... hypersurfaces in a complex projective space. Osaka J. Math. 1973, 10,495–506. 4. Kimura, M. Real hypersurfaces and complex submanifolds in complex projective space. Trans. Am. Math. Soc. 1986, 296, 137–149. [CrossRef] 5. Montiel, S ...
... hypersurfaces in a complex projective space. Osaka J. Math. 1973, 10, 495–506. 2. Takagi, R. Real hypersurfaces in complex projective space with constant principal curvatures. J. Math. Soc. Jpn. 1975, 27,43–53. 3. Takagi, R. Real ...
... hypersurfaces in a V1 . From ( 14.7 ) it follows that the condition that there exist in a Vn n families of hypersurfaces fi const . ( i = 1 , ... , n ) such that every two hypersurfaces fi const . , fj const . for i , j = 1 , ... , n ...
... hypersurface . Many properties of hypersurfaces in a space of constant curvature depend on this simple form of the equation . It is the purpose of this note to investigate some of the properties of hypersurfaces in a more general space ...
... hypersurface form a normal congruence , i.e. , admit of normal hypersurfaces ; these hypersurfaces are hypersurfaces of equal action.3 3 This property is characteristic of the trajectories in a reversible field , for we may also state ...
... hypersurfaces represented by columns 1 , 2 , 3 ; 1 , 2 , 4 ; and 1 , 2 , 5 intersect in a cubic surface and a curve . The other seven cubic hypersurfaces represented by this matrix will not pass through the cubic surface but will pass ...
... hypersurfaces: hypersurfaces which belong to a quadruply orthogonal system of hypersurfaces, [5], [25] and [26] and some special hypersurfaces of revolution. In this case the principal foliations of a hypersurface are obtained ...
... hypersurfaces g1 g2 = nih and gi ( n + 1 ) h = = nah and ge = ( n + 1 ) h ( 21 ) we shall denote by the cell ( nın2n3 ) . How these hyper- surfaces are to be found will depend upon the dynamical properties of the system and will be ...