Complete Quadrilateral
Complete quadrilateral
Let four lines made four triangles of a complete quadrilateral. In the diagram these are One can see some of the properties of this configuration and their proof using the following links.
Radical axis
Let four lines made four triangles of a complete quadrilateral. In the diagram these are
Let points and be the orthocenters of and respectively.
Let circles and be the circles with diameters and respectively. Prove that Steiner line is the radical axis of and
Proof
Let points and be the foots of perpendiculars and respectively.
Denote power of point with respect the circle
Therefore power of point with respect these three circles is the same. These points lies on the common radical axis of and Steiner line is the radical axis as desired.
vladimir.shelomovskii@gmail.com, vvsss
Newton–Gauss line
Let four lines made four triangles of a complete quadrilateral.
In the diagram these are
Let points and be the midpoints of and respectively.
Let points and be the orthocenters of and respectively.
Prove that Steiner line is perpendicular to Gauss line
Proof
Points and are the centers of circles with diameters and respectively.
Steiner line is the radical axis of these circles.
Therefore as desired.
vladimir.shelomovskii@gmail.com, vvsss
Shatunov line
Let the complete quadrilateral ABCDEF be labeled as in the diagram.
Let points be the orthocenters and points be the circumcenters of and respectively.
Let bisector cross bisector at point Let bisector cross bisector at point
Prove that
a) points and lie on circumcircle of
b) line is symmetric to Steiner line with respect centroid of
I suppose that this line was found by a young mathematician Leonid Shatunov in November 2020. I would be grateful for information on whether this line was previously known.