MAYFEB Journal of Mathematics

The modified differential transform method (MDTM) is formed the subject by a large number of publications. The MDTM is claimed to be an efficient method for obtaining periodic solution for the non-linear oscillatory systems. This paper examines the periodic solution of Helmholtz equation of motion having a non-odd restoring force function. The behavior of oscillations is expected to be different for the same magnitude of positive and negative amplitudes. The solution of the Helmholtz equation obtained utilizing the MDTM is unable to capture the unequal magnitudes of the positive and negative amplitudes for the specified frequency or the period. In addition to the presentation on the drawbacks in the MDTM, this paper recommends the harmonic balance method for obtaining accurate periodic solution of nonlinear Duffing oscillators.

V.S. Erturk and S. Momani, “Comparing numerical methods for solving fourth-order boundary value problems”, Applied Mathematics and

Computation, Vol.188, pp.1963-1968, 2007

Q. Mao, “Design of shaped piezoelectric modal sensors for cantilever beams with intermediate support by using differential transformation

method”, Applied Acoustics, Vol.73, pp.144-149, 2012.

M.M. Rashidi and E. Erfani, “Analytical method for solving steady MHD convective and slip flow due to a rotating disk with viscous

dissipation and Ohmic heating”, Engineering Computation, Vol.29, pp.562-579, 2012.

X.H. Su and L.C. Zheng, “Approximate solutions to MHD Falkner-Skan flow over permeable wall”, Applied Mathematics and Mechanics

(English Edition), Vol.32, pp.401-408, 2011

S. Hesam, A.R. Nazemi, and A. Haghbin, “Analytical solution for the Fokker-Plank equation by differential transform method”, Scientia

Iranika, Vol.19, pp.1140-1145, 2012

F. Ayaz, “Solutions of the system of differential equations by differential transform method”, Applied Mathematics and Computation,

Vol.147, pp.547–567, 2004

S. Momani and V.S. Ertu ̈rk, “Solutions of non-linear oscillators by the modified differential transform method”, Computers &

Mathematics with Applications, Vol.55, pp.833-842, 2008

F. Mirzaee, “Differential transform method for solving linear and nonlinear systems of ordinary differential equations”, Applied

Mathematical Sciences, Vol.5, No.70, pp.3465-3472, 2011

H. Askari, Z. Saadatnia, D. Younesian, A. Yildirim, and M.K. Yazdi, “Approximate periodic solutions for the Helmhlotz-Duffing

equation”, Computers & Mathematics with Applications, Vol. 62, pp.3894-3901, 2011.

M. Merdan and A. Go ̈kdogan, “Solution of non-linear oscillators with fractional nonlinearities by using the modified differential

transformation method”, Mathematical and Computational Applications, Vol.16, No.3, pp.761-772, 2011.

V.S. Ertu ̈rk, A. Yildirim, S. Momani, and Y. Khan, “The differential transform method and Pade’ approximants for a fractional population

growth model”, International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 22, pp.791-802, 2012.

S. Nourazar and A. Mirzabeigy, “Approximate solution for nonlinear Duffing oscillator with damping effect using the modified differential

transform method”, Scientia Iranica Transactions B: Mechanical Engineering, Vol.20, No.2, pp.364-368, 2013.

S.F.M. Ibrahim and S.M. Ismail, “A new modification of the differential transform method for a SIRC influenza model”, International

Journal of Computer Applications, Vol.69, No.19, pp.8-15, 2013

K. Aruna and A.S.V. Ravi Kanth, “Two-dimensional differential transform method and modified differential transform method for solving

nonlinear fractional Klein-Gordon equation”, National Academy Science Letters, Vol.37, No.2, pp.163-171, 2014

Doi: 10.1007/s40009-013-0209-0

A. Jaghavi, A. Babaei and A. Mohammed Pour, “Solution of fractional Zakharov-Kuznetsov equations by reduced differential transform

method”, Carpian Journal of Mathematical Sciences, Vol.4, No.1, pp.77-85, 2014.

M. Gubbs, Y. Keskin and G. Oturanc, “Numerical solution of time dependent foam drainage equation”, Computational Methods for

Differential Equations, Vol.3, No.2, pp.111-122, 2015

A. Khambayat and N. Patil, “The numerical solution of differential transform method and the Laplace transform method for second-order

differential equation”, International Journal of Mathematics and Computer Research, Vol.3, No.2, pp.871-875, 2015.

O.O. Agboola, A.A. Opanuga, and J.A. Gbadeyam, “Solution of third-order ordinary differential equation using differential transform

method”, Global Journal of Pure and Applied Mathematics, Vol.11, No.4, pp.2511-2516, 2015.

M.M. Rashidi, L. Shameklu, E. Momoniat, and J. Qing, “Irreversibility analysis of magneto-hydrodynamic nano-fluid flow injected

through a rotary disk”, Thermal Science, Vol.19, pp.s197-204, 2015.

K. Kumari, P.K. Gupta and G. Shanker, “An exact solution of diffusion equation with boundary conditions by Pade-Laplace differential

transform method”, International Journal of Mathematics and its Applications, Vol.3, No.4, pp.1-8, 2015.

H.M. Abdelhafez, “Solution of excited non-linear oscillators under damping effects using the modified differential transform method”,

Mathematics, Vol.4, No.11, 2016. doi:10.3390/math4010011

S. Kan Zari, S. Ben Mariem and H. Sahraoui, “A reduced differential transform method for solving the advection and the heat-like

equations”, Physics Journal, Vol.2, No.2, pp.84-87, 2016.

S.O. Edeki, G.O. Akinlabi, and S.A. Adeosun, “Analytic and numeric solution of time-fractional linear Schrodinger equation”,

Communications in Mathematics and Applications, Vol.7, No.1, pp.1-10, 2016

B. Ghazanfari and P. Ebrahimi, “Differential transformation method for solving hybrid fuzzy differential equations”, journal of

Hyperstructure, Vol.5, No.1, pp.69-83, 2016

M. Najafgholipour and N. Soodbakhsh, “Modified differential transform method for solving vibration equations of MDOF systems”, Civil

Engineering Journal, Vol.2, No.4, pp.123-139, 2016

A. Venkateswara Rao and B. Nageswara Rao, “Some remarks on the harmonic balance method for mixed-parity non-linear oscillations”,

Journal of Sound and Vibration, Vol.170, No.4, pp.571-576, 1994

S.V.S. Narayana Murthy and B. Nageswara Rao, “Further comments on Harmonic balance: Comparison of equation of motion and energy

methods”, Journal of Sound and Vibration, Vol.183, No.3, pp.563-565, 1995.

R.E. Mickens, “Mathematical and numerical study of the Duffing-harmonic oscillator”, Journal of Sound and Vibration, Vol.244, pp.563-

, 2001

B.S. Wu, W.P. Sun and C.W. Lim, “An Analytical approximate technique for a class of strongly non-linear oscillators”, International

Journal of Nonlinear Mechanics, Vol.41, pp. 766-774, 2006

M. Ghadaimi and H.D. Kaliji, “Application of the Harmonic balance method on nonlinear Equations”, World Applied Sciences Journal,

Vol.22, No.4, pp. 532-537, 2013.