Year 2022,
, 201 - 209, 23.09.2022
Osman Zeki Okuyucu
,
Bahar Doğan Yazıcı
References
- [1] M. A. Lancret, Memoire sur les courbes `a double courbure, M´emoires pr´esent´es `a l’Institut1, 1806, 416–454.
- [2] B. Altunkaya, L. Kula, General helices that lie on the sphere S2n in Euclidean space E2n+1, Uni. J. Math. App., 1(3) (2018), 166-170.
- [3] S. Izumiya, N. Takeuchi, New special curves and developable surfaces, Turk. J. Math., 28 (2004), 153-163.
- [4] J. M. Bertrand, Memoire sur la th´eorie des courbes ´a double courbure, Comptes Rendus, 36 (1850).
- [5] H. Liu, F. Wang, Mannheim partner curves in 3-space, J. Geom., 88 (2008), 120–126.
- [6] M. Akyigğt, S. Ersoy, İ. Özgür, M. Tosun, Generalized timelike Mannheim curves in Minkowski space-time E4_1 , Mathematical Problems in Engineering, Article ID 539378, (2011), 19 p.
- [7] S. Ersoy, M. Akyiğit, M. Tosun, A note on admissible Mannheim curves in Galilean space G3, Math. Combinatorics, 1 (2011), 88-93.
- [8] S. Ersoy, M. Masal, M. Tosun, On Mannheim partner curves of AW(k)-type, Uzbek Math. J., 1 (2014), 97-107.
- [9] M. S. Lone, H. Es, M. K. Karacan, B. B¨ukc¨u, Mannheim curves with modified orthogonal frame in Euclidean 3-space, Turk. J. Math., 43 (2) (2019), 648-663.
- [10] Ç. Camcı, A. Uc¸um, K. ˙Ilarslan, A new approach to Bertrand curves in Euclidean 3-space, J. Geom., 111 (49) (2020).
- [11] A. Uçum, Ç. Camcı, K. ˙Ilarslan, A new approach to Mannheim curve in Euclidean 3-space, Tamkang J. Math., 54, (2021).
- [12] Ü. Çiftçi, A generalization of Lancert’s theorem, J. Geom. Phys., 59 (2009), 1597-1603.
- [13] O. Z. Okuyucu, İ. Gök, Y. Yaylı, N. Ekmekc¸i, Slant helices in three dimensional Lie groups, Appl. Math. Comput., 221 (2013), 672–683.
- [14] İ Gök, O. Z. Okuyucu, N. Ekmekçi, Y. Yaylı, On Mannheim partner curves in three dimensional Lie groups, Miskolc Math. Notes, 15(2) (2014), 467–479.
- [15] O. Z. Okuyucu, İ. Gök, Y. Yaylı, N. Ekmekc¸i, Bertrand curves in three dimensional Lie groups, Miskolc Math. Notes, 17(2) (2017), 999–1010.
- [16] O. Z. Okuyucu, Ö. G. Yıldız, M. Tosun, Spinor Frenet equations in three dimensional Lie groups, Adv. Appl. Clifford Algebras, 26 (2016), 1341–1348.
- [17] O. Z. Okuyucu, C. Deg˘irmen, O¨ . G. Yıldız, Smarandache curves in three dimensional Lie groups, Commun. Fac. Sci. Univ. Ank. Ser. A1 Math. Stat., 68(1) (2019), 1175-1185.
- [18] M. Mak, Natural and conjugate mates of Frenet curves in three-dimensional Lie group, Commun. Fac. Sci. Univ. Ank. Ser. A1 Math. Stat., 70(1) (2021), 522-540.
- [19] G. Yıldız, O. Z. Okuyucu, Inextensible flows of curves in Lie groups, Caspian J. Math. Sci., 2(1) (2013), 23-32.
- [20] O. E. Hentosh, Y. A. Prykarpatski, D. Blackmore, A. Prykarpatski, Generalized Lie-algebraic structures related to integrable dispersionless dynamical systems and their application, J. Math. Sci. Model., 1(2) (2018), 105-130.
- [21] P. Crouch, F. Silva Leite, The dynamic interpolation problem: on Riemannian manifolds, Lie groups and symmetric spaces, J. Dyn. Control Syst., 1(2) (1995), 177-202.
- [22] N. do Esp´ırito-Santo, S. Fornari, K. Frensel, J. Ripoll, Constant mean curvature hypersurfaces in a Lie group with a bi-invariant metric, Manuscripta Math., 111(4) (2003) 459-470.
Generalized Bertrand and Mannheim Curves in 3D Lie Groups
Year 2022,
, 201 - 209, 23.09.2022
Osman Zeki Okuyucu
,
Bahar Doğan Yazıcı
Abstract
In this paper, we give a new approach for Bertrand and Mannheim curves in $3D$ Lie groups with bi-invariant metrics. In this way, some conditions including the known results have been given for a curve to be Bertrand or Mannheim curve in $3D$ Euclidean space and in $3D$ Lie groups.
References
- [1] M. A. Lancret, Memoire sur les courbes `a double courbure, M´emoires pr´esent´es `a l’Institut1, 1806, 416–454.
- [2] B. Altunkaya, L. Kula, General helices that lie on the sphere S2n in Euclidean space E2n+1, Uni. J. Math. App., 1(3) (2018), 166-170.
- [3] S. Izumiya, N. Takeuchi, New special curves and developable surfaces, Turk. J. Math., 28 (2004), 153-163.
- [4] J. M. Bertrand, Memoire sur la th´eorie des courbes ´a double courbure, Comptes Rendus, 36 (1850).
- [5] H. Liu, F. Wang, Mannheim partner curves in 3-space, J. Geom., 88 (2008), 120–126.
- [6] M. Akyigğt, S. Ersoy, İ. Özgür, M. Tosun, Generalized timelike Mannheim curves in Minkowski space-time E4_1 , Mathematical Problems in Engineering, Article ID 539378, (2011), 19 p.
- [7] S. Ersoy, M. Akyiğit, M. Tosun, A note on admissible Mannheim curves in Galilean space G3, Math. Combinatorics, 1 (2011), 88-93.
- [8] S. Ersoy, M. Masal, M. Tosun, On Mannheim partner curves of AW(k)-type, Uzbek Math. J., 1 (2014), 97-107.
- [9] M. S. Lone, H. Es, M. K. Karacan, B. B¨ukc¨u, Mannheim curves with modified orthogonal frame in Euclidean 3-space, Turk. J. Math., 43 (2) (2019), 648-663.
- [10] Ç. Camcı, A. Uc¸um, K. ˙Ilarslan, A new approach to Bertrand curves in Euclidean 3-space, J. Geom., 111 (49) (2020).
- [11] A. Uçum, Ç. Camcı, K. ˙Ilarslan, A new approach to Mannheim curve in Euclidean 3-space, Tamkang J. Math., 54, (2021).
- [12] Ü. Çiftçi, A generalization of Lancert’s theorem, J. Geom. Phys., 59 (2009), 1597-1603.
- [13] O. Z. Okuyucu, İ. Gök, Y. Yaylı, N. Ekmekc¸i, Slant helices in three dimensional Lie groups, Appl. Math. Comput., 221 (2013), 672–683.
- [14] İ Gök, O. Z. Okuyucu, N. Ekmekçi, Y. Yaylı, On Mannheim partner curves in three dimensional Lie groups, Miskolc Math. Notes, 15(2) (2014), 467–479.
- [15] O. Z. Okuyucu, İ. Gök, Y. Yaylı, N. Ekmekc¸i, Bertrand curves in three dimensional Lie groups, Miskolc Math. Notes, 17(2) (2017), 999–1010.
- [16] O. Z. Okuyucu, Ö. G. Yıldız, M. Tosun, Spinor Frenet equations in three dimensional Lie groups, Adv. Appl. Clifford Algebras, 26 (2016), 1341–1348.
- [17] O. Z. Okuyucu, C. Deg˘irmen, O¨ . G. Yıldız, Smarandache curves in three dimensional Lie groups, Commun. Fac. Sci. Univ. Ank. Ser. A1 Math. Stat., 68(1) (2019), 1175-1185.
- [18] M. Mak, Natural and conjugate mates of Frenet curves in three-dimensional Lie group, Commun. Fac. Sci. Univ. Ank. Ser. A1 Math. Stat., 70(1) (2021), 522-540.
- [19] G. Yıldız, O. Z. Okuyucu, Inextensible flows of curves in Lie groups, Caspian J. Math. Sci., 2(1) (2013), 23-32.
- [20] O. E. Hentosh, Y. A. Prykarpatski, D. Blackmore, A. Prykarpatski, Generalized Lie-algebraic structures related to integrable dispersionless dynamical systems and their application, J. Math. Sci. Model., 1(2) (2018), 105-130.
- [21] P. Crouch, F. Silva Leite, The dynamic interpolation problem: on Riemannian manifolds, Lie groups and symmetric spaces, J. Dyn. Control Syst., 1(2) (1995), 177-202.
- [22] N. do Esp´ırito-Santo, S. Fornari, K. Frensel, J. Ripoll, Constant mean curvature hypersurfaces in a Lie group with a bi-invariant metric, Manuscripta Math., 111(4) (2003) 459-470.