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Anne Macaulay

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Anne Macaulay
Born11 March 1924
Fife, Scotland
Died1998
NationalityBritish
Known forPythagorean mathematics, music and stone circles

Anne Macaulay (11 March 1924 – 1998) was a British musicologist, author and lecturer.[1]

Biography

Anne was born in Aithernie, Fife in Scotland near Lundin standing stones, the youngest child of Sir David and Alison Russell.[2] Her family soon moved to Silverburn near Lundin Links where her father managed a paper-making business through the Great Depression and had interests in religion, archaeology, industry and a good sense of family values.[3] She attended St Leonards School in St Andrews during the Second World War going on to briefly attend the University of Edinburgh which she departed for South Africa she learnt to become an aeroplane pilot. Around this time her brother, Patrick Russell died and she accompanied her father to Istanbul where he had funded an archaeological excavation. It was here that she met Bill Macaulay, curator of the Glasgow Museum of Art and an expert in mosaics and Byzantine art whom her father held in high esteem. In 1953, they married and moved to Johnsburn House in Balerno near the Pentland Hills.

Macaulay had five children, the last in 1957, when she began to develop an interest in classical guitar, which she learnt to play to an exceptionally high standard. This led her on to an interest in Pythagorean mathematics and its relationship with music. It was from this that her interest in stone circles and prehistoric geometry developed and she began to read the work of Alexander Thom. Over the next several years, she proceeded to resurvey much of Thom's work and travelled widely to Turkey, Malta, Egypt, Greece and throughout the British Isles in search of further evidence of his ideas.

After the break up of her marriage to Bill in 1971 she worked for seventeen years trying to bring her work and the mass of data she had recorded into order. Her work became well known to other academics and musicians such as Professor Jay Kappraff, Keith Critchlow, Andrew Glazewski and Paul Segovia. She lectured at conferences and symposia in the United States and Britain and in 1994 was awarded an Honorary Fellowship by the University of Edinburgh.[4] Macaulay's research interests included the origin of the alphabet, history of the guitar, the deity Apollo, and pythagorean mysteries. She was a trustee of the Salisbury Centre[5] in Edinburgh and lectured for the Research into Lost Knowledge Organization (RILKO). She died early, in 1998, but her family said of her "She was fortunate to walk with many who knew the ancient ways, and she uncovered the truth as easily as drinking a cup of tea".[2]

Megalithic Measures and Rhythms

Macaulay's work was posthumously collated, edited and published in 2006 by Vivian T. Linacre, a Perth based surveyor who is president of the British Weights and Measures Association (an advocacy group for Imperial units and Richard A. Batchelor, an honorary Research Fellow at the University of St. Andrews, geologist and investigator into the geometry of Fife.[2] The book contains a critical re-assessment of the geometry used in over one hundred and eighty of the stone circles surveyed by Alexander Thom (who surveyed over two hundred) along with their mensuration using the megalithic yard and the megalithic rod. From Professor Fernie's 1981 studies of the Metrological Relief in the Ashmolean Museum, Oxford (which Macaulay gives by its previous name The Arundel Stone) she claimed a similarity between the Greek Fathom and the megalithic rod of 2.072 m. She also suggested that many of the megaliths had been designed using a "third yardstick" length of one Greek Foot, depicted on the Metrological relief at 0.296 m, or one seventh of a megalithic rod.[6] Concerning this claim, Jay Kappraff wrote "However, according to the archaeological record, there was no standard unit of a 'foot' in ancient Greece."[7] She found that the best direct evidence for the use of an ancient unit of measure in megalithic Britain at the fan of stone rows in Mid Clyth. Douglas Heggie had found this gave the strongest evidence for an early unit of measure of any site in the UK.[8] Heggie was very dubious about the existence of the megalithic yard, stating that his careful analysis uncovered "little evidence for a highly accurate unit" and "little justification for the claim that a highly accurate unit was in use".[9]

Macaulay suggested that a high culture of bards (or druids) emerged following an influx of Indo-European farming techniques into Britain in the 5th millennium BC. This culture were able to determine pythagorean mathematics from harmonious sounding triads played on ancient Lyres.[10] These mathematics were then suggested to have been used in the construction of stone circles and exported back to Greece via the tin trade.[11]

References

  1. ^ Society for Scientific Exploration (1996). Journal of scientific exploration: a publication of the Society for Scientific Exploration, p. 576. Pergamon. Retrieved 28 April 2011.
  2. ^ a b c Anne Macaulay; Richard A. Batchelor (July 2006). Megalithic measures and rhythms: sacred knowledge of the ancient Britons. Floris. ISBN 978-0-86315-554-3. Retrieved 28 April 2011.
  3. ^ Lorn Macinnes Macintyre (1994). Sir David Russell: a biography. Canongate. ISBN 978-0-86241-463-4. Retrieved 28 April 2011.
  4. ^ Karen Ralls-MacLeod; Karen Ralls (10 June 2000). Music and the Celtic otherworld: from Ireland to Iona. Palgrave Macmillan. pp. 7–. ISBN 978-0-312-23241-2. Retrieved 28 April 2011.
  5. ^ http://www.salisburycentre.org The Salisbury Center, Edinburgh
  6. ^ Jay Kappraff (2002). Beyond measure: a guided tour through nature, myth, and number, pp. 235-. World Scientific. pp. 235–. ISBN 978-981-02-4702-7. Retrieved 28 April 2011.
  7. ^ Jay Kappraff (2002). Beyond measure: a guided tour through nature, myth, and number, pp. 235-. World Scientific. pp. 235–. ISBN 978-981-02-4702-7. Retrieved 28 April 2011.
  8. ^ D. C. Heggie (1981). Megalithic science: ancient mathematics and astronomy in north-west Europe, p. 48. Thames and Hudson. ISBN 978-0-500-05036-1. Retrieved 28 April 2011.
  9. ^ Heggie 1981 p. 58
  10. ^ Sherbon, Michael A., Pythagorean Geometry and Fundamental Constants, SSRN Classics: Journal of Philosophical & Scientific Texts (October 27, 2007).
  11. ^ Kieth Critchlow; Christopher Bamford; Anne Macaulay; et al. (June 1994). Homage to Pythagoras: rediscovering sacred science, pp. 235-. SteinerBooks. pp. 245–. ISBN 978-0-940262-63-8. Retrieved 28 April 2011.