The brightest
planets in the sky have been named from ancient times. The scientific names are taken from the names given by the Romans:
Mercury,
Venus,
Mars,
Jupiter, and
Saturn. Our own planet is usually named in English as
Earth, or the equivalent in the language being spoken (for instance, two astronomers speaking
French would call it
la Terre). However, it is only recently in human history that it has been thought of as a planet. Earth, when viewed as a planet, is sometimes also called by its Latin scientific conventional name
Terra; this name is especially prevalent in science fiction where the adjective "terran" is also used in the way which "Lunar" or "Jovian" is for Earth's moon or Jupiter. The Latin convention derives from the use of that language as an international scientific language by the first modern astronomers like Copernicus, Kepler, Galileo, Newton and others and was used for a long time. This is why the later discovered bodies were also named accordingly. Two more bodies that were discovered later, and considered planets when discovered, are still generally considered planets now: •
Uranus, discovered by
William Herschel in 1781 •
Neptune, discovered by
Johann Gottfried Galle in 1846 (based on prediction by
Urbain Le Verrier) These were given names from Greek or Roman myth, to match the ancient planet names—but only after some controversy. For example, Sir William Herschel discovered Uranus in 1781, and originally called it
Georgium Sidus (George's Star) in honour of King
George III of the United Kingdom. French astronomers began calling it Herschel before German
Johann Bode proposed the name Uranus, after the Greek god. The name "Uranus" did not come into common usage until around 1850. Derived from Western
Classical mythology, these names are only considered standard in
Western discussion of the planets. Astronomers in societies that have other traditional names for the planets may use those names in scientific discourse. For instance, IAU does not disapprove of astronomers discussing Jupiter in
Arabic using the traditional Arabic name for the planet,
Al-Mushtarīy. In science fiction planets are sometimes numbered analogues to the historic system of numbering moons with
roman numerals, but in order from the parent star, e.g.
Sol III for Earth.
First minor planets Starting in 1801,
asteroids were discovered between Mars and Jupiter. The first few (
Ceres,
Pallas,
Juno,
Vesta) were initially considered planets. As more and more were discovered, they were soon stripped of their planetary status. On the other hand,
Pluto was considered to be a planet at the time of its discovery in 1930, as it was found beyond Neptune. Following this pattern, several hypothetical bodies were given names:
Vulcan for a planet within the orbit of Mercury;
Phaeton for a planet between Mars and Jupiter that was believed to be the precursor of the asteroids;
Themis for a moon of Saturn; and
Persephone, and several other names, for a trans-Plutonian planet. Some sixty years after the discovery of Pluto, a large number of large
trans-Neptunian objects began to be discovered. Under the criteria of classifying these
Kuiper belt objects (KBOs), it became dubious whether Pluto would have been considered a planet had it been discovered in the 1990s. Its mass is now known to be much smaller than once thought and, with the discovery of
Eris, it is simply one of the two largest known trans-Neptunian objects. In 2006, Pluto was therefore reclassified into a different class of astronomical bodies known as
dwarf planets, along with Eris and others.
Exoplanets Currently, according to the IAU, there is no agreed upon system for designating
exoplanets (planets orbiting other stars). The process of naming them is organized by the IAU Executive Committee Working Group Public Naming of Planets and Planetary Satellites. The scientific nomenclature for the designations usually consists of a proper noun or abbreviation that often corresponds to the star's name, followed by a lowercase letter (starting with 'b'), like
51 Pegasi b. The lowercase lettering style is drawn from the IAU's long-established rules for naming binary and multiple star systems. A primary star, which is brighter and typically bigger than its companion stars, is designated by a capitalized A. Its companions are labelled B, C, and so on. For example,
Sirius, the brightest star in the sky, is actually a double star, consisting of the naked-eye visible Sirius A and its dim white-dwarf companion
Sirius B. The first exoplanet tentatively identified around the second brightest star in the triple star system
Alpha Centauri is accordingly called
Alpha Centauri Bb. If an exoplanet orbits both of the stars in a binary system, its name can be, for example,
Kepler-34(AB) b.
Natural satellites Earth's natural satellite is simply known as the
Moon, or the equivalent in the language being spoken (for instance, two astronomers speaking
French would call it
la Lune). English-language science fiction often adopts the Latin name "Luna" while using the English "Moon" as a term for natural satellites in general in order to better distinguish the wider concept from any specific example. Natural satellites of other planets are generally named after mythological figures related to their parent body's namesake, such as
Phobos and
Deimos, the twin sons of
Ares (Mars), or the
Galilean moons of
Io,
Europa,
Ganymede, and
Callisto, four consorts of
Zeus (Jupiter). Satellites of Uranus are instead named after characters from works by
William Shakespeare or
Alexander Pope, such as
Umbriel or
Titania. When
natural satellites are first discovered, they are given provisional designations such as "
S/2010 J 2" (the 2nd new satellite of Jupiter discovered in 2010) or "
S/2003 S 1" (the 1st new satellite of Saturn discovered in 2003). The initial "S/" stands for "satellite", and distinguishes from such prefixes as "D/", "C/", and "P/", used for
comets. The designation "R/" is used for planetary rings. These designations are sometimes written like "S/2003 S1", dropping the second space. The letter following the category and year identifies the planet (
Jupiter,
Saturn,
Uranus,
Neptune; although no occurrence of the other planets is expected, Mars and Mercury are disambiguated through the use of
Hermes for the latter).
Pluto was designated by
P prior to its recategorization as a
dwarf planet. When the object is found around a minor planet, the identifier used is the latter's number in parentheses. Thus,
Dactyl, the moon of
243 Ida, was at first designated "
S/1993 (243) 1". Once confirmed and named, it became
(243) Ida I Dactyl. Similarly, the fourth satellite of Pluto,
Kerberos, discovered after Pluto was categorized as a dwarf planet and assigned a minor planet number, was designated
S/2011 (134340) 1 rather than S/2011 P 1, though the
New Horizons team, who disagreed with the dwarf planet classification, used the latter. •
H =
Mercury (Hermes) •
V =
Venus •
E =
Earth •
M =
Mars •
J =
Jupiter •
S =
Saturn •
U =
Uranus •
N =
Neptune After a few months or years, when a newly discovered satellite's existence has been confirmed and its orbit computed, a permanent name is chosen, which replaces the "S/" provisional designation. However, in the past, some satellites remained unnamed for surprisingly long periods after their discovery. See
Naming of moons for a history of how some of the major satellites got their current names. The Roman numbering system arose with the very first discovery of natural satellites other than Earth's:
Galileo referred to the
Galilean moons as
I through
IV (counting from Jupiter outward), in part to spite his rival
Simon Marius, who had proposed the names now adopted, after his own proposal to name the bodies after members of the
Medici family failed to win currency. Similar numbering schemes naturally arose with the discovery of moons around Saturn and Mars. Although the numbers initially designated the moons in orbital sequence, new discoveries soon failed to conform with this scheme (e.g. "Jupiter V" is
Amalthea, which orbits closer to Jupiter than does
Io). The unstated convention then became, at the close of the 19th century, that the numbers more or less reflected the order of discovery, except for prior historical exceptions (see the
Timeline of discovery of Solar System planets and their moons).
Geological and geographical features In addition to naming planets and satellites themselves, the individual
geological and geographical features such as craters, mountains, and volcanoes, on those planets and satellites also need to be named. In the early days, only a very limited number of features could be seen on other Solar System bodies other than the
Moon. Craters on the
Moon could be observed with even some of the earliest telescopes, and 19th-century telescopes could make out some features on Mars. Jupiter had its famous
Great Red Spot, also visible through early telescopes. In 1919, the IAU was formed, and it appointed a committee to regularize the chaotic lunar and Martian nomenclatures then current. Much of the work was done by
Mary Adela Blagg, and the report
Named Lunar Formations by Blagg and Muller (1935), was the first systematic listing of lunar nomenclature. Later, "The System of Lunar Craters, quadrants I, II, III, IV" was published, under the direction of
Gerard P. Kuiper. These works were adopted by the IAU and became the recognized sources for lunar nomenclature. The Martian nomenclature was clarified in 1958, when a committee of the IAU recommended for adoption the names of 128
albedo features (bright, dark, or colored) observed through ground-based telescopes (IAU, 1960). These names were based on a system of nomenclature developed in the late 19th century by the Italian astronomer
Giovanni V. Schiaparelli (1879) and expanded in the early 20th century by
Eugene M. Antoniadi (1929), a Greek-born astronomer working at
Meudon, France. However, the age of
space probes brought high-resolution images of various Solar System bodies, and it became necessary to propose naming standards for the features seen on them. == Minor planets ==