Results 151 to 160 of about 296 (163)
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AIP Conference Proceedings, 2014
In this study, we consider exact solutions of nonlinear time-fractional Klein-Gordon equation by using generalized Kudryashov method (GKM). The nonlinear time-fractional Klein-Gordon equation can be converted into nonlinear ordinary differantial equation by transformation. Consequently, GKM has been implemented to find exact solutions of nonlinear time-
Seyma Tuluce Demiray +2 more
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In this study, we consider exact solutions of nonlinear time-fractional Klein-Gordon equation by using generalized Kudryashov method (GKM). The nonlinear time-fractional Klein-Gordon equation can be converted into nonlinear ordinary differantial equation by transformation. Consequently, GKM has been implemented to find exact solutions of nonlinear time-
Seyma Tuluce Demiray +2 more
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Applications of generalized Kudryashov method to non linear evolution equations
AIP Conference Proceedings, 2022Monika Jangra +2 more
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Application of Generalized Kudryashov Method to the Burger Equation
International Journal of Mathematics Trends and Technology, 2016Rafiqul Islam, Harun-Or Roshid
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Physica Scripta
Abstract We take into account the nonlinear complex generalized Zakharov dynamical system which models the spread of the Langmuir waves in ionized plasma, in the conformal sense in this manuscript. Fractional wave transformation is enforced to convert the nonlinear fractional system to a nonlinear ordinary differential equation system ...
Aydin Secer +6 more
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Abstract We take into account the nonlinear complex generalized Zakharov dynamical system which models the spread of the Langmuir waves in ionized plasma, in the conformal sense in this manuscript. Fractional wave transformation is enforced to convert the nonlinear fractional system to a nonlinear ordinary differential equation system ...
Aydin Secer +6 more
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Modern Physics Letters A
In this paper, we study variational integrators (VIs) with the help of projection technique for Korteweg–de Vries (KdV) equation. First, we use forward, backward and central difference schemes. After that, we use Lagrangian, Euler–Lagrange equation and discrete Euler–Lagrange equation to find numerical solution to KdV equation.
Syed T. R. Rizvi +4 more
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In this paper, we study variational integrators (VIs) with the help of projection technique for Korteweg–de Vries (KdV) equation. First, we use forward, backward and central difference schemes. After that, we use Lagrangian, Euler–Lagrange equation and discrete Euler–Lagrange equation to find numerical solution to KdV equation.
Syed T. R. Rizvi +4 more
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Optical solitons and conservation laws with generalized Kudryashov’s law of refractive index
Chaos, Solitons and Fractals, 2020Elsayed M E Zayed +2 more
exaly
Solitons and conservation laws in magneto–optic waveguides with generalized Kudryashov’s equation
Chinese Journal of Physics, 2021Elsayed M E Zayed +2 more
exaly
Modified Kudryashov Method to Solve Generalized Kuramoto-Sivashinsky Equation
Symmetry, 2018Adem Kiliçman +1 more
exaly
SOLITARY WAVE SOLUTIONS OF SPACE TIME FDES USING THE GENERALIZED KUDRYASHOV METHOD
ACTA UNIVERSITATIS APULENSIS, 2015openaire +1 more source

