Reiss relation

In algebraic geometry, the Reiss relation, introduced by Reiss (1837), is a condition on the second-order elements of the points of a plane algebraic curve meeting a given line.

Statement

If C is a complex plane curve given by the zeros of a polynomial f(x,y) of two variables, and L is a line meeting C transversely and not meeting C at infinity, then

where the sum is over the points of intersection of C and L, and fx, fxy and so on stand for partial derivatives of f (Griffiths & Harris 1994, p. 675). This can also be written as

where κ is the curvature of the curve C and θ is the angle its tangent line makes with L, and the sum is again over the points of intersection of C and L (Griffiths & Harris 1994, p. 677).

gollark: Increasing the key sizes a lot isn't very helpful if it doesn't increase the difficulty of breaking it by a similarly large factor.
gollark: I'm not sure what P = NP would mean for that. Apparently doing that is non-polynomial time, and a constructive P = NP proof would presumably let you construct a polynomial-time algorithm.
gollark: Asymmetric cryptography stuff relies on it being impractically hard to do some things, such as factor large semiprime numbers.
gollark: Symmetric encryption is safe still, I think. And polynomial-time doesn't mean you can't have ridiculously gigantic (fixed) exponents or constant factors.
gollark: Hmm. I see.

References

  • Griffiths, Phillip; Harris, Joseph (1994), Principles of algebraic geometry, Wiley Classics Library, New York: John Wiley & Sons, ISBN 978-0-471-05059-9, MR 1288523
  • Segre, Beniamino (1971), Some properties of differentiable varieties and transformations: with special reference to the analytic and algebraic cases, Ergebnisse der Mathematik und ihrer Grenzgebiete, 13, Berlin, New York: Springer-Verlag, ISBN 978-3-540-05085-8, MR 0278222
  • Akivis, M. A.; Goldberg, V. V.: Projective differential geometry of submanifolds. North-Holland Mathematical Library, 49. North-Holland Publishing Co., Amsterdam, 1993 (chapter 8).
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