594913 ꞌAylóꞌchaxnim - Knowledge (XXG)

2570: 2558: 2374: 908:-type orbit (Q > 0.983 AU), in which the asteroid's aphelion oscillates around Earth's perihelion distance of 0.983 AU. About 740 thousand years afterward, ꞌAylóꞌchaxnim will likely return to its Mercury-crossing orbit, though gravitational perturbations by Mercury and Venus will scatter it onto an Earth-crossing orbit once more before colliding with either planet. After 10 million years from the present, ꞌAylóꞌchaxnim will have most likely collide with Venus. 897:

of Mercury and Venus during these orbital oscillations. The Kozai resonance often disrupts the orbits of Vatira asteroids, albeit it can also lead to orbital stability for some unperturbed Vatira asteroids. At about 1.2 million years from the present, ꞌAylóꞌchaxnim will leave the Vatira region and will transition onto a Mercury-crossing orbit, with its perihelion oscillating around Mercury's aphelion distance before decoupling from the planet's orbit at about 2.1 million years.

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Mercury. ꞌAylóꞌchaxnim rarely crosses the orbits of Mercury and Venus, which reduces the number of close encounters with either planet that would otherwise perturb ꞌAylóꞌchaxnim's orbit. Nevertheless its orbit is likely to be stable for less than a million years, unless it is on (or enters soon) a nearby 3:2

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and gravitational perturbations. Within the Vatira region, the Kozai resonance causes the orbital inclinations and eccentricities of asteroids to oscillate over several millions of years. As a result, Vatira asteroids can become Atira-class asteroids and vice versa over time, and can cross the orbits

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Modeling of the observational selection effects of the Zwicky Transient Facility survey shows a small probability of it detecting ꞌAylóꞌchaxnim based on the current NEO model. The low probability of detection may imply an additional source of ꞌAylóꞌchaxnim asteroids in the inner Solar System such as

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of southern California. The name celebrates the location of the discovery (Palomar Mountain, which is on ancestral Luiseño land) and the fact that ꞌAylóꞌchaxnim is the first discovered asteroid to orbit entirely within the orbit of Venus. Being the prototype of the informally named Vatira class, its

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Dynamical modeling of ꞌAylóꞌchaxnim's orbit show that the most likely scenario for its orbital evolution is that ꞌAylóꞌchaxnim's orbit will oscillate for several millions of years before gravitational perturbations lead to the asteroid's eventual collision with a planet, most likely Venus. At 140

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of the asteroid's orbit, reducing its momentum and causing it to orbit closer to the Sun. Such inward orbital migration is thought to be rare. Near-Earth asteroids transitioning into the Vatira region often have unstable, short-term orbits due to frequent gravitational perturbations by Venus and

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by approximately 15.9 degrees. ꞌAylóꞌchaxnim has a smaller orbital eccentricity and inclination compared to the generally expected values for typical Vatira asteroids, which were predicted to have an eccentricity around 0.4 and an inclination around 25 degrees. The asteroid's minimum orbit

767:. However, unlike previously known Atira asteroids, ꞌAylóꞌchaxnim's orbit is contained within that of Venus, thus it falls into the proposed category of Vatira asteroids—a subclass of Atira asteroids with aphelion distances less than Venus's perihelion distance (hence the name: a 679:(NEOCP) on 4 January 2020. Follow-up observations were then conducted at various observatories in order to determine the asteroid's orbit based on its orbital motion. The discovery of the asteroid was then formally announced in a 1245:

We have provisionally named objects with 0.307 < Q < 0.718 AU Vatiras, because they are Atiras which are decoupled from Venus. Provisional because it will be abandoned once the first discovered member of this class will be

932:, respectively. Near-Earth asteroid population models predict that at least one asteroid of this size has an orbit within that of Venus, implying that ꞌAylóꞌchaxnim could be one of the largest members of the Vatira population. 1229: 1543: 980:, hence it is classified as an Sa-type asteroid. Assuming an average albedo of 0.22 for S-type asteroids, ꞌAylóꞌchaxnim's diameter can be constrained to approximately 1.5 km (0.93 mi). 879:

that caused its orbital eccentricity to gradually increase over time, evolving onto an Earth-crossing orbit. Subsequent close encounters with Earth, Venus, and Mercury resulted in gravitational

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issued by the MPC on 8 January 2020. Follow-up observations were later conducted in November 2020 by the Palomar and Xingming observatories, reducing ꞌAylóꞌchaxnim's uncertainty parameter to 5.

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Popescu, M.; de León, J.; de la Fuente Marcos, C.; Vaduvescu, O.; de la Fuente Marcos, R.; Licandro, J.; Pinter, V.; Zamora, O.; Fariña, C.; Curelaru, L. (11 August 2020).

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on 8 January 2020, after follow-up observations sufficiently determined its orbit. After its orbit had been determined to sufficient precision, the MPC assigned it the

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with Venus, meaning that ꞌAylóꞌchaxnim completes approximately three orbits for every two orbits completed by Venus. The orbit of ꞌAylóꞌchaxnim is moderately

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thousand years from the present, ꞌAylóꞌchaxnim's aphelion distance will exceed Venus's perihelion distance, as a result of the combined effects of the

3345: 3372: 2448: 589:'s orbit, and is thus the first and only known member of the eponymous ꞌAylóꞌchaxnim (informally named Vatira before its discovery) population of 755:(AU), it has the smallest known aphelion of all asteroids. In comparison, Venus's average orbital distance from the Sun is 0.723 AU, with a 2835: 2491: 1963: 3317: 2831: 2174: 566: 167: 3703: 776: 676: 405: 394: 375: 3698: 3365: 2255: 1573: 946: 924:

of approximately 16.2. The medium diameter of ꞌAylóꞌchaxnim is expected to be larger than 1 km (0.62 mi). Assuming that the

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has a slightly smaller semi-major axis. In this case, ꞌAylóꞌchaxnim has the third-smallest known semi-major axis among all asteroids.

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on 4 January 2020, by astronomers Bryce Bolin, Frank Masci, and Quanzhi Ye. The discovery formed part of a campaign for detecting

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Bolin, B. T.; Ahumada, T.; van Dokkum, P.; Fremling, C.; Hardegree-Ullman, K. K.; Purdum, J. N.; et al. (April 2023).

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Bolin, B. T.; Ahumada, T.; van Dokkum, P.; Fremling, C.; Granvik, M.; Hardegree-Ullman, K. K.; et al. (August 2022).

3636: 3693: 3291: 3286: 3281: 2395: 1914:"On the orbital evolution of 2020 AV2, the first asteroid ever observed to go around the Sun inside the orbit of Venus" 3413: 2441: 671:

around 18. The discovery of ꞌAylóꞌchaxnim was reported by astronomer Bryce Bolin, and was subsequently listed on the

856:(0.5553 AU) as having the second-smallest known orbital period and semi-major axis among all asteroids, though 3577: 3567: 3572: 3065: 2536: 1283: 966: 618: 582: 67: 60: 3683: 3408: 3071: 1059: 880: 706: 664: 93: 3196: 1669: 3592: 3476: 3388: 3215: 3147: 2368: 1322: 696: 654: 630: 511: 423: 269: 256: 3095: 1721: 633:

at the Palomar Observatory. The detection of such objects is difficult due to their close proximity to the

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After decoupling from Mercury's orbit, ꞌAylóꞌchaxnim was shown to oscillate between an Atira-type orbit (

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Masi, Giancula (February 2003). "Searching for inner-Earth objects: a possible ground-based approach".

3049: 2356: 2348: 2340: 2324: 2316: 2308: 2283: 1797: 1505: 3486: 2528: 2131: 2070: 2002: 1937: 1821: 1637: 1462: 1434: 1388: 1203: 810: 291: 2042: 1913: 3126: 2803: 2791: 2645: 2485: 1150: 747:ꞌAylóꞌchaxnim is the only asteroid known to have an orbit completely within Venus's orbit. With an 723: 692: 672: 622: 578: 340: 152: 72: 2166: 1858: 969:

bodies. The absorption features in ꞌAylóꞌchaxnim's spectrum appear to be intermediate between the

3662: 3271: 3176: 3161: 2930: 2265: 2213: 2147: 2121: 2088: 2060: 2020: 1955: 1927: 1894: 1874: 1839: 1811: 1480: 1452: 1406: 1378: 1031: 921: 668: 602: 537: 525: 2403: 817:'s aphelion distance of 0.467 AU. ꞌAylóꞌchaxnim's orbit is also moderately inclined to the 3471: 3423: 3156: 2687: 2598: 2586: 876: 806: 780: 772: 752: 381: 262: 226: 211: 3650: 3597: 3171: 2653: 2387: 2379: 2276: 2205: 2139: 2112: 2078: 2010: 1945: 1884: 1829: 1645: 1470: 1396: 1365:"The discovery and characterization of a kilometre sized asteroid inside the orbit of Venus" 1364: 1219: 1211: 962: 935: 814: 448: 218: 109: 2419: 3518: 3461: 3446: 3109: 2918: 2363: 1014: 974: 970: 958: 893: 795: 598: 585:

on 4 January 2020. It is the first asteroid discovered to have an orbit completely within

517: 246: 195: 2373: 2198:"First asteroid found within Venus's orbit could be a clue to missing 'mantle' asteroids" 1142: 3077: 2135: 2074: 2006: 1941: 1825: 1641: 1466: 1392: 1207: 3533: 3501: 3466: 3055: 3022: 2844: 2411: 2272:

First asteroid found within Venus's orbit could be a clue to missing 'mantle' asteroids

961:. The abundance of olivine in the surface of ꞌAylóꞌchaxnim suggests that it could be a 760: 626: 590: 321: 302: 203: 1649: 3672: 3557: 3456: 3451: 3181: 2910: 2866: 2861: 2500: 2245: 2217: 2151: 2092: 2024: 1959: 1898: 1863:"A Twilight Search for Atiras, Vatiras and Co-orbital Asteroids: Preliminary Results" 1861:; Prince, Thomas A.; Helou, George; Farnocchia, Davide; et al. (December 2019). 1843: 1695: 1540:"2020 AV2, the first intervenusian asteroid ever discovered: an image – 08 Jan. 2020" 1484: 1410: 1009: 954: 939: 905: 872: 661: 17: 3623: 3396: 3244: 3232: 3027: 2900: 2744: 2578: 1090: 942: 314: 189: 3250: 2563: 2546: 2143: 1279: 1215: 1005:, a dynamically-changing Atira asteroid that may have once been a Vatira asteroid 794:

of 2. The asteroid orbits the Sun in approximately 151 days (0.41 years), with a

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Upon discovery, the asteroid was given the internal designation ZTF09k5. The

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name is expected to be used to refer to this newly confirmed population.

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Meet 2020 AV2, the first asteroid found that stays inside Venus's orbit!

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de la Fuente Marcos, Carlos; de la Fuente Marcos, Raúl (1 August 2019).

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intersection distance from Mercury and Venus is about 0.066 AU (9.9

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de la Fuente Marcos, Carlos; de la Fuente Marcos, Raúl (25 July 2019).

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after a stressed vowel) and is not normally written (Elliot 1999: 15).

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of 'Venus' and 'Atira'). ꞌAylóꞌchaxnim is technically classified as a

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distance of 0.718 AU. ꞌAylóꞌchaxnim is formally classified as an

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greater than 47 degrees, meaning that they are only observable during

2047:, a major step towards the future discovery of the Vatira population" 1912:

de la Fuente Marcos, Carlos; de la Fuente Marcos, Raúl (1 May 2020).

1189:"The orbital distribution of Near-Earth Objects inside Earth's orbit" 925: 888:

with Venus, which could extend its stability to a few million years.

488: 1077:'morning star' (also 'food left overnight'), which in turn derives ( 2126: 2065: 1932: 1879: 1816: 1457: 1383: 3549: 2266:

Meet 2020 AV2, the 1st asteroid entirely within the orbit of Venus

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in 2020 suggests that ꞌAylóꞌchaxnim has a reddish surface that is

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by the Minor Planet Center due it having an orbit within that of

3225:(Earth gravity assist; Apr 2020, Venus gravity assist; Oct 2020) 3135: 2426: 2167:"Conversion of Absolute Magnitude to Diameter for Minor Planets" 3361: 3306: 2430: 1187:

Greenstreet, Sarah; Ngo, Henry; Gladman, Brett (January 2012).

992:– a hypothetical population of asteroids within Mercury's orbit 965:

asteroid formed as a fragment from the rocky mantles of large,

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approximately 16.2, the asteroid is expected to be larger than

634: 127: 2043:"Understanding the evolution of Atira-class asteroid 2019 AQ 1773:

University of California at San Diego doctoral dissertation.

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At the time of discovery, ꞌAylóꞌchaxnim was located in the

629:(Atiras) using the wide-field ZTF camera on the 1.22-meter 133: 112: 2242:

2020 AV2, the first intervenusian asteroid ever discovered

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Monthly Notices of the Royal Astronomical Society: Letters

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Monthly Notices of the Royal Astronomical Society: Letters

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Monthly Notices of the Royal Astronomical Society: Letters

121: 1798:"Orbital Dynamics of 2020 AV2: the First Vatira Asteroid" 139: 130: 124: 928:

is between 0.25 and 0.05, its diameter should be around

2204:. American Association for the Advancement of Science. 1439:, the first known asteroid orbiting inside Venus orbit" 904: < 0.983 AU) and an Earth-crossing 44:

Long-exposure composite image of ꞌAylóꞌchaxnim (center)

1512:. Department of Mathematics, University of Pisa, Italy 775:

under the Atira classification, though the asteroid's

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as a New Step in the Quest for the Vatira Population"

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Research Notes of the American Astronomical Society

1058:and −06° 08′ 41.8″. See 790:The orbit of ꞌAylóꞌchaxnim is well-secured with an 739:Orbit diagram of ꞌAylóꞌchaxnim, as viewed from the 535: 523: 509: 446: 421: 414: 403: 392: 373: 361: 349: 339: 327: 312: 300: 290: 278: 268: 255: 245: 217: 187: 165: 142: 115: 103: 91: 86: 78: 66: 54: 49: 1791: 1789: 1787: 1785: 1783: 1781: 1779: 1533: 1531: 1529: 1527: 871:ꞌAylóꞌchaxnim had likely originated from the main 3092:ending of P Cygni profile hydrogen emission lines 2171:Department of Physics, Engineering, and Astronomy 2052:Monthly Notices of the Royal Astronomical Society 1444:Monthly Notices of the Royal Astronomical Society 1428: 1426: 1424: 1422: 1420: 1182: 1180: 1178: 1176: 1174: 1172: 1136: 1134: 1132: 1130: 1128: 1126: 1124: 2036: 2034: 1609:(Q < 0.983 (au)). Jet Propulsion Laboratory 1054:of ꞌAylóꞌchaxnim at the time of discovery are 3373: 3318: 2442: 1094: 1084: 1078: 1072: 717: 716:). Its name was approved on 8 November 2021. 27:First known asteroid of the Vatira population 8: 3689:Discoveries by the Zwicky Transient Facility 1987:"Hot and Eccentric: The Discovery of 2019 LF 1670:"First Asteroid Found Inside Orbit of Venus" 1317: 1315: 1313: 1311: 1309: 1307: 1305: 1089:'to stay the night, be kept overnight'. The 953:-rich, based on the presence of a 1 μm 32: 1601: 1599: 1358: 1356: 1354: 1352: 1350: 1348: 1346: 1344: 1280:"JPL Small-Body Database Browser: 2020 AV2" 3401: 3380: 3366: 3358: 3325: 3311: 3303: 2449: 2435: 2427: 2372: 1663: 1661: 1659: 1274: 38: 2288:NeoDyS-2, Near Earth Objects—Dynamic Site 2125: 2082: 2064: 2014: 1949: 1931: 1888: 1878: 1833: 1815: 1474: 1456: 1400: 1382: 1272: 1270: 1268: 1266: 1264: 1262: 1260: 1258: 1256: 1254: 1223: 1141:Bolin, B.; et al. (8 January 2020). 845:ꞌAylóꞌchaxnim is approximately tied with 3709:Astronomical objects discovered in 2020 3679:Minor planet object articles (numbered) 3641: 3134:detection on the sunlit surface of the 2549:(lunar sample return mission; Nov 2020) 1702:. Minor Planet Center. 25 November 2020 1607:"JPL Small-Body Database Search Engine" 1120: 1043: 593:. ꞌAylóꞌchaxnim has the smallest known 2173:. Stephen F. Austin State University. 1672:. California Institute of Technology. 1567: 1565: 1563: 1561: 920:ꞌAylóꞌchaxnim is estimated to have an 157: 31: 2177:from the original on 10 December 2008 1435:"Physical characterization of 2020 AV 751:distance of approximately 0.654 722:means 'Venus girl' in the indigenous 352:Longitude of ascending node 7: 1676:from the original on 2 February 2020 1584:from the original on 10 January 2020 1546:from the original on 11 January 2020 1290:from the original on 11 January 2020 1157:from the original on 11 January 2020 617:ꞌAylóꞌchaxnim was discovered by the 2377: 1796:Greenstreet, Sarah (1 March 2020). 1668:Clavin, Whitney (15 January 2020). 777:minimum orbit intersection distance 677:Near-Earth Object Confirmation Page 1329:. International Astronomical Union 947:Roque de los Muchachos Observatory 875:, where its orbit was locked in a 25: 3231:(sample collection from asteroid 2250:The Virtual Telescope Project 2.0 1760:. University of California Press. 1538:Masi, Gianluca (9 January 2020). 1510:Near Earth Objects – Dynamic Site 832: km) and 0.079 AU (11.8 798:of approximately 0.5554 AU. 3656: 3644: 3277: 3276: 3265: 3146: 3061:Ophiuchus Supercluster explosion 2834: 2568: 2562: 2556: 2490: 1966:from the original on 2 June 2020 1700:Minor Planet Electronic Circular 1696:"MPEC 2020-W156 : 2020 AV2" 1235:from the original on 29 May 2019 1147:Minor Planet Electronic Circular 681:Minor Planet Electronic Circular 649:as the Sun is below the Earth's 637:: asteroids within the orbit of 108: 3253:(lunar sample return; Dec 2020) 2268:, by Gianluca Masi, 10 Jan 2020 1572:Plait, Phil (10 January 2020). 1143:"MPEC 2020-A99 : 2020 AV2" 1857:Ye, Quanzhi; Masci, Frank J.; 1062:for constellation coordinates. 456:(assumed for S-type asteroids) 1: 3243:(sample return from asteroid 1771:Dictionary of Rincón Luiseño. 1650:10.1016/S0019-1035(03)00082-4 1542:. Virtual Telescope Project. 912:within the orbit of Mercury. 807:mean-motion orbital resonance 709:594913 on 20 September 2021 ( 601:among all asteroids. With an 3292:Category:2021 in outer space 3287:Category:2020 in outer space 3282:Category:2019 in outer space 2144:10.1016/j.icarus.2023.115442 1216:10.1016/j.icarus.2011.11.010 805:'s orbit is close to a 3:2 364:Argument of perihelion 3725: 3704:Near-Earth objects in 2020 2196:Redd, Nola (1 July 2020). 190:Minor planet category 3699:Sa-type asteroids (SMASS) 3404: 3389:Small Solar System bodies 3340: 3260: 3080:(soft gamma ray repeater) 2607:Asteroid close approaches 2554: 2462: 1284:Jet Propulsion Laboratory 1071:The name is derived from 967:internally differentiated 842: km), respectively. 779:from Earth is 0.346 619:Zwicky Transient Facility 597:and third-smallest known 583:Zwicky Transient Facility 556: 461: 303:Orbital period (sidereal) 237: 225: 159:[ʔajˈlɔʔt͜ʃaxnɪm] 61:Zwicky Transient Facility 37: 3052:location and periodicity 2016:10.3847/2515-5172/ab346c 1890:10.3847/1538-3881/ab629c 1867:The Astronomical Journal 1282:(2021-09-04 last obs.). 1030:, the first known Venus 916:Physical characteristics 783:(51.8 million 731:Orbit and classification 627:interior-Earth asteroids 538:Absolute magnitude 416:Physical characteristics 384:(51.9 million 168:Alternative designations 3334:Minor planets navigator 3074:wind speed measurements 2369:JPL Small-Body Database 2210:10.1126/science.abd6026 1095: 1085: 1079: 1073: 718: 697:provisional designation 631:Samuel Oschin telescope 567:provisional designation 219:Orbital characteristics 3514:Trans-Neptunian object 3272:Outer space portal 2301:Observation prediction 1951:10.1093/mnrasl/slaa027 1835:10.1093/mnrasl/slaa025 1756:William Bright (1968) 1476:10.1093/mnras/staa1728 1402:10.1093/mnrasl/slac089 1099:occurs automatically ( 922:absolute magnitude (H) 744: 99:(594913) ꞌAylóꞌchaxnim 3219:retirement (Jan 2020) 3167:C/2017 T2 (PANSTARRS) 3086:black hole hypothesis 2084:10.1093/mnras/stz1437 1746:WGSBN Bulletin 1, #11 1722:"MPC/MPO/MPS Archive" 1052:celestial coordinates 886:mean-motion resonance 792:uncertainty parameter 738: 591:Atira-class asteroids 239:Uncertainty parameter 3487:Distant minor planet 3346:594913 ꞌAylóꞌchaxnim 2612:594913 ꞌAylóꞌchaxnim 2364:594913 ꞌAylóꞌchaxnim 2284:594913 ꞌAylóꞌchaxnim 1769:Eric Elliott (1999) 1758:A Luiseño Dictionary 621:(ZTF) survey at the 563:594913 ꞌAylóꞌchaxnim 94:MPC designation 33:594913 ꞌAylóꞌchaxnim 18:594913 ʼAylóʼchaxnim 3694:Named minor planets 3197:156P/Russell–LINEAR 3182:C/2020 F3 (NEOWISE) 3127:atmosphere of Venus 2646:temporary satellite 2420:Physical parameters 2136:2023Icar..39415442B 2075:2019MNRAS.487.2742D 2007:2019RNAAS...3..106D 1942:2020MNRAS.494L...6D 1826:2020MNRAS.493L.129G 1726:Minor Planet Center 1642:2003Icar..163..389M 1467:2020MNRAS.496.3572P 1393:2022MNRAS.517L..49B 1327:Minor Planet Center 1208:2012Icar..217..355G 1151:Minor Planet Center 693:Minor Planet Center 673:Minor Planet Center 623:Palomar Observatory 579:near-Earth asteroid 79:Discovery date 68:Discovery site 34: 3177:C/2019 U6 (LEMMON) 3162:P/2019 LD2 (ATLAS) 3096:Swift J1818.0–1607 2931:OGLE-2016-BLG-1928 2333:Observational info 957:characteristic of 955:absorption feature 753:astronomical units 745: 695:(MPC) gave it the 669:apparent magnitude 641:never reach solar 603:absolute magnitude 581:discovered by the 526:Apparent magnitude 335:2° 22 51.424 / day 251:1.67 yr (609 days) 56:Discovered by 3632: 3631: 3544: 3543: 3429:Meanings of names 3355: 3354: 3300: 3299: 3157:C/2019 Y4 (ATLAS) 3125:detection in the 2892:b radio emissions 2587:2020 China bolide 877:secular resonance 773:near-Earth object 560: 559: 505: 504: 308:0.41 yr (151.2 d) 16:(Redirected from 3716: 3661: 3660: 3659: 3649: 3648: 3647: 3640: 3402: 3382: 3375: 3368: 3359: 3327: 3320: 3313: 3304: 3280: 3279: 3270: 3269: 3268: 3172:C/2020 F8 (SWAN) 3150: 3119: 3106: 3098:(young magnetar) 3068:(distant blazar) 3023:TYC 8998-760-1 c 2944: 2935: 2838: 2823: 2821: 2820: 2811: 2809: 2808: 2804:(501647) 2014 SD 2799: 2797: 2796: 2792:(153201) 2000 WO 2787: 2785: 2784: 2765: 2763: 2762: 2748: 2736: 2734: 2733: 2724: 2722: 2721: 2707: 2705: 2704: 2695: 2693: 2692: 2688:(163348) 2002 NN 2673: 2671: 2670: 2661: 2659: 2658: 2649: 2642: 2640: 2639: 2625: 2623: 2622: 2572: 2566: 2560: 2537:Mars Helicopter 2494: 2451: 2444: 2437: 2428: 2412:Orbital elements 2376: 2341:Close approaches 2229: 2228: 2226: 2224: 2202:Science Magazine 2193: 2187: 2186: 2184: 2182: 2162: 2156: 2155: 2129: 2103: 2097: 2096: 2086: 2068: 2059:(2): 2742–2752. 2038: 2029: 2028: 2018: 1982: 1976: 1975: 1973: 1971: 1953: 1935: 1909: 1903: 1902: 1892: 1882: 1854: 1848: 1847: 1837: 1819: 1810:(1): L129–L131. 1793: 1774: 1767: 1761: 1754: 1748: 1743: 1737: 1736: 1734: 1732: 1718: 1712: 1711: 1709: 1707: 1692: 1686: 1685: 1683: 1681: 1665: 1654: 1653: 1625: 1619: 1618: 1616: 1614: 1603: 1594: 1593: 1591: 1589: 1569: 1556: 1555: 1553: 1551: 1535: 1522: 1521: 1519: 1517: 1502: 1496: 1495: 1493: 1491: 1478: 1460: 1451:(3): 3572–3581. 1430: 1415: 1414: 1404: 1386: 1360: 1339: 1338: 1336: 1334: 1319: 1300: 1299: 1297: 1295: 1276: 1249: 1248: 1242: 1240: 1234: 1227: 1193: 1184: 1167: 1166: 1164: 1162: 1138: 1108: 1098: 1088: 1082: 1076: 1069: 1063: 1057: 1048: 1029: 1027: 1026: 1012: 1004: 1002: 1001: 978:spectral classes 959:S-type asteroids 931: 867:Orbital dynamics 862: 855: 853: 852: 838: 837: 828: 827: 804: 724:Luiseño language 721: 715: 707:permanent number 704: 608: 575: 552: 550: 501: 496: 491: 463: 462: 457: 449:Geometric albedo 442: 437: 436: 178: 161: 156: 149: 148: 145: 144: 141: 138: 135: 132: 129: 126: 123: 120: 117: 114: 50:Discovery 42: 35: 21: 3724: 3723: 3719: 3718: 3717: 3715: 3714: 3713: 3684:Atira asteroids 3669: 3668: 3667: 3657: 3655: 3645: 3643: 3635: 3633: 3628: 3602: 3540: 3481: 3433: 3391: 3386: 3356: 3351: 3336: 3331: 3301: 3296: 3266: 3264: 3256: 3207: 3201: 3140: 3117: 3110:South Pole Wall 3104: 3032: 2942: 2933: 2826: 2818: 2817: 2814: 2806: 2805: 2802: 2794: 2793: 2790: 2782: 2781: 2778: 2760: 2759: 2756: 2742: 2731: 2730: 2727: 2719: 2718: 2715: 2702: 2701: 2698: 2690: 2689: 2686: 2668: 2667: 2664: 2656: 2655: 2654:(52768) 1998 OR 2652: 2643: 2637: 2636: 2633: 2620: 2619: 2616: 2597: 2591: 2573: 2567: 2561: 2552: 2487: 2480: 2477: 2471: 2458: 2455: 2357:Orbit animation 2325:Proper elements 2238: 2233: 2232: 2222: 2220: 2195: 2194: 2190: 2180: 2178: 2164: 2163: 2159: 2105: 2104: 2100: 2046: 2040: 2039: 2032: 1990: 1984: 1983: 1979: 1969: 1967: 1911: 1910: 1906: 1856: 1855: 1851: 1795: 1794: 1777: 1768: 1764: 1755: 1751: 1744: 1740: 1730: 1728: 1720: 1719: 1715: 1705: 1703: 1694: 1693: 1689: 1679: 1677: 1667: 1666: 1657: 1627: 1626: 1622: 1612: 1610: 1605: 1604: 1597: 1587: 1585: 1571: 1570: 1559: 1549: 1547: 1537: 1536: 1525: 1515: 1513: 1504: 1503: 1499: 1489: 1487: 1438: 1432: 1431: 1418: 1362: 1361: 1342: 1332: 1330: 1321: 1320: 1303: 1293: 1291: 1278: 1277: 1252: 1238: 1236: 1232: 1191: 1186: 1185: 1170: 1160: 1158: 1140: 1139: 1122: 1117: 1112: 1111: 1070: 1066: 1055: 1049: 1045: 1040: 1024: 1023: 1020: 1015:quasi-satellite 1008: 999: 998: 995: 986: 929: 918: 894:Kozai resonance 869: 861: 857: 850: 849: 846: 835: 833: 825: 823: 803: 799: 796:semi-major axis 733: 710: 703: 699: 689: 615: 606: 599:semi-major axis 574: 570: 548: 546: 543: 528: 514: 499: 494: 486: 455: 451: 434: 432: 431: 429: 426: 366: 354: 332: 317: 305: 283: 281:Semi-major axis 247:Observation arc 192: 177: 173: 170: 151: 150: 111: 107: 96: 45: 28: 23: 22: 15: 12: 11: 5: 3722: 3720: 3712: 3711: 3706: 3701: 3696: 3691: 3686: 3681: 3671: 3670: 3666: 3665: 3653: 3630: 3629: 3627: 3626: 3621: 3616: 3610: 3608: 3604: 3603: 3601: 3600: 3595: 3590: 3588:Near-parabolic 3585: 3580: 3575: 3570: 3565: 3560: 3554: 3552: 3546: 3545: 3542: 3541: 3539: 3538: 3537: 3536: 3534:Scattered disc 3531: 3526: 3521: 3511: 3506: 3505: 3504: 3502:Neptune trojan 3499: 3491: 3489: 3483: 3482: 3480: 3479: 3477:Spectral types 3474: 3469: 3467:Jupiter trojan 3464: 3459: 3454: 3449: 3443: 3441: 3435: 3434: 3432: 3431: 3426: 3421: 3416: 3411: 3405: 3399: 3393: 3392: 3387: 3385: 3384: 3377: 3370: 3362: 3353: 3352: 3350: 3349: 3341: 3338: 3337: 3332: 3330: 3329: 3322: 3315: 3307: 3298: 3297: 3295: 3294: 3274: 3261: 3258: 3257: 3255: 3254: 3248: 3236: 3226: 3220: 3211: 3209: 3203: 3202: 3200: 3199: 3194: 3189: 3184: 3179: 3174: 3169: 3164: 3159: 3153: 3151: 3142: 3141: 3139: 3138: 3129: 3120: 3112: 3107: 3099: 3093: 3087: 3081: 3075: 3072:2MASS J1047+21 3069: 3063: 3058: 3056:Radcliffe wave 3053: 3047: 3040: 3038: 3034: 3033: 3031: 3030: 3025: 3020: 3019: 3018: 3015: 3012: 3004: 2999: 2998: 2997: 2994: 2986: 2985: 2984: 2979: 2976: 2968: 2967: 2966: 2963: 2960: 2955: 2945: 2936: 2934:(rogue planet) 2928: 2923: 2922: 2921: 2916: 2908: 2903: 2898: 2893: 2887: 2886: 2885: 2882: 2879: 2871: 2870: 2869: 2864: 2854: 2848: 2841: 2839: 2828: 2827: 2825: 2824: 2812: 2800: 2788: 2776: 2771: 2766: 2754: 2749: 2737: 2725: 2713: 2708: 2696: 2684: 2679: 2674: 2662: 2650: 2631: 2626: 2614: 2609: 2603: 2601: 2593: 2592: 2590: 2589: 2583: 2581: 2575: 2574: 2555: 2553: 2551: 2550: 2544: 2543: 2542: 2534: 2520: 2512: 2504: 2497: 2495: 2482: 2481: 2479: 2478: 2472: 2466: 2463: 2460: 2459: 2456: 2454: 2453: 2446: 2439: 2431: 2425: 2424: 2423: 2422: 2380:Close approach 2361: 2360: 2359: 2281: 2269: 2263: 2253: 2237: 2236:External links 2234: 2231: 2230: 2188: 2157: 2098: 2044: 2030: 1988: 1977: 1904: 1849: 1775: 1762: 1749: 1738: 1713: 1687: 1655: 1636:(1): 389–397. 1620: 1595: 1557: 1523: 1497: 1436: 1416: 1377:(1): L49–L54. 1340: 1301: 1250: 1202:(1): 355–366. 1168: 1119: 1118: 1116: 1113: 1110: 1109: 1064: 1042: 1041: 1039: 1036: 1035: 1034: 1018: 1013:, a temporary 1006: 993: 985: 982: 917: 914: 868: 865: 859: 801: 761:Atira asteroid 732: 729: 701: 688: 685: 614: 611: 572: 558: 557: 554: 553: 544: 536: 533: 532: 529: 524: 521: 520: 515: 510: 507: 506: 503: 502: 497: 492: 484: 480: 479: 476: 473: 470: 459: 458: 452: 447: 444: 443: 427: 422: 419: 418: 412: 411: 408: 401: 400: 397: 390: 389: 378: 371: 370: 367: 362: 359: 358: 355: 350: 347: 346: 343: 337: 336: 333: 328: 325: 324: 318: 313: 310: 309: 306: 301: 298: 297: 294: 288: 287: 284: 279: 276: 275: 272: 266: 265: 259: 253: 252: 249: 243: 242: 235: 234: 223: 222: 215: 214: 193: 188: 185: 184: 175: 171: 166: 163: 162: 105: 101: 100: 97: 92: 89: 88: 84: 83: 82:4 January 2020 80: 76: 75: 70: 64: 63: 58: 52: 51: 47: 46: 43: 26: 24: 14: 13: 10: 9: 6: 4: 3: 2: 3721: 3710: 3707: 3705: 3702: 3700: 3697: 3695: 3692: 3690: 3687: 3685: 3682: 3680: 3677: 3676: 3674: 3664: 3654: 3652: 3642: 3638: 3625: 3622: 3620: 3617: 3615: 3612: 3611: 3609: 3605: 3599: 3596: 3594: 3591: 3589: 3586: 3584: 3581: 3579: 3576: 3574: 3571: 3569: 3566: 3564: 3561: 3559: 3556: 3555: 3553: 3551: 3547: 3535: 3532: 3530: 3527: 3525: 3522: 3520: 3517: 3516: 3515: 3512: 3510: 3507: 3503: 3500: 3498: 3495: 3494: 3493: 3492: 3490: 3488: 3484: 3478: 3475: 3473: 3470: 3468: 3465: 3463: 3460: 3458: 3457:Asteroid belt 3455: 3453: 3452:Aten asteroid 3450: 3448: 3445: 3444: 3442: 3440: 3436: 3430: 3427: 3425: 3422: 3420: 3417: 3415: 3412: 3410: 3407: 3406: 3403: 3400: 3398: 3397:Minor planets 3394: 3390: 3383: 3378: 3376: 3371: 3369: 3364: 3363: 3360: 3348: 3347: 3343: 3342: 3339: 3335: 3328: 3323: 3321: 3316: 3314: 3309: 3308: 3305: 3293: 3289: 3288: 3283: 3275: 3273: 3263: 3262: 3259: 3252: 3249: 3246: 3242: 3241: 3237: 3234: 3230: 3227: 3224: 3221: 3218: 3217: 3213: 3212: 3210: 3204: 3198: 3195: 3193: 3190: 3188: 3185: 3183: 3180: 3178: 3175: 3173: 3170: 3168: 3165: 3163: 3160: 3158: 3155: 3154: 3152: 3149: 3143: 3137: 3133: 3130: 3128: 3124: 3121: 3116: 3113: 3111: 3108: 3103: 3100: 3097: 3094: 3091: 3088: 3085: 3082: 3079: 3078:SGR 1935+2154 3076: 3073: 3070: 3067: 3066:PSO J03094+27 3064: 3062: 3059: 3057: 3054: 3051: 3048: 3045: 3042: 3041: 3039: 3035: 3029: 3028:WD 1856+534 b 3026: 3024: 3021: 3016: 3013: 3010: 3009: 3008: 3005: 3003: 3000: 2995: 2992: 2991: 2990: 2987: 2983: 2980: 2977: 2974: 2973: 2972: 2969: 2964: 2961: 2959: 2956: 2954: 2951: 2950: 2949: 2946: 2940: 2937: 2932: 2929: 2927: 2924: 2920: 2917: 2914: 2913: 2912: 2911:Lacaille 9352 2909: 2907: 2904: 2902: 2899: 2897: 2894: 2891: 2888: 2883: 2880: 2877: 2876: 2875: 2872: 2868: 2865: 2863: 2860: 2859: 2858: 2855: 2852: 2849: 2846: 2843: 2842: 2840: 2837: 2833: 2829: 2822: 2813: 2810: 2801: 2798: 2789: 2786: 2777: 2775: 2772: 2770: 2767: 2764: 2755: 2753: 2750: 2746: 2741: 2738: 2735: 2726: 2723: 2714: 2712: 2709: 2706: 2697: 2694: 2685: 2683: 2680: 2678: 2675: 2672: 2663: 2660: 2651: 2647: 2641: 2632: 2630: 2627: 2624: 2615: 2613: 2610: 2608: 2605: 2604: 2602: 2600: 2594: 2588: 2585: 2584: 2582: 2580: 2579:Impact events 2576: 2571: 2565: 2559: 2548: 2545: 2541: 2540: 2535: 2533: 2531: 2527: 2526: 2524: 2521: 2518: 2517: 2513: 2510: 2509: 2505: 2502: 2501:Solar Orbiter 2499: 2498: 2496: 2493: 2489: 2483: 2475: 2470: 2465: 2464: 2461: 2457:2020 in space 2452: 2447: 2445: 2440: 2438: 2433: 2432: 2429: 2421: 2417: 2413: 2409: 2405: 2404:Orbit diagram 2401: 2397: 2393: 2389: 2385: 2381: 2378: 2375: 2371: 2370: 2365: 2362: 2358: 2354: 2350: 2349:Physical info 2346: 2342: 2338: 2334: 2330: 2326: 2322: 2318: 2314: 2310: 2306: 2302: 2298: 2294: 2291: 2290: 2289: 2285: 2282: 2280:, 1 July 2020 2279: 2278: 2274:, Nola Redd, 2273: 2270: 2267: 2264: 2262:, 10 Jan 2020 2261: 2257: 2254: 2251: 2247: 2246:Gianluca Masi 2243: 2240: 2239: 2235: 2219: 2215: 2211: 2207: 2203: 2199: 2192: 2189: 2176: 2172: 2168: 2161: 2158: 2153: 2149: 2145: 2141: 2137: 2133: 2128: 2123: 2119: 2115: 2114: 2109: 2102: 2099: 2094: 2090: 2085: 2080: 2076: 2072: 2067: 2062: 2058: 2054: 2053: 2048: 2037: 2035: 2031: 2026: 2022: 2017: 2012: 2008: 2004: 2000: 1996: 1992: 1981: 1978: 1965: 1961: 1957: 1952: 1947: 1943: 1939: 1934: 1929: 1926:(1): L6–L10. 1925: 1921: 1920: 1915: 1908: 1905: 1900: 1896: 1891: 1886: 1881: 1876: 1872: 1868: 1864: 1860: 1859:Ip, Wing-Huen 1853: 1850: 1845: 1841: 1836: 1831: 1827: 1823: 1818: 1813: 1809: 1805: 1804: 1799: 1792: 1790: 1788: 1786: 1784: 1782: 1780: 1776: 1772: 1766: 1763: 1759: 1753: 1750: 1747: 1742: 1739: 1727: 1723: 1717: 1714: 1701: 1697: 1691: 1688: 1675: 1671: 1664: 1662: 1660: 1656: 1651: 1647: 1643: 1639: 1635: 1631: 1624: 1621: 1608: 1602: 1600: 1596: 1583: 1580:. Syfy Wire. 1579: 1578:Bad Astronomy 1575: 1568: 1566: 1564: 1562: 1558: 1545: 1541: 1534: 1532: 1530: 1528: 1524: 1511: 1507: 1501: 1498: 1486: 1482: 1477: 1472: 1468: 1464: 1459: 1454: 1450: 1446: 1445: 1440: 1429: 1427: 1425: 1423: 1421: 1417: 1412: 1408: 1403: 1398: 1394: 1390: 1385: 1380: 1376: 1372: 1371: 1366: 1359: 1357: 1355: 1353: 1351: 1349: 1347: 1345: 1341: 1328: 1324: 1318: 1316: 1314: 1312: 1310: 1308: 1306: 1302: 1289: 1285: 1281: 1275: 1273: 1271: 1269: 1267: 1265: 1263: 1261: 1259: 1257: 1255: 1251: 1247: 1231: 1226: 1221: 1217: 1213: 1209: 1205: 1201: 1197: 1190: 1183: 1181: 1179: 1177: 1175: 1173: 1169: 1156: 1152: 1148: 1144: 1137: 1135: 1133: 1131: 1129: 1127: 1125: 1121: 1114: 1106: 1102: 1097: 1092: 1087: 1081: 1075: 1068: 1065: 1061: 1053: 1047: 1044: 1037: 1033: 1028: 1019: 1016: 1011: 1010:524522 Zoozve 1007: 1003: 994: 991: 988: 987: 983: 981: 979: 976: 972: 968: 964: 960: 956: 952: 948: 944: 941: 940:near-infrared 937: 933: 927: 923: 915: 913: 909: 907: 903: 898: 895: 889: 887: 882: 881:perturbations 878: 874: 873:asteroid belt 866: 864: 854: 843: 841: 831: 820: 816: 812: 808: 797: 793: 788: 786: 782: 778: 774: 770: 766: 762: 758: 754: 750: 742: 737: 730: 728: 725: 720: 719:ꞌAylóꞌchaxnim 713: 708: 698: 694: 686: 684: 682: 678: 674: 670: 666: 663: 662:constellation 658: 656: 652: 648: 644: 640: 636: 632: 628: 624: 620: 612: 610: 609:in diameter. 604: 600: 596: 592: 588: 584: 580: 577:) is a large 576: 568: 564: 555: 545: 542: 541: 534: 530: 527: 522: 519: 516: 513: 512:Spectral type 508: 498: 493: 490: 485: 482: 481: 477: 474: 471: 469: 465: 464: 460: 453: 450: 445: 441: 428: 425: 424:Mean diameter 420: 417: 413: 409: 407: 402: 398: 396: 393:Mercury 391: 387: 383: 380:0.34694 379: 377: 372: 368: 365: 360: 356: 353: 348: 344: 342: 338: 334: 331: 326: 323: 319: 316: 311: 307: 304: 299: 295: 293: 289: 285: 282: 277: 273: 271: 267: 264: 260: 258: 254: 250: 248: 244: 240: 236: 232: 229:1 July 2021 ( 228: 224: 220: 216: 213: 209: 205: 201: 197: 194: 191: 186: 182: 172: 169: 164: 160: 154: 147: 106: 104:Pronunciation 102: 98: 95: 90: 85: 81: 77: 74: 71: 69: 65: 62: 59: 57: 53: 48: 41: 36: 30: 19: 3624:Space debris 3344: 3285: 3238: 3214: 2901:Kepler-1649c 2745:space debris 2611: 2538: 2530:Perseverance 2529: 2514: 2507: 2486:Space probe 2415: 2407: 2399: 2391: 2383: 2367: 2352: 2344: 2336: 2328: 2320: 2312: 2309:Orbital info 2304: 2296: 2287: 2275: 2252:, 9 Jan 2020 2249: 2221:. Retrieved 2201: 2191: 2179:. Retrieved 2170: 2160: 2117: 2111: 2101: 2056: 2050: 1998: 1994: 1980: 1968:. Retrieved 1923: 1917: 1907: 1870: 1866: 1852: 1807: 1801: 1770: 1765: 1757: 1752: 1741: 1731:30 September 1729:. Retrieved 1725: 1716: 1704:. Retrieved 1699: 1690: 1678:. Retrieved 1633: 1629: 1623: 1611:. Retrieved 1586:. Retrieved 1577: 1548:. Retrieved 1514:. Retrieved 1509: 1500: 1488:. Retrieved 1448: 1442: 1374: 1368: 1331:. Retrieved 1326: 1292:. Retrieved 1244: 1237:. Retrieved 1199: 1195: 1159:. Retrieved 1146: 1104: 1100: 1093:in the verb 1091:glottal stop 1067: 1046: 943:spectroscopy 934: 919: 910: 899: 890: 870: 844: 839: 829: 789: 746: 690: 687:Nomenclature 659: 616: 569: 562: 561: 539: 315:Mean anomaly 292:Eccentricity 207: 199: 183: ZTF09k5 180: 87:Designations 73:Palomar Obs. 29: 3663:Outer Space 3614:Cosmic dust 3578:Long-period 3568:Halley-type 3524:Kuiper belt 3409:Designation 3247:; Dec 2020) 3235:; Oct 2020) 3223:BepiColombo 3208:exploration 3118:(announced) 3105:(announced) 3037:Discoveries 2943:(predicted) 2525:(Jul 2020) 2293:Ephemerides 2223:9 September 2165:Bruton, D. 1706:25 November 1080:ꞌa-ylócha-x 1056:21 24 49.90 930:1–3 km 769:portmanteau 643:elongations 404:Venus 374:Earth 341:Inclination 330:Mean motion 3673:Categories 3619:Meteoroids 3598:Sungrazing 3573:Hyperbolic 3529:Oort cloud 3472:Near-Earth 3229:OSIRIS-REx 3192:88P/Howell 3050:FRB 180916 3044:Betelgeuse 3002:TOI-1338 b 2926:M51-ULS-1b 2906:KOI-456.04 2874:Gliese 433 2857:Gliese 414 2851:Gliese 229 2832:Exoplanets 2519:(Jul 2020) 2511:(Jul 2020) 2503:(Feb 2020) 2260:Phil Plait 2181:11 January 2127:2009.04125 2120:: 115442. 2066:1905.08695 2001:(7): 106. 1933:2002.03033 1880:1912.06109 1817:2001.09083 1680:17 January 1613:10 January 1588:10 January 1516:10 January 1458:2006.08304 1384:2208.07253 1333:10 January 1323:"2020 AV2" 1239:11 January 1225:2429/37251 1115:References 990:Vulcanoids 757:perihelion 500:395 K 495:350 K 410:0.07896 AU 399:0.06561 AU 270:Perihelion 233:2459396.5) 3651:Astronomy 3509:Damocloid 3251:Chang'e 5 3240:Hayabusa2 3123:Phosphine 2596:Selected 2547:Chang'e 5 2539:Ingenuity 2523:Mars 2020 2516:Tianwen-1 2396:Ephemeris 2388:Discovery 2218:225557797 2152:255999613 2093:160009327 2025:201405666 1960:211068996 1899:209324310 1873:(2): 70. 1844:210911743 1550:9 January 1506:"2020AV2" 1485:219687045 1411:251564734 1294:9 January 1161:9 January 1074:ꞌaylóchax 811:eccentric 657:objects. 655:transient 613:Discovery 607:1 km 487:330 286:0.5554 AU 274:0.4571 AU 3593:Periodic 3519:Detached 3439:Asteroid 3187:2P/Encke 3115:GW190521 3102:GW190814 3090:PHL 293B 3007:TOI-1339 2939:Tau Ceti 2488:launches 2175:Archived 1964:Archived 1674:Archived 1582:Archived 1544:Archived 1288:Archived 1230:Archived 1155:Archived 1103:becomes 1096:yulóchax 1086:yulóchax 1060:Aquarius 1017:of Venus 984:See also 819:ecliptic 749:aphelion 741:ecliptic 667:, at an 665:Aquarius 647:twilight 595:aphelion 483:(approx) 466:Surface 369:187.330° 257:Aphelion 3637:Portals 3558:Extinct 3497:Centaur 3216:Spitzer 3145:Comets 3084:HR 6819 3046:dimming 2989:TOI-732 2971:TOI-700 2948:TOI-561 2896:K2-315b 2890:GJ 1151 2816:2020 XL 2780:2020 VT 2774:2020 VV 2769:2020 UA 2758:2020 SL 2752:2020 SW 2740:2020 SO 2729:2018 VP 2717:2011 ES 2711:2020 QG 2700:2020 OY 2682:2020 LD 2677:2020 JJ 2666:2020 HS 2635:2020 CD 2629:2020 CW 2618:2020 BX 2476: » 2467:« 2366:at the 2277:Science 2132:Bibcode 2071:Bibcode 2003:Bibcode 1970:3 March 1938:Bibcode 1822:Bibcode 1638:Bibcode 1463:Bibcode 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