QG-P6

QG-P6: 1st QG-Quasi Orthocenter

The 1st QG-Quasi Circumcenter is the Diagonal Crosspoint of the X4-Quadrigon.

The X4-Quadrigon is defined by its vertices being the Triangle Orthocenters of the component triangles of the Reference Quadrigon.

This point and other 1st QG-Quasi points are described in Ref-5.

Coordinates:

CT-Coordinates QG-P6 in 3 QA-Quadrigons: (only coordinates of 1^st Quadrigon point are given)

(S_B S_C (p² + r²) + (a² - c²) S_B p q + (a² + S_B) S_C q r + S_C (a² + c²) p r :

S_A S_C (p² + r²) + (a² - c²) S_A p q - (a² - c²) S_C q r - (a⁴ + b⁴ - 2 a² c² + c⁴) p r/2 :

S_A S_B (p² + r²) - (a² - c²) S_B q r + (c² + S_B) S_A p q + S_A (a² + c²) p r)

CT-Coordinates QG-P6 in 3 QL-Quadrigons: (only coordinates of 1^st Quadrigon point are given)

(c⁴ (m - n) (l² m - l² n - m² n) - 2 b² c² (m - n) (l² m - l m² - l² n + l m n - m² n) + b⁴ (m - n) (l² m - 2 l m² - l² n + 2 l m n - m² n) + a⁴ (-l² m² - 2 l² m n + 4 l m² n - m³ n - l² n² + 2 l m n² - m² n²) + a² (2 b² m³ (l - n) - 2 c² m n (2 l m - m² - l n)) :

2 b² c² m (l m² - l m n - m² n + l n²) + b⁴ (-l² m² + 2 l m³ + 2 l² m n - 5 l m² n + 2 m³ n - l² n² + 2 l m n² - m² n²) + c⁴ (l² m² - 2 l² m n - l m² n + l² n² + m² n²) + a⁴ (l² m² - l m² n + l² n² - 2 l m n² + m² n²) + a² (2 b² m (-l m² + l² n - l m n + m² n) - 2 c² (l² m² - l² m n - l m² n + l² n² - l m n² + m² n²)) :

-2 b² c² m³ (l - n) + a⁴ (l - m) (l m² + l n² - m n²) + b⁴ (l - m) (l m² - 2 l m n + 2 m² n + l n² - m n²) + c⁴ (-l² m² - l m³ + 2 l² m n + 4 l m² n - l² n² - 2 l m n² - m² n²) + a² (2 c² l m (m² + l n - 2 m n) - 2 b² (l - m) (l m² - l m n + m² n + l n² - m n²)))

CT-Area of QG-P6-Triangle in the QA-environment:

2 p q r Δ / ((p + q) (p + r) (q + r)) (equals area QA-Diagonal Triangle)

CT-Area of QG-P6-Triangle in the QL-environment:

4 l² m² n² Δ / (( l m - l n - m n) (l m + l n - m n) (l m - l n + m n)) (equals area QL-Diagonal Triangle)

DT-Coordinates QG-P6 in 3 QA-Quadrigons: (only coordinates of 1^st Quadrigon point are given)

(-2 (c² p²-a² r²) (Sc (-p²+q²+r²)+2 Sb q²) :

-S² (p²-q²-r²) (p²+q²-r²)-2 Sa² p² (p²+q²-r²)+2 Sc² r² (p²-q²-r²)-4 Sb q² (Sa p²+Sc r²) :

2 (Sa (p²+q²-r²)+2 Sb q²) (c² p²-a² r²))

DT-Coordinates QG-P6 in 3 QL-Quadrigons: (only coordinates of 1^st Quadrigon point are given)

(-2 Sb m² (Sb (l²-n²)+Sc (l²-m²)) :

-S² (m² (l²+m²+n²)-l² n²)+2 m² (Sb Sc l²+Sa Sc m²+Sa Sb n²) :

2 Sb m² (Sb (l²-n²)+Sa (m²-n²)))

DT-Area of QG-P6-Triangle in the QA-environment:

S/2 (equals area QA-Diagonal Triangle)

DT-Area of QG-P6-Triangle in the QL-environment:

S/2 (equals area QL-Diagonal Triangle)

Properties:

QG-P4, QG-P5, QG-P6, QG-P7 are collinear on QG-L4, the 1st QG-Quasi Euler Line.
QG-P6 is the Orthocenter of the 1^st QG-Quasi Diagonal Triangle: QG-Tr1.
QA-P2 (Euler-Poncelet Point) lies on the circumcircle of the triangle formed by the 3 QA-versions of QG-P6.
The area of the triangle formed by the 1st QG-Quasi Orthocenters of the 3 QA-Quadrigons equals the area of the QA-Diagonal Triangle.
The area of the triangle formed by the 1st QG-Quasi Orthocenters of the 3 QL-Quadrigons equals the area of the QL-Diagonal Triangle.
The triangle formed by the 1st QG-Quasi Orthocenters of the 3 QL-Quadrigons is perspective with the QL-Diagonal Triangle. The Perspector is the infinity point of QL-L2 (Steiner Line).
QG-P6 is the Reflection of QG-P1 in QG-P10.
The line through the 1^st and 2^nd QG-Quasi Orthocenters (QG-P6 and QG-P10) is perpendicular to the Newton Line (QL-L1).

MATHEMATICS

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