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In mathematics, the rational normal curve is a smooth, rational curve C of degree n in projective n-space Pn. It is a simple example of a projective variety; formally, it is the Veronese variety when the domain is the projective line. For n = 2 it is the flat conic Z0Z2 = Z2
and for n = 3 it is the twisted cubic. The term "normal" refers to projective normality, not normal schemes. The intersection of the rational normal curve with an affine space is called the moment curve.



The rational normal curve may be given parametrically as the image of the map


which assigns to the homogeneous coordinates [S : T] the value


In the affine coordinates of the chart x0 ≠ 0 the map is simply


That is, the rational normal curve is the closure by a single point at infinity of the affine curve


Equivalently, rational normal curve may be understood to be a projective variety, defined as the common zero locus of the homogeneous polynomials


where   are the homogeneous coordinates on Pn. The full set of these polynomials is not needed; it is sufficient to pick n of these to specify the curve.

Alternate parameterizationEdit

Let   be n + 1 distinct points in P1. Then the polynomial


is a homogeneous polynomial of degree n + 1 with distinct roots. The polynomials


are then a basis for the space of homogeneous polynomials of degree n. The map


or, equivalently, dividing by G(S, T)


is a rational normal curve. That this is a rational normal curve may be understood by noting that the monomials


are just one possible basis for the space of degree n homogeneous polynomials. In fact, any basis will do. This is just an application of the statement that any two projective varieties are projectively equivalent if they are congruent modulo the projective linear group PGLn + 1(K) (with K the field over which the projective space is defined).

This rational curve sends the zeros of G to each of the coordinate points of Pn; that is, all but one of the Hi vanish for a zero of G. Conversely, any rational normal curve passing through the n + 1 coordinate points may be written parametrically in this way.


The rational normal curve has an assortment of nice properties:

  • Any n + 1 points on C are linearly independent, and span Pn. This property distinguishes the rational normal curve from all other curves.
  • Given n + 3 points in Pn in linear general position (that is, with no n + 1 lying in a hyperplane), there is a unique rational normal curve passing through them. The curve may be explicitly specified using the parametric representation, by arranging n + 1 of the points to lie on the coordinate axes, and then mapping the other two points to [S : T] = [0 : 1] and [S : T] = [1 : 0].
  • The tangent and secant lines of a rational normal curve are pairwise disjoint, except at points of the curve itself. This is a property shared by sufficiently positive embeddings of any projective variety.
  • There are

independent quadrics that generate the ideal of the curve.

See alsoEdit


  • Joe Harris, Algebraic Geometry, A First Course, (1992) Springer-Verlag, New York. ISBN 0-387-97716-3