Higher-order approximate solutions to the relativistic and Duffing-harmonic oscillators by modified He's homotopy methods

Beléndez, Augusto; Pascual, Carolina; Fernández, Elena; Neipp, Cristian; Beléndez, Tarsicio

doi:10.1088/0031-8949/77/02/025004

Cited by 24 publications

(34 citation statements)

References 41 publications

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“…For small values of the amplitude A it is possible to take into account the following power series expansions [15,16] …”

Section: Comparison With the Exact And Other Approximate Solutionmentioning

confidence: 99%

“…It is important to point out that the exact behaviour of the approximate frequency when A tends to zero is not obtained when other approximate methods as used including the harmonic balance method [17][18][19], the homotopy perturbation method [15,16], the energy balance method [20], the variational iteration method [21], a modified iteration procedure [22] or the Ritz procedure [23].…”

Section: Comparison With the Exact And Other Approximate Solutionmentioning

confidence: 99%

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An explicit approximate solution to the Duffing-harmonic oscillator by a cubication method

et al. 2009

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The nonlinear oscillations of a Duffing-harmonic oscillator are investigated by an approximated method based on the 'cubication' of the initial nonlinear differential equation. These explicit formulas are valid for all values of the initial amplitude and we conclude this cubication method works very well for the whole range of initial amplitudes. Excellent agreement of the approximate frequencies and periodic solutions with the exact ones is demonstrated and discussed and the relative error for the approximate frequency is as low as 0.071%. Unlike other approximate methods applied to this oscillator, which are not capable to reproduce exactly the behaviour of the approximate frequency when A tends to zero, the cubication method used in this paper predicts exactly the behaviour of the approximate frequency not only when A tends to infinity, but also when A tends to zero. Finally, a closedform expression for the approximate frequency is obtained in terms of elementary functions.To do this, the relationship between the complete elliptic integral of the first kind and the arithmetic-geometric mean as well as Legendre's formula to approximately obtain this mean are used.

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“…For small values of the amplitude A it is possible to take into account the following power series expansions [15,16] …”

Section: Comparison With the Exact And Other Approximate Solutionmentioning

confidence: 99%

Section: Comparison With the Exact And Other Approximate Solutionmentioning

confidence: 99%

An explicit approximate solution to the Duffing-harmonic oscillator by a cubication method

et al. 2009

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“…In order to determine an improved approximation we use a generalized, rational form given by the following expression [61,62] …”

Section: Solution Proceduresmentioning

confidence: 99%

A Novel Rational Harmonic Balance Approach for Periodic Solutions of Conservative Nonlinear Oscillators

Gimeno¹,

Álvarez²,

Gallego³

et al. 2009

International Journal of Nonlinear Sciences and Numerical Simulation

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An analytical approximate procedure for a class of conservative single degree-of-freedom nonlinear oscillators with odd non-linearity is proposed. This technique is based on the generalized harmonic balance method in which analytical approximate solutions have rational forms. Unlike the classical harmonic balance techniques, in this new procedure the approximate solution and the restoring force are expanded in Fourier series prior to substituting them in the nonlinear differential equation. This approach gives us not only a truly periodic solution but also the frequency of the motion as a function of the amplitude of oscillation. Four nonlinear oscillators are presented to illustrate the usefulness and effectiveness of the proposed technique. The most significant features of this method are its simplicity and its excellent accuracy for the whole range of oscillation amplitude values and the results reveal that this technique is very effective and convenient for solving a class of conservative nonlinear oscillatory systems.

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“…In previous papers [37,38] we considered the simplest case, N = 1 (n = 0, 1), in (27) - (29), however, now we are going to improve He's homotopy perturbation method taking into account the approximation N = 2 (n = 0, 1, 2). We obtain…”

Section: Formulation and Solution Approachmentioning

confidence: 99%

Approximate Solutions for Conservative Nonlinear Oscillators by He’s Homotopy Method

Yebra¹

2008

Zeitschrift Für Naturforschung A

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He's homotopy perturbation method is adapted to calculate higher-order approximate periodic solutions of conservative nonlinear oscillators for which the elastic force term is an odd nonlinear function. The method is modified by truncating the infinite series corresponding to the first-order approximate solution before introducing this solution in the second-order linear differential equation, and so on. With carefully constructed iterations, only a few iterations can provide very accurate analytical approximate solutions. An example is presented to illustrate the usefulness and effectiveness of the proposed technique, and comparison of the results obtained using this method with those obtained using other techniques reveals that the former is very effective and convenient.

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Higher-order approximate solutions to the relativistic and Duffing-harmonic oscillators by modified He's homotopy methods

Cited by 24 publications

References 41 publications

An explicit approximate solution to the Duffing-harmonic oscillator by a cubication method

An explicit approximate solution to the Duffing-harmonic oscillator by a cubication method

A Novel Rational Harmonic Balance Approach for Periodic Solutions of Conservative Nonlinear Oscillators

Approximate Solutions for Conservative Nonlinear Oscillators by He’s Homotopy Method

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