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X(1), X(2), X(3), X(165), X(5373), X(6194) excenters infinite points of the McCay cubic K003 three contacts of the Steiner deltoid of IaIbIc with the circumcircle (vertices of the circumtangential triangle, points on Kjp) Q1, Q2, Q3 vertices of the Thomson triangle, on the circumcircle and on the Thomson cubic other points and details below 

Kp60 = Kp(X6) = K077 is the locus of pivots of isogonal pK+. The locus of the common point of the three asymptotes is Kc60 = Kc(X6) = K078. This cubic is cited in several articles by R. Deaux, Mathesis 1959. See also the related cubic K609. K078 is a member of the class CL015 of cubics. K078 is a K60+ (a stelloid) with three real asymptotes parallel to the sidelines of the Morley triangle and concurring at X(3524), the homothetic of G under h(O,1/3). X(3524) is the centroid of the Thomson triangle. K078 is the McCay cubic of triangle Q1Q2Q3. The tangents at these points and at O concur at G, the orthocenter of Q1Q2Q3. K078 is therefore invariant under isogonal conjugation with respect to the Thomson triangle. See the related K764, K765, K834 and also K1063, K1064. K077, K078, K100, K258 are members of a same pencil of cubics generated by the McCay cubic K003 and the decomposed cubic which is the union of the Stammler hyperbola and the line at infinity. See Table 63. The homothety h(O,1/3) transforms K078 into K077. The CTisogonal transform of K078 is the central cubic K735. 



Points on K078 K078 contains : • the vertices T1T2T3 of the circumtangential triangle, these points lying on K024. • the pedals G1, G2, G3 of G in the circumtangential triangle T1T2T3. The lines GG1, GG2, GG3 are actually the asymptotes of the McCay cubic. • the cevians O1, O2, O3 of O in the triangle Q1Q2Q3. These points lie on the reflections about X(3524) of the asymptotes of the McCay cubic. Note that the six points G1, G2, G3, O1, O2, O3 lie on a same conic which is the bicevian conic of X3 and X3524 in Q1Q2Q3. • 6 points on the bisectors, homothetic of the intersections of the circumcircle with those bisectors in the homotheties with centre the corresponding vertex of ABC and ratio 2/3. These points are two by two collinear with G. • the third point on X(1)X(2) is a (a^2 b+a b^2+a^2 c3 a b cb^2 c+a c^2b c^2) : : , SEARCH = 84.0928483454874 • the four foci of the conic with center X(3) inscribed in the Thomson triangle, see below. 



Consider two conics C(P) and T(P) with same center P inscribed in the reference triangle ABC and in the Thomson triangle (T) respectively. These conics have the same axes if and only if P lies on K078. When P = X2, C(P) and T(P) are both the Steiner inellipse since it is inscribed in both triangles. The figure is obtained when P = X(6194). *** When P = X(3), these axes are parallel to the asymptotes of the Jerabek hyperbola (which is true for any point on the Stammler hyperbola) hence they are the lines through X(3) and X(2574), X(2575). Since K078 is the McCay cubic of (T), the foci of T(X3) must lie on K078. 
