An alternative moving frame for tubular surfaces around time-like curves in the Minkowski 3-space.

Karacan, Murat Kemal; Bukcu, Bahaddin

Displaying similar documents to “An alternative moving frame for tubular surfaces around time-like curves in the Minkowski 3-space.”

On the Lines of Equidistance of a Family of Surfaces

C. E. Weatherburn (1930)

Journal de Mathématiques Pures et Appliquées

Similarity:

A common characterization of the curvature axis for ruled surfaces and curves. (Eine gemeinsame Kennzeichnung der Krümmungsachse bei Regelflächen und Kurven.)

Benz, Walter (2000)

Beiträge zur Algebra und Geometrie

Similarity:

Helicoidal surfaces in Minkowski space with constant mean curvature and constant Gauss curvature

Rafael López, Esma Demir (2014)

Open Mathematics

Similarity:

We classify all helicoidal non-degenerate surfaces in Minkowski space with constant mean curvature whose generating curve is a the graph of a polynomial or a Lorentzian circle. In the first case, we prove that the degree of the polynomial is 0 or 1 and that the surface is ruled. If the generating curve is a Lorentzian circle, we prove that the only possibility is that the axis is spacelike and the center of the circle lies on the axis.

Special curves and ruled surfaces.

Izumiya, Shyuichi, Takeuchi, Nobuko (2003)

Beiträge zur Algebra und Geometrie

Similarity:

On motion of robot end-effector using the curvature theory of timelike ruled surfaces with timelike rulings.

Ekici, Cumali, Ünlütürk, Yasin, Dede, Mustafa, Ryuh, B.S. (2008)

Mathematical Problems in Engineering

Similarity:

Singularities of the Gauss map and the binormal surface.

Dreibelbis, D. (2003)

Advances in Geometry

Similarity:

Mannheim offsets of ruled surfaces.

Orbay, Keziban, Kasap, Emin, Aydemir, İsmail (2009)

Mathematical Problems in Engineering

Similarity:

Surfaces of characteristic curvature

Vladimír Fiřt (1974)

Aplikace matematiky

Similarity:

Invariants and Bonnet-type theorem for surfaces in ℝ4

Georgi Ganchev, Velichka Milousheva (2010)

Open Mathematics

Similarity:

In the tangent plane at any point of a surface in the four-dimensional Euclidean space we consider an invariant linear map ofWeingarten-type and find a geometrically determined moving frame field. Writing derivative formulas of Frenet-type for this frame field, we obtain eight invariant functions. We prove a fundamental theorem of Bonnet-type, stating that these eight invariants under some natural conditions determine the surface up to a motion. We show that the basic geometric classes...

Curvature computations on surfaces in $n$ -space

J.-H. Chuang, Ch. M. Hoffmann (1992)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

Similarity:

A geometric characterization of helicoidal surfaces of constant mean curvature.

Roussos, Ioannis M. (1988)

Publications de l'Institut Mathématique. Nouvelle Série

Similarity: