Tangential triangle

Summary

In geometry, the tangential triangle of a reference triangle (other than a right triangle) is the triangle whose sides are on the tangent lines to the reference triangle's circumcircle at the reference triangle's vertices. Thus the incircle of the tangential triangle coincides with the circumcircle of the reference triangle.

  Reference triangle ABC
  Circumcircle of ABC
  Orthic triangle GHI of ABC
  Tangential triangle DEF of ABC
  Axes of the homothetic transformation between GHI and DEF, centered at K

The circumcenter of the tangential triangle is on the reference triangle's Euler line,[1]: p. 104, p. 242  as is the center of similitude of the tangential triangle and the orthic triangle (whose vertices are at the feet of the altitudes of the reference triangle).[2]: p. 447 [1]: p. 102 

The tangential triangle is homothetic to the orthic triangle.[1]: p. 98 

A reference triangle and its tangential triangle are in perspective, and the axis of perspectivity is the Lemoine axis of the reference triangle. That is, the lines connecting the vertices of the tangential triangle and the corresponding vertices of the reference triangle are concurrent.[1]: p. 165  The center of perspectivity, where these three lines meet, is the symmedian point of the triangle.

The tangent lines containing the sides of the tangential triangle are called the exsymmedians of the reference triangle. Any two of these are concurrent with the third symmedian of the reference triangle.[3]: p. 214 

The reference triangle's circumcircle, its nine-point circle, its polar circle, and the circumcircle of the tangential triangle are coaxal.[1]: p. 241 

A right triangle has no tangential triangle, because the tangent lines to its circumcircle at its acute vertices are parallel and thus cannot form the sides of a triangle.

The reference triangle is the Gergonne triangle of the tangential triangle.

See also

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References

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  1. ^ a b c d e Altshiller-Court, Nathan. College Geometry, Dover Publications, 2007 (orig. 1952).
  2. ^ Smith, Geoff, and Leversha, Gerry, "Euler and triangle geometry", Mathematical Gazette 91, November 2007, 436–452.
  3. ^ Johnson, Roger A., Advanced Euclidean Geometry, Dover Publications, 2007 (orig. 1929).