Booth lemniscate
A plane algebraic curve of order four whose equation in orthogonal Cartesian coordinates is
$$ (x ^ {2} + y ^ {2} ) ^ {2} - (2m ^ {2} + n) x ^ {2} - (2m ^ {2} - n) y ^ {2} = 0. $$
If $ | n | < 2 m ^ {2} $, the Booth lemniscate is called elliptic (it has singular point $ O $( Fig. a), where $ 0 < n < 2 m ^ {2} $). If $ | n | > 2 m ^ {2} $, the Booth lemniscate is called hyperbolic (it has a nodal point at the coordinate origin, cf. Fig. b, where $ n > 2 m ^ {2} $).
Figure: b017000a
Figure: b017000b
The equation of an elliptic Booth lemniscate in polar coordinates is
$$ \rho ^ {2} = a ^ {2} \cos ^ {2} \phi + b ^ {2} \sin ^ {2} \phi \ \ \textrm{ or } \ \rho \equiv 0. $$
If $ n > 2 m ^ {2} $, the equation of a hyperbolic Booth lemniscate has the form
$$ \rho ^ {2} = \ a ^ {2} \cos ^ {2} \phi - b ^ {2} \sin ^ {2} \phi ; $$
and if $ n < -2 m ^ {2} $
$$ \rho ^ {2} = \ - a ^ {2} \cos ^ {2} \phi + b ^ {2} \sin ^ {2} \phi $$
$$ (a ^ {2} = | 2m ^ {2} + n | ,\ b ^ {2} = | 2m ^ {2} - n | ). $$
The arc length of a Booth lemniscate is expressed by elliptic integrals. The area bounded by an elliptic Booth lemniscate is
$$ S = { \frac \pi {2} } (a ^ {2} + b ^ {2} ), $$
while that bounded by a hyperbolic Booth lemniscate is
$$ S = \frac{a ^ {2} - b ^ {2} }{2} \ \mathop{\rm arctg} { \frac{a}{b} } + { \frac{ab}{2} } . $$
The Booth lemniscate is a special case of a Persian curve.
Named after J. Booth [1].
References
[1] | J. Booth, "A treatise on some new geometrical methods" , 1–2 , London pp. 1873–1877 |
[2] | A.A. Savelov, "Planar curves" , Moscow (1960) pp. 144–146 (In Russian) |
Booth lemniscate. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Booth_lemniscate&oldid=18130