Orthotransversal
In Euclidean geometry, the orthotransversal of a point is the line defined as follows.
For a triangle and a point, three orthotraces, intersections of lines and perpendiculars of through respectively are collinear. The line which includes these three points is called the orthotransversal of. In 1933, Indian mathematician K. Satyanarayana called this line an "ortho-line".
Existence of it can proved by various methods such as a pole and polar, the dual of , and the Newton line theorem.
The tripole of the orthotransversal is called the orthocorrespondent of, And the transformation → , the orthocorrespondent of is called the orthocorrespondence.
Example
- The orthotransversal of the Feuerbach point is the OI line.
- The orthotransversal of the Jerabek center is the Euler line.
- Orthocorrespondents of Fermat points are themselves.
- The orthocorrespondent of the Kiepert center X is the focus of the Kiepert parabola X.
Properties
- There are exactly two points which share the orthoccorespondent. This pair is called the antiorthocorrespondents.
- The orthotransversal of a point on the circumcircle of the reference triangle passes through the circumcenter of. Furthermore, the Steiner line, the orthotransversal, and the trilinear polar are concurrent.
- The orthotransversals of a point P on the Euler line is perpendicular to the line through the isogonal conjugate and the anticomplement of P.
- The orthotransversal of the nine-point center is perpendicular to the Euler line of the tangential triangle.
- For the quadrangle, 4 orthotransversals for each component triangles and each remaining vertexes are concurrent.
- Barycentric coordinates of the orthocorrespondent of are
Orthopivotal cubic
The Locus of points that, and are collinear is a cubic curve. This is called the orthopivotal cubic of,. Every orthopivotal cubic passes through two Fermat points.Example
- is the line at infinity and the Kiepert hyperbola.
- is the Neuberg cubic.
- The orthopivotal cubic of the vertex is the isogonal image of the Apollonius circle.