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X(4), X(20), X(279), X(280), X(9292) vertices of cevian triangle of X(69) projections of X(20) on the altitudes infinite points of pK(X6, X3146) points of pK(X6, X12279) on (O) |
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Any line through X(20) (de Longchamps point) meets the Darboux cubic at two isogonal conjugate points M, N and the Lucas cubic at two cyclocevian conjugate points P, Q. The barycentric product R of P and Q also lies on the same line and the locus of R is the de Longchamps cubic. (see Hyacinthos #6622-23) This cubic is not a pivotal isocubic (although it intersects the sidelines of ABC at the vertices of a cevian triangle) nor a strophoid (although it has a node with two perpendicular tangents parallel to the asymptotes of the rectangular circum-hyperbola through X(6) = K). K041 has three (not all real) asymptotes concurring at X(376). An easy construction is the following : the trilinear polar of any point S on the line GK envelopes the Kiepert hyperbola and meets the lines joining X(20) to the vertices of cevian triangle of X(69) at Qa, Qb, Qc forming a triangle in perspective with ABC. The perspector is a point on the de Longchamps cubic. K041 is also : • the Lemoine generalized cubic K(X20), see also Table 64. It is an example of such cubic with three (not always real) concurring asymptotes at X(376), the reflection of G in O. • psK+(X20, X69, X4) in Pseudo-Pivotal Cubics and Poristic Triangles. See also CL067. |
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