# Gauss–Lucas theorem

Gauss–Lucas theorem In complex analysis, une branche des mathématiques, the Gauss–Lucas theorem gives a geometric relation between the roots of a polynomial P and the roots of its derivative P′. The set of roots of a real or complex polynomial is a set of points in the complex plane. The theorem states that the roots of P′ all lie within the convex hull of the roots of P, that is the smallest convex polygon containing the roots of P. When P has a single root then this convex hull is a single point and when the roots lie on a line then the convex hull is a segment of this line. The Gauss–Lucas theorem, named after Carl Friedrich Gauss and Félix Lucas, is similar in spirit to Rolle's theorem.

Illustration of Gauss–Lucas theorem, displaying the evolution of the roots of the derivatives of a polynomial. Contenu 1 Déclaration formelle 2 Cas spéciaux 3 Preuve 4 Voir également 5 Remarques 6 Références 7 External links Formal statement If P is a (nonconstant) polynomial with complex coefficients, all zeros of P′ belong to the convex hull of the set of zeros of P.[1] Special cases It is easy to see that if P(X) = ax2 + bx + c is a second degree polynomial, the zero of P′(X) = 2ax + b is the average of the roots of P. Dans ce cas, the convex hull is the line segment with the two roots as endpoints and it is clear that the average of the roots is the middle point of the segment.

For a third degree complex polynomial P (cubic function) with three distinct zeros, Marden's theorem states that the zeros of P′ are the foci of the Steiner inellipse which is the unique ellipse tangent to the midpoints of the triangle formed by the zeros of P.

For a fourth degree complex polynomial P (quartic function) with four distinct zeros forming a concave quadrilateral, one of the zeros of P lies within the convex hull of the other three; all three zeros of P′ lie in two of the three triangles formed by the interior zero of P and two others zeros of P.[2] en outre, if a polynomial of degree n of real coefficients has n distinct real zeros {style d'affichage x_{1}

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