Transcendental curve


In mathematics, a transcendental curve is a curve that is not an algebraic curve. Here for a curve, C, what matters is the point set underlying C, not a given parametrisation. For example, the unit circle is an algebraic curve ; the usual parametrisation by trigonometric functions may involve those transcendental functions, but certainly the unit circle is defined by a polynomial equation.
The properties of algebraic curves, such as Bézout's theorem, give rise to criteria for showing curves actually are transcendental. For example an algebraic curve C either meets a given line L in a finite number of points, or possibly contains all of L. Thus a curve intersecting any line in an infinite number of points, while not containing it, must be transcendental. This applies not just to sinusoidal curves, therefore; but to large classes of curves showing oscillations.
The term is originally attributed to Leibniz.

Further examples