Devil's curve

Short description: 2-dimensional curve

Devil's curve for a = 0.8 and b = 1.

Devil's curve with [math]\displaystyle{ a }[/math] ranging from 0 to 1 and b = 1 (with the curve colour going from blue to red).

In geometry, a Devil's curve, also known as the Devil on Two Sticks, is a curve defined in the Cartesian plane by an equation of the form

[math]\displaystyle{ y^2(y^2 - b^2) = x^2(x^2 - a^2). }[/math]^[1]

The polar equation of this curve is of the form

[math]\displaystyle{ r = \sqrt{\frac{b^2 \sin^2\theta-a^2 \cos^2\theta}{\sin^2\theta-\cos^2\theta}} = \sqrt{\frac{b^2 -a^2 \cot^2\theta}{1-cot^2\theta}} }[/math].

Devil's curves were discovered in 1750 by Gabriel Cramer, who studied them extensively.^[2]

The name comes from the shape its central lemniscate takes when graphed. The shape is named after the juggling game diabolo, which was named after the Devil^[3] and which involves two sticks, a string, and a spinning prop in the likeness of the lemniscate.^[4]

For [math]\displaystyle{ |b|\gt |a| }[/math], the central lemniscate, often called hourglass, is horizontal. For [math]\displaystyle{ |b|\lt |a| }[/math] it is vertical. If [math]\displaystyle{ |b|=|a| }[/math], the shape becomes a circle. The vertical hourglass intersects the y-axis at [math]\displaystyle{ b,-b, 0 }[/math] . The horizontal hourglass intersects the x-axis at [math]\displaystyle{ a,-a,0 }[/math].

Electric Motor Curve

A special case of the Devil's curve occurs at [math]\displaystyle{ \frac{a^2}{b^2}=\frac{25}{24} }[/math], where the curve is called the electric motor curve.^[5] It is defined by an equation of the form

[math]\displaystyle{ y^2(y^2-96) = x^2(x^2-100) }[/math].

The name of the special case comes from the middle shape's resemblance to the coils of wire, which rotate from forces exerted by magnets surrounding it.

References

↑ "Devil's Curve". https://mathworld.wolfram.com/DevilsCurve.html.
↑ Introduction a l'analyse des lignes courbes algébriques, p. 19 (Genova, 1750).
↑ "Diabolo Patent". https://www.google.com/patents/US822628.
↑ Wassenaar, Jan. "devil's curve". http://www.2dcurves.com/quartic/quarticd.html.
↑ Mathematical Models, p. 71 (Cundy and Rollet. 1961)

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Original source: https://en.wikipedia.org/wiki/Devil's curve. Read more

[1] "Devil's Curve". https://mathworld.wolfram.com/DevilsCurve.html.

[2] Introduction a l'analyse des lignes courbes algébriques, p. 19 (Genova, 1750).

[3] "Diabolo Patent". https://www.google.com/patents/US822628.

[4] Wassenaar, Jan. "devil's curve". http://www.2dcurves.com/quartic/quarticd.html.

[5] Mathematical Models, p. 71 (Cundy and Rollet. 1961)

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