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Toplam kayıt 109, listelenen: 81-90
Rotational hypersurfaces in S3(r)XR product space
(Sakarya University Journal of Science, 2017)
We consider rotational hypersurfaces in S3(r)XR product space of five dimensional Euclidean space E^5. We calculate the mean curvature and the Gaussian curvature, and give some results.
Helicoidal surface of logaritmic spiral type in 3-space
(International Conference on Computational Mathematics and Engineering Sciences, 2019)
In this paper, we study the logaritmic spiral-type helicoidal surface in Euclidean 3-space.
We obtain logaritmic spiral-type helicoidal surface with some figures, and calculate its
curvatures.
Möbius-type hypersurface in 4-space
(Manisa Celal Bayar University, 2018)
Möbius-type hypersurface in the four dimensional Euclidean space is defined. Equations for the Gaussian and mean curvature are derived and some examples of hypersurface are given.
Minkowski 3-uzayında light-like üretec eğrili izometrik yüzeyler
(Hacettepe Üniversitesi, 2011)
Bour's minimal surface revisited: the irreducible implicit equation of the incomplete surface
(Çankırı Karatekin Üniversitesi, 2014)
We focus on the differential geometry of the Bour’s minimal surface inEuclidean 3-space. We also calculate the mean curvature, the Gaussiancurvature, class, degree, index, total curvature, irreducible implicit equa-tion ...
Rotational hypersurfaces in E6
(Mersin Üniversitesi, 2018)
Sayılar teorisi ders notları
(1996)
Vektörel analiz ders notları
(1996)
Enneper-type surfaces in three dimensional Minkowski space
(International Conference on Recent Advances in Pure and Applied Mathematics, 2016)
In this work, we study on anEnneper-typeminimal surfacesusing Weierstrass representation in the threedimensional Minkowskispace. We compute implicit equations, degree and class of the surfaces.
Henneberg’s algebraic surfaces in minkowski 3-space
(2019)
We consider the Henneberg's algebraic zero mean curvature surfaces in three dimensional Minkowski space, and compute their classes, degrees and integral free representations. We also draw some figures of the algebraic surfaces.