Yff center of congruence

In geometry, the Yff center of congruence is a special point associated with a triangle. This special point is a triangle center and Peter Yff initiated the study of this triangle center in 1987.^[1]

Isoscelizer

An isoscelizer of an angle $A$ in a triangle $△ ABC$ is a line through points $P 1, Q 1$ , where $P 1$ lies on $AB$ and $Q 1$ on $AC$ , such that the triangle $△ AP 1 Q 1$ is an isosceles triangle. An isoscelizer of angle $A$ is a line perpendicular to the bisector of angle $A$ . Isoscelizers were invented by Peter Yff in 1963.^[2]

Yff central triangle

Let $△ ABC$ be any triangle. Let $P 1 Q 1$ be an isoscelizer of angle $A$ , $P 2 Q 2$ be an isoscelizer of angle $B$ , and $P 3 Q 3$ be an isoscelizer of angle $C$ . Let $△ A'B'C'$ be the triangle formed by the three isoscelizers. The four triangles $△ A'P 2 Q 3, △ Q 1 B'P 3, △ P 1 Q 2 C',$ and $△ A'B'C'$ are always similar.

There is a unique set of three isoscelizers $P 1 Q 1, P 2 Q 2, P 3 Q 3$ such that the four triangles $△ A'P 2 Q 3, △ Q 1 B'P 3, △ P 1 Q 2 C',$ and $△ A'B'C'$ are congruent. In this special case $△ A'B'C'$ formed by the three isoscelizers is called the Yff central triangle of $△ ABC$ .^[3]

The circumcircle of the Yff central triangle is called the Yff central circle of the triangle.

Yff center of congruence

Let $△ ABC$ be any triangle. Let $P 1 Q 1, P 2 Q 2, P 3 Q 3$ be the isoscelizers of the angles $A, B, C$ such that the triangle $△ A'B'C'$ formed by them is the Yff central triangle of $△ ABC$ . The three isoscelizers $P 1 Q 1, P 2 Q 2, P 3 Q 3$ are continuously parallel-shifted such that the three triangles $△ A'P 2 Q 3, △ Q 1 B'P 3, △ P 1 Q 2 C'$ are always congruent to each other until $△ A'B'C'$ formed by the intersections of the isoscelizers reduces to a point. The point to which $△ A'B'C'$ reduces to is called the Yff center of congruence of $△ ABC$ .

Properties

The trilinear coordinates of the Yff center of congruence are^[1] $\sec {\frac {A}{2}}:\sec {\frac {B}{2}}:\sec {\frac {C}{2}}$
Any triangle $△ ABC$ is the triangle formed by the lines which are externally tangent to the three excircles of the Yff central triangle of $△ ABC$ .
Let $I$ be the incenter of $△ ABC$ . Let $D$ be the point on side $BC$ such that $∠ BID = ∠ DIC$ , $E$ a point on side $CA$ such that $∠ CIE = ∠ EIA$ , and $F$ a point on side $AB$ such that $∠ AIF = ∠ FIB$ . Then the lines $AD, BE, CF$ are concurrent at the Yff center of congruence. This fact gives a geometrical construction for locating the Yff center of congruence.^[4]
A computer assisted search of the properties of the Yff central triangle has generated several interesting results relating to properties of the Yff central triangle.^[5]

Generalization

The geometrical construction for locating the Yff center of congruence has an interesting generalization. The generalisation begins with an arbitrary point $P$ in the plane of a triangle $△ ABC$ . Then points $D, E, F$ are taken on the sides $BC, CA, AB$ such that

\angle BPD=\angle DPC,\quad \angle CPE=\angle EPA,\quad \angle APF=\angle FPB.

The generalization asserts that the lines

AD, BE, CF

are concurrent.^[4]

References

^ ^a ^b Kimberling, Clark. "Yff Center of Congruence". Retrieved 30 May 2012.
^ Weisstein, Eric W. "Isoscelizer". MathWorld--A Wolfram Web Resource. Retrieved 30 May 2012.
^ Weisstein, Eric W. "Yff central triangle". MathWorld--A Wolfram Web Resource. Retrieved 30 May 2012.
^ ^a ^b Kimberling, Clark. "X(174) = Yff Center of Congruence". Retrieved 2 June 2012.
^ Dekov, Deko (2007). "Yff Center of Congruence". Journal of Computer-Generated Euclidean Geometry. 37: 1–5. Retrieved 30 May 2012.

[Kimberling-1] Kimberling, Clark. "Yff Center of Congruence". Retrieved 30 May 2012.

[2] Weisstein, Eric W. "Isoscelizer". MathWorld--A Wolfram Web Resource. Retrieved 30 May 2012.

[3] Weisstein, Eric W. "Yff central triangle". MathWorld--A Wolfram Web Resource. Retrieved 30 May 2012.

[ETC-4] Kimberling, Clark. "X(174) = Yff Center of Congruence". Retrieved 2 June 2012.

[5] Dekov, Deko (2007). "Yff Center of Congruence". Journal of Computer-Generated Euclidean Geometry. 37: 1–5. Retrieved 30 May 2012.

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Isoscelizer

Yff central triangle

Yff center of congruence

Properties

Generalization

See also

References