-bearing salt crystals" in Science Advances vol. 4 no. 1 (10 Ianuarii 2018)
- P. Molaro, A. F. Lanza, L. Monaco, F. Tosi, G. Lo Curto, M. Fulle, L. Pasquini, "Daily variability of Ceres’ albedo detected by means of radial velocities changes of the reflected sunlight" in Monthly Notices of the Royal Astronomical Society (2016)
- A. Nathues et al., "Brine residues and organics in the Urvara basin on Ceres" in Nature Communications vol. 13 no. 927 (2022)
- Andrea Raponi et al., "Variations in the amount of water ice on Ceres’ surface suggest a seasonal water cycle" in Science Advances vol. 4 no. 3 (14 Martii 2018)
- S. Marchi et al., "An aqueously altered carbon-rich Ceres" in Nature Astronomy Letters (2018)
Nexus externi
recensere- Catchall Minorum obiectorum index (catalog of Minor Objects): 1 Ceres (Anglice)
- Cereris imagines (Anglice)
- Elizabeth Landau, "Landslides on Ceres reflect hidden ice" (18 Aprilis 2017) apud Phys.org
- Elizabeth Landau, "Bright areas on Ceres suggest geologic activity" (13 Decembris 2017) apud Phys.org
Sol Planetae: Mercurius | Venus | Tellus (Terra) | Mars | Iuppiter | Saturnus | Uranus | Neptunus |
Planetulae: Ceres | Pluto | Haumea | Makemake | Eris Corpora alia: Satellites | Luna | Asteroides (+ indices) | Corpora transneptuniana |
Vide etiam indices corporum Systematis Solaris redactos secundum radium et massam. |
- ↑ JPL/NASA (2015-04-22). What is a Dwarf Planet?. . Jet Propulsion Laboratory