Construction of the Spieker center via cleavers.
  Triangle ABC
  Angle bisectors of ABC (concurrent at the incenter I)
  Cleavers of ABC (concurrent at the Spieker center S)
  Medial triangle DEF of ABC
  Inscribed circle of DEF (the Spieker circle; centered at S)

In geometry, a cleaver of a triangle is a line segment that bisects the perimeter of the triangle and has one endpoint at the midpoint of one of the three sides. They are not to be confused with splitters, which also bisect the perimeter, but with an endpoint on one of the triangle's vertices instead of its sides.

Construction

Each cleaver through the midpoint of one of the sides of a triangle is parallel to the angle bisectors at the opposite vertex of the triangle.[1][2]

The broken chord theorem of Archimedes provides another construction of the cleaver. Suppose the triangle to be bisected is ABC, and that one endpoint of the cleaver is the midpoint of side AB. Form the circumcircle of ABC and let M be the midpoint of the arc of the circumcircle from A through C to B. Then the other endpoint of the cleaver is the closest point of the triangle to M, and can be found by dropping a perpendicular from M to the longer of the two sides AC and BC.[1][2]

The three cleavers concur at a point, the center of the Spieker circle.[1][2]

See also

References

  1. 1 2 3 Honsberger, Ross (1995), "Chapter 1: Cleavers and Splitters", Episodes in Nineteenth and Twentieth Century Euclidean Geometry, New Mathematical Library, vol. 37, Washington, DC: Mathematical Association of America, pp. 1–14, ISBN 0-88385-639-5, MR 1316889
  2. 1 2 3 Avishalom, Dov (1963), "The perimetric bisection of triangles", Mathematics Magazine, 36 (1): 60–62, JSTOR 2688140, MR 1571272
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