List of asteroid close approaches to Earth in 2020

	Time of discovery of asteroids which came closer to Earth than the Moon in 2020
	After closest approach: 30 (57.7%); < 24 hours before: 9 (17.3%); up to 7 days before: 11 (21.2%); > one week before: 1 (1.9%); > 7 weeks before: 0 (0.0%); > one year before: 1 (1.9%);

Below is the list of asteroid close approaches to Earth in 2020.

Timeline of known close approaches less than one lunar distance from Earth

Radar animation of asteroid 1998 OR2, which came within 16 lunar distances in April 2020

A list of known near-Earth asteroid close approaches less than 1 lunar distance (0.0025696 AU (384,410 km; 238,860 mi)) from Earth in 2020.[note 1]

For reference, the radius of Earth is about 0.0000426 AU (6,370 km; 3,960 mi) or 0.0166 lunar distances. Geosynchronous satellites have an orbit with semi-major axis length of 0.000282 AU (42,200 km; 26,200 mi) or 0.110 lunar distances. A number of known asteroids came closer than this in 2020, including 2020 CW and 2020 JJ, which approached Earth within 0.05 lunar distances in February and May 2020, respectively.
While most asteroids on this list are confirmed, well-observed unconfirmed objects with a 50% or greater chance of passing within 1 LD of the Earth are included as well.

Rows highlighted red indicate objects which were not discovered until after closest approach

Rows highlighted yellow indicate objects discovered less than 24 hours before closest approach

Rows highlighted green indicate objects discovered more than one week before closest approach

Rows highlighted turquoise indicate objects discovered more than 7 weeks before closest approach

Rows highlighted blue indicate objects discovered more than one year before closest approach (i.e. objects successfully cataloged on a previous orbit, rather than being detected during final approach)

Date of closest approach	Date discovered	Object	Nominal geocentric distance (AU)[note 2]	Nominal geocentric distance (LD)	Size (m) (approximate)	(H) (abs. mag)	Closer approach to Moon[note 3]	Refs
2020-01-02	2020-01-04	2020 AP₁	0.002185 AU (326,900 km; 203,100 mi)	0.85	3.2–7.1	29.6	✓	data · 2020 AP₁
2020-01-20	2020-01-22	2020 BK₃	0.001998 AU (298,900 km; 185,700 mi)	0.78	11–24	27	—	data · 2020 BK₃
2020-01-22	2020-01-23	2020 BB₅	0.001775 AU (265,500 km; 165,000 mi)	0.69	3.1–6.9	29.8	—	data · 2020 BB₅
2020-01-25	2020-01-24	2020 BH₆	0.000469 AU (70,200 km; 43,600 mi)	0.18	5.2–12	28.5	—	data · 2020 BH₆
2020-01-27	2020-01-28	2020 BA₁₃	0.001320 AU (197,500 km; 122,700 mi)	0.51	4.6–10	29	—	data · 2020 BA₁₃
2020-01-28	2020-01-30	2020 BA₁₅	0.002517 AU (376,500 km; 234,000 mi)	0.98	9–20	27.5	✓	data · 2020 BA₁₅
2020-01-29	2020-01-28	2020 BZ₁₃	0.000716 AU (107,100 km; 66,600 mi)	0.28	2.9–6.5	29.9	—	data · 2020 BZ₁₃
2020-01-31	2020-02-02	2020 CZ	0.002105 AU (314,900 km; 195,700 mi)	0.82	3.7–8.2	29.4	—	data · 2020 CZ
2020-01-31	2020-02-02	2020 CJ	0.002362 AU (353,400 km; 219,600 mi)	0.92	11–25	27	✓	data · 2020 CJ
2020-02-01	2020-02-01	2020 CW	0.000105 AU (15,700 km; 9,800 mi)	0.04	0.83–1.9	32.6	—	data · 2020 CW
2020-02-02	2020-02-01	2020 CA	0.001465 AU (219,200 km; 136,200 mi)	0.57	3.2–7.2	29.4	—	data · 2020 CA
2020-02-03	2020-01-23	2020 BT₁₄	0.001256 AU (187,900 km; 116,800 mi)	0.49	7.5–17	27.8	—	data · 2020 BT₁₄
2020-02-04	2020-02-05	2020 CQ₁	0.000431 AU (64,500 km; 40,100 mi)	0.17	4.6–10	28.8	—	data · 2020 CQ₁
2020-02-13	2020-02-16	2020 DU	0.002172 AU (324,900 km; 201,900 mi)	0.85	4.9–11	28.7	✓	data · 2020 DU
2020-02-13	2020-02-15	2020 CD3	0.000315 AU (47,100 km; 29,300 mi)	0.12	1.2–2.8	31.7	—	data · 2020 CD₃
2020-02-14	2020-02-15	2020 CQ₂	0.000990 AU (148,100 km; 92,000 mi)	0.39	5–11	28.7	—	data · 2020 CQ₂
2020-02-18	2020-02-17	2020 DA₁	0.020219 AU (3,024,700 km; 1,879,500 mi)	0.50	3–6.7	29.7	—	data · 2020 DA₁
2020-02-18	2020-02-16	2020 DW	0.001612 AU (241,200 km; 149,800 mi)	0.63	2.3–5.1	30.3	—	data · 2020 DW
2020-02-25	2020-02-27	2020 DR₄	0.000622 AU (93,000 km; 57,800 mi)	0.24	3–6.8	29.7	—	data · 2020 DR₄
2020-03-14	2020-03-17	2020 FD₂	0.002190 AU (327,600 km; 203,600 mi)	0.85	19–43	25.7	—	data · 2020 FD₂
2020-03-18	2020-03-16	2020 FD	0.001715 AU (256,600 km; 159,400 mi)	0.67	7.9–18	27.6	✓	data · 2020 FD
2020-03-19	2020-03-23	2020 FG₄	0.001262 AU (188,800 km; 117,300 mi)	0.49	10–23	27.1	—	data · 2020 FG₄
2020-03-22	2020-03-19	2020 FL₂	0.000987 AU (147,700 km; 91,700 mi)	0.38	16–35	26.1	—	data · 2020 FL₂
2020-03-25	2020-03-24	2020 FJ₄	0.001716 AU (256,700 km; 159,500 mi)	0.67	3.4–7.6	29.5	—	data · 2020 FJ₄
2020-03-31	2020-03-31	2020 FB₇	0.000521 AU (77,900 km; 48,400 mi)	0.20	16–36	26.1	—	data · 2020 FB₇
2020-04-01	2020-04-02	2020 GO₁	0.000461 AU (69,000 km; 42,900 mi)	0.18	7.9–18	27.6	—	data · 2020 GO₁
2020-04-03	2020-04-02	2020 GH	0.000837 AU (125,200 km; 77,800 mi)	0.33	4.2–9.3	29	—	data · 2020 GH
2020-04-05	2020-04-05	2020 GY₁	0.000537 AU (80,300 km; 49,900 mi)	0.21	13–28	26.6	—	data · 2020 GY₁
2020-04-15	2020-04-16	2020 HO	0.001929 AU (288,600 km; 179,300 mi)	0.75	4.6–10	28.8	—	data · 2020 HO
2020-04-15	2020-04-11	2020 GH₂	0.002401 AU (359,200 km; 223,200 mi)	0.93	13–28	26.6	—	data · 2020 GH₂
2020-04-22	2020-04-24	2020 HM₆	0.001088 AU (162,800 km; 101,100 mi)	0.42	13–28	26.6	✓	data · 2020 HM₆
2020-04-22	2020-04-23	2020 HF₅	0.000979 AU (146,500 km; 91,000 mi)	0.38	12–27	26.7	—	data · 2020 HF₅
2020-04-22	2020-04-23	2020 HU₇	0.000869 AU (130,000 km; 80,800 mi)	0.34	3.1–7	29.6	—	data · 2020 HU₇
2020-04-24	2020-04-19	2020 HX₃	0.001688 AU (252,500 km; 156,900 mi)	0.66	9.8–22	27.2	✓	data · 2020 HX₃
2020-04-26	2020-04-27	2020 HT₈	0.000986 AU (147,500 km; 91,700 mi)	0.38	5.8–13	28.3	—	data · 2020 HT₈
2020-04-27	2020-04-22	2020 HP₆	0.000841 AU (125,800 km; 78,200 mi)	0.33	6.4–14	28.1	—	data · 2020 HP₆
2020-04-28	2020-04-27	2020 HS7	0.000286 AU (42,800 km; 26,600 mi)	0.11	4.1–9.2	29.1	—	data · 2020 HS₇
2020-04-30	2020-05-02	2020 JG	0.001429 AU (213,800 km; 132,800 mi)	0.55	19–41	25.8	✓	data · 2020 JG
2020-05-03	2020-05-01	2020 JA	0.001598 AU (239,100 km; 148,500 mi)	0.62	9.6–21	27.2	—	data · 2020 JA
2020-05-04	2020-05-04	2020 JJ	0.000090 AU (13,500 km; 8,400 mi)	0.03	2.7–6	30	—	data · 2020 JJ
2020-05-05	2020-05-04	2020 JN	0.001666 AU (249,200 km; 154,900 mi)	0.65	9–20	27.4	✓	data · 2020 JN
2020-05-28	2020-05-26	2020 KF₅	0.001652 AU (247,100 km; 153,600 mi)	0.64	3.5–7.8	29.4	—	data · 2020 KF₅
2020-05-28	2020-05-24	2020 KJ₄	0.000959 AU (143,500 km; 89,100 mi)	0.37	2.8–6.2	29.9	—	data · 2020 KJ₄
2020-05-29	2020-05-26	2020 KC₅	0.002470 AU (369,500 km; 229,600 mi)	0.96	9–20	27.4	—	data · 2020 KC₅
2020-06-05	2020-06-07	2020 LD	0.002051 AU (306,800 km; 190,700 mi)	0.80	89–200	22.4	—	data · 2020 LD
2020-06-13	2020-06-16	2020 ML₂	0.002378 AU (355,700 km; 221,000 mi)	0.93	6.7–15	28.0	—	data · 2020 ML₂
2020-07-05	2020-07-06	2020 NB	0.001193 AU (178,500 km; 110,900 mi)	0.46	15–33	26.3	—	data · 2020 NB
2020-07-27	2020-07-26	2020 OY4	0.000278 AU (41,600 km; 25,800 mi)	0.11	2.3–5.2	30.3	—	data · 2020 OY₄
2020-08-01	2020-08-01	2020 PA	0.000387 AU (57,900 km; 36,000 mi)	0.15	4.6–10	28.8	—	data · 2020 PA
2020-08-14	2020-08-14	2020 PW₂	0.001867 AU (279,300 km; 173,500 mi)	0.73	4.9–11	28.7	—	data · 2020 PW₂
2020-08-20	2020-08-14	2020 PY₂	0.002324 AU (347,700 km; 216,000 mi)	0.90	15–33	26.3	✓	data · 2020 PY₂
2020-09-01	2011-03-11	2011 ES4	~0.0008 AU (120,000 km; 74,000 mi)	0.32+0.13 −40.94[note 4]	22–49	25.4	?	data · 2011 ES₄

Warning times by size

This sub-section visualizes the warning times of the close approaches listed in the above table, depending on the size of the asteroid. The sizes of the charts show the relative sizes of the asteroids to scale. For comparison, the approximate size of a person is also shown. This is based the absolute magnitude of each asteroid, an approximate measure of size based on brightness.

Abs Magnitude 30 and greater

Silhouette of man standing and facing forward

(size of a person for comparison)

Abs Magnitude 29-30

Absolute Magnitude 28-29

Absolute Magnitude 27-28

Absolute Magnitude 26-27

Absolute Magnitude 25-26

Greater than Absolute Magnitude 25 (largest)

After closest approach: 1 (100.0%)
< 24 hours before: 0 (0.0%)
up to 7 days before: 0 (0.0%)
> one week before: 0 (0.0%)
> 7 weeks before: 0 (0.0%)
> one year before: 0 (0.0%)

Notes

For a list of current Earth close approaches see Close Approaches and NEO Earth Close Approaches
Distance from the center of Earth to the center of the object. See the NASA/JPL Solar System Dynamics Glossary: Geocentric. Earth has a radius of approximately 6,400 km.
Objects that approached closer to the Moon than Earth are marked with a check.
2011 ES₄ may or may not pass within 1 LD from Earth due to large uncertainties in the asteroid's orbit.

Timeline of close approaches less than one lunar distance from the Moon

The number of asteroids listed here are significantly less than those of asteroids that approach Earth for several reasons. Asteroids that approach Earth not only move faster, but are brighter and are easier to detect with modern surveys because:

Asteroids that come closer to Earth are a higher priority to confirm, and only confirmed asteroids are listed with a lunocentric approach distance.
Those that closely approach the Moon are frequently lost in its glare, making them harder to confirm. They are similarly hard to discover during the new moon, when the Moon is too close to the Sun to detect asteroids while they are near the Moon.

These factors severely limit the amount of Moon-approaching asteroids, to a level many times lower than the asteroids detected passing as close to Earth.

Date of closest approach	Object	Nominal lunocentric distance (AU)[note2 1]	Nominal lunocentric distance (LD)	Size (m) (approx.)	(H)	Approach distance to Earth (LD)	Refs
2020-01-02	2020 AP₁	0.00183 AU (274,000 km; 170,000 mi)	0.71	3.2–7.1	29.6	0.85	data · 2020 AP₁
2020-01-28	2020 BA₁₅	0.00181 AU (271,000 km; 168,000 mi)	0.70	9–20	27.4	0.98	data · 2020 AP₁
2020-02-14	2020 CD3	0.00148 AU (221,000 km; 138,000 mi)	0.58	1.2–2.8	31.7	0.12	data · 2020 CD₃

Notes

Distance from the center of the Moon to the center of the object. The Moon has a radius of approximately 1,740 km.

Additional examples

Radar image of 2020 BX12 and its satellite during close approach in February 2020

Path of 1998 OR₂ near close approach to Earth in April 2020

An example list of near-Earth asteroids that passed or will pass more than 1 lunar distance (384,400 km or 0.00256 AU) from Earth in 2020.

Object	Size (meters)	Nearest approach (lunar distances)	Date	Ref
2020 BX12	165	11.34	2020-02-03	JPL · CAD
(163373) 2002 PZ₃₉	700	15.02	2020-02-15	JPL · CAD
(52768) 1998 OR2	1,750	16.36	2020-04-29	JPL · CAD
(388945) 2008 TZ₃	350	7.27	2020-05-10	JPL · CAD
(136795) 1997 BQ	1,000	16.02	2020-05-21	JPL · CAD
Planet Venus[note2.5 1]	—	112.3	2020-06-03	JPL
(163348) 2002 NN4	613	13.25	2020-06-06	JPL · CAD
2013 XA₂₂	115	7.62	2020-06-08	JPL · CAD
(441987) 2010 NY₆₅	228	9.78	2020-06-24	JPL · CAD
(8014) 1990 MF	700	21.28	2020-07-23	JPL · CAD
2014 RC	22	38.58	2020-09-22	JPL · CAD
(159402) 1999 AP₁₀	2,600	31.39	2020-10-19	JPL · CAD
2018 VP1	2	1.09+1.07 −11.06[note2.5 2]	2020-11-02	JPL · CAD
(7753) 1988 XB	800	25.76	2020-11-22	JPL · CAD
(153201) 2000 WO107	600	11.19	2020-11-29	JPL · CAD
(501647) 2014 SD224	150	7.86	2020-12-25	JPL · CAD
162173 Ryugu	865	23.56	2020-12-29	JPL · CAD

Notes

For comparison
2018 VP₁ could potentially pass less than 1 lunar distance to Earth, but the chances are fairly low and as such it was not listed in the main table unless followup observations confirm that it will pass less than 1 LD from Earth. A longer observation arc is required to constrain the orbit better.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[1] For a list of current Earth close approaches see Close Approaches and NEO Earth Close Approaches

[2] Distance from the center of Earth to the center of the object. See the NASA/JPL Solar System Dynamics Glossary: Geocentric. Earth has a radius of approximately 6,400 km.

[3] Objects that approached closer to the Moon than Earth are marked with a check.

[4] 2011 ES₄ may or may not pass within 1 LD from Earth due to large uncertainties in the asteroid's orbit.

[5] Distance from the center of the Moon to the center of the object. The Moon has a radius of approximately 1,740 km.

[venus-6] For comparison

[uncertainty-7] 2018 VP₁ could potentially pass less than 1 lunar distance to Earth, but the chances are fairly low and as such it was not listed in the main table unless followup observations confirm that it will pass less than 1 LD from Earth. A longer observation arc is required to constrain the orbit better.

2020 in space
« 2019 2021 »
Space probe launches	Solar Orbiter (Feb 2020) Hope (Jul 2020) Tianwen-1 (Jul 2020) Mars 2020 (Jul 2020) Perseverance Mars Helicopter Ingenuity Chang'e 5 (lunar sample return mission; Oct 2020)
Selected NEOs	Asteroid close approaches 2020 BX12 2020 CW 2020 CD3 (temporary satellite) (52768) 1998 OR2 2020 HS7 2020 JJ 2020 LD (163348) 2002 NN4 2020 OY4 2011 ES4 2018 VP1 (501647) 2014 SD224
Exoplanets	AU Mic b Gliese 229 Ac Gliese 433 (b · c · d) GJ 1151 b radio emissions Kepler-1649c KOI-456.04 Lacaille 9352 (b · c) TOI 700 (b · c · d) TOI 732 (b · c) TOI 1338 b TOI 1339 (b · c · d) TYC 8998-760-1 c
Discoveries	2020 AV2 FRB 180916 source location and periodicity Radcliffe wave Ophiuchus Supercluster explosion PSO J03094+27 2MASS J10475385+2124234 wind speed measurements SGR 1935+2154 HR 6819 black hole PHL 293B disappearance South Pole Wall
Comets	C/2019 Y4 (ATLAS) C/2017 T2 (PANSTARRS) C/2020 F8 (SWAN) C/2019 U6 (LEMMON) C/2020 F3 (NEOWISE) 2P/Encke 88P/Howell
Space exploration	Spitzer retirement (Jan) BepiColombo (Earth gravity assist; Apr) OSIRIS-REx (collecting sample from asteroid Bennu; Oct) Hayabusa2 (sample return from asteroid Ryugu to Earth; Dec)
Category:2019 in space — Category:2020 in space — Category:2021 in space

List of asteroid close approaches to Earth in 2020

Timeline of known close approaches less than one lunar distance from Earth

Warning times by size

Notes

Timeline of close approaches less than one lunar distance from the Moon

Notes

Additional examples

Notes

See also

References