Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators
The modified Lindstedt-Poincare method has been generalized for solving strongly nonlinear oscillators. The original formula (presented by Cheung et al.) covers a class of nonlinear problems. So, it requires another formula to cover the remaining class. Usually two solutions can be found for all non...
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2019-03-01
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| Series: | Ain Shams Engineering Journal |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2090447919300243 |
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doaj-33332ea835de43a1bbc23867455ed0202021-06-02T12:24:37ZengElsevierAin Shams Engineering Journal2090-44792019-03-01101195201Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillatorsM.S. Alam0I.A. Yeasmin1Md.S. Ahamed2Corresponding author.; Department of Mathematics, Rajshahi University of Engineering & Technology (RUET), Kazla, Rajshahi 6204, BangladeshDepartment of Mathematics, Rajshahi University of Engineering & Technology (RUET), Kazla, Rajshahi 6204, BangladeshDepartment of Mathematics, Rajshahi University of Engineering & Technology (RUET), Kazla, Rajshahi 6204, BangladeshThe modified Lindstedt-Poincare method has been generalized for solving strongly nonlinear oscillators. The original formula (presented by Cheung et al.) covers a class of nonlinear problems. So, it requires another formula to cover the remaining class. Usually two solutions can be found for all nonlinear oscillators (utilizing the original and proposed formulae), but one of them is suitable only. The new formula has been derived in a similar way of Cheung et al. However, using two simple conversion formulae such approximate solutions can be found easily from the classical Lindstedt-Poincare solution. For some rare nonlinear oscillators it requires their combination. In lack of linear restoring force the original formula (of Cheung et al.) fails. The generalized method also covers it. Keywords: Nonlinear oscillation, Perturbation method, Modified Lindstedt-Poincare methodhttp://www.sciencedirect.com/science/article/pii/S2090447919300243 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M.S. Alam I.A. Yeasmin Md.S. Ahamed |
| spellingShingle |
M.S. Alam I.A. Yeasmin Md.S. Ahamed Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators Ain Shams Engineering Journal |
| author_facet |
M.S. Alam I.A. Yeasmin Md.S. Ahamed |
| author_sort |
M.S. Alam |
| title |
Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators |
| title_short |
Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators |
| title_full |
Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators |
| title_fullStr |
Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators |
| title_full_unstemmed |
Generalization of the modified Lindstedt-Poincare method for solving some strong nonlinear oscillators |
| title_sort |
generalization of the modified lindstedt-poincare method for solving some strong nonlinear oscillators |
| publisher |
Elsevier |
| series |
Ain Shams Engineering Journal |
| issn |
2090-4479 |
| publishDate |
2019-03-01 |
| description |
The modified Lindstedt-Poincare method has been generalized for solving strongly nonlinear oscillators. The original formula (presented by Cheung et al.) covers a class of nonlinear problems. So, it requires another formula to cover the remaining class. Usually two solutions can be found for all nonlinear oscillators (utilizing the original and proposed formulae), but one of them is suitable only. The new formula has been derived in a similar way of Cheung et al. However, using two simple conversion formulae such approximate solutions can be found easily from the classical Lindstedt-Poincare solution. For some rare nonlinear oscillators it requires their combination. In lack of linear restoring force the original formula (of Cheung et al.) fails. The generalized method also covers it. Keywords: Nonlinear oscillation, Perturbation method, Modified Lindstedt-Poincare method |
| url |
http://www.sciencedirect.com/science/article/pii/S2090447919300243 |
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