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Conjugation 1 – Conjugate points in a triangle

Published online by Cambridge University Press:  01 August 2016

C. J. Bradley
C. J. Bradley*
Affiliation:
Flat 4, Terrill Court, 12-14 Apsley Court, Clifton, Bristol BS8 2SH
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Extract

The concept of isogonal conjugate points and isotomic conjugate points relative to a given triangle appears to have been introduced by Casey in 1888. Since then these topics have been treated in many important books, such as Johnson Coxeter and Greitzer and more recently Honsberger. The idea originated from the fact that the isogonal conjugates of the points on a fixed line form a circumconic of the triangle involved. That certain pairs of points are isogonal conjugates is of considerable theoretical significance. For example, that the symmedian point K in a triangle is the isogonal conjugate of its centroid G is an important result in understanding the significance of the symmedian point. The concepts involved, though well known to enthusiasts of triangle geometry, deserve additional publicity.

Type
Articles
Information
The Mathematical Gazette , Volume 93 , Issue 527 , July 2009 , pp. 232 - 236
Copyright
Copyright © The Mathematical Association 2009

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References

1. Casey, J., Theory of isogonal and isotomic points, and of antiparallel and symmedian lines. Supp. Ch. §1 in A sequel to the first six books of the Elements of Euclid, containing an easy introduction to modern geometry with numerous examples. Dublin: Hodges, Figgis & Co., (1888) pp. 165173.Google Scholar
2. Johnson, R.A., Modern geometry: an elementary treatise on the geometry of the triangle and the circle, Boston, Mass.: Houghton Mifflin, (1929) pp. 153158.Google Scholar
3. Coxeter, H.S.M and Greitzer, S.L., Geometry revisited, Washington DC: Math. Assoc. Amer., (1967) p. 93.Google Scholar
4. Honsberger, R., Episodes in nineteenth and twentieth century Euclidean geometry, Washington DC: Math. Assoc. Amer., (1995) p. 5357.CrossRefGoogle Scholar
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7. Coxeter, H.S.M., Introduction to geometry (2nd edn.) John Wiley and Sons. (1969).Google Scholar
8. Bradley, C.J. and Bradley, J.T., Countless Simson line configurations, Math. Gaz. 80 (July 1996) pp. 314321.CrossRefGoogle Scholar