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Orthocenter

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Orthocenter

The intersection H of the three altitudes AH_A, BH_B, and CH_C of a triangle is called the orthocenter. The name was invented by Besant and Ferrers in 1865 while walking on a road leading out of Cambridge, England in the direction of London (Satterly 1962). The trilinear coordinates of the orthocenter are

cosBcosC:cosCcosA:cosAcosB.
(1)

If the triangle is not a right triangle, then (1) can be divided through by cosAcosBcosC to give

secA:secB:secC.
(2)

The orthocenter is Kimberling center X_4.

The following table summarizes the orthocenters for named triangles that are Kimberling centers.

triangleKimberlingorthocenter
anticomplementary triangleX_(20)de Longchamps point
circumcircle mid-arc triangleX_1incenter
circumnormal triangleX_3circumcenter
circumtangential triangleX_3circumcenter
contact triangleX_(65)orthocenter of the contact triangle
Euler-Gergonne-Soddy triangleX_(1323)Fletcher point
Euler triangleX_4orthocenter
excentral triangleX_1incenter
first Brocard triangleX_(1352)reflection of X_6 in X_5
first Morley triangleX_(356)first Morley center
first Yff circles triangleX_(1478)center of the first Johnson-Yff circle
Fuhrmann triangleX_1incenter
hexyl triangleX_(40)Bevan point
incentral triangleX_(500)orthocenter of the incentral triangle
inner Napoleon triangleX_2triangle centroid
inner Vecten triangleX_(486)inner Vecten point
medial triangleX_3circumcenter
mid-arc triangleX_(177)first mid-arc point
orthic triangleX_(52)orthocenter of orthic triangle
outer Napoleon triangleX_2triangle centroid
outer Vecten triangleX_(485)outer Vecten point
reference triangleX_4orthocenter
second Yff circles triangleX_(1479)(X_1,X_4)-harmonic conjugate of X_(1478)
Stammler triangleX_3circumcenter
Steiner triangleX_3circumcenter
tangential triangleX_(155)eigencenter of orthic triangle
Yff contact triangleX_8Nagel point

If the triangle is acute, the orthocenter is in the interior of the triangle. In a right triangle, the orthocenter is the polygon vertex of the right angle.

When the vertices of a triangle are combined with its orthocenter, any one of the points is the orthocenter of the other three, as first noted by Carnot (Wells 1991). These four points therefore form an orthocentric system.

CircumcenterOrthocenter

The circumcenter O and orthocenter H are isogonal conjugates.

The orthocenter lies on the Euler line. It lies on the Fuhrmann circle and orthocentroidal circle, and the orthocenter and Nagel point form a diameter of the Fuhrmann circle. It is the center of the polar circle and first Droz-Farny circle. It also lies on the Feuerbach hyperbola, Jerabek hyperbola, and Kiepert hyperbola, as well as the Darboux cubic, M'Cay cubic, Neuberg cubic, orthocubic, and Thomson cubic.

Distances to some named centers include

HCl=(8a^2b^2c^2|cosA||cosB||cosC|)/((a+b+c)(a^5-ba^4-ca^4+2bc^2a^2+2b^2ca^2-b^4a-c^4a+2b^2c^2a+b^5+c^5-bc^4-b^4c))
(3)
HG=2/3OH
(4)
HGe=(sqrt(a^(10)-b^2a^8-c^2a^8+b^2c^2a^6-b^8a^2-c^8a^2+b^2c^6a^2+b^6c^2a^2+b^(10)+c^(10)-b^2c^8-b^8c^2))/(4Delta^2(a^2+b^2+c^2))
(5)
HI=sqrt(2r^2+4R^2-S_omega)
(6)
HK=1/(4Delta(a^2+b^2+c^2))(sqrt(a^(10)-b^2a^8-c^2a^8+b^2c^2a^6-b^8a^2-c^8a^2+b^2c^6a^2+b^6c^2a^2+b^(10)+c^(10)-b^2c^8-b^8c^2))
(7)
HL=2OH
(8)
HM=((a^3-ba^2-ca^2-b^2a-c^2a-2bca+b^3+c^3-bc^2-b^2c)IL)/((a+b+c)(a^2-2ba-2ca+b^2+c^2-2bc))
(9)
HN=1/2OH
(10)
HNa=2OI
(11)
HO=(sqrt(a^6-b^2a^4-c^2a^4-b^4a^2-c^4a^2+3b^2c^2a^2+b^6+c^6-b^2c^4-b^4c^2))/(4Delta)
(12)
=sqrt(9R^2-(a^2+b^2+c^2))
(13)
=sqrt(9R^2-2S_omega)
(14)
HSp=1/2IL,
(15)

where Cl is the Clawson point, G is the triangle centroid, Ge is the Gergonne point, I in is incenter, K is the symmedian point, L is the de Longchamps point, M is the mittenpunkt, N is the nine-point center, Na is the Nagel point, O is the circumcenter, Sp is the Spieker center, Delta is the triangle area, R is the circumradius, and S_omega is Conway triangle notation.

Relationships involving the orthocenter include the following:

a^2+b^2+c^2+AH^2+BH^2+CH^2=(3a^2b^2c^2)/(4Delta^2)
(16)