Conchoid (mathematics)

In geometry, a conchoid is a curve derived from a fixed point O, another curve, and a length d. It was invented by the ancient Greek mathematician Nicomedes.^[1]

Description[edit]

For every line through O that intersects the given curve at A the two points on the line which are d from A are on the conchoid. The conchoid is, therefore, the cissoid of the given curve and a circle of radius d and center O. They are called conchoids because the shape of their outer branches resembles conch shells.

The simplest expression uses polar coordinates with O at the origin. If

${\displaystyle r=\alpha (\theta )}$

expresses the given curve, then

${\displaystyle r=\alpha (\theta )\pm d}$

expresses the conchoid.

If the curve is a line, then the conchoid is the conchoid of Nicomedes.

For instance, if the curve is the line x = a, then the line's polar form is r = a sec θ and therefore the conchoid can be expressed parametrically as

${\displaystyle x=a\pm d\cos \theta ,\,y=a\tan \theta \pm d\sin \theta .}$

A limaçon is a conchoid with a circle as the given curve.

The so-called conchoid of de Sluze and conchoid of Dürer are not actually conchoids. The former is a strict cissoid and the latter a construction more general yet.

See also[edit]

• Cissoid
• Strophoid

References[edit]

• J. Dennis Lawrence (1972). A catalog of special plane curves. Dover Publications. pp. 36, 49–51, 113, 137. ISBN 0-486-60288-5.

External links[edit]

Media related to Conchoid at Wikimedia Commons

• conchoid with conic sections - interactive illustration
• Weisstein, Eric W. "Conchoid of Nicomedes". MathWorld.
• conchoid at mathcurves.com

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