Antiparallel lines

In geometry, two lines $l_{1}$ and $l_{2}$ are antiparallel with respect to a given line $m$ if they each make congruent angles with $m$ in opposite senses. More generally, lines $l_{1}$ and $l_{2}$ are antiparallel with respect to another pair of lines $m_{1}$ and $m_{2}$ if they are antiparallel with respect to the angle bisector of $m_{1}$ and $m_{2}.$

In any cyclic quadrilateral, any two opposite sides are antiparallel with respect to the other two sides.

Lines $l_{1}$ and $l_{2}$ are antiparallel with respect to the line $m$ if they make the same angle with $m$ in the opposite senses.	Two lines $l_{1}$ and $l_{2}$ are antiparallel with respect to the sides of an angle if they make the same angle $\angle APC$ in the opposite senses with the bisector of that angle.
Given two lines $m_{1}$ and $m_{2}$ , lines $l_{1}$ and $l_{2}$ are antiparallel with respect to $m_{1}$ and $m_{2}$ if $\angle 1=\angle 2$ .	In any quadrilateral inscribed in a circle, any two opposite sides are antiparallel with respect to the other two sides.

Relations

The line joining the feet to two altitudes of a triangle is antiparallel to the third side. (any cevians which 'see' the third side with the same angle create antiparallel lines)
The tangent to a triangle's circumcircle at a vertex is antiparallel to the opposite side.
The radius of the circumcircle at a vertex is perpendicular to all lines antiparallel to the opposite sides.

Conic sections

In an oblique cone, there are exactly two families of parallel planes whose sections with the cone are circles. One of these families is parallel to the fixed generating circle and the other is called by Apollonius the subcontrary sections.^[1]

If one looks at the triangles formed by the diameters of the circular sections (both families) and the vertex of the cone (triangles $ABC$ and $ADB$ ), they are all similar. That is, if $CB$ and $BD$ are antiparallel with respect to lines $AB$ and $AC$ , then all sections of the cone parallel to either one of these circles will be circles. This is Book 1, Proposition 5 in Apollonius.

References

^ Heath, Thomas Little (1896). Treatise on conic sections. p. 2.

Blaga, Cristina; Blaga, Paul A. (2018). "Directed Angles" (PDF). Didactica Mathematica. 36: 25–40.
A.B. Ivanov: Anti-parallel straight lines. In: Encyclopaedia of Mathematics - ISBN 1-4020-0609-8
Weisstein, Eric W. "Antiparallel". MathWorld.

External links

Media related to Antiparallel lines at Wikimedia Commons

This page was last edited on 6 June 2024, at 03:57

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Relations

Conic sections

References

External links