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Some properties of Brocard points

Published online by Cambridge University Press:  01 August 2016

Ron Shail*
Affiliation:
Department of Mathematical and Computing Sciences, University of Surrey, Guildford GUI 5XH

Extract

The Brocard points P and P' of the triangle ABC, illustrated in Figure 1, are such that ∠PAB = ∠PBC = ∠PCA = ω and ∠P'BA = ∠P'CB = ∠P'AC = ω. Problem 78.A in the March 1994 edition of the Mathematical Gazette required a proof that the maximum length of PP' is R/2, where R is the circumradius of triangle ABC. The solution given by various solvers in the November 1994 edition of the Gazette is essentially the same as appeared in a paper by H. E. Piggott in the Gazette in 1924. In the present paper various properties of the triangle and its Brocard points are established in terms of the lengths of the sides of the triangle. Some of the results may be new, but the methods used encompass ‘Mathematics Ancient and Modern’ in the guises of homogeneous areal coordinates and computer algebra!

Type
Articles
Copyright
Copyright © The Mathematical Association 1996

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References

1. Piggott, H. E. The geometry of the triangle, Math. Gaz. 12 (1924–25) p. 244.CrossRefGoogle Scholar
2. Askwith, E. H. The analytical geometry of the conic sections, Adam & Charles Black (1950).Google Scholar
3. Sommerville, D. M. Y. Analytical conies, G. Bell and Sons (1951).Google Scholar
4. Problem 78.A Math. Gaz. 78 (March 1994) p. 112. Solution (November 1994) p. 370.CrossRefGoogle Scholar
5. Loney, S. L. The elements of coordinate geometry Part II, Macmillan, (1933).Google Scholar