Discovery and exploration of the Solar System

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File:Solar system scale-2.jpg
The Sun and planets of the Solar System. Pluto and the other dwarf planets are not shown. The relative sizes of objects are drawn to scale; the distances between them are not.
A photo of Earth (circled) taken by Voyager 1, 6.4 billion kilometers (4 billion miles) away. The streaks of light are diffraction spikes radiating from the Sun (off frame to the left). This photograph is known as "Pale Blue Dot".

Discovery and exploration of the Solar System is observation, visitation, and increase in knowledge and understanding of Earth's "cosmic neighborhood".[1] This includes the Sun, Earth and the Moon, the major planets including Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and Neptune, their satellites, as well as smaller bodies including comets, asteroids, and dust.[1]

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The Solar System — our Sun’s system of planets, moons, and smaller debris — is humankind’s cosmic backyard. Small by factors of millions compared to interstellar distances, the spaces between the planets are daunting, but technologically surmountable

— NASA[1]

History

Earth's atmosphere
Pioneer space probe's Quadrispherical Plasma Analyzer

For many thousands of years,[clarification needed] civilizations, with a few notable exceptions,[clarification needed] did not recognize the existence of the Solar System. It was believed Earth was stationary at the center of the Universe and categorically different from the divine or etherea objects that moved through the sky. Although the Greek philosopher Aristarchus of Samos had speculated on a heliocentric reordering of the cosmos, Nicolaus Copernicus first developed a mathematically predictive heliocentric system[when?]. His 17th-century successors, Galileo Galilei, Johannes Kepler, and Isaac Newton, developed a modern understanding of physics that led to the gradual acceptance of the idea that Earth moves around the Sun and that the planets are governed by the same physical laws that govern Earth. In more recent times, this led to the investigation of geological phenomena such as mountains and craters and seasonal meteorological phenomena such as clouds, dust storms, and ice caps on the other planets.

Antiquity and first observations

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Telescopic observations

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A replica of Isaac Newton's telescope.

The first exploration of the Solar System was conducted by telescope, when astronomers first began to map those objects too faint to be seen with the naked eye.

Galileo Galilei was the first to discover physical details about the individual bodies of the Solar System. He discovered that the Moon was cratered, that the Sun was marked with sunspots, and that Jupiter had four satellites in orbit around it.[2] Christiaan Huygens followed on from Galileo's discoveries by discovering Saturn's moon Titan and the shape of the rings of Saturn.[3] Giovanni Domenico Cassini later discovered four more moons of Saturn, the Cassini division in Saturn's rings.[4]

The Sun photographed through a telescope with special solar filter. Sunspots and limb darkening can be clearly seen. Mercury is transiting in the lower middle of the Sun's face.

Edmond Halley realised in 1705 that repeated sightings of a comet were recording the same object, returning regularly once every 75–76 years. This was the first evidence that anything other than the planets orbited the Sun.[5] Around this time (1704), the term "Solar System" first appeared in English.[6]

In 1781, William Herschel was looking for binary stars in the constellation of Taurus when he observed what he thought was a new comet. Its orbit revealed that it was a new planet, Uranus, the first ever discovered.[7]

Giuseppe Piazzi discovered Ceres in 1801, a small world between Mars and Jupiter that initially was considered a new planet. However, subsequent discoveries of thousands of other small worlds in the same region led to their eventual reclassification as asteroids.[8]

By 1846, discrepancies in the orbit of Uranus led many to suspect a large planet must be tugging at it from farther out. Urbain Le Verrier's calculations eventually led to the discovery of Neptune.[9] The excess perihelion precession of Mercury's orbit led Le Verrier to postulate the intra-Mercurian planet Vulcan in 1859, but that would turn out to be an irrelevant thesis.

Although it is debatable when the Solar System was truly "discovered", three 19th century observations determined its nature and place in the Universe beyond reasonable doubt. First, in 1838, Friedrich Bessel successfully measured a stellar parallax, an apparent shift in the position of a star created by Earth's motion around the Sun. This was not only the first direct, experimental proof of heliocentrism, but also revealed, for the first time, the vast distance between the Solar System and the stars. Then, in 1859, Robert Bunsen and Gustav Kirchhoff, using the newly invented spectroscope, examined the spectral signature of the Sun and discovered that it was composed of the same elements as existed on Earth, establishing for the first time a physical link between Earth and the heavens.[10] Then, Father Angelo Secchi compared the spectral signature of the Sun with those of other stars, and found them virtually identical. The realisation that the Sun was a star led to the hypothesis that other stars could have systems of their own, though this was not to be proven for nearly 140 years.

Radar-imaging of 2006 DP14, a small near-Earth asteroid that passed by Earth in early February 2014

Further apparent discrepancies in the orbits of the outer planets led Percival Lowell to conclude that yet another planet, "Planet X", must lie beyond Neptune. After his death, his Lowell Observatory conducted a search that ultimately led to Clyde Tombaugh's discovery of Pluto in 1930. Pluto was, however, found to be too small to have disrupted the orbits of the outer planets, and its discovery was therefore coincidental. Like Ceres, it was initially considered to be a planet, but after the discovery of many other similarly sized objects in its vicinity it was reclassified in 2006 as a dwarf planet by the IAU.[9]

In 1992, the first evidence of a planetary system other than our own was discovered, orbiting the pulsar PSR B1257+12. Three years later, 51 Pegasi b, the first extrasolar planet around a Sunlike star, was discovered. As of 2008, 221 extrasolar systems have been found.[11]

Also in 1992, astronomers David C. Jewitt of the University of Hawaii and Jane Luu of the Massachusetts Institute of Technology discovered (15760) 1992 QB1. This object proved to be the first of a new population, which became known as the Kuiper belt; an icy analogue to the asteroid belt of which such objects as Pluto and Charon were deemed a part.[12][13]

Mike Brown, Chad Trujillo and David Rabinowitz announced the discovery of Eris in 2005, a scattered disc object initially thought to be larger than Pluto, which would make it the largest object discovered in orbit around the Sun since Neptune.[14] New Horizons' fly-by of Pluto in July 2015 resulted in more-accurate measurements of Pluto, which is slightly larger, though less massive, than Eris.

Observations by spacecraft

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Lineae on Europa by Galileo spacecraft
Timeline of Solar System exploration.
Artist's conception of Pioneer 10, which passed the orbit of Pluto in 1983. The last transmission was received in January 2003, sent from approximately 82 AU away. The Script error: The function "age_generic" does not exist.-year-old space probe is receding from the Sun at over 43,400 km/h (27,000 mph),[15] so long as it has not hit anything

Since the start of the Space Age, a great deal of exploration has been performed by robotic spacecraft missions that have been organized and executed by various space agencies.

All planets in the Solar System have now been visited to varying degrees by spacecraft launched from Earth. Through these unmanned missions, humans have been able to get close-up photographs of all the planets and, in the case of landers, perform tests of the soils and atmospheres of some.

The first artificial object sent into space was the Soviet satellite Sputnik 1, launched in 1957, which successfully orbited Earth until 4 January the following year.[16] The American probe Explorer 6, launched in 1959, was the first satellite to image Earth from space.

Flybys

The first successful probe to fly by another Solar System body was Luna 1, which sped past the Moon in 1959. Originally meant to impact with the Moon, it instead missed its target and became the first artificial object to orbit the Sun. Mariner 2 was the first probe to fly by another planet, Venus, in 1962. The first successful flyby of Mars was made by Mariner 4 in 1965. Mariner 10 first passed Mercury in 1974.

The first probe to explore the outer planets was Pioneer 10, which flew by Jupiter in 1973. Pioneer 11 was the first to visit Saturn, in 1979. The Voyager probes performed a grand tour of the outer planets following their launch in 1977, with both probes passing Jupiter in 1979 and Saturn in 1980 – 1981. Voyager 2 then went on to make close approaches to Uranus in 1986 and Neptune in 1989. The Voyager probes are now far beyond Neptune's orbit, and are on course to find and study the termination shock, heliosheath, and heliopause. According to NASA, both Voyager probes have encountered the termination shock at a distance of approximately 93 AU from the Sun.[17]

The first flyby of a comet occurred in 1985, when the International Cometary Explorer (ICE) passed by the comet Giacobini–Zinner,[18] whereas the first flybys of asteroids were conducted by the Galileo space probe, which imaged both 951 Gaspra (in 1991) and 243 Ida (in 1993) on its way to Jupiter.

Launched on January 19, 2006, the New Horizons probe is the first man-made spacecraft to explore the Kuiper belt. This unmanned mission flew by Pluto in July 2015. Should it prove feasible, the mission will now be extended to observe a number of other Kuiper belt objects.[19]

As of 2011, American scientists are concerned that exploration beyond the Asteroid Belt will hampered by a shortage of Plutonium-238.

Orbiters, rovers and landers

Curiosity rover self-portrait at "Rocknest" (October 31, 2012), with the rim of Gale Crater and the slopes of Aeolis Mons in the distance.

In 1966, the Moon became the first Solar System body beyond Earth to be orbited by an artificial satellite (Luna 10), followed by Mars in 1971 (Mariner 9), Venus in 1975 (Venera 9), Jupiter in 1995 (Galileo), the asteroid 433 Eros in 2000 (NEAR Shoemaker), Saturn in 2004 (Cassini–Huygens), and Mercury and Vesta in 2011 (MESSENGER and Dawn respectively). Dawn is orbiting the asteroid–dwarf planet Ceres as of 2015.

The first probe to land on another Solar System body was the Soviet Luna 2 probe, which impacted the Moon in 1959. Since then, increasingly distant planets have been reached, with probes landing on or impacting the surfaces of Venus in 1966 (Venera 3), Mars in 1971 (Mars 3, although a fully successful landing didn't occur until Viking 1 in 1976), the asteroid 433 Eros in 2001 (NEAR Shoemaker), and Saturn's moon Titan (Huygens) and the comet Tempel 1 (Deep Impact) in 2005. The Galileo orbiter also dropped a probe into Jupiter's atmosphere in 1995; because Jupiter has no physical surface, it was destroyed by increasing temperature and pressure as it descended.

To date, only two worlds in the Solar System, the Moon and Mars, have been visited by mobile rovers. The first robotic rover to visit another celestial body was the Soviet Lunokhod 1, which landed on the Moon in 1970. The first to visit another planet was Sojourner, which travelled 500 metres across the surface of Mars in 1997. The only manned rover to visit another world was NASA's Lunar rover, which traveled with Apollos 15, 16 and 17 between 1971 and 1972.

Spacecraft exploration

Overview of some missions to the Solar System.

Examples of missions
# Spacecraft Launch
year
Mercury Venus Mars Ceres Jupiter Saturn Uranus Neptune Pluto End
year
1 Pioneer 10 1972 Flyby 2003
2 Pioneer 11 1973 Flyby Flyby 1995
3 Mariner 10 1973 Flyby Flyby 1975
4 Voyager 1 1977 Flyby Flyby
5 Voyager 2 1977 Flyby Flyby Flyby Flyby
6 Galileo 1989 Flyby Orbiter 2003
7 Ulysses 1990 Flyby 2009
8 Cassini 1997 Flyby Flyby Orbiter
9 Mars Odyssey 2001 Orbiter
10 MER-A / B 2003 Rovers 2010 / —
11 Mars Express 2003 Orbiter
12 MESSENGER 2004 Orbiter Flyby 2015
13 MRO 2005 Orbiter
14 Venus Express 2005 Orbiter 2014
15 New Horizons 2006 Flyby Flyby
16 Dawn 2007 Orbiter
17 Juno 2011 Orbiter
18 Curiosity (MSL) 2011 Rover

See also the categories for missions to comets, asteroids, the Moon, and the Sun.

Crewed exploration

Owen Garriott on an Earth orbit EVA, 1973

Crewed exploration of the Solar System is currently confined to Earth's immediate environs. The first human being to reach space (defined as an altitude of over 100 km) and to orbit Earth was Yuri Gagarin, a Soviet cosmonaut who was launched in Vostok 1 on April 12, 1961. The first human to walk on the surface of another Solar System body was Neil Armstrong, who stepped onto the Moon on July 21, 1969 during the Apollo 11 mission; five more Moon landings occurred through 1972. The United States' Space Shuttle, which debuted in 1981, is the only reusable spacecraft to successfully make multiple orbital flights. The five shuttles that have been built have flown a total of 121 missions, with two of the craft destroyed in accidents. The first orbital space station to host more than one crew was NASA's Skylab, which successfully held three crews from 1973 to 1974. The first true human settlement in space was the Soviet space station Mir, which was continuously occupied for close to ten years, from 1989 to 1999. It was decommissioned in 2001, and its successor, the International Space Station, has maintained a continuous human presence in space since then. In 2004, SpaceShipOne became the first privately funded vehicle to reach space on a suborbital flight. That year, U.S. President George W. Bush announced the Vision for Space Exploration, which called for a replacement for the aging Shuttle, a return to the Moon and, ultimately, a crewed mission to Mars.

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Exploration survey

Bodies imaged up close:

Solar System
Sun in February (black version).jpg
Jupiter and its shrunken Great Red Spot (cropped).jpg
Saturn during Equinox (close-up).jpg
Uranus2 (cropped)-1.jpg
Neptune Full (cropped).jpg
Africa and Europe from a Million Miles Away (cropped).png Venus-real color.jpg
Sun
(star)
Jupiter
(planet)
Saturn
(planet)
Uranus
(planet)
Neptune
(planet)
Earth
(planet)
Venus
(planet)
Mars 23 aug 2003 hubble (cropped).jpg
Ganymede g1 true-edit1.jpg
Two Halves of Titan.png
Mercury in color - Prockter07-edit1.jpg
Callisto (cropped)-1.jpg
Io highest resolution true color.jpg
FullMoon2010 (cropped)-1.jpg
Mars
(planet)
Ganymede
(moon of Jupiter)
Titan
(moon of Saturn)
Mercury
(planet)
Callisto
(moon of Jupiter)
Io
(moon of Jupiter)
Moon
(moon of Earth)
Europa-moon.jpg
Triton Voyager 2.jpg
Nh-pluto-in-true-color 2x JPEG-edit.jpg
Titania (moon) color cropped.jpg
PIA07763 Rhea full globe5.jpg
Voyager 2 picture of Oberon.jpg
Iapetus as seen by the Cassini probe - 20071008 (cropped).jpg
Europa
(moon of Jupiter)
Triton
(moon of Neptune)
Pluto
(Kuiper belt object)
Titania
(moon of Uranus)
Rhea
(moon of Saturn)
Oberon
(moon of Uranus)
Iapetus
(moon of Saturn)
Charon in Color (HQ).jpg
PIA00040 Umbrielx2.47.jpg
Color Image of Ariel as seen from Voyager 2.jpg
Dione color south.jpg
PIA18317-SaturnMoon-Tethys-Cassini-20150411.jpg
PIA19562-Ceres-DwarfPlanet-Dawn-RC3-image19-20150506.jpg
Vesta full mosaic.jpg
Charon
(moon of Pluto)
Umbriel
(moon of Uranus)
Ariel
(moon of Uranus)
Dione
(moon of Saturn)
Tethys
(moon of Saturn)
Ceres
(belt asteroid)
Vesta
(belt asteroid)
PIA17202-SaturnMoon-Enceladus-ApproachingFlyby-20151028-cropped.jpg
Miranda.jpg
Proteus Voyager 2 cropped.jpg
Mimas PIA12568.jpg
Hyperion in natural colours.jpg
Phoebe cassini.jpg
PIA12714 Janus crop.jpg
Enceladus
(moon of Saturn)
Miranda
(moon of Uranus)
Proteus
(moon of Neptune)
Mimas
(moon of Saturn)
Hyperion
(moon of Saturn)
Phoebe
(moon of Saturn)
Janus
(moon of Saturn)
Amalthea (moon).png
PIA09813 Epimetheus S. polar region.jpg
Thebe.jpg
Rosetta triumphs at asteroid Lutetia.jpg
Prometheus 12-26-09a.jpg
Flying By Pandora.jpg
(253) mathilde crop.jpg
Amalthea
(moon of Jupiter)
Epimetheus
(moon of Saturn)
Thebe
(moon of Jupiter)
Lutetia
(belt asteroid)
Prometheus
(moon of Saturn)
Pandora
(moon of Saturn)
Mathilde
(belt asteroid)
Hydra (moon) from 231 000 kilometres.jpg
Leading hemisphere of Helene - 20110618.jpg
Nix best view-true color.jpg
243 Ida large.jpg
Atlas (NASA).jpg
Telesto cassini closeup.jpg
N00151485 Calypso crop.jpg
Hydra
(moon of Pluto)
Helene
(moon of Saturn)
Nix
(moon of Pluto)
Ida
(belt asteroid)
Atlas
(moon of Saturn)
Telesto
(moon of Saturn)
Calypso
(moon of Saturn)
Phobos colour 2008.jpg
Eros - PIA02923 (color).jpg
Deimos-MRO.jpg
951 Gaspra.jpg
2867 Šteins by Rosetta (reprocessed) - cropped.png
Comet Borrelly Nucleus (cropped).jpg
Phobos
(moon of Mars)
Eros
(near-Earth asteroid)
Deimos
(moon of Mars)
Gaspra
(belt asteroid)
Tempel 1
(comet)
Šteins
(belt asteroid)
Borrelly
(comet)
Comet 67P on 19 September 2014 NavCam mosaic.jpg
Wild2 3 (cropped-square).jpg
Methone PIA14633.jpg
Comet Hartley 2 (super crop).jpg
Dactyl-HiRes.jpg
Churyumov–
Gerasimenko

(comet)
Wild 2
(comet)
Methone
(moon of Saturn)
Hartley 2
(comet)
Dactyl
(moon of Ida)
Closely imaged object with only non-free images: Toutatis, Itokawa
Objects imaged only at low resolution: Halley's Comet, Styx, Kerberos, Braille, Annefrank, Nereid, and Larissa
; see also the radar images at "near-Earth object"

Sample return

A Moon rock returned by Apollo 17

See also: Meteorites and Cosmic dust

See also

References

  1. 1.0 1.1 1.2 Solar System Exploration
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  18. Comet Space Missions, accessed 2007-10-23.
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