2020 VV

Last updated

2020 VV
2020VV risk corridor.png
The risk corridor for the obsolete 2033 virtual impactor passed over the northeastern USA, Spain, Saudi Arabia, India, and China. [1]
Discovery [2]
Discovered by Mount Lemmon Survey (G96)
Discovery date5 November 2020
Designations
2020 VV
Orbital characteristics [3]
Epoch 2020-May-31 (JD  2459000.5)
Uncertainty parameter 5
Observation arc 61 days [4]
Earliest precovery date17 October 2020
Aphelion 1.2367  AU (185,010,000  km) (Q)
Perihelion 0.9830 AU (147,050,000 km) (q)
1.1099 AU (166,040,000 km) (a)
Eccentricity 0.1143 (e)
1.17  yr
268.100° (M)
Inclination 0.350° (i)
20.148° (Ω)
330.663° (ω)
Earth  MOID 14,800 km
Jupiter  MOID 3.96 AU (592,000,000 km)
Physical characteristics
Mean diameter
~12 meters (40 feet) [4]
10–22 meters (CNEOS)
27.25 [3]

    2020 VV is an Apollo near-Earth asteroid roughly 12 meters (40 feet) in diameter. On 20 November 2020, the asteroid had a 4.4% chance of impacting Earth on 12 October 2033 11:43 UT. [5] As of mid-December 2020, the asteroid has a modest 61 day observation arc. The nominal Earth approach is on 17 October 2033 at a distance of 0.009  AU (1,300,000  km ; 840,000  mi ), but the line of variations (LOV) is only known with an accuracy of ±22 hours. [3] The line of variations allows the asteroid to come as close as 0.006 AU (900,000 km; 560,000 mi) or pass as far away as 0.01 AU (1,500,000 km; 930,000 mi). [3] With a diameter range of 10–22 meters the asteroid could be as large as the Chelyabinsk meteor.

    Contents

    2020 VV was discovered on 5 November 2020 when it was about 0.036 AU (5,400,000 km; 3,300,000 mi) from Earth and had a solar elongation of 150 degrees. It has a very low 0.35° orbital inclination with respect to the ecliptic plane and an Earth-MOID of only 14,800 km. [3] The asteroid passed Earth on 21 October 2020 at a distance of 0.0215 AU (3,220,000 km; 2,000,000 mi). [3]

    Where Earth will be on a given date is known, but given the short observation arc where precisely the asteroid will be on its orbit in 2033 is not. A slight variation in the known orbit of the asteroid can cause the asteroid to be early, right on time (impact solution), or late. [lower-alpha 1]

    Impact probabilities are calculated independently by Sentry, NEODyS-2 and ESA's Space Situational Awareness Programme. Different models result in slightly different orbit solutions, nominal close approach distances, and impact probabilities. [6] With a long enough observation arc these solutions will converge. In general when the nominal approach is closer to the impact scenario, the odds of impact are greater.

    Line of variation (LOV) and different closest approaches
    Date and time Nominal closest approachPosition uncertainty [lower-alpha 2] Impact probability
    on 12 Oct 2033 [lower-alpha 3]     		Reference
    12 October 2033 11:43expired impact scenario±2.5 hours Sentry [4] [lower-alpha 1]
    17 October 2033 08:570.0089 AU (1,330,000 km)0.000734 AU (109,800 km)none ESA [7] [8]
    17 October 2033 09:300.0090 AU (1,350,000 km)0.0008398 AU (125,630 km)none JPL SBDB [3] [4]
    17 October 2033 13:260.0094 AU (1,410,000 km)0.000851 AU (127,300 km)none NEODyS-2 [9]

    The line of variation (risk corridor) for 2033 passed over the northeastern USA, Spain, Saudi Arabia, India, and China. [1]

    The greatest chances of impact were listed between 17 and 20 November 2020. On 17 November 2020 the Space Situational Awareness Programme listed a 4.2% chance (1 in 24) of impact, [10] Sentry listed a 2.8% chance (1 in 36), [11] and NEODyS-2 listed a cumulative 5.9% chance of impact. [11] By 20 November 2020 with a 15-day observation arc NEODyS-2 listed a 4.4% chance (1 in 23) of impact. [5] [lower-alpha 4] At the same time, Sentry listed a 1.3% chance (1 in 77) of impact, and the Space Situational Awareness Programme listed a 1.6% chance (1 in 63).

    2020 VV is not categorized as a potentially hazardous object, because the estimated size is significantly smaller than the threshold of about 140 meters for potentially hazardous objects.

    Virtual impactors
    (61-day arc) [4]
    DateImpact
    probability
    (1 in)    		 JPL Horizons
    nominal geocentric
    distance (AU)    		uncertainty
    region
    (3-sigma)
    2056-10-11 00:0015000.095  AU (14.2 million  km ) [12] ±100 million km [12]

    Notes

    1. 1 2 Earth traveling at 30 km/s and with a diameter of 12,800 km, only blocks the path of single virtual impactor for about 8 minutes (30*60*8). Due to an Earth-like orbit, the virtual asteroids can impact Earth for about ±2.5 hours centered around the virtual impactor at 12 October 2033 11:43 UT. If 2020 VV is not crossing Earth's orbit during that time there can be no impact.
    2. The JPL SBDB close-approach data min/max distance and time of close approach uncertainty correspond to the 3-sigma level. Stretching "Semi-major axis (km)" corresponds to the 1-sigma uncertainty. 3-sigma uncertainty is 3 times larger.
    3. Impact probability examples: 1.00 would be 100%. 2.00E-2 would be 2%.
    4. At the same time, NEODyS-2 listed an additional 0.15% chance (1 in 650) of impact at a later date, 10 October 2038.

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    <span class="nowrap">2006 QV<sub>89</sub></span> Asteroid

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    References

    1. 1 2 Steven M. Tilley (16 November 2020). "Finding a Risk Corridor For the Asteroid 2020 VV". The Asteroid News. Retrieved 16 November 2020.
    2. "MPEC 2020-V35 : 2020 VV". IAU Minor Planet Center. 6 November 2020. Retrieved 14 November 2020. (K20V00V)
    3. 1 2 3 4 5 6 7 8 "JPL Small-Body Database Browser: (2020 VV)" (last observation: 2020-12-17; arc: 61 days). Jet Propulsion Laboratory. Archived from the original on 13 November 2020. Retrieved 31 March 2021.
    4. 1 2 3 4 5 6 "Earth Impact Risk Summary: 2020 VV". NASA/JPL Near-Earth Object Program Office. Archived from the original on 17 November 2020. Retrieved 18 December 2020.
    5. 1 2 "Archive: 20 Nov 2020 NEODyS impact probability for 2020 VV". NEODyS-2. 20 November 2020. Archived from the original on 20 November 2020. Retrieved 20 November 2020.
    6. "Impact Monitoring information now computed by NEOCC" . Retrieved 28 November 2020.
    7. "ESA Space Situational Awareness: 2020 VV". esa Space Situational Awareness Programme. Archived from the original on 16 November 2020. Retrieved 18 December 2020.
    8. "Possible impacts: 2020 VV". esa Space Situational Awareness Programme. Archived from the original on 20 November 2020. Retrieved 18 December 2020.
    9. "2020VV close approaches". NEODyS-2. Archived from the original on 16 November 2020. Retrieved 18 December 2020.
    10. "Archive: 17 Nov 2020 esa Space Situational Awareness Risk List (2020 VV)". esa NEO Coordination Centre. 17 November 2020. Archived from the original on 17 November 2020. Retrieved 17 November 2020.
    11. 1 2 "hohmanntransfer 17 Nov 2020 archive of 2020 VV on NEODyS and Sentry". hohmanntransfer. 17 November 2020. Archived from the original on 23 November 2020. Retrieved 17 November 2020.
    12. 1 2 "Horizons Batch for 2056-10-11 Virtual Impactor". JPL Horizons . Retrieved 10 April 2021. RNG_3sigma = uncertainty range in km. (JPL#25/Soln.date: 2020-Dec-29 generates RNG_3sigma = 100129229 for 2056-Oct-11.)
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