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Astronomy - History of astronomy | | Astronomy - History of astronomy: Encyclopedia II - Astronomy - History of astronomy | | In early times, astronomy only comprised the observation and predictions of the motions of the naked-eye objects. Aristotle said that the Earth was the center of the Universe and everything rotated around it in orbits that were perfect circles. Aristotle had to be right because people thought that Earth had to be in the center with everything rotating around it because the wind would not scatter leaves, and birds would only fly in one direction. For a long time, people thought that A ...
See also:Astronomy, Astronomy - Divisions, Astronomy - By subject or problem addressed, Astronomy - Ways of obtaining information, Astronomy - History of astronomy, Astronomy - Timelines in astronomy, Astronomy - Astronomy tools | | | Astronomy, Astronomy - Astronomy tools, Astronomy - By subject or problem addressed, Astronomy - Divisions, Astronomy - History of astronomy, Astronomy - Timelines in astronomy, Astronomy - Ways of obtaining information, List of astronomical topics, Astronomers and Astrophysicists, Astronomical symbols, Astronomical cycles, Astronomical naming conventions, Astronomical object, Astronomical observatories, Astronomy organizations, Celestial navigation, Space exploration, Space science | | |
| | | Astronomy: Encyclopedia II - Astronomy - History of astronomy
Astronomy - History of astronomy
Main article: History of astronomy.
In early times, astronomy only comprised the observation and predictions of the motions of the naked-eye objects. Aristotle said that the Earth was the center of the Universe and everything rotated around it in orbits that were perfect circles. Aristotle had to be right because people thought that Earth had to be in the center with everything rotating around it because the wind would not scatter leaves, and birds would only fly in one direction. For a long time, people thought that Aristotle was right, but it is probable that Aristotle accidentally did more to hinder our knowledge than help it.
The Hindu vedic text, Rigveda refers to the 27 constellations associated with the motions of the sun and also the 12 zodiacal divisions of the sky. The ancient Greeks made important contributions to astronomy, among them the definition of the magnitude system. The Bible contains a number of statements on the position of the earth in the universe and the nature of the stars and planets, most of which are poetic rather than literal; see Biblical cosmology. In 500 AD, Aryabhata presented a mathematical system that described the earth as spinning on its axis and considered the motions of the planets with respect to the sun.
Although classical astronomy was one of the seven key subjects taught at medieval universities in Europe, observational astronomy was mostly stagnant in medieval Europe until Tycho Brahe's work in the 16th Century. However, observational astronomy flourished in the Iranian world and other parts of Islamic realm. The late 9th century Persian astronomer al-Farghani wrote extensively on the motion of celestial bodies. His work was translated into Latin in the 12th century. In the late 10th century, a huge observatory was built near Tehran, Persia (now Iran), by the Persian astronomer al-Khujandi, who observed a series of meridian transits of the Sun, which allowed him to calculate the obliquity of the ecliptic. Also in Persia, Omar Khayyám performed a reformation of the calendar that was more accurate than the Julian and came close to the Gregorian. Abraham Zacuto was responsible in the 15th century for the adaptations of astronomical theory for the practical needs of Portuguese caravel expeditions.
In Europe during the Renaissance, Copernicus proposed a heliocentric model of the Solar System. His work was defended, expanded upon, and corrected by Galileo Galilei and Johannes Kepler. Galileo added the innovation of using telescopes to enhance his observations. Kepler was the first to devise a system that described correctly the details of the motion of the planets with the Sun at the center. However, Kepler did not succeed in formulating a theory behind the laws he wrote down. It was left to Newton's invention of celestial dynamics and his law of gravitation to finally explain the motions of the planets. Newton also developed the reflecting telescope.
Stars were found to be faraway objects. With the advent of spectroscopy it was proved that they were similar to our own sun, but with a wide range of temperatures, masses, and sizes. The existence of our galaxy, the Milky Way, as a separate group of stars was only proven in the 20th century, along with the existence of "external" galaxies, and soon after, the expansion of the universe, seen in the recession of most galaxies from us. Modern astronomy has also discovered many exotic objects such as quasars, pulsars, blazars and radio galaxies, and has used these observations to develop physical theories which describe some of these objects in terms of equally exotic objects such as black holes and neutron stars. Physical cosmology made huge advances during the 20th century, with the model of the Big Bang heavily supported by the evidence provided by astronomy and physics, such as the cosmic microwave background radiation, Hubble's Law, and cosmological abundances of elements.
Other related archives400 - 700 nm, 500 AD, Abraham Zacuto, Ancient Greece, Archaeoastronomy, Artificial satellites and space probes, Aryabhata, Astrobiology, Astrochemistry, Astrometry, Astronomers and Astrophysicists, Astronomical cycles, Astronomical maps, catalogs, and surveys, Astronomical naming conventions, Astronomical object, Astronomical observations, Astronomical observatories, Astronomical symbols, Astronomy (magazine), Astronomy organizations, Astrophysics, Astrosociobiology, Bible, Biblical cosmology, Big Bang, Binoculars, Black hole physics, CCD detectors, Calculator, Celestial navigation, Computers, Copernicus, Cosmic microwave background astronomy, Cosmology, Earth's atmosphere, Europe, Extragalactic astronomy, Galactic astronomy, Galaxies, clusters of galaxies, and large scale structure, Galaxy formation and evolution, Galileo Galilei, Greek, Gregorian, High-energy astronomy, Hindu, History of astronomy, Hubble's Law, Infrared astronomy, Interstellar medium and intergalactic medium, Iran, Iranian, Johannes Kepler, Julian, Kepler, Latin, List of astronomical topics, Maksutov telescope, Milky Way, Natural satellites, Newton, Newton's, Observational astronomy, Observatory, Omar Khayyám, Optical astronomy, Other background radiation fields, Persia, Physical cosmology, Planetary Sciences, Radio astronomy, Renaissance, Rigveda, Solar System, Solar astronomy, Solar system astronomy, Space exploration, Space observatory, Space science, Space telescopes, Star formation, Stellar astronomy, Stellar evolution, Tehran, Telescope, Telescopes, observatories, and observing technology, Tycho Brahe, UV astronomy, Visible light astronomy, White dwarfs, neutron stars, and supernovae, X-ray, X-ray astronomy, air showers, al-Farghani, al-Khujandi, amateurs, ancient Greece, ancient Greeks, archaeoastronomy, astrology, astrometry, astronomers, astronomical seeing, balloons, black holes, blazars, calculation of their motions, calendar, celestial dynamics, celestial mechanics, chemical, chemical composition, comets, constellations, cosmic background radiation, cosmic microwave background radiation, cosmic rays, cosmological abundances of elements, density, ecliptic, electromagnetic radiation, electromagnetic spectrum, electronic imagers, expansion, far infrared astronomy, formation and development of the universe, galaxies, galaxy, gamma ray, gamma rays, gamma-ray astronomy, general relativity theory, gravitational waves, gravitationally, heliocentric model, information, infrared, kinematics, law, law of gravitation, light, list of astronomical topics, luminosity, magnitude, masses, medieval, medieval universities, meridian, neutrinos, neutron stars, obliquity, observational astronomy, observatories, observatory, opaque, phenomena, photographic films, physical, physics, planets, pulsars, quasars, radiation, radio, radio galaxies, radio telescope, reflecting telescope, science, scientific method, solar system, space observatories, spectrographs, spectroscopy, stars, telescope, telescopes, temperature, temperatures, theoretical astrophysics, transits, two fields share a common origin, ultraviolet, universe, water vapor, wavelengths, zodiacal, νόμος
 Adapted from the Wikipedia article "History of astronomy", under the G.N U Free Docmentation License. Please also see http://en.wikipedia.org/wiki |
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