Geophysical definition of planet

The International Union of Geological Sciences IUGS is the internationally recognized body charged with fostering agreement on nomenclature and classification across geoscientific disciplines However they have yet to create a formal definition of the term planet As a result there are various geophysical definitions in use among professional geophysicists planetary scientists and other professionals in the geosciences Many professionals opt to use one of several of these geophysical definitions instead of the definition voted on by the International Astronomical Union the dominant organization for setting planetary nomenclature DefinitionsSome geoscientists adhere to the formal definition of a planet that was proposed by the International Astronomical Union IAU in August 2006 According to IAU definition of planet a planet is an astronomical body orbiting the Sun that is massive enough to be rounded by its own gravity and has cleared the neighbourhood around its orbit Another widely accepted geophysical definition of a planet includes that which was put forth by planetary scientists Alan Stern and Harold Levison in 2002 The pair proposed the following rules to determine whether an object in space satisfies the definition for a planetary body A planetary body is defined as any body in space that satisfies the following testable upper and lower bound criteria on its mass If isolated from external perturbations e g dynamical and thermal the body must Be low enough in mass that at no time past or present can it generate energy in its interior due to any self sustaining nuclear fusion chain reaction else it would be a brown dwarf or a star And also Be large enough that its shape becomes determined primarily by gravity rather than mechanical strength or other factors e g surface tension rotation rate in less than a Hubble time roughly the current age of the universe so that the body would on this timescale or shorter reach a state of hydrostatic equilibrium in its interior They explain their reasoning by noting that this definition delineates the evolutionary stages and primary features of planets more clearly Specifically they claim that the hallmark of planethood is the collective behavior of the body s mass to overpower mechanical strength and flow into an equilibrium ellipsoid whose shape is dominated by its own gravity and that the definition allows for an early period during which gravity may not yet have fully manifested itself to be the dominant force They subclassified planetary bodies as Planets which orbit their stars directly Planetary scale satellites the largest being Luna the Galilean satellites Titan and Triton with the last apparently being formerly a planet in its own right Unbound planets rogue planets between the stars Double planets in which a planet and a massive satellite orbit a point between the two bodies the single known example in the Solar System is Pluto Charon Furthermore there are important dynamical categories Uberplanets orbit stars and are dynamically dominant enough to clear neighboring planetesimals in a Hubble time Unterplanets which cannot clear their neighborhood for example are in unstable orbits or are in resonance with or orbit a more massive body They set the boundary at L 1 A 2018 encapsulation of the above definition defined all planetary bodies as planets It was worded for a more general audience and was intended as an alternative to the IAU definition of a planet It noted that planetary scientists find a different definition of planet to be more useful for their field just as different fields define metal differently For them a planet is a substellar mass body that has never undergone nuclear fusion and has enough gravitation to be round due to hydrostatic equilibrium regardless of its orbital parameters Some variation can be found in how planetary scientists classify borderline objects such as the asteroids Pallas and Vesta These two are probably surviving protoplanets and are larger than some clearly ellipsoidal objects but currently are not very round although Vesta likely was round in the past Some definitions include them while others do not Other names for geophysical planetsIn 2009 Jean Luc Margot who proposed a mathematical criterion for clearing the neighborhood and Levison suggested that roundness should refer to bodies whose gravitational forces exceed their material strength and that round bodies could be called worlds They noted that such a geophysical classification was sound and was not necessarily in conflict with the dynamical conception of a planet for them planet is defined dynamically and is a subset of world which also includes dwarf planets round moons and free floaters However they pointed out that a taxonomy based on roundness is highly problematic because roundness is very rarely directly observable is a continuum and proxying it based on size or mass leads to inconsistencies because planetary material strength depends on temperature composition and mixing ratios For example icy Mimas is round at 396 kilometre 246 mi diameter but rocky Vesta is not at 525 kilometre 326 mi diameter Thus they stated that some uncertainty could be tolerated in classifying an object as a world while its dynamical classification could be simply determined from mass and orbital period Geophysical planets in the Solar SystemUnder geophysical definitions of a planet there are more satellite and dwarf planets in the Solar System than classical planets The number of geophysical planets in the Solar System cannot be objectively listed as it depends on the precise definition as well as detailed knowledge of a number of poorly observed bodies and there are some borderline cases At the time of the IAU definition in 2006 it was thought that the limit at which icy astronomical bodies were likely to be in hydrostatic equilibrium was around 400 kilometres 250 mi in diameter suggesting that there were a large number of dwarf planets in the Kuiper belt and scattered disk However by 2010 it was known that icy moons up to 1 500 kilometres 930 mi in diameter e g Iapetus are not in equilibrium Iapetus is round but is too oblate for its current spin it has an equilibrium shape for a rotation period of 16 hours not its actual spin of 79 days This might be because the shape of Iapetus was frozen by formation of a thick crust shortly after its formation while its rotation continued to slow afterwards due to tidal dissipation until it became tidally locked Most geophysical definitions list such bodies anyway In fact this is already the case with the IAU definition Mercury is now known to not be in hydrostatic equilibrium but it is universally considered to be a planet regardless In 2019 Grundy et al argued that trans Neptunian objects up to 900 to 1 000 kilometres 560 to 620 mi in diameter e g 55637 2002 UX25 and Gǃkunǁʼhomdima have never compressed out their internal porosity and are thus not planetary bodies In 2023 Emery et al argued for a similar threshold for chemical evolution in the trans Neptunian region Such a high threshold suggests that at most nine known trans Neptunian objects could possibly be geophysical planets Pluto Eris Haumea Makemake Gonggong Charon Quaoar Orcus and Sedna pass the 900 kilometre 560 mi threshold The bodies generally agreed to be geophysical planets include the eight major planets Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune nine dwarf planets that geophysicists generally agree are planets Ceres Orcus Pluto Haumea Quaoar Makemake Gonggong Eris Sedna and nineteen planetary mass moons One satellite of Earth the Moon Four satellites of Jupiter Io Europa Ganymede and Callisto Seven satellites of Saturn Mimas Enceladus Tethys Dione Rhea Titan and Iapetus Five satellites of Uranus Miranda Ariel Umbriel Titania and Oberon One satellite of Neptune Triton One satellite of Pluto Charon Some other objects are sometimes included at the borderlines such as the asteroids Pallas Vesta and Hygiea larger than Mimas but Pallas and Vesta are noticeably not round Neptune s second largest moon Proteus larger than Mimas but still not round or some other trans Neptunian objects that might or might not be dwarf planets An examination of spacecraft imagery suggests that the threshold at which an object is large enough to be rounded by self gravity whether due to purely gravitational forces as with Pluto and Titan or augmented by tidal heating as with Io and Europa is approximately the threshold of geological activity However there are exceptions such as Callisto and Mimas which have equilibrium shapes historical in the case of Mimas but show no signs of past or present endogenous geological activity and Enceladus which is geologically active due to tidal heating but is apparently not currently in equilibrium Comparison to IAU definition of a planetSome geophysical definitions are the same as the IAU definition while other geophysical definitions tend to be more or less equivalent to the second clause of the IAU definition of planet Stern s 2018 definition but not his 2002 definition excludes the first clause of the IAU definition that a planet be in orbit around a star and the third clause that a planet has cleared the neighborhood around its orbit It thus counts dwarf planets and planetary mass moons as planets Five bodies are currently recognized as or named as dwarf planets by the IAU Ceres Pluto the dwarf planet with the largest known radius Eris the dwarf planet with the largest known mass Haumea and Makemake though the last three have not actually been demonstrated to be dwarf planets Astronomers normally include these five as well as four more Quaoar Sedna Orcus and Gonggong Reaction to IAU definitionMany critics of the IAU decision were focused specifically on retaining Pluto as a planet and were not interested in debating or discussing how the term planet should be defined in geoscience An early petition rejecting the IAU definition attracted more than 300 signatures though not all of these critics supported an alternative definition Other critics took issue with the definition itself and wished to create alternative definitions that could be used in different disciplines The geophysical definition of a planet put forth by Stern and Levinson is an alternative to the IAU s definition of what is and is not a planet and is meant to stand as the geophysical definition while the IAU definition they argue is intended more for astronomers Nonetheless some geologists favor the IAU s definition Proponents of Stern and Levinson s geophysical definition have shown that such conceptions of what a planet is have been used by planetary scientists for decades and continued after the IAU definition was established and that asteroids have routinely been regarded as minor planets though usage varies considerably Applicability to exoplanetsGeophysical definitions have been used to define exoplanets The 2006 IAU definition purposefully does not address the complication of exoplanets though in 2003 the IAU declared that the minimum mass required for an extrasolar object to be considered a planet should be the same as that used in the Solar System While some geophysical definitions that differ from the IAU definition apply in theory to exoplanets and rogue planets they have not been used in practice due to ignorance of the geophysical properties of most exoplanets Geophysical definitions typically exclude objects that have ever undergone nuclear fusion and so may exclude the higher mass objects included in exoplanet catalogs as well as the lower mass objects The Extrasolar Planets Encyclopaedia Exoplanet Data Explorer and NASA Exoplanet Archive all include objects significantly more massive than the theoretical 13 Jupiter mass threshold at which deuterium fusion is believed to be supported for reasons including uncertainties in how this limit would apply to a body with a rocky core uncertainties in the masses of exoplanets and debate over whether deuterium fusion or the mechanism of formation is the most appropriate criterion to distinguish a planet from a star These uncertainties apply equally to the IAU conception of a planet Both the IAU definition and the geophysical definitions that differ from it consider the shape of the object with consideration given to hydrostatic equilibrium Determining the roundness of a body requires measurements across multiple chords and even that is not enough to determine whether it is actually in equilibrium but exoplanet detection techniques provide only the planet s mass the ratio of its cross sectional area to that of the host star or its relative brightness One small exoplanet Kepler 1520b has a mass of less than 0 02 times that of the Earth and analogy to objects within the Solar System suggests that this may not be enough for a rocky body to be a planet Another WD 1145 017 b is only 0 0007 Earth masses while SDSS J1228 1040 b may be only 0 01 Earth radii in size well below the upper equilibrium limit for icy bodies in the Solar System See List of smallest exoplanets See alsoList of gravitationally rounded objects of the Solar System a list of objects generally accepted by astronomers to meet geophysical planet definitions with many properties presentedFurther readingMoons Are Planets Scientific Usefulness Versus Cultural Teleology in the Taxonomy of Planetary Science Philip T Metzger William M Grundy Mark Sykes S Alan Stern James F Bell III Charlene E Detelich Kirby D Runyon Michael Summers 22 Oct 2021References IUGS What is IUGS IUGS in Italian Archived from the original on 2021 12 10 Retrieved 2021 12 10 International Astronomical Union IAU 2024 03 19 Retrieved 2024 06 22 Panchuk Karla 2015 How to Build a Solar System BC Open Textbook Archived from the original on 2021 12 10 Retrieved 2021 12 09 IAU 2006 General Assembly Result of the IAU Resolution votes Archived 2020 05 17 at the Wayback Machine International Astronomical Union 2006 Retrieved 2021 12 09 Stern S Alan Levison Harold F 2002 Rickman H ed Regarding the criteria for planethood and proposed planetary classification schemes Highlights of Astronomy 12 San Francisco CA Astronomical Society of the Pacific 205 213 Bibcode 2002HiA 12 205S doi 10 1017 S1539299600013289 ISBN 1 58381 086 2 See p 208 Runyon Kirby D Stern S Alan 17 May 2018 An organically grown planet definition Should we really define a word by voting Astronomy Archived from the original on 10 October 2019 Retrieved 12 October 2019 Emily Lakdawalla et al What Is A Planet Archived 2022 01 22 at the Wayback Machine The Planetary Society 21 April 2020 https www hou usra edu meetings lpsc2017 eposter 1448 pdf Archived 2020 09 28 at the Wayback Machine bare URL PDF Margot Jean Luc Levison Hal 2009 Planetary Taxonomy PDF Archived PDF from the original on 18 September 2021 Retrieved 19 October 2021 Tancredi Gonzalo Favre Sofia June 2008 Which are the dwarfs in the Solar System Icarus 195 2 851 862 Bibcode 2008Icar 195 851T doi 10 1016 j icarus 2007 12 020 ISSN 0019 1035 Thomas P C July 2010 Sizes shapes and derived properties of the saturnian satellites after the Cassini nominal mission PDF Icarus 208 1 395 401 Bibcode 2010Icar 208 395T doi 10 1016 j icarus 2010 01 025 Archived PDF from the original on 2018 12 23 Retrieved 2020 09 20 Cowen R 2007 Idiosyncratic Iapetus Science News vol 172 pp 104 106 references Archived 2007 10 13 at the Wayback Machine Sean Solomon Larry Nittler amp Brian Anderson eds 2018 Mercury The View after MESSENGER Cambridge Planetary Science series no 21 Cambridge University Press pp 72 73 Grundy W M Noll K S Buie M W Benecchi S D Ragozzine D Roe H G 2019 The mutual orbit mass and density of trans Neptunian binary Gǃkunǁʼhomdima 229762 2007 UK126 Icarus 334 30 38 Bibcode 2019Icar 334 30G doi 10 1016 j icarus 2018 12 037 S2CID 126574999 Archived from the original on 2019 04 07 Retrieved 2019 04 11 Grundy W M Noll K S Roe H G Buie M W Porter S B Parker A H Nesvorny D Benecchi S D Stephens D C Trujillo C A 2019 Mutual Orbit Orientations of Transneptunian Binaries PDF Icarus 334 62 78 Bibcode 2019Icar 334 62G doi 10 1016 j icarus 2019 03 035 ISSN 0019 1035 S2CID 133585837 Archived from the original PDF on 2020 01 15 Retrieved 2019 10 26 Emery J P Wong I Brunetto R Cook J C Pinilla Alonso N Stansberry J A Holler B J Grundy W M Protopapa S Souza Feliciano A C Fernandez Valenzuela E Lunine J I Hines D C 2024 A Tale of 3 Dwarf Planets Ices and Organics on Sedna Gonggong and Quaoar from JWST Spectroscopy Icarus 414 arXiv 2309 15230 Bibcode 2024Icar 41416017E doi 10 1016 j icarus 2024 116017 Brown Michael E How many dwarf planets are there in the outer solar system updates daily Porter Simon March 27 2018 TNO2018 Twitter Archived from the original on October 2 2018 Retrieved March 27 2018 Sykes Mark V March 2008 The Planet Debate Continues Science 319 5871 1765 doi 10 1126 science 1155743 ISSN 0036 8075 PMID 18369125 S2CID 40225801 Greeley R Klemaszewski J E Wagner R 2000 08 01 Galileo views of the geology of Callisto Planetary and Space Science 48 9 829 853 Bibcode 2000P amp SS 48 829G doi 10 1016 S0032 0633 00 00050 7 ISSN 0032 0633 Archived from the original on 2017 10 17 Retrieved 2021 09 24 Enceladus and the Icy Moons of Saturn UAPress 2017 07 12 Archived from the original on 2020 08 08 Retrieved 2021 09 24 Stern S A Bagenal F et al October 2015 The Pluto system Initial results from its exploration by New Horizons Science 350 6258 aad1815 arXiv 1510 07704 Bibcode 2015Sci 350 1815S doi 10 1126 science aad1815 ISSN 0036 8075 PMID 26472913 Brown Michael E Schaller Emily L June 2007 The Mass of Dwarf Planet Eris Science 316 5831 1585 Bibcode 2007Sci 316 1585B doi 10 1126 science 1139415 ISSN 0036 8075 PMID 17569855 S2CID 21468196 Naming of Astronomical Objects International Astronomical Union Archived from the original on 31 October 2013 Retrieved 12 October 2019 Bridenstine Jim 25 October 2019 NASA Chief Believes Pluto is a Planet Youtube video of address at International Astronautical Congress archived from the original on 2020 03 14 retrieved 2019 10 30 Science Passant Rabie 2019 08 27T16 08 05Z Astronomy 27 August 2019 Pluto Still Deserves to Be a Planet NASA Chief Says Space com Archived from the original on 2019 10 30 Retrieved 2019 10 29 a href wiki Template Cite web title Template Cite web cite web a CS1 maint numeric names authors list link Chang Kenneth 1 September 2006 Debate Lingers Over Definition for a Planet The New York Times Archived from the original on 8 April 2019 Retrieved 12 October 2019 A Planet Definition Debate Alan Stern amp Ron Ekers Archived from the original on 2020 11 01 Retrieved 2020 08 24 Flatow Ira Sykes Mark 28 March 2008 What Defines a Planet transcript NPR Retrieved 12 October 2019 Runyon K D Stern S A Lauer T R Grundy W Summers M E Singer K N March 2017 A geophysical planet definition PDF Lunar and Planetary Science Conference Abstracts 1964 1448 Bibcode 2017LPI 48 1448R Archived PDF from the original on 30 March 2021 Retrieved 12 October 2019 Jason Davis What is a Planet The Planetary Society Archived from the original on 22 January 2022 Retrieved 23 August 2020 Runyon K D Metzger P T Stern S A Bell J July 2019 Dwarf planets are planets too planetary pedagogy after New Horizons PDF Pluto System After New Horizons Workshop Abstracts 2133 7016 Bibcode 2019LPICo2133 7016R Archived PDF from the original on 27 June 2021 Retrieved 12 October 2019 Metzger Philip T Sykes Mark V Stern Alan Runyon Kirby February 2019 The reclassification of asteroids from planets to non planets Icarus 319 21 32 arXiv 1805 04115v2 Bibcode 2019Icar 319 21M doi 10 1016 j icarus 2018 08 026 ISSN 0019 1035 S2CID 119206487 Working Group on Extrasolar Planets WGESP of the International Astronomical Union IAU 2001 Archived from the original on 2006 09 16 Retrieved 2006 05 25 Saumon D Hubbard W B Burrows A Guillot T Lunine Jonathan I Chabrier G April 1996 A Theory of Extrasolar Giant Planets The Astrophysical Journal 460 993 1018 arXiv astro ph 9510046 Bibcode 1996ApJ 460 993S doi 10 1086 177027 ISSN 0004 637X S2CID 18116542 Schneider J Dedieu C Le Sidaner P Savalle R Zolotukhin I August 2011 Defining and cataloging exoplanets the exoplanet eu database Astronomy amp Astrophysics 532 A79 arXiv 1106 0586 Bibcode 2011A amp A 532A 79S doi 10 1051 0004 6361 201116713 ISSN 0004 6361 Wright J T Fakhouri O Marcy G W Han E Feng Y Johnson John Asher Howard A W Fischer D A Valenti J A Anderson J Piskunov N April 2011 The Exoplanet Orbit Database Publications of the Astronomical Society of the Pacific 123 902 412 422 arXiv 1012 5676 Bibcode 2011PASP 123 412W doi 10 1086 659427 ISSN 1538 3873 S2CID 51769219 Exoplanet Criteria for Inclusion in the Archive NASA Exoplanet Archive 26 March 2019 Archived from the original on 9 October 2023 Retrieved 12 October 2019