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The sun rising over Stonehenge at the 2005 Summer Solstice.
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The rising sun illuminates the inner chamber of Newgrange, Ireland, only at the winter solstice.
Archaeoastronomy (also spelled archeoastronomy) is the study of ancient or traditional astronomies in their cultural context, utilising archaeological and anthropological evidence. The anthropological study of astronomical practices in contemporary societies is often called ethnoastronomy, although there is no consensus as to whether ethnoastronomy is a separate discipline or is a part of archaeoastronomy. Archaeoastronomy is also closely associated with historical astronomy, the use of historical records of heavenly events to answer astronomical problems and the history of astronomy, which uses written records to evaluate past astronomical traditions.
It is most frequently mentioned with astronomical claims regarding Stonehenge or the pyramids of Egypt.
History of archaeoastronomy
Archaeoastronomy is almost as old as archaeology itself. Heinrich Nissen was arguably the first archaeoastronomer, publishing Das Templum: Antiquarische Untersuchungen in 1869. Other researchers followed. The astronomer Norman Lockyer was active at the end of the nineteenth century and the start of the twentieth. His studies included an examinations of Egyptian temples in The Dawn of Astronomy in 1894 and of Stonehenge published as Stonehenge and Other British Stone Monuments Astronomically Considered in 1906. The archaeologist Francis Penrose published extensively in the Philosophical Transactions of the Royal Society on the astronomical alignment of Greek temples in the Mediterranean in the same period. Archaeoastronomy was, for a while, a respectable subject. The first issue of the archaeological journal Antiquity, published in 1927, includes an article on archaeoastronomical research.[1])
Early archaeoastronomy began by surveying alignments of Megalithic stones in the British Isles and sites like Auglish in County Londonderry in an attempt to find statistical patterns
In the New World, anthropologists began to more fully consider the role of astronomy in Amerindian societies. This approach had access to sources that the prehistory of Europe lacks such as ethnographies[4] and the historical records of the early colonisers. This allowed New World archaeoastronomers to make claims for motives which in the Old World would have been mere speculation. The concentration on historical data led to some claims of high accuracy that were comparatively weak when compared to the statistically led investigations in Europe.
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This came to a head at a meeting sponsored by the IAU in Oxford in 1981.[5] The methodologies and research questions of the participants were considered so different that the conference proceedings were published as two volumes.[6] Nevertheless the conference was considered a success in bringing researchers together and Oxford conferences have continued every four or five years at locations around the world. The subsequent conferences have resulted in a move to more interdisciplinary approaches with researchers aiming to combine the contextuality of archaeological research,[7] which broadly describes the state of archaeoastronomy today. Rather than merely establishing the existence of ancient astronomies archaeoastronomers seek to explain why people would have an interest in the night sky.
Methodology
Because of the wide variety of evidence, which can include artifacts as well as sites, there is no one way to practice archaeoastronomy. Despite this it is accepted that Archaeoastronomy is not a discipline that sits in isolation. Because Archaeoastronomy is an interdisciplinary field, whatever is being investigated should make sense both archaeologically and astronomically. Studies are more likely to be considered sound if they use theoretical tools found in Archaeology like analogy and homology and if they can demonstrate an understanding of accuracy and precision found in Astronomy.Artifactual analysis
In the case of artifacts such as the Sky Disc of Nebra, alleged to be a Bronze Age artifact depicting the cosmos, the analysis would be similar to typical post-excavation analysis as used in other sub-disciplines in archaeology. An artifact is examined and attempts are made to draw analogies with historical or ethnographical records of other peoples. The more parallels that can be found, the more likely an explanation is to be accepted by other archaeologists.Another well-known artifact with an astronomical use is the Antikythera mechanism. In this case analysis of the artifact, and reference to the description of similar devices described by Cicero, would indicate a plausible use for the device. The argument is bolstered by the presence of symbols on the mechanism, allowing the disc to be read.
Symbolic analysis
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Diagram showing the location of the sun daggers on the petroglyph on various days
A mundane example is the presence of astrological symbols found on some shoes and sandals from the Roman Empire. The use of shoes and sandals is well known, but Carol van Driel-Murray has proposed that astrological symbols etched onto sandals gave the footwear spiritual or medicinal meanings.[8] This is supported through citation of other known uses of astrological symbols and their connection to medical practice and with the historical records of the time.
More problematic are some petroglyphs. Symbols on rock are one such class of symbol which are occasionally argued to posses astronomical meanings. An example is the Sun Dagger of Fajada Butte which is a glint of sunlight passing over a spiral petroglyph. The location of the dagger on the petroglyph varies throughout the year. At the solstices a dagger can be seen either through the heart of the spiral or to either side of it. It is proposed that this petroglyph was created to mark these events. If no ethnographic nor historical data are found which can support this assertion then acceptance of the idea relies upon the reader’s own belief as to whether or not there are enough petroglyph sites in North America that such a correlation could occur by chance. It is helpful when petroglyphs are associated with existing peoples. This allows ethnoastronomers to question informants as to the meaning of such symbols.
Alignment analysis
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The Sun rising behind the Heel Stone at Stonehenge
The use of alignment analysis may vary depending upon the researcher. As a coarse stereotype archaeoastronomers from an historical background tend to have an idea which is then tested by examining structures for alignments. Astronomically-minded archaeoastronomers may analyze large numbers of sites and attempt to find statistical patterns. This approach was particularly employed in early papers by pioneers in the field such as Alexander Thom who conducted extensive fieldwork at megalithic sites and concluded many sites were situated to observe the moon. In this instance the aim was to prove that there is an astronomical problem which requires an historical explanation. This latter approach continues to an extent in some modern research but it has comparatively little direct impact on mainstream archaeology.
One reason the statistically-led approach has proven unpopular with archaeologists and anthropologists was stated by the anthropologist Keith Kintigh:
In light of the fact that archaeoastronomers bring considerable energy and expertise to their efforts, what accounts for archaeologists’ indifference?I think the principal reason is that archaeologists see archaeoastronomers as answering questions that, from a social scientific standpoint, no one is asking. To put it bluntly, in many cases it doesn’t matter much to the progress of anthropology whether a particular archaeoastronomical claim is right or wrong because the information doesn’t inform the current interpretive questions.[10]
Recent statistically led research has tended to be more discriminating, choosing archaeologically associated sites and where possible referring back to historical or ethnographic records to place the findings in a social context.
An alignment calculated by measuring the azimuth, the angle from north, of the structure and the altitude of the horizon it faces. The azimuth is usually measured using a theodolite or a compass. A compass is easier to use, though the deviation of the Earth’s magnetic field from true north, known as its magnetic declination must be taken into account. Compasses are also unreliable in areas prone to magnetic interference, such as sites being supported by scaffolding. Additionally a compass can only measure the azimuth to a precision of a half a degree.[11]
A thedolite can be considerably more accurate if used correctly, but it is also considerably more difficult to use correctly. There is no inherent way to align a theodolite with North and so the scale has to be calibrated using astronomical observation, usually the position of the Sun. Because the position of celestial bodies changes with the time of day due to the Earth’s rotation, the time of these calibration observations must be accurately known, else there will be a systematic error in the measurements. If one is measuring buildings which were unlikely to be orientated by their builders to within fractions of a degree then a thedolite can be more trouble than it is worth. Horizon altitudes can be measured with a theodolite or a clinometer.
Recreating the ancient sky
Once the researcher has data to test, it is often necessary to attempt to recreate ancient sky conditions to place the data in its historical environment.Declination
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A time lapse photo showing the stars rotating around the celestial pole.
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Diagram of the visible portions of sky at varying latitudes.
Solar positioning
While the stars are fixed to their declinations the Sun is not. The rising point of the Sun varies throughout the year. It swings between two limits marked by the solstices a bit like a pendulum, slowing as it reaches the extremes, but passing rapidly through the mid-point. If an archaeoastronomer can calculate from the azimuth and horizon height that a site was built to view a declination of +23.5° then he need not wait until June 21 to confirm the site does indeed face the summer solstice. For more information see History of solar observation.Lunar positioning
The Moon’s appearance is considerably more complex. Its motion, like the Sun, is between two limits — known as lunastices rather than solstices. However, its travel between lunastices is considerably faster. It takes a sidereal month to complete its cycle rather than the year long trek of the Sun. This is further complicated as the lunastices marking the limits of the Moon’s movement move on an 18.6 year cycle. For slightly over nine years the extreme limits of the moon are outside the range of sunrise. For the remaining half of the cycle the Moon never exceeds the limits of the range of sunrise. However, much lunar observation was concerned with the phase of the Moon. The cycle from one New Moon to the next runs on an entirely different cycle, the Synodic month. Thus when examining sites for lunar significance the data can appear sparse due the extremely variable nature of the moon. See Moon for more details.Stellar positioning
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Precessional movement.
Transient phenomena
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Halley’s Comet depicted on the Bayeux tapestry
Some comets are predictable, most famously Halley’s Comet. Yet as a class of object they remain unpredictable and can appear at any time. Some have extremely lengthy orbital periods which means their past appearances and returns cannot be predicted. Others may have only ever passed through the solar system once and so are inherently unpredictable.
Meteor showers should be predictable, but the meteors are cometary debris and so require calculations of orbits which are currently impossible to complete. Other events noted by ancients include aurorae, sun dogs and rainbows all of which are as impossible to predict as the ancient weather, but nevertheless may have been considered important phenomena.
Major topics of archaeoastronomical research
The use of calendars
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Aztec Stone of the Sun replica in El Paso, Texas, cast from the original to be found in Mexico's National Museum of Anthropology. A religious artefact showing how the Mexica people thought about time.
An example of a non-agricultural calendar is the Tzolk'in calendar of the Maya civilization of pre-Columbian Mesoamerica, which is a cycle of 260 days. This count is based on an earlier calendar and is found throughout Mesoamerica. This formed part of a more comprehensive system of Maya calendars which combined a series of astronomical observations and ritual cycles.[15]
Other peculiar calendars include ancient Greek calendars. These were nominally lunar, starting with the New Moon. In reality the calendar could pause or skip days with confused citizens inscribing dates by both the civic calendar and ton theoi, by the moon.[16] The lack of any universal calendar for ancient Greece suggests that coordination of panhellenic events such as games or rituals could be difficult and that astronomical symbolism may have been used as a politically neutral form of timekeeping.[17]
Myth and cosmology
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The constellation Argo Navis drawn by Johannes Hevelius in 1690.
The Incas arranged their empire to demonstrate their cosmology. The capital, Cusco, was at the centre of the empire and connected to it by means of ceques, conceptually straight lines radiating out from the centre.[18] These ceques connected the centre of the empire to the four suyus, which were regions defined by their direction from Cusco. The notion of a quartered cosmos is common across the Andes. Gary Urton, who has conducted fieldwork in the Andean villagers of Misminay, has connected this quartering with the appearance of the Milky Way in the night sky.[19] In one season it will bisect the sky and in another bisect it in a perpendicular fashion.
The importance of observing cosmological factors is also seen on the other side of the world. The Forbidden City in Beijing is laid out to follow cosmic order though rather than observing four directions the Chinese saw five, North, South, East, West and Centre. The Forbidden City occupied the centre of ancient Beijing.[20] One approaches the Emperor from the south, thus placing him in front of the circumpolar stars. This creates the situation of the heavens revolving around the person of the Emperor. The Chinese cosmology is now better known through its export as Feng Shui.
There is also much information about how the universe was thought to work stored in the mythology of the constellations. The Barasana of the Amazon plan part of their annual cycle based on observation of the stars. When their constellation of the Caterpillar-Jaguar falls they prepare to catch the pupating caterpillars of the forest as they fall from the trees.[21] This provides planning for food procurement at a time when hunger could otherwise be a problem.
A more well-known source of constellation myth are the texts of the Greeks and Romans. The origin of their constellations remains a matter of continuing and occasionally fractious debate.
Displays of power
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The Intihuatana (“tie the sun”) at Machu Picchu is believed to have been designed as an astronomic clock by the Incas, while some have speculated about the site’s possible astrological role
By including celestial motifs in clothing it becomes possible for the wearer to make claims the power on Earth is drawn from above. It has been said that the Shield of Achilles described by Homer is also a catalogue of constellations.[22] In North America shields depicted in Comanche petroglyphs appear to include Venus symbolism.[23]
Solsticial alignments also can be seen as displays of power. In Egypt the temple of Amun-Re at Karnak has been the subject of much study. Evaluation of the site, taking into account the change over time of the obliquity of the ecliptic show that the Great Temple was aligned on the rising of the midwinter sun.[24] The length of the corridor down which sunlight would travel would have limited illumination at other times of the year.
In a later period the Serapeum in Alexandria was also said to have contained a solar alignment so that, on a specific sunrise, a shaft of light would pass across the lips of the statue of Serapis thus symbolising the Sun saluting the god.[25]
The use of astronomy at Stonehenge continues to be a matter of vigorous discussion.
Archaeoastronomical organisations and publications
There are currently two academic organisations for scholars of archaeoastronomy. ISAAC—the International Society for Archaeoastronomy and Astronomy in Culture—was founded in 1995 and now sponsors the Oxford conferences and Archaeoastronomy — the Journal of Astronomy in Culture. SEAC—the Société Européenne pour l’Astronomie dans la Culture—is slightly older; it was created in 1992. SEAC holds annual conferences in Europe and publishes refereed conference proceedings on an annual basis.Additionally the Journal for the History of Astronomy publishes many archaeoastronomical papers. For twenty-seven volumes it also published an annual supplement Archaeoastronomy.
References
1. ^ A.P. Trotter, Stonehenge as an Astronomical Instrument, Antiquity Vol 1:1, 1927, 42–53
2. ^ R.J.C. Atkinson, Moonshine on Stonehenge, Antiquity Vol 49:159, 1966, 212–6
3. ^ E. MacKie, Science and Society in Prehistoric Britain, Paul Elek, 1977, ISBN 0-236-40041-X
4. ^ M. Zeilik, The Ethnoastronomy of the Historic Pueblos, I: Calendrical Sun Watching, Archaeoastronomy No. 8 (Supplement to the Journal for the History of Astronomy), 1985, pp. S1–S24; The Ethnoastronomy of the Historic Pueblos, II: Moon Watching, Archaeoastronomy No. 10 (Supplement to the Journal for the History of Astronomy), 1986, pp. S1–S22.
5. ^ C.L.N. Ruggles, Archaeoastronomy in the 1990s, Group D Publications. 1993, ix, ISBN 1-874152-01-2
6. ^ A. F. Aveni (ed.), Archaeoastronomy in the New World: American Primitive Astronomy, CUP, 1982, ISBN 0-521-24731-4; D. C. Heggie (ed.), Archaeoastronomy in the Old World, CUP, 1982, ISBN 0-521-24734-9
7. ^ A.F. Aveni, World Archaeoastronomy, CUP, 1989, xi–xiii, ISBN 0-521-34180-9
8. ^ C. van Driel-Murray, Regarding the Stars, TRAC 2001: Proceedings of the Eleventh Annual Theoretical Roman Archaeology Conference Glasgow 2001. eds. M Carruthers, C. van Driel-Murray, A. Gardner, J. Lucas, L. Revell and E. Swift. Oxbow Books. 2002, 96–103, ISBN 1-84217-075-9
9. ^ K. Spence, Ancient Egyptian Chronoology and the astronomical orientation of the pyramids, Nature, Vol 406, 16 November 2000, 320–324.
10. ^ K. Kintigh, I wasn’t going to say anything, but since you asked: Archaeoastronomy and Archaeology, Archaeoastronomy & Ethnoastronomy News 5, 1992
11. ^ Brunton Pocket Transit Instruction Manual, p. 22
12. ^ Astrological Things What is Your Sign, Really ?
13. ^ Herodotus, The Histories, I.74
14. ^ D. Turton and C.L.N. Ruggles, Agreeing to Disagree: The Measurement of Duration in a Southwestern Ethiopian Community, Current Anthropology Vol. 19.3, 1978, 585–600
15. ^ A.F. Aveni, Empires of Time, Basic Books, 1989, ISBN 0-465-01950-1
16. ^ S. McCluskey, The Inconstant Moon: Lunar Astronomies in Different Cultures, Archaeoastronomy: The Journal of Astronomy in Culture Vol 15. 2000, 14–31
17. ^ A. Salt and E. Boutsikas, Knowing when to consult the oracle at Delphi. Antiquity Vol 79:305, 2005, 562–72
18. ^ B. Bauer and D. Dearborn, Astronomy and empire in the ancient Andes: the cultural origins of Inca sky watching, University of Texas, 1995, ISBN 0-292-70837-8
19. ^ G. Urton, At the crossroads of the earth and the sky: an Andean cosmology, University of Texas. 1981, ISBN 0-292-70349-X
20. ^ E.C. Krupp, Skywatchers, Shamans and Kings, John Wiley and Sons, 1997, 196–9, ISBN 0-471-32975-4
21. ^ M. Hoskin, The Cambridge Concise History of Astronomy, CUP, 1999, 15–6, ISBN 0-521-57600-8
22. ^ R. Hannah, The Constellations on Achilles’ Shield (Iliad 18. 485–489). Electronic Antiquity II.4, 1994, 15–6
23. ^ E.C. Krupp, Skywatchers, Shamans and Kings, John Wiley and Sons, 1997, 252–3, ISBN 0-471-32975-4
24. ^ E.C. Krupp, Light in the Temples, Records in Stone: Papers in Memory of Alexander Thom, ed. C.L.N. Ruggles, 1988, 473–499, ISBN 0-521-33381-4
25. ^ Rufinus, The destruction of the Serapeum
2. ^ R.J.C. Atkinson, Moonshine on Stonehenge, Antiquity Vol 49:159, 1966, 212–6
3. ^ E. MacKie, Science and Society in Prehistoric Britain, Paul Elek, 1977, ISBN 0-236-40041-X
4. ^ M. Zeilik, The Ethnoastronomy of the Historic Pueblos, I: Calendrical Sun Watching, Archaeoastronomy No. 8 (Supplement to the Journal for the History of Astronomy), 1985, pp. S1–S24; The Ethnoastronomy of the Historic Pueblos, II: Moon Watching, Archaeoastronomy No. 10 (Supplement to the Journal for the History of Astronomy), 1986, pp. S1–S22.
5. ^ C.L.N. Ruggles, Archaeoastronomy in the 1990s, Group D Publications. 1993, ix, ISBN 1-874152-01-2
6. ^ A. F. Aveni (ed.), Archaeoastronomy in the New World: American Primitive Astronomy, CUP, 1982, ISBN 0-521-24731-4; D. C. Heggie (ed.), Archaeoastronomy in the Old World, CUP, 1982, ISBN 0-521-24734-9
7. ^ A.F. Aveni, World Archaeoastronomy, CUP, 1989, xi–xiii, ISBN 0-521-34180-9
8. ^ C. van Driel-Murray, Regarding the Stars, TRAC 2001: Proceedings of the Eleventh Annual Theoretical Roman Archaeology Conference Glasgow 2001. eds. M Carruthers, C. van Driel-Murray, A. Gardner, J. Lucas, L. Revell and E. Swift. Oxbow Books. 2002, 96–103, ISBN 1-84217-075-9
9. ^ K. Spence, Ancient Egyptian Chronoology and the astronomical orientation of the pyramids, Nature, Vol 406, 16 November 2000, 320–324.
10. ^ K. Kintigh, I wasn’t going to say anything, but since you asked: Archaeoastronomy and Archaeology, Archaeoastronomy & Ethnoastronomy News 5, 1992
11. ^ Brunton Pocket Transit Instruction Manual, p. 22
12. ^ Astrological Things What is Your Sign, Really ?
13. ^ Herodotus, The Histories, I.74
14. ^ D. Turton and C.L.N. Ruggles, Agreeing to Disagree: The Measurement of Duration in a Southwestern Ethiopian Community, Current Anthropology Vol. 19.3, 1978, 585–600
15. ^ A.F. Aveni, Empires of Time, Basic Books, 1989, ISBN 0-465-01950-1
16. ^ S. McCluskey, The Inconstant Moon: Lunar Astronomies in Different Cultures, Archaeoastronomy: The Journal of Astronomy in Culture Vol 15. 2000, 14–31
17. ^ A. Salt and E. Boutsikas, Knowing when to consult the oracle at Delphi. Antiquity Vol 79:305, 2005, 562–72
18. ^ B. Bauer and D. Dearborn, Astronomy and empire in the ancient Andes: the cultural origins of Inca sky watching, University of Texas, 1995, ISBN 0-292-70837-8
19. ^ G. Urton, At the crossroads of the earth and the sky: an Andean cosmology, University of Texas. 1981, ISBN 0-292-70349-X
20. ^ E.C. Krupp, Skywatchers, Shamans and Kings, John Wiley and Sons, 1997, 196–9, ISBN 0-471-32975-4
21. ^ M. Hoskin, The Cambridge Concise History of Astronomy, CUP, 1999, 15–6, ISBN 0-521-57600-8
22. ^ R. Hannah, The Constellations on Achilles’ Shield (Iliad 18. 485–489). Electronic Antiquity II.4, 1994, 15–6
23. ^ E.C. Krupp, Skywatchers, Shamans and Kings, John Wiley and Sons, 1997, 252–3, ISBN 0-471-32975-4
24. ^ E.C. Krupp, Light in the Temples, Records in Stone: Papers in Memory of Alexander Thom, ed. C.L.N. Ruggles, 1988, 473–499, ISBN 0-521-33381-4
25. ^ Rufinus, The destruction of the Serapeum
See also
- List of archaeoastronomical sites sorted by country Sites where claims for the use of astronomy have been made.
- List of artefacts of archaeoastronomical significance Artefacts which have been interpreted as being used for some astronomical purpose.
- European Megalithic Culture
- Australian Aboriginal Astronomy
- Aboriginal stone arrangements
- Lunar standstill
- Medicine wheels
- Mound builders
- Petroforms
External links
- Archaeoastronomy A Thinkquest website surveying archaeoastronomical sites across the world.
- Clives Ruggles webpage: bibliography and synopsis of his course at the University of Leicester
- ISAAC, The International Society for Archaeoastronomy and Astronomy in Culture.
- SEAC La Société Européenne pour l’Astronomie dans la Culture. Site in English.
- SIAC La Sociedad Interamericana de AstronomÃa en la Cultura.
- Space Imaging’s Ancient Observatories gallery — Satellite pictures of ancient observatories.
- Traditions of the Sun — NASA and others exploring the world’s ancient observatories.
- Tulum — Mayan Mystery — Amateur archaeoastronomy from the archaeological site at Tulum.
- Australian Aboriginal Astronomy
- Stonehenge and Other British Stone Monuments Astronomically Considered - etext at sacred-texts.com
- Amateur Archeoastronomy of Mayan Copan Ruinas
- Society for the History of Astronomy
Journals
- Archaeoastronomy and Ethnoastronomy News
- Archaeoastronomy: Supplement to the Journal for the History of Astronomy
- Archaeoastronomy: The Journal of Astronomy in Culture
- Culture and Cosmos
- Journal for the History of Astronomy
Astronomy is the scientific study of celestial objects (such as stars, planets, comets, and galaxies) and phenomena that originate outside the Earth's atmosphere (such as the cosmic background radiation).
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Anthropology (from Greek: ἄνθρωπος, anthropos, "human being"; and λόγος, logos, "speech" lit. to talk about human beings) is the study of humanity.
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Historical astronomy is the science of analysing historic astronomical data. The American Astronomical Society (AAS), established 1899, states that its Historical Astronomy Division "...
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Astronomy is the oldest of the natural sciences, dating back to antiquity, with its origins in the religious, mythological, and astrological practices of pre-history: vestiges of these are still found in astrology, a discipline long interwoven with public and governmental astronomy, and
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The prehistoric monument of Stonehenge has long been studied for its possible connections with ancient astronomy. Archaeoastronomers have claimed that Stonehenge represents an "ancient observatory," although the extent of its use for that purpose is in dispute.
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Sir Joseph Norman Lockyer (May 17, 1836 – August 16, 1920) was an English scientist and astronomer. Along with the French scientist Pierre Janssen he is credited with discovering the gas helium.
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twentieth century of the Common Era began on January 1, 1901 and ended on December 31, 2000, according to the Gregorian calendar. Some historians consider the era from about 1914 to 1991 to be the Short Twentieth Century.
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Francis Cranmer Penrose FRS (29 October 1817 - 15 February 1903) was a British architect, archaeologist and astronomer.
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The Philosophical Transactions of the Royal Society, or Phil. Trans., is a scientific journal published by the Royal Society.
Begun in 1665, it is the oldest scientific journal printed in the English-speaking world and the second oldest in the world,
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Begun in 1665, it is the oldest scientific journal printed in the English-speaking world and the second oldest in the world,
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Greek temples differed from their Roman counterparts in that the colonnade formed a peristyle around the whole structure, rather than merely a porch at the front; and also in that the Greek temple was not raised above ground level on a high podium, but rather stairs on either end.
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Mediterranean is a sea of the Atlantic Ocean almost completely enclosed by land: on the north by Europe, on the south by Africa, and on the east by Asia. It covers an approximate area of 2.
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Antiquity is one of the world's leading learned journals dedicated to the subject of archaeology.
It is owned by a registered charity, The Antiquity Trust which was founded by the archaeologist O. G. S.
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It is owned by a registered charity, The Antiquity Trust which was founded by the archaeologist O. G. S.
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British Isles<nowiki />
The British Isles in relation to mainland Europe
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The British Isles in relation to mainland Europe
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Gerald Stanley Hawkins (1928–2003) was an astronomer and author most famous for his work in the field of archaeoastronomy.
He was born in Great Yarmouth and studied physics and mathematics at the University of Nottingham.
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He was born in Great Yarmouth and studied physics and mathematics at the University of Nottingham.
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Neolithic[1] or "New" Stone Age, was a period in the development of human technology that is traditionally the last part of the Stone Age. The Neolithic era follows the terminal Holocene Epipalaeolithic
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Alexander Thom (1894–1985) was a Scottish engineer most famous for his theory of the Megalithic yard.
A graduate of the University of Glasgow, he returned there as a lecturer from 1922–1939.
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A graduate of the University of Glasgow, he returned there as a lecturer from 1922–1939.
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megalith is a large stone which has been used to construct a structure or monument, either alone or together with other stones. Megalithic means structures made of such large stones, utilizing an interlocking system without the use of mortar or cement.
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Statistics is a mathematical science pertaining to the collection, analysis, interpretation or explanation, and presentation of data. It is applicable to a wide variety of academic disciplines, from the physical and social sciences to the humanities.
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The New World is one of the names used for the Americas. When the term originated in the late 15th century, the Americas were new to the Europeans, who previously thought of the world as consisting only of Europe, Asia, and Africa (collectively, the Old World).
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hi Amerindian is an ambiguous term given to people descended primarily from the native inhabitants of the Americas prior to the European colonization (following the arrival of Christopher Columbus in 1492).
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Prehistory (Latin, præ = before Greek, ιστορία = history) is a term often used to describe the period before written history. Paul Tournal originally coined the term Pré-historique
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Ethnography (ἔθνος ethnos = people and γράφειν graphein
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History is the study of the past, focused on human activity and leading up to the present day.[1] More precisely, history is the continuous, systematic narrative and research of past events as relating to the human race [1]
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The first known Europeans to reach the Americas are believed to have been the Vikings ("Norse"), who established several colonies in the Americas from the 11th century. One Viking from Iceland, Leif Erikson established a short-lived settlement in Vinland, present day Newfoundland.
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International Astronomical Union (IAU) unites national astronomical societies from around the world. It also acts as the internationally recognized authority for assigning designations to celestial bodies (stars, planets, asteroids, etc.
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Oxford is a city and local government district in Oxfordshire, England, with a population of 134,248 (2001 census). It is home to the University of Oxford, the oldest university in the English-speaking world.
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Methodology is defined as
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- "the analysis of the principles of methods, rules, and postulates employed by a discipline" or
- "the development of methods, to be applied within a discipline"
- "a particular procedure or set of procedures". [1].
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Analogy is both the cognitive process of transferring information from a particular subject (the analogue or source) to another particular subject (the target), and a linguistic expression corresponding to such a process.
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Homology may refer to:
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- Homology (anthropology), analogy between human beliefs, practices or artifacts due to genetic or historical connections.
- Homology (biology): analogy of structures due to shared ancestry.
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