The Dual Expression of Parallel Equidistant Ruled Surfaces in Euclidean 3-Space

MAZLUM>, Sümeyye GÜR; Şenyurt, Süleyman; Grilli, Luca

doi:10.3390/sym14051062

Cited by 28 publications

(14 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…See [41] for the real and dual Equations (2) and (3). The dual pitch length, the dual pitch angle and the drall (parameter of distribution) of the closed ruled surface → M(s) are, respectively [22],…”

Section: − →mentioning

confidence: 99%

“…The definition and properties of dual parallel equidistant ruled surfaces (DPERS) are also explained in [41]. In this section, the relations that will be used in the continuation of the study will be given.…”

Section: − →mentioning

confidence: 99%

“…where − → a i (s) and − → b i (s) are the real and dual components of the vectors − → A i (s) and − → B i (s), [41]. Additionally, φ * (s), z(s), r(s) are the perpendicular projection distances on the unit vectors − →…”

Section: − →mentioning

confidence: 99%

“…In Ref. [41], we defined parallel equidistant ruled surfaces (DPERS) and compared some of their geometric properties. In addition, we have shown that one of these surfaces is symmetrical to the other.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The Invariants of Dual Parallel Equidistant Ruled Surfaces

2023

Self Cite

View full text Add to dashboard Cite

In this paper, we calculate the Gaussian curvatures of the dual spherical indicatrix curves formed on unit dual sphere by the Blaschke vectors and dual instantaneous Pfaff vectors of dual parallel equidistant ruled surfaces (DPERS) and we give the relationships between these curvatures. In addition to—in cases where the base curves of these DPERS are closed—computing the dual integral invariants of the indicatrix curves. Additionally, we show the relationships between them. Finally, we provide an example for each of these indicatrix curves.

show abstract

Section: − →mentioning

confidence: 99%

Section: − →mentioning

confidence: 99%

Section: − →mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The Invariants of Dual Parallel Equidistant Ruled Surfaces

2023

Self Cite

View full text Add to dashboard Cite

show abstract

“…The ruled surfaces in G 3 are three types. Definitions of the ruled surfaces of type A, B, C and current studies can be viewed in [6,15,[17][18][19][20]. Our goal is to define the ruled surfaces using r λ as the base curve and r λ as the director curve, and to see if they can be developed.…”

Section: Ruled Surfaces Generated By the Curve R λmentioning

confidence: 99%

Notes on Curves at a Constant Distance from the Edge of Regression on a Curve in Galilean 3-Space

Çakmak¹,

Kızıltuğ²,

Mumcu³

2023

Computer Modeling in Engineering &Amp; Sciences

View full text Add to dashboard Cite

In this paper, we define the curve r λ = r + λd at a constant distance from the edge of regression on a curve r(s) with arc length parameter s in Galilean 3-space. Here, d is a non-isotropic or isotropic vector defined as a vector tightly fastened to Frenet trihedron of the curve r(s) in 3-dimensional Galilean space. We build the Frenet frame {T λ , N λ , B λ } of the constructed curve r λ with respect to two types of the vector d and we indicate the properties related to the curvatures of the curve r λ . Also, for the curve r λ , we give the conditions to be a circular helix. Furthermore, we discuss ruled surfaces of type A generated via the curve r λ and the vector D which is defined as tangent of the curve r λ in 3-dimensional Galilean space. The constructed ruled surfaces also appear in two ways. The first is constructed with the curve r λ (s) = r(s) + λT(s) and the non-isotropic vector D. The second is formed by the curve r λ = r(s) + λ 2 N + λ 3 B and the non-isotropic vector D. We calculate the distribution parameters of the constructed ruled surfaces and we show that the ruled surfaces are developable. Finally, we provide examples and visuals to back up our research.

show abstract

A Study of Conformal $$\eta$$-Einstein Solitons on Trans-Sasakian 3-Manifold

Mondal

Dey

et al. 2022

J Nonlinear Math Phys

View full text Add to dashboard Cite

We study conformal $$\eta$$ η -Einstein solitons on the framework of trans-Sasakian manifold in dimension three. Existence of conformal $$\eta$$ η -Einstein solitons on trans-Sasakian manifold is discussed. Then we find some results on trans-Sasakian manifold which are conformal $$\eta$$ η -Einstein solitons where the Ricci tensor is cyclic parallel and Codazzi type. We also consider some curvature conditions with addition to conformal $$\eta$$ η -Einstein solitons on trans-Sasakian manifold. We also use torse-forming vector fields in addition to conformal $$\eta$$ η -Einstein solitons on trans-Sasakian manifold. Finally, an example of conformal $$\eta$$ η -Einstein solitons on trans-Sasakian manifold is constructed.

show abstract

The Dual Expression of Parallel Equidistant Ruled Surfaces in Euclidean 3-Space

Cited by 28 publications

References 26 publications

The Invariants of Dual Parallel Equidistant Ruled Surfaces

The Invariants of Dual Parallel Equidistant Ruled Surfaces

Notes on Curves at a Constant Distance from the Edge of Regression on a Curve in Galilean 3-Space

A Study of Conformal $$\eta$$-Einstein Solitons on Trans-Sasakian 3-Manifold

Contact Info

Product

Resources

About