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The International Astronomical Union (IAU), the official Scientific body for Astronomical Nomenclature , defines a dwarf planet as a Celestial Body within the Solar System that satisfies these four conditions: IAU 2006 General Assembly: Result of the IAU Resolution votes
The term ''dwarf planet'' was Adopted In 2006 as part of a three-way classification of bodies orbiting the Sun. Objects that are large enough to have cleared the neighbourhood of their orbit are defined as '' Planet s'', while those which are too small to be in hydrostatic equilibrium are defined as '' Small Solar System Bodies ''. The category dwarf planet is not a subset of the category planet, but a separate category altogether; that is to say, a dwarf planet is not a planet. As defined, the term ''dwarf planet'' does not apply to other Planetary Systems .1 Three dwarf planets are currently recognized: Ceres , Pluto and Eris . LIST OF DWARF PLANETS The IAU has officially identified three celestial bodies that have immediately received dwarf planet classification:2
OTHER CANDIDATES Additionally, there are several bodies potentially qualifying as dwarf planets. Among these, the following are known or thought to be greater than around 750 Km in diameter: The status of Charon , currently regarded as a satellite of Pluto, remains uncertain, as there is presently no clear definition of what distinguishes a satellite system from a binary ( Double Planet ) system. The original draft resolution (5)3 presented to the IAU stated that Charon could be considered a planet because: #Charon independently would satisfy the size and shape criteria for planetary status (and in the terms of the final resolution, for the status of dwarf planet) #Charon, on account of its large mass relative to Pluto, revolves with Pluto around a common Barycentre located in space between Pluto and Charon rather than around a point located within Pluto. This definition, however, was not preserved in the IAU's final resolution. It is unknown if it will be taken up at a future date. If a similar definition were to be adopted, Charon would be added to the list of dwarf planets. The second, third, and fourth largest objects in the main asteroid belt ( Vesta , Pallas and Hygiea ) could be classified as dwarf planets if it is shown that their shape is determined by Hydrostatic Equilibrium . At present this has not been demonstrated conclusively.4 SIZE AND MASS OF DWARF PLANETS The upper and lower limits to the size and mass of dwarf planets are not specified in the IAU resolution. There is strictly no upper limit, and an object larger or more massive than Mercury that is considered not to have cleared the neighborhood around its orbit may still be classified as a dwarf planet. The lower limit is determined by the concept of hydrostatic equilibrium shape, but the size or mass at which an object attains this shape is undefined, and empirical observations suggest that it may vary according to the composition and history of the object. The original draft of IAU resolution 5 defined hydrostatic equilibrium shape as applying "to objects with mass above 5 kg and diameter greater than 800 km",5 but this language was not retained in the final resolution 5A that was passed. According to some astronomers, the new definition could mean the addition of up to 45 new dwarf planets.67 ORBITAL DOMINANCE See Also: Clearing the neighbourhood Using a parameter developed by S. Alan Stern and Harold F. Levison , Steven Soter and other astronomers have argued for a distinction between dwarf planets and the other eight Planets based on their inability to " Clear The Neighborhood Around Their Orbits ", that is, to remove smaller bodies whose orbits bring them nearby by collision, capture, or gravitational disturbance. This concept is combined with a concept of orbital dominance measured in terms of the ratio of the mass of a planetary candidate to the combined mass of all other objects in its vicinity. Dwarf planets are too small in mass to significantly alter their environment in the manner of a planet. There are several other theories that try to differentiate between planets and dwarf planets, but the current definition of what constitutes a planet uses this concept. Stern et al. introduce a parameter Λ, expressing the probability of an encounter resulting in a given deflection of orbit. The value of this parameter in Stern’s model is proportional to the square of the mass and inversely proportional to the period. Following the authors, this value can be used to estimate the capacity of a body to clear the neighbourhood of its orbit. Stern and Levison found a gap of five orders of magnitude in Λ between the smallest terrestrial planets and the largest asteroids and KBOs:
CONTENTION A number of scientists expressed their disagreementhttp://news.bbc.co.uk/2/hi/science/nature/5283956.stm with the currently adopted IAU definition of dwarf planet by means of car bumper stickers. While accepting the characterisation of dwarf planet for and (dwarf planet in this case meaning just a small planet), Stern rejects the current IAU definition of planet, both in terms of defining dwarf planets as something other than a type of planet, and in using orbital characteristics (rather than intrinsic characteristics) of objects to define them as dwarf planets.8 Thus, he and his team will still refer to Pluto as the ninth planet. One should also note, that it will be in pages hosted by NASA and controlled by Stern's team, that the upcoming information and the first photographs of Pluto will be unveiled to the world. However, NASA has announced that it will use the new guidelines established by the IAU.9 Prior to the 2006 IAU reclassification, several terms were suggested for bodies which are now formally cited as a dwarf planet, including ''minor planet'', ''subplanet'' and ''planetoid''. TYPES OF DWARF PLANETS The IAU 's Resolution 6a10 recognizes Pluto as "the prototype of a new category of trans-Neptunian objects". The name and precise nature of this category are not specified, but in the debate leading up to the resolution, the members of the category were variously referred to as ''Plutons'' and ''Plutonian objects''. The former name was generally deprecated11 and was abandoned in the final draft resolution (6b)12; the latter name failed to win majority approval on a 180–186 vote in the IAU General Assembly on August 24 2006 . The category, while established, Remains Nameless . At an earlier stage in the definition process, the category (then described as "pluton") was defined to be a Planet whose orbit took more than 200 Julian Years to complete and whose orbit was more Highly Inclined and elliptical than a traditional planetary orbit.13 This category of Pluto-like objects only applies to dwarf planets which meet the conditions of being trans-Neptunian and "like Pluto" in terms of period, inclination and eccentricity. A dwarf planet may or may not be a member of this category, but all members of the category must be dwarf planets. The membership of this class, other than Pluto itself, remains obscure. and the objects listed in the table "Possible dwarf planets" (above) also qualify in terms of the minimum period, and most exhibit orbital eccentricity and inclination that are significant, though not always equal to or greater than Pluto's. , however, has a much smaller eccentricity and inclination, and so possibly does not qualify as a Pluto-like object. SEE ALSO
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