Hippopede: Difference between revisions

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A hippopede (meaning "horse fetter" in ancient Greek) is plane curve obeying the equation in polar coordinates

r=1-a\sin ^{2}\theta

or in Cartesian coordinates

\left(x^{2}+y^{2}\right)^{2}=y^{2}+(1-a)x^{2}

The hippopede is a spiric section in which the intersecting plane is tangent to the interior of the torus. It was investigated by Proclus, Eudoxus and, more recently, J. Booth (1810-1878). For $a=2$ , the hippopede corresponds to the lemniscate of Bernoulli.

References

Lawrence JD. (1972) Catalog of Special Plane Curves, Dover.

Booth J. A Treatise on Some New Geometrical Methods, Longmans, Green, Reader, and Dyer, London, Vol. I (1873) and Vol. II (1877).

External links

This geometry-related article is a stub. You can help Wikipedia by expanding it.

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 The hippopede is a [[spiric section]] in which the intersecting [[plane]] is
 tangent to the interior of the [[torus]].  It was investigated by [[Proclus]], [[Eudoxus]] and, more recently, '''J. Booth''' (1810-1878).  For <math>a=2</math>, the hippopede corresponds to the [[lemniscate of Bernoulli]].
 ==References==
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 * Booth J. ''A Treatise on Some New Geometrical Methods'', Longmans, Green, Reader, and Dyer, London, Vol. I (1873) and Vol. II (1877).
+==External links==
-==External link==
 * [http://mathworld.wolfram.com/Hippopede.html MathWorld description]
 * [http://www.2dcurves.com/quartic/quartich.html 2Dcurves.com description]
-{{geometry-stub}}
 [[Category:Curves]]
 [[Category:Algebraic curves]]
 [[Category:Spiric sections]]
+{{geometry-stub}}