History of astronomy: Difference between revisions
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These ancient beginnings are often indicated by structures studied by archeologist.<ref>Archeoastronomy is the study of ancient and prehistoric astronomy; methods and interpretations.</ref> '''Stonehenge''', constructed sometime between 3100 to 2000 BC may have constituted an astronomical site, possibly an observatory or the structure may have been designed upon observations previously made. Either way, it seems clear that Stonehenge was meant to take advantage of astronomical phenomena since the "heelstone" in the circle of stones is aligned with the rising Sun on Midsummer's Day (June 21, the Summer Solstice). This represents a true astronomical alignment. Many other Megalithic sites also demonstrate such alignments.<ref name=Gene>[http://casswww.ucsd.edu/public/tutorial/History.html A Brief History of Astronomy] Gene Smith, University of California, San Diego Center for Astrophysics & Space Sciences</ref> | These ancient beginnings are often indicated by structures studied by archeologist.<ref>Archeoastronomy is the study of ancient and prehistoric astronomy; methods and interpretations.</ref> '''Stonehenge''', constructed sometime between 3100 to 2000 BC may have constituted an astronomical site, possibly an observatory or the structure may have been designed upon observations previously made. Either way, it seems clear that Stonehenge was meant to take advantage of astronomical phenomena since the "heelstone" in the circle of stones is aligned with the rising Sun on Midsummer's Day (June 21, the Summer Solstice). This represents a true astronomical alignment. Many other Megalithic sites also demonstrate such alignments.<ref name=Gene>[http://casswww.ucsd.edu/public/tutorial/History.html A Brief History of Astronomy] Gene Smith, University of California, San Diego Center for Astrophysics & Space Sciences</ref> | ||
The '''Megalithic Passage Tomb''' at '''Newgrange''', built about 3200 BC.also demonstrates knowledge of astronomical phenomena. The passage and single chamber of the tomb are illuminated by a shaft of | The '''Megalithic Passage Tomb''' at '''Newgrange''', built about 3200 BC.also demonstrates knowledge of astronomical phenomena. The passage and single chamber of the tomb are illuminated by a shaft of sunlight that shines through the roof box over the entrance and penetrates the passage, lighting up the chamber at winter solstice sunrise. This happens at dawn from the 19th to the 23rd of December for 17 minutes.<ref>[http://www.knowth.com/newgrange.htm Newgrange Megalithic Passage Tomb] </ref> | ||
Earlier evidence of astronomical observations can be found in '''Vedic India''' in the '''''Rg Veda''''' which contains a verse observing the winter solstice in the constellation Aries. This would have placed it at around 6500 BC. The '''Myth of Janus''', a four headed god of of the Vedic people of India, presents the possibility of astronomical observations around 4,000 BC. Each head of Janus represented a phase of the moon which in turn represented one of the four seasons: one full moon represented the spring equinox, one full moon represented the autumn equinox, the waning moon the winter solstice and a waxing moon representing the summer solstice.This dating is disputed but it does indicate a very early study of both the contellations and the moon.<ref>[http://www.astronomy.pomona.edu/archeo/india/as-india.html Astronomy of Vedic India] Eirik L. Harris, Pamona College</ref> | Earlier evidence of astronomical observations can be found in '''Vedic India''' in the '''''Rg Veda''''' which contains a verse observing the winter solstice in the constellation Aries. This would have placed it at around 6500 BC. The '''Myth of Janus''', a four headed god of of the Vedic people of India, presents the possibility of astronomical observations around 4,000 BC. Each head of Janus represented a phase of the moon which in turn represented one of the four seasons: one full moon represented the spring equinox, one full moon represented the autumn equinox, the waning moon the winter solstice and a waxing moon representing the summer solstice.This dating is disputed but it does indicate a very early study of both the contellations and the moon.<ref>[http://www.astronomy.pomona.edu/archeo/india/as-india.html Astronomy of Vedic India] Eirik L. Harris, Pamona College</ref> |
Revision as of 17:49, 26 November 2007
Astronomy is the branch of physics that studies celestial bodies and the universe as a whole.
From this perspective, the study of celestial bodies can be reasonably said to have begun when at some point humanity looked up and began to observe the moon and the stars and the planets regardless of how they may have thought of them.
These ancient beginnings are often indicated by structures studied by archeologist.[1] Stonehenge, constructed sometime between 3100 to 2000 BC may have constituted an astronomical site, possibly an observatory or the structure may have been designed upon observations previously made. Either way, it seems clear that Stonehenge was meant to take advantage of astronomical phenomena since the "heelstone" in the circle of stones is aligned with the rising Sun on Midsummer's Day (June 21, the Summer Solstice). This represents a true astronomical alignment. Many other Megalithic sites also demonstrate such alignments.[2]
The Megalithic Passage Tomb at Newgrange, built about 3200 BC.also demonstrates knowledge of astronomical phenomena. The passage and single chamber of the tomb are illuminated by a shaft of sunlight that shines through the roof box over the entrance and penetrates the passage, lighting up the chamber at winter solstice sunrise. This happens at dawn from the 19th to the 23rd of December for 17 minutes.[3]
Earlier evidence of astronomical observations can be found in Vedic India in the Rg Veda which contains a verse observing the winter solstice in the constellation Aries. This would have placed it at around 6500 BC. The Myth of Janus, a four headed god of of the Vedic people of India, presents the possibility of astronomical observations around 4,000 BC. Each head of Janus represented a phase of the moon which in turn represented one of the four seasons: one full moon represented the spring equinox, one full moon represented the autumn equinox, the waning moon the winter solstice and a waxing moon representing the summer solstice.This dating is disputed but it does indicate a very early study of both the contellations and the moon.[4]
Halley's Comet (considered a guest star) was noted by Chinese astronomers as early as 240 BC and perhaps as early as 1059 BC.[2]
Celestial mechanics
Celestial mechanics, a subfield of astronomy, began with the application of Newton's theory of mechanics and gravitation (as elucidated in the Principia) to the movement of planets. Eventually Einstein's theory of general relativity and modern computing technology overtook the field of classic physics.[5][6]
Cosmology
Cosmology is defined as the science of the universe,[7] the branch of astronomy which studies the origin, evolution, and structure of the universe,[8] the study of "the contents, structure, and evolution of the universe from the beginning of time to the future",[9] a branch of astronomy tht studies the "origin, large-scale properties, and the evolution of the observable universe."[10].
Astronomy underwent significant changes in the period following 1970 when a union of particle physics ("the study of the unbelievably small" ) and astronomy ("the study of the incomprehensibly large") had begun to take place. This has had a significant impact on cosmology. The scope of cosmology arguably begins approximately 10-42 seconds following the origin of the universe when the universe was smaller than a proton.[7]
Planetology
Also referred to as planetary science, this branch of astronomy is involved with the study of other planets, including meteorology, geology, location, orbits, origins. Given the fact that the earth is our primary source of information about other planets, there is a great deal of comparative study of earth and other planets. The primary focus has been on the planets of this solar system but as new planets are discovered, there is a growing amount of data on planets in orbit around other stars.[11]
Radio Astronomy
Astronomy in ancient China
Astronomy in ancient Mesopotamia
Astronomy in ancient India
Astronomy in ancient Greece
Astronmy in ancient Persia
Astronomy in ancient Egypt
Astronmy in Medieval Mesopotamia and the Middle East
Astronomy of the Mayan civilisation
Astronomy of the Aztec civilisation
Astronomy of the Incan civilisation
Pythagoras of Samos (~580-500 BC)
Aristotle (384-322 BC)
Aristarchus of Samos (~310-230 BC)
Eratosthenes of Cyrene (276-197 BC)
Claudius Ptolemy (~85-165 AD)
Nikolas Kopernig (Copernicus, 1473-1543)
Thomas Digges (1543-1595)
Galileo Galilei (1564-1642)
Tycho Brahe
Johannes Kepler (1571-1630)
Isaac Newton (1642-1727)
William Herschel
W. H.Pickering and Annie J. Cannon
Albert Einstein
Edwin Hubble
Georges-Henri Lemaitre
Hans Bethe
George Gamov
Arno Penzias and Robert Wilson
Jocelyn Bell (Burnell) and Anthony Hewish
References
- ↑ Archeoastronomy is the study of ancient and prehistoric astronomy; methods and interpretations.
- ↑ 2.0 2.1 A Brief History of Astronomy Gene Smith, University of California, San Diego Center for Astrophysics & Space Sciences
- ↑ Newgrange Megalithic Passage Tomb
- ↑ Astronomy of Vedic India Eirik L. Harris, Pamona College
- ↑ Introduction and Mathematics ReviewCollins, George (1989) The Foundations of Celestial Mechanics
- ↑ Celestial Mechanics James B. Calvert, Associate Professor Emeritus of Engineering, University of Denver (2003). Mechanics and Thermodynamics
- ↑ 7.0 7.1 Smoot, George, Davidson, Keay (1993). Wrinkles in time: The imprint of creation. London: Abacus Books
- ↑ Glossary George Mason University
- ↑ Glossary Contemporary Physics Education Project
- ↑ Introductory Astronomy Glossary Astronomical Societ of the Pacific
- ↑ Comparative Planetology University of Washington Astronomy Dept.