Astronomy:(29075) 1950 DA

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Short description: Most hazardous risk–listed near-Earth asteroid
(29075) 1950 DA
1950 DA.png
Radar image of 1950 DA taken at Arecibo in March 2001, from a distance of 22 LD or 0.052 AU
Discovery[1]
Discovered byCarl A. Wirtanen
Discovery siteLick Obs.
Discovery date23 February 1950
Designations
(29075) 1950 DA
1950 DA · 2000 YK66
Minor planet categoryNEO · Apollo · PHA[1][2] · risk listed
Orbital characteristics[2]
Epoch 31 January 2012 (JD 2455957.5)
Uncertainty parameter 0
Observation arc67.96 yr (24,823 d)
|{{{apsis}}}|helion}}2.5619 AU
|{{{apsis}}}|helion}}0.8350 AU
1.6985 AU
Eccentricity0.5083
Orbital period2.21 yr (809 d)
Mean anomaly315.94°
Mean motion0° 26m 43.08s / day
Inclination12.175°
Longitude of ascending node356.74°
224.61°
Earth MOID0.0406 AU (15.8169 LD)
Proper orbital elements[3]
Precession of perihelion13.655 arcsec / yr
Precession of the ascending node−35.824 arcsec / yr
Physical characteristics
Dimensions1.39 km × 1.46 km × 1.07 km[4]
Mean diameter
Mass>4×1012 kg[lower-alpha 1]
Mean density>3.5 g/cm3[4]
Rotation period2.12160±0.00004 h[4]
Geometric albedo
Absolute magnitude (H)


(29075) 1950 DA (provisional designation 1950 DA) is a risk-listed asteroid, classified as a near-Earth object and potentially hazardous asteroid of the Apollo group, approximately 1.1 kilometers (0.68 miles) in diameter.[4] It once had the highest known probability of impacting Earth.[11] In 2002, it had the highest Palermo rating with a value of 0.17 for a possible collision in 2880.[12] Since that time, the estimated risk has been updated several times. In December 2015, the odds of an Earth impact were revised to 1 in 8,300 (0.012%) with a Palermo rating of −1.42.[11] As of 2022, It is listed on the Sentry Risk Table with the second highest cumulative Palermo rating of −2.05 (impact risk of 1-in-34,000).[13][14] 1950 DA is not assigned a Torino scale rating, because the 2880 date is over 100 years in the future.

Discovery and nomenclature

1950 DA was first discovered on 23 February 1950 by Carl A. Wirtanen at Lick Observatory.[2] It was observed for seventeen days[5] and then lost because this short observation arc resulted in large uncertainties in Wirtanen's orbital solution. On 31 December 2000, it was recovered at Lowell Observatory and was announced as 2000 YK66 on 4 January 2001.[15] Just two hours later it was recognized as 1950 DA.[5][16]

Observations

Asteroid 1950 DA, Arecibo Observatory radar image (coloured version)
Arecibo radar movie of 1950 DA obtained during 48 minutes (37% of a rotation) on 4 March 2001

On 5 March 2001, 1950 DA made a close approach to Earth at a distance of 0.05207 astronomical unit|AU (7.790 million km; 4.840 million mi; 20.26 LD).[17] It was studied by radar at the Goldstone and Arecibo observatories from March 3 to 7, 2001.[5]

The studies showed that the asteroid has a mean diameter of 1.1 km, assuming that 1950 DA is a retrograde rotator.[18] Optical lightcurve analysis by Lenka Šarounová and Petr Pravec shows that its rotation period is 2.1216±0.0001 hours. Due to its short rotation period and high radar albedo, 1950 DA is thought to be fairly dense (more than 3.5 g/cm3, assuming that it has no internal strength) and likely composed of nickeliron.[4] In August 2014, scientists from the University of Tennessee determined that 1950 DA is a rubble pile rotating faster than the breakup limit for its density, implying the asteroid is held together by van der Waals forces rather than gravity.[19][20]

1950 DA made a distant approach to Earth on 5 February 2021.[17] However, at that time it was half an AU away from Earth, preventing more useful astrometrics and timing that occurs when an object is closer to Earth. The next close approach that presents a good opportunity to observe the asteroid will be on 2 March 2032, when it will be 0.075 AU (11.2 million km) from Earth. The following table lists next five approaches closer than 0.10 AU.[17] By 2136 the close approach solutions are becoming notably more divergent.

Position uncertainty and increasing divergence[17]
Date JPL SBDB
nominal geocentric
distance (AU) 		uncertainty
region
(3-sigma)
2032 March 2 0.0757523 AU (11.33238 million km) ±52 km
2074 March 19 0.0954596 AU (14.28055 million km) ±131 km
2105 March 10 0.0363159 AU (5.43278 million km) ±22 km
2136 March 1 0.0425957 AU (6.37223 million km) ±1010 km
2187 March 8 0.0352249 AU (5.26957 million km) ±2795 km

Possible Earth impact

That 1950 DA has one of the best-determined asteroid orbital solutions is due to a combination of:[5]

  • an orbit moderately inclined (12 degrees)[2] to the ecliptic plane (reducing in-plane perturbations);
  • high-precision radar astrometry, which provides its distance and is complementary to the measurements of angular positions;
  • a 68-year observation arc;[2]
  • an uncertainty region controlled by resonance.[5]

Main-belt asteroid 78 Diana (~125 km in diameter) will pass about 0.003 astronomical unit|AU (450,000 km; 280,000 mi) from 1950 DA on 5 August 2150.[5] At that distance and size, Diana will perturb 1950 DA enough so that the change in trajectory is notable by 2880 (730 years later). In addition, over the intervening time, 1950 DA's rotation will cause its orbit to slightly change as a result of the Yarkovsky effect. If 1950 DA continues on its present orbit, it may approach Earth on 16 March 2880, though the mean trajectory passes many millions of kilometres from Earth, so 1950 DA does not have a significant chance of impacting Earth. As of the 7 December 2015 solution, the probability of an impact in 2880 is 1 in 8,300 (0.012%).[11]

The energy released by a collision with an object the size of 1950 DA would cause major effects on the climate and biosphere, which would be devastating to human civilization. The discovery of the potential impact heightened interest in asteroid deflection strategies.

See also

Notes

  1. A reported volume of 1.14 km3 × density of 3.5 g/cm3 yields a mass (m = d × v) of 3.99×1012 kg

References

  1. 1.0 1.1 1.2 "29075 (1950 DA)". Minor Planet Center. https://www.minorplanetcenter.net/db_search/show_object?object_id=29075. 
  2. 2.0 2.1 2.2 2.3 2.4 2.5 "JPL Small-Body Database Browser: 29075 (1950 DA)". Jet Propulsion Laboratory. https://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2029075. 
  3. "(29075) 1950DA NeoDys – Proper Elements". https://newton.spacedys.com/neodys/index.php?pc=1.1.6&n=29075. 
  4. 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Busch, Michael W.; Giorgini, Jon D.; Ostro, Steven J.; Benner, Lance A. M.; Jurgens, Raymond F.; Rose, Randy et al. (October 2007). "Physical modeling of near-Earth Asteroid (29075) 1950 DA". Icarus 190 (2): 608–621. doi:10.1016/j.icarus.2007.03.032. Bibcode2007Icar..190..608B. https://echo.jpl.nasa.gov/asteroids/29075_1950DA/busch.etal.2007.1950da.pdf. Retrieved 5 July 2018. 
  5. 5.0 5.1 5.2 5.3 5.4 5.5 5.6 Giorgini, J. D.; Ostro, S. J.; Benner, L. A. M.; Chodas, P. W.; Chesley, S. R.; Hudson, R. S. et al. (April 2002). "Asteroid 1950 DA's Encounter with Earth in 2880: Physical Limits of Collision Probability Prediction". Science 296 (5565): 132–136. doi:10.1126/science.1068191. PMID 11935024. Bibcode2002Sci...296..132G. http://neo.jpl.nasa.gov/1950da/1950da.pdf. Retrieved 5 July 2018. 
  6. 6.0 6.1 6.2 Mainzer, A. K.; Bauer, J. M.; Cutri, R. M.; Grav, T.; Kramer, E. A.; Masiero, J. R. et al. (June 2016). "NEOWISE Diameters and Albedos V1.0". NASA Planetary Data System: EAR-A-COMPIL-5-NEOWISEDIAM-V1.0. Bibcode2016PDSS..247.....M. https://sbnarchive.psi.edu/pds3/non_mission/EAR_A_COMPIL_5_NEOWISEDIAM_V1_0/data/neowise_mainbelt.tab. Retrieved 5 July 2018. 
  7. Rivkin, A. S.; Binzel, R. P.; Bus, S. J. (May 2005). "Constraining near-Earth object albedos using near-infrared spectroscopy". Icarus 175 (1): 175–180. doi:10.1016/j.icarus.2004.11.005. Bibcode2005Icar..175..175R. 
  8. 8.0 8.1 8.2 8.3 Dandy, C. L.; Fitzsimmons, A.; Collander-Brown, S. J. (June 2003). "Optical colors of 56 near-Earth objects: trends with size and orbit". Icarus 163 (2): 363–373. doi:10.1016/S0019-1035(03)00087-3. Bibcode2003Icar..163..363D. 
  9. 9.0 9.1 9.2 "LCDB Data for (29075)". Asteroid Lightcurve Database (LCDB). http://www.minorplanet.info/PHP/generateOneAsteroidInfo.php?AstInfo=29075%7C. 
  10. 10.0 10.1 "NeoDys Near Earth Objects Dynamic Site". https://newton.spacedys.com/neodys/index.php?pc=1.1.9&n=29075. 
  11. 11.0 11.1 11.2 "29075 (1950 DA) Earth Impact Risk Summary". NASA/JPL Near-Earth Object Program Office. 7 December 2015. https://cneos.jpl.nasa.gov/sentry/details.html#?des=29075. 
  12. "Asteroid 1950 DA". NASA/JPL Near-Earth Object Program Office. http://neo.jpl.nasa.gov/1950da/. 
  13. "Sentry Risk Table". NASA/JPL Near-Earth Object Program Office. https://cneos.jpl.nasa.gov/sentry/.  (Use Unconstrained Settings)
  14. "Impact threat analysis update completed for 1950 DA". European Space Agency. 29 March 2022. https://neo.ssa.esa.int/-/impact-threat-analysis-update-completed-for-1950-da. 
  15. "MPEC 2001-A22 : 2000 YK66". Minor Planet Center. 4 January 2001. https://minorplanetcenter.net/mpec/K01/K01A22.html. 
  16. "MPEC 2001-A26 : 1950 DA = 2000 YK66". Minor Planet Center. 4 January 2001. https://minorplanetcenter.net/mpec/K01/K01A26.html. 
  17. 17.0 17.1 17.2 17.3 "JPL Close-Approach Data: 29075 (1950 DA)". https://ssd.jpl.nasa.gov/sbdb.cgi?sstr=1950DA;cad=1#cad. 
  18. Farnocchia, D.; Chesley, S. R. (February 2014). "Assessment of the 2880 impact threat from Asteroid (29075) 1950 DA". Icarus 229: 321–327. doi:10.1016/j.icarus.2013.09.022. Bibcode2014Icar..229..321F. 
  19. Rozitis, Ben; MacLennan, Eric; Emery, Joshua P. (13 August 2014). "Cohesive forces prevent the rotational breakup of rubble-pile asteroid (29075) 1950 DA". Nature 512 (7513): 174–176. doi:10.1038/nature13632. PMID 25119234. http://oro.open.ac.uk/44912/1/BR_1950DA_accepted.pdf. 
  20. "UT Research uncovers forces that hold asteroid together". University of Tennessee. 13 August 2014. http://tntoday.utk.edu/2014/08/13/ut-research-uncovers-forces-hold-gravitydefying-nearearth-asteroid/. 

External links



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