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Difference between revisions of "Bisectrix"

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''of an angle''
 
  
The half-line (ray) issuing from the apex of the angle and bisecting it. In other words, the bisectrix of an angle is the set of points located inside the angle and equally distant from both of its sides. A bisectrix of a triangle is the segment (and also its length) of the bisectrix of an internal angle of the triangle from the apex to the point of intersection with the opposite side. A bisectrix of a triangle divides a side of the triangle into segments that are proportional to the adjacent sides. The bisectrices of a triangle intersect at one point, which is the centre of the inscribed circle in the triangle. The quadruple of points $A,B,K,L$, consisting of two apices $A,B$ of the triangle $ABC$, the point $K$ of intersection of the bisectrix of the angle $C$ with $AB$, and the point $L$ of intersection of the bisectrix of the external angle $C$ with $AB$ forms a [[Harmonic quadruple|harmonic quadruple]] of points.
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''of an angle; angle bisector''
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The half-line (ray) issuing from the apex of the angle and bisecting it. In other words, the bisectrix of an angle is the set of points located inside the angle and equally distant from both of its sides. A bisectrix of a triangle is the segment (and also its length) of the bisectrix of an internal angle of the triangle from the apex to the point of intersection with the opposite side. A bisectrix of a triangle divides a side of the triangle into segments that are proportional to the adjacent sides. The bisectrices of a triangle intersect at one point, which is the ''[[incentre]]'': the centre of the inscribed circle in the triangle. The quadruple of points $A,B,K,L$, consisting of two apices $A,B$ of the triangle $ABC$, the point $K$ of intersection of the bisectrix of the angle $C$ with $AB$, and the point $L$ of intersection of the bisectrix of the external angle $C$ with $AB$ forms a [[harmonic quadruple]] of points.
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====Comment====
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This line is also known as the ''(angle) bisector''.  The bisector of the external of supplementary angle is the ''external bisector'': it lies at a right angle to the internal bisector.
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====References====
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* Robert Bix, "Topics in Geometry" Elsevier (2016) ISBN 1483296466
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* H. S. M. Coxeter, Samuel L. Greitzer, "Geometry Revisited" New Mathematical Library '''19''' Mathematical Association of America (1967) ISBN 0883856190 {{ZBL|0166.16402}}

Revision as of 17:57, 6 November 2016

2020 Mathematics Subject Classification: Primary: 51M15 [MSN][ZBL]

of an angle; angle bisector

The half-line (ray) issuing from the apex of the angle and bisecting it. In other words, the bisectrix of an angle is the set of points located inside the angle and equally distant from both of its sides. A bisectrix of a triangle is the segment (and also its length) of the bisectrix of an internal angle of the triangle from the apex to the point of intersection with the opposite side. A bisectrix of a triangle divides a side of the triangle into segments that are proportional to the adjacent sides. The bisectrices of a triangle intersect at one point, which is the incentre: the centre of the inscribed circle in the triangle. The quadruple of points $A,B,K,L$, consisting of two apices $A,B$ of the triangle $ABC$, the point $K$ of intersection of the bisectrix of the angle $C$ with $AB$, and the point $L$ of intersection of the bisectrix of the external angle $C$ with $AB$ forms a harmonic quadruple of points.

Comment

This line is also known as the (angle) bisector. The bisector of the external of supplementary angle is the external bisector: it lies at a right angle to the internal bisector.

References

  • Robert Bix, "Topics in Geometry" Elsevier (2016) ISBN 1483296466
  • H. S. M. Coxeter, Samuel L. Greitzer, "Geometry Revisited" New Mathematical Library 19 Mathematical Association of America (1967) ISBN 0883856190 Zbl 0166.16402
How to Cite This Entry:
Bisectrix. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bisectrix&oldid=31467
This article was adapted from an original article by A.B. Ivanov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article