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Eunomia family

May 04, 2024

The Eunomia or Eunomian family (FIN: 502) is a large asteroid family of S-type asteroids named after the asteroid 15 Eunomia. It is the most prominent family in the intermediate asteroid belt and the 6th-largest family with nearly six thousand known members, or approximately 1.4% of all asteroids in the asteroid belt.[1][2]: 23 

Characteristics edit

 
Location and structure of the Eunomia family.

By far the largest member is 15 Eunomia, the largest of all the "stony" S-type asteroid, It is about 300 km across along its longest axis, has a 250 km mean radius, and lies close to the barycenter of the family. Eunomia has been estimated to contain about 70–75% of the matter from the original parent body. This had a mean diameter of about 280 km and was disrupted by the catastrophic impact that created the family.[3] It is likely that the parent body was at least partly differentiated, because the surface of Eunomia and spectra of the smaller family members show some variation.[4][5][6] This notwithstanding, other studies have indicated that the body that was definitively shattered by the impact that created the family was probably already somewhat fragmented by previous smaller collisions.[7] The impactor was probably a smaller, yet still very substantial asteroid of 50 km diameter (or so) that hit at a speed of about 22,000 km/h.[8]

The other Eunomian asteroids are quite regularly distributed in orbital space around Eunomia. The next largest member identified by the[9] analysis was 258 Tyche of 65 km diameter. However, its orbit lies at the very margin of what can be considered the family region, and it may well be an interloper. The largest clear family members are about 30 km diameter, with several asteroids in this size range.

Spectroscopic studies have shown that the family members span a noticeable range of compositions, although all remain within the S spectral class. As such they are of generally stony (rather than icy) surface composition that includes silicates and some nickel-iron, and are quite bright for their size.

The family contains relatively large numbers of small objects. Since most of these smaller objects are "eroded" away over time due to secondary collisions, gravitational perturbations, and the Yarkovsky effect, this indicates that the Eunomia family was created relatively recently (on an astronomical timescale).[8][10]

The Cassini-Huygens spacecraft flew by 2685 Masursky, a small family member, in 2000. However, the encounter distance of about one million kilometers was too large for surface features to be resolved.

Location and size edit

The Eunomia family is located between the 3:1 and 8:3 resonances with Jupiter, at relatively high inclinations.

A HCM numerical analysis by Zappalà, et al.[9] determined a large group of 'core' family members, whose proper orbital elements lie in the approximate ranges

ap ep ip
min 2.54 AU 0.121 11.6°
max 2.72 AU 0.180 14.8°

At the present epoch, the range of osculating orbital elements of these core members is

a e i
min 2.53 AU 0.078 11.1°
max 2.72 AU 0.218 15.8°

The Zappalà 1995 analysis found 439 core members, while a search of a recent proper element database[11] for 96944 minor planets in 2005 yielded 4649 objects lying within the rectangular-shaped region defined by the first table above. By 2014, Nesvorný identified at total of 5,670, or approximately 1.4% of all asteroids, using the Hierarchical Clustering Method.[1][2]: 23 

Interlopers edit

A number of interlopers have been identified, which share the same orbital elements as the true family members, but can not have come from the same breakup because of spectral (hence, compositional) differences. The following have been identified in a spectral survey: 85 Io, 141 Lumen, 546 Herodias.[5][12]: 646 

References edit

  1. ^ a b . Nesvorny HCM Asteroid Families V3.0. Archived from the original on 9 October 2016. Retrieved 27 October 2017.
  2. ^ a b Nesvorný, D.; Broz, M.; Carruba, V. (December 2014). "Identification and Dynamical Properties of Asteroid Families". Asteroids IV. pp. 297–321. arXiv:1502.01628. Bibcode:2015aste.book..297N. doi:10.2458/azu_uapress_9780816532131-ch016. ISBN 9780816532131.
  3. ^ Tanga, P.; Cellino, Alberto; Michel, Patrick; Zappalà, Vincenzo; Paolicchi, P.; Dell'Oro, A. (1999). "On the Size Distribution of Asteroid Families: The Role of Geometry". Icarus. 141 (1): 65. Bibcode:1999Icar..141...65T. doi:10.1006/icar.1999.6148.[dead link]
  4. ^ Reed, K. L.; Gaffey, M. J.; Lebofsky, L. A. (1997). "Shape and Albedo Variations of Asteroid 15 Eunomia". Icarus. 125 (2): 446. Bibcode:1997Icar..125..446R. doi:10.1006/icar.1996.5627.[dead link]
  5. ^ a b Lazzaro, D.; Mothé-Diniz, T.; Carvano, J. M.; Angeli, C. A.; Betzler, A. S.; Florczak, M.; Cellino, Alberto; Di Martino, M.; Doressoundiram, A.; Barucci, M. A.; Dotto, E.; Bendjoya, Philippe (1999). "The Eunomia Family: A Visible Spectroscopic Survey". Icarus. 142 (2): 445. Bibcode:1999Icar..142..445L. doi:10.1006/icar.1999.6213.
  6. ^ Nathues, A.; Mottola, S.; Kaasalainen, M.; Neukum, G. (2005). "Spectral study of the Eunomia asteroid family; I. Eunomia". Icarus. 175 (2): 452. Bibcode:2005Icar..175..452N. doi:10.1016/j.icarus.2004.12.013.[dead link]
  7. ^ Michel, Patrick; Benz, W.; Richardson, D. C. (2004). "Catastrophic disruption of pre-shattered parent bodies". Icarus. 168 (2): 420. Bibcode:2004Icar..168..420M. doi:10.1016/j.icarus.2003.12.011.[dead link]
  8. ^ a b Michel, Patrick; Benz, W.; Tanga, P.; Richardson, D. C. (2001). "Collisional and Gravitational Reaccumulation: Forming Asteroid Families and Satellites". Science. 294 (5547): 1696–700. Bibcode:2001Sci...294.1696M. doi:10.1126/science.1065189. PMID 11721050. S2CID 6470148.
  9. ^ a b Zappalà, Vincenzo; Bendjoya, Philippe; Cellino, Alberto; Farinella, Paolo; Froeschlé, Claude (August 1995). "Asteroid Families: Search of a 12,487-Asteroid Sample Using Two Different Clustering Techniques". Icarus. 116 (2): 291–314. Bibcode:1995Icar..116..291Z. doi:10.1006/icar.1995.1127.
  10. ^ Michel, Patrick; Tanga, P.; Benz, W.; Richardson, D. C. (2002). "Formation of Asteroid Families by Catastrophic Disruption: Simulations with Fragmentation and Gravitational Reaccumulation". Icarus. 160 (1): 10. Bibcode:2002Icar..160...10M. doi:10.1006/icar.2002.6948.[dead link]
  11. ^ . AstDys site. Archived from the original on 2006-02-20. Retrieved 2006-05-09.
  12. ^ Cellino, A.; Bus, S. J.; Doressoundiram, A.; Lazzaro, D. (March 2002). "Spectroscopic Properties of Asteroid Families" (PDF). Asteroids III: 633–643. Bibcode:2002aste.book..633C. Retrieved 27 October 2017.

May 04, 2024
eunomia, family, eunomia, eunomian, family, large, asteroid, family, type, asteroids, named, after, asteroid, eunomia, most, prominent, family, intermediate, asteroid, belt, largest, family, with, nearly, thousand, known, members, approximately, asteroids, ast. The Eunomia or Eunomian family FIN 502 is a large asteroid family of S type asteroids named after the asteroid 15 Eunomia It is the most prominent family in the intermediate asteroid belt and the 6th largest family with nearly six thousand known members or approximately 1 4 of all asteroids in the asteroid belt 1 2 23 Contents 1 Characteristics 2 Location and size 3 Interlopers 4 ReferencesCharacteristics edit nbsp Location and structure of the Eunomia family By far the largest member is 15 Eunomia the largest of all the stony S type asteroid It is about 300 km across along its longest axis has a 250 km mean radius and lies close to the barycenter of the family Eunomia has been estimated to contain about 70 75 of the matter from the original parent body This had a mean diameter of about 280 km and was disrupted by the catastrophic impact that created the family 3 It is likely that the parent body was at least partly differentiated because the surface of Eunomia and spectra of the smaller family members show some variation 4 5 6 This notwithstanding other studies have indicated that the body that was definitively shattered by the impact that created the family was probably already somewhat fragmented by previous smaller collisions 7 The impactor was probably a smaller yet still very substantial asteroid of 50 km diameter or so that hit at a speed of about 22 000 km h 8 The other Eunomian asteroids are quite regularly distributed in orbital space around Eunomia The next largest member identified by the 9 analysis was 258 Tyche of 65 km diameter However its orbit lies at the very margin of what can be considered the family region and it may well be an interloper The largest clear family members are about 30 km diameter with several asteroids in this size range Spectroscopic studies have shown that the family members span a noticeable range of compositions although all remain within the S spectral class As such they are of generally stony rather than icy surface composition that includes silicates and some nickel iron and are quite bright for their size The family contains relatively large numbers of small objects Since most of these smaller objects are eroded away over time due to secondary collisions gravitational perturbations and the Yarkovsky effect this indicates that the Eunomia family was created relatively recently on an astronomical timescale 8 10 The Cassini Huygens spacecraft flew by 2685 Masursky a small family member in 2000 However the encounter distance of about one million kilometers was too large for surface features to be resolved Location and size editThe Eunomia family is located between the 3 1 and 8 3 resonances with Jupiter at relatively high inclinations A HCM numerical analysis by Zappala et al 9 determined a large group of core family members whose proper orbital elements lie in the approximate ranges ap ep ip min 2 54 AU 0 121 11 6 max 2 72 AU 0 180 14 8 At the present epoch the range of osculating orbital elements of these core members is a e i min 2 53 AU 0 078 11 1 max 2 72 AU 0 218 15 8 The Zappala 1995 analysis found 439 core members while a search of a recent proper element database 11 for 96944 minor planets in 2005 yielded 4649 objects lying within the rectangular shaped region defined by the first table above By 2014 Nesvorny identified at total of 5 670 or approximately 1 4 of all asteroids using the Hierarchical Clustering Method 1 2 23 Interlopers editA number of interlopers have been identified which share the same orbital elements as the true family members but can not have come from the same breakup because of spectral hence compositional differences The following have been identified in a spectral survey 85 Io 141 Lumen 546 Herodias 5 12 646 References edit a b Small Bodies Data Ferret Nesvorny HCM Asteroid Families V3 0 Archived from the original on 9 October 2016 Retrieved 27 October 2017 a b Nesvorny D Broz M Carruba V December 2014 Identification and Dynamical Properties of Asteroid Families Asteroids IV pp 297 321 arXiv 1502 01628 Bibcode 2015aste book 297N doi 10 2458 azu uapress 9780816532131 ch016 ISBN 9780816532131 Tanga P Cellino Alberto Michel Patrick Zappala Vincenzo Paolicchi P Dell Oro A 1999 On the Size Distribution of Asteroid Families The Role of Geometry Icarus 141 1 65 Bibcode 1999Icar 141 65T doi 10 1006 icar 1999 6148 dead link Reed K L Gaffey M J Lebofsky L A 1997 Shape and Albedo Variations of Asteroid 15 Eunomia Icarus 125 2 446 Bibcode 1997Icar 125 446R doi 10 1006 icar 1996 5627 dead link a b Lazzaro D Mothe Diniz T Carvano J M Angeli C A Betzler A S Florczak M Cellino Alberto Di Martino M Doressoundiram A Barucci M A Dotto E Bendjoya Philippe 1999 The Eunomia Family A Visible Spectroscopic Survey Icarus 142 2 445 Bibcode 1999Icar 142 445L doi 10 1006 icar 1999 6213 Nathues A Mottola S Kaasalainen M Neukum G 2005 Spectral study of the Eunomia asteroid family I Eunomia Icarus 175 2 452 Bibcode 2005Icar 175 452N doi 10 1016 j icarus 2004 12 013 dead link Michel Patrick Benz W Richardson D C 2004 Catastrophic disruption of pre shattered parent bodies Icarus 168 2 420 Bibcode 2004Icar 168 420M doi 10 1016 j icarus 2003 12 011 dead link a b Michel Patrick Benz W Tanga P Richardson D C 2001 Collisional and Gravitational Reaccumulation Forming Asteroid Families and Satellites Science 294 5547 1696 700 Bibcode 2001Sci 294 1696M doi 10 1126 science 1065189 PMID 11721050 S2CID 6470148 a b Zappala Vincenzo Bendjoya Philippe Cellino Alberto Farinella Paolo Froeschle Claude August 1995 Asteroid Families Search of a 12 487 Asteroid Sample Using Two Different Clustering Techniques Icarus 116 2 291 314 Bibcode 1995Icar 116 291Z doi 10 1006 icar 1995 1127 Michel Patrick Tanga P Benz W Richardson D C 2002 Formation of Asteroid Families by Catastrophic Disruption Simulations with Fragmentation and Gravitational Reaccumulation Icarus 160 1 10 Bibcode 2002Icar 160 10M doi 10 1006 icar 2002 6948 dead link Proper elements for 96944 numbered minor planets AstDys site Archived from the original on 2006 02 20 Retrieved 2006 05 09 Cellino A Bus S J Doressoundiram A Lazzaro D March 2002 Spectroscopic Properties of Asteroid Families PDF Asteroids III 633 643 Bibcode 2002aste book 633C Retrieved 27 October 2017 Retrieved from https en wikipedia org w index php title Eunomia family amp oldid 1214384345, wikipedia, wiki, book, books, library,

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