Lemniscate of Bernoulli
In geometry, the lemniscate of Bernoulli is a plane curve whose shape resembles the numeral 8 or the ∞ symbol. It can be defined from two given points and, called the foci, as the locus of points satisfying the relation
where the notation means the distance between two points and, and is half the distance between foci. The name lemniscate derives from the Latin word, meaning "decorated with hanging ribbons". The lemniscate of Bernoulli is a special case of the Cassini oval and is a rational algebraic curve of degree four.
The curve was first studied in 1694 by Jakob Bernoulli, who introduced it as a modification of an ellipse. An ellipse is defined as the locus of points for which the sum of the distances to two fixed focal points is constant, whereas a Cassini oval is defined as the locus of points for which the product of these distances is constant. The lemniscate of Bernoulli is the special case of a Cassini oval which passes through the midpoint between its foci.
The lemniscate of Bernoulli results from applying a circle inversion transformation to a hyperbola, where the center of inversion is the midpoint of the hyperbola's foci. It can also be drawn mechanically using a mechanical linkage known as Watt's linkage, provided that the lengths of the three bars and the distance between the fixed endpoints are chosen to form an crossed parallelogram.
Equations
The lemniscate of Bernoulli may be described using either the focal parameter or the half-width. These parameters are related by.- In Cartesian coordinates :
- Solved for as a function of :
- As a parametric equation:
- A rational parametrization:
- In polar coordinates:
- In the complex plane:
- In two-center bipolar coordinates:
Arc length and elliptic functions
The determination of the arc length of arcs of the lemniscate leads to elliptic integrals, as was discovered in the eighteenth century. Around 1800, the elliptic functions inverting those integrals were studied by C. F. Gauss. The period lattices are of a very special form, being proportional to the Gaussian integers. For this reason the case of elliptic functions with complex multiplication by [square root of minus one|] is called the lemniscatic case in some sources.Using the elliptic integral
the formula of the arc length can be given as
where and are defined as above, is the lemniscate constant, is the gamma function and is the arithmetic–geometric mean.
Angles
Given two distinct points and, let be the midpoint of. Then the lemniscate of diameter can also be defined as the set of points,,, together with the locus of the points such that is a right angle.The following theorem about angles occurring in the lemniscate is due to German mathematician Gerhard Christoph Hermann Vechtmann, who described it 1843 in his dissertation on lemniscates.
Further properties
- The lemniscate is symmetric to the line connecting its foci and and as well to the perpendicular bisector of the line segment.
- The lemniscate is symmetric to the midpoint of the line segment.
- The area enclosed by the lemniscate is.
- The lemniscate is the circle inversion of a hyperbola and vice versa.
- The two tangents at the midpoint are perpendicular, and each of them forms an angle of with the line connecting and.
- The planar cross-section of a standard torus tangent to its inner equator is a lemniscate.
- The curvature at is. The maximum curvature, which occurs at, is therefore.