Altitude (geometry): Difference between revisions

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imported>Richard Pinch
(References: Coxeter+Greitzer)
imported>Howard C. Berkowitz
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In [[triangle geometry]], an '''altitude''' is a line from a vertex perpendicular to the opposite side.  It is an example of a [[Cevian line]].  The three altitudes are concurrent, meeting in the '''orthocentre'''.  The feet of the three altitudes form the '''orthic triangle''' (which is thus a [[pedal triangle]]), and lie on the [[nine-point circle]].  The area of the triangle is equal to half the product of an altitude and the side it meets.
In [[triangle geometry]], an '''altitude''' is a line from a vertex perpendicular to the opposite side.  It is an example of a [[Cevian line]].  The three altitudes are concurrent, meeting in the '''orthocentre'''.  The feet of the three altitudes form the '''orthic triangle''' (which is thus a [[pedal triangle]]), and lie on the [[nine-point circle]].  The area of the triangle is equal to half the product of an altitude and the side it meets.


==References==
==References==
* {{cite book | author=H.S.M. Coxeter | coauthors=S.L. Greitzer | title=Geometry revisited | series=New Mathematical Library | volume=19 | publisher=[[MAA]] | year=1967 | isbn=0-88385-619-0 }}
* {{cite book | author=H.S.M. Coxeter | coauthors=S.L. Greitzer | title=Geometry revisited | series=New Mathematical Library | volume=19 | publisher=[[MAA]] | year=1967 | isbn=0-88385-619-0 }}

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In triangle geometry, an altitude is a line from a vertex perpendicular to the opposite side. It is an example of a Cevian line. The three altitudes are concurrent, meeting in the orthocentre. The feet of the three altitudes form the orthic triangle (which is thus a pedal triangle), and lie on the nine-point circle. The area of the triangle is equal to half the product of an altitude and the side it meets.

References