Hippopede: Difference between revisions
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{{short description|1=Plane curves of the form (x² + y²)² = cx² + dy²}} |
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A '''hippopede''' (meaning "horse fetter" in ancient Greek) is [[plane curve]] obeying the equation in [[polar coordinate]]s |
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[[Image:PedalCurve1.gif|500px|right|thumb|Hippopede (red) given as the [[pedal curve]] of an [[ellipse]] (black). The equation of this hippopede is: <math>4x^2 + y^2 = (x^2 + y^2)^2</math>]] |
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In [[geometry]], a '''hippopede''' ({{ety|grc|''ἱπποπέδη'' (hippopédē)|horse [[Legcuffs|fetter]]}}) is a [[plane curve]] determined by an equation of the form |
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:<math> |
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:<math>(x^2+y^2)^2=cx^2+dy^2,</math> |
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r = 1 - a \sin^{2} \theta |
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where it is assumed that {{math|''c'' > 0}} and {{math|''c'' > ''d''}} since the remaining cases either reduce to a single point or can be put into the given form with a rotation. Hippopedes are [[circular algebraic curve|bicircular]], [[Rational number|rational]], [[algebraic curve]]s of [[Degree of a polynomial|degree]] 4 and symmetric with respect to both the {{mvar|x}} and {{mvar|y}} axes. |
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</math> |
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==Special cases== |
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When ''d'' > 0 the curve has an oval form and is often known as an '''oval of Booth''', and when {{nowrap|''d'' < 0}} the curve resembles a sideways figure eight, or [[lemniscate]], and is often known as a '''lemniscate of Booth''', after 19th-century mathematician [[James Booth (mathematician)|James Booth]] who studied them. Hippopedes were also investigated by [[Proclus]] (for whom they are sometimes called '''Hippopedes of Proclus''') and [[Eudoxus of Cnidus|Eudoxus]]. For {{nowrap|1=''d'' = −''c''}}, the hippopede corresponds to the [[lemniscate of Bernoulli]]. |
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{{-}} |
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==Definition as spiric sections== |
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[[Image:Hippopede02.svg|right|thumb|350px|Hippopedes with ''a'' = 1, ''b'' = 0.1, 0.2, 0.5, 1.0, 1.5, and 2.0.]] |
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[[Image:Hippopede01.svg|right|thumb|350px|Hippopedes with ''b'' = 1, ''a'' = 0.1, 0.2, 0.5, 1.0, 1.5, and 2.0.]] |
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Hippopedes can be defined as the curve formed by the intersection of a [[torus]] and a plane, where the plane is parallel to the axis of the torus and tangent to it on the interior circle. Thus it is a [[spiric section]] which in turn is a type of [[toric section]]. |
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If a circle with radius ''a'' is rotated about an axis at distance ''b'' from its center, then the equation of the resulting hippopede in [[polar coordinate]]s |
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:<math> |
:<math> |
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r^2 = 4 b (a - b \sin^{2}\! \theta) |
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</math> |
</math> |
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The hippopede is a [[spiric section]] in which the intersecting [[plane]] is |
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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]]. |
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:<math>(x^2+y^2)^2+4b(b-a)(x^2+y^2)=4b^2x^2</math>. |
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Note that when ''a'' > ''b'' the torus intersects itself, so it does not resemble the usual picture of a torus. |
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==See also== |
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* [[List of curves]] |
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*{{MathWorld|title=Hippopede|urlname=Hippopede}} |
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*[http://www.mathcurve.com/courbes2d/booth/booth.shtml "Courbes de Booth" at Encyclopédie des Formes Mathématiques Remarquables] |
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* [http://mathworld.wolfram.com/Hippopede.html MathWorld description] |
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*[https://web.archive.org/web/20090318143501/http://curvebank.calstatela.edu/hippopede/hippopede.htm "The Hippopede of Proclus" at The National Curve Bank] |
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{{geometry-stub}} |
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[[Category:Curves]] |
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[[Category:Spiric sections]] |
[[Category:Spiric sections]] |
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Latest revision as of 12:18, 10 March 2024
In geometry, a hippopede (from Ancient Greek ἱπποπέδη (hippopédē) 'horse fetter') is a plane curve determined by an equation of the form
where it is assumed that c > 0 and c > d since the remaining cases either reduce to a single point or can be put into the given form with a rotation. Hippopedes are bicircular, rational, algebraic curves of degree 4 and symmetric with respect to both the x and y axes.
Special cases
[edit]When d > 0 the curve has an oval form and is often known as an oval of Booth, and when d < 0 the curve resembles a sideways figure eight, or lemniscate, and is often known as a lemniscate of Booth, after 19th-century mathematician James Booth who studied them. Hippopedes were also investigated by Proclus (for whom they are sometimes called Hippopedes of Proclus) and Eudoxus. For d = −c, the hippopede corresponds to the lemniscate of Bernoulli.
Definition as spiric sections
[edit]
Hippopedes can be defined as the curve formed by the intersection of a torus and a plane, where the plane is parallel to the axis of the torus and tangent to it on the interior circle. Thus it is a spiric section which in turn is a type of toric section.
If a circle with radius a is rotated about an axis at distance b from its center, then the equation of the resulting hippopede in polar coordinates
or in Cartesian coordinates
- .
Note that when a > b the torus intersects itself, so it does not resemble the usual picture of a torus.
See also
[edit]References
[edit]- Lawrence JD. (1972) Catalog of Special Plane Curves, Dover Publications. Pp. 145–146.
- Booth J. A Treatise on Some New Geometrical Methods, Longmans, Green, Reader, and Dyer, London, Vol. I (1873) and Vol. II (1877).
- Weisstein, Eric W. "Hippopede". MathWorld.
- "Hippopede" at 2dcurves.com
- "Courbes de Booth" at Encyclopédie des Formes Mathématiques Remarquables