Brokard's theorem: Difference between revisions

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	{{short description\|Theorem about orthocenter and polars in circle geometry}}		{{short description\|Theorem about orthocenter and polars in circle geometry}}

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	'''Brokard's theorem''' is a theorem in ].<ref>{{cite book		'''Brokard's theorem''' is a theorem in ].<ref>{{cite book
	\| author = Coxeter, H. S. M.		\| author = Coxeter, H. S. M.
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	\| edition = 2nd		\| edition = 2nd
	\| year = 1987		\| year = 1987
	\| publisher = Springer-Verlag		\| publisher = ]
	\| isbn = 0-387-96532-7		\| isbn = 0-387-96532-7
	\| pages =		\| pages =
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	== Statement ==		== Statement ==
	<blockquote>'''Brokard's theorem'''. The points ''A'', ''B'', ''C'', and ''D'' lie in this order on a circle <math>\omega</math> with center ''O'. Lines ''AC'' and ''BD'' intersect at ''P'', ''AB'' and ''DC'' intersect at ''Q'', and ''AD'' and ''BC'' intersect at ''R''. Then ''O'' is the orthocenter of <math>\triangle PQR</math>. Furthermore, ''QR'' is the ] of ''P'', ''PQ'' is the polar of ''R'', and ''PR'' is the polar of ''Q'' with respect to <math>\omega</math>.<~~ref></~~ref>Heuristic ID Team (2021), ''HEURISTIC: For Mathematical Olympiad Approach 2nd Edition'', p. 99. (in Indonesian)</blockquote>		<blockquote>'''Brokard's theorem'''. The points ''A'', ''B'', ''C'', and ''D'' lie in this order on a circle <math>\omega</math> with center ''O'. Lines ''AC'' and ''BD'' intersect at ''P'', ''AB'' and ''DC'' intersect at ''Q'', and ''AD'' and ''BC'' intersect at ''R''. Then ''O'' is the orthocenter of <math>\triangle PQR</math>. Furthermore, ''QR'' is the ] of ''P'', ''PQ'' is the polar of ''R'', and ''PR'' is the polar of ''Q'' with respect to <math>\omega</math>.<ref>Heuristic ID Team (2021), '''', p. 99. (in Indonesian)</ref></blockquote>

	== See also ==		== See also ==
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	== References ==		== References ==
	{{Reflist}}		{{Reflist}}
			== External link ==
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Latest revision as of 20:37, 7 January 2025

Theorem about orthocenter and polars in circle geometry

Brokard's theorem is a theorem in projective geometry. It is commonly used in Olympiad mathematics.

Statement

Brokard's theorem. The points A, B, C, and D lie in this order on a circle $\omega$ with center O'. Lines AC and BD intersect at P, AB and DC intersect at Q, and AD and BC intersect at R. Then O is the orthocenter of $\triangle PQR$ . Furthermore, QR is the polar of P, PQ is the polar of R, and PR is the polar of Q with respect to $\omega$ .

References

Coxeter, H. S. M. (1987). Projective Geometry (2nd ed.). Springer-Verlag. ISBN 0-387-96532-7.
Heuristic ID Team (2021), HEURISTIC: For Mathematical Olympiad Approach 2nd Edition, p. 99. (in Indonesian)

External link

A proof without words of Brokard's theorem

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Latest revision as of 20:37, 7 January 2025

Statement

See also

References

External link