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Cyclic quadrilateral: Difference between revisions

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'''Cyclic Quadrilaterals''' are quadrilaterals that can be inscribed in circles. They occur frequently on math contests and olympiads due to their interesting properties.
A '''cyclic quadrilateral''' is a [[quadrilateral]] that can be inscribed in a [[circle]]. While all [[triangles]] are cyclic, the same is not true of quadrilaterals. They have a number of interesting properties.


=== Properties ===
<center>[[image:Cyclicquad2.png]]</center>


In cyclic quadrilateral <math>ABCD</math>:
== Properties ==


* <math>\angle A + \angle C = \angle B + \angle D = {180}^{o}</math>
In a quadrilateral <math>ABCD</math>:
 
* <math>\angle A + \angle C = \angle B + \angle D = {180}^{o} </math> This property is both sufficient and necessary (Sufficient & necessary = if and only if), and is often used to show that a quadrilateral is cyclic.
* <math>\angle ABD = \angle ACD</math>
* <math>\angle ABD = \angle ACD</math>
* <math>\angle BCA = \angle BDA</math>
* <math>\angle BCA = \angle BDA</math>
* <math>\angle BAC = \angle BDA</math>
* <math>\angle BAC = \angle BDC</math>
* <math>\angle CAD = \angle CBD</math>
* <math>\angle CAD = \angle CBD</math>
* All four [[perpendicular bisector|perpendicular bisectors]] are [[concurrent]]. The converse is also true. This intersection is the [[circumcenter]] of the quadrilateral.
* Any two opposite sites of the quadrilateral are antiparallel with respect to the other two opposite sites.


=== Applicable Theorems/Formulae ===
== Applicable Theorems/Formulae ==


The following theorems and formulae apply to cyclic quadrilaterals:
The following theorems and formulae apply to cyclic quadrilaterals:


* [[Ptolemy's theorem]]
* [[Ptolemy's Theorem]]
* [[Brahmagupta's formula]]
* [[Brahmagupta's formula]]
== Problems ==
=== Intermediate/Advanced ===
* [[1991 AIME Problems/Problem 12]]
* [[2001 AIME I Problems/Problem 13]]
* [[2000 AIME I Problems/Problem 14]]
* [[1997 AIME Problems/Problem 15]]
[[Category:Definition]]
[[Category:Geometry]]
{{stub}}

Latest revision as of 18:41, 3 January 2025

A cyclic quadrilateral is a quadrilateral that can be inscribed in a circle. While all triangles are cyclic, the same is not true of quadrilaterals. They have a number of interesting properties.

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Properties

In a quadrilateral $ABCD$:

  • $\angle A + \angle C = \angle B + \angle D = {180}^{o}$ This property is both sufficient and necessary (Sufficient & necessary = if and only if), and is often used to show that a quadrilateral is cyclic.
  • $\angle ABD = \angle ACD$
  • $\angle BCA = \angle BDA$
  • $\angle BAC = \angle BDC$
  • $\angle CAD = \angle CBD$
  • All four perpendicular bisectors are concurrent. The converse is also true. This intersection is the circumcenter of the quadrilateral.
  • Any two opposite sites of the quadrilateral are antiparallel with respect to the other two opposite sites.

Applicable Theorems/Formulae

The following theorems and formulae apply to cyclic quadrilaterals:

Problems

Intermediate/Advanced

This article is a stub. Help us out by expanding it.

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