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2. Hypersurface - Wikipedia

   en.wikipedia.org/wiki/Hypersurface

   In geometry, a hypersurface is a generalization of the concepts of hyperplane, plane curve, and surface.A hypersurface is a manifold or an algebraic variety of dimension n − 1, which is embedded in an ambient space of dimension n, generally a Euclidean space, an affine space or a projective space. [1]

3. Quadric (algebraic geometry) - Wikipedia

   en.wikipedia.org/wiki/Quadric_(algebraic_geometry)

   In mathematics, a quadric or quadric hypersurface is the subspace of N-dimensional space defined by a polynomial equation of degree 2 over a field. Quadrics are fundamental examples in algebraic geometry. The theory is simplified by working in projective space rather than affine space. An example is the quadric surface =

4. Fano variety - Wikipedia

   en.wikipedia.org/wiki/Fano_variety

   The adjunction formula implies that K D = (K X + D)| D = (−(n+1)H + deg(D)H)| D, where H is the class of a hyperplane. The hypersurface D is therefore Fano if and only if deg(D) < n+1. More generally, a smooth complete intersection of hypersurfaces in n-dimensional projective space is Fano if and only if the sum of their degrees is at most n.

5. Quadric - Wikipedia

   en.wikipedia.org/wiki/Quadric

   In mathematics, a quadric or quadric surface (quadric hypersurface in higher dimensions), is a generalization of conic sections (ellipses, parabolas, and hyperbolas).It is a hypersurface (of dimension D) in a (D + 1)-dimensional space, and it is defined as the zero set of an irreducible polynomial of degree two in D + 1 variables; for example, D = 1 in the case of conic sections.

6. Adjunction formula - Wikipedia

   en.wikipedia.org/wiki/Adjunction_formula

   In mathematics, especially in algebraic geometry and the theory of complex manifolds, the adjunction formula relates the canonical bundle of a variety and a hypersurface inside that variety. It is often used to deduce facts about varieties embedded in well-behaved spaces such as projective space or to prove theorems by induction.

7. Complex lamellar vector field - Wikipedia

   en.wikipedia.org/wiki/Complex_lamellar_vector_field

   In the broader context of differential geometry, complex lamellar vector fields are more often called hypersurface-orthogonal vector fields. They can be characterized in a number of different ways, many of which involve the curl. A lamellar vector field is a special case given by vector fields with zero curl.

8. Ricci curvature - Wikipedia

   en.wikipedia.org/wiki/Ricci_curvature

   A notable exception is when the manifold is given a priori as a hypersurface of Euclidean space. The second fundamental form, which determines the full curvature via the Gauss–Codazzi equation, is itself determined by the Ricci tensor and the principal directions of the hypersurface are also the eigendirections of the Ricci tensor. The tensor ...

9. Dupin hypersurface - Wikipedia

   en.wikipedia.org/wiki/Dupin_hypersurface

   A hypersurface is called a Dupin hypersurface if the multiplicity of each principal curvature is constant on hypersurface and each principal curvature is constant along its associated principal directions. [2] All proper Dupin submanifolds arise as focal submanifolds of proper Dupin hypersurfaces. [3]