Circular algebraic curve
In geometry, a circular algebraic curve is a type of plane algebraic curve determined by an equation F(x, y) =0, where F is a polynomial with real coefficients and the highest order terms of F form a polynomial divisible by x2+y2. More precisely, if F = Fn + Fn-1 + ... F1 + F0, where each Fi is homogeneous of degree i, then the curve F(x, y) =0 is circular if and only if Fn is divisible by x2+y2.
Equivalently, if the curve is determined in homogeneous coordinates by G(x, y, z) = 0, where G is a homogeneous polynomial, then the curve is circular if and only if G(1,i,0)=G(1,−i,0)=0. In other words, the curve is circular if it contains the points (1,i,0) and (1,−i,0) when considered as a curve in the complex projective plane.
Multicircular algebraic curves
An algebraic curve is called p-circular if it contains the points (1,i,0) and (1,−i,0) when considered as a curve in the complex projective plane, and these points are singularities of order at least p. The terms bicircular, tricircular, etc. apply when p = 2, 3, etc. In terms of the polynomial F given above, the curve F(x, y) =0 is p-circular if Fn−i is divisible by (x2+y2)p−i when i<p. When p=1 this reduces to the definition of a circular curve. The set of p-circular curves is invariant under Euclidean transformations. Note that a p-circular curve must have degree at least 2p.
The set of p-circular curves of degree p+k, where k is a fixed positive integer, is invariant under inversion. When k is 1 this says that the set of lines (0-circular curves of degree 1) together with the set of circles (1-circular curves of degree 2) form a set which is invariant under inversion.
Examples
- The Circle is the only circular conic.
- Conchoids of de Sluze (which includes several well-known cubic curves) are circular cubics.
- Cassini ovals (including the lemniscate of Bernoulli) and Limaçons (including the cardioid) are bicircular quartics.
- Watt's curve is a tricircular sextic.