Applied Mathematics

Applied Mathematics

ISSN Print: 2152-7385
ISSN Online: 2152-7393
www.scirp.org/journal/am
E-mail: am@scirp.org
"Exact Solution to Nonlinear Differential Equations of Fractional Order via (G’/G)-Expansion Method"
written by Muhammad Younis, Asim Zafar,
published by Applied Mathematics, Vol.5 No.1, 2014
has been cited by the following article(s):
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[1] New Types of Soliton Solutions for Space-time Fractional Cubic Nonlinear Schrodinger Equation
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[2] Exact and explicit travelling traveling wave solution to the time-fractional phi-four and (2+ 1) dimensional CBS equations using the modified extended tanh …
2021
[3] Stable soliton solutions to the time fractional evolution equations in mathematical physics via the new generalized G′/G-expansion method
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[4] Interaction among lump, periodic, and kink solutions with dynamical analysis to the conformable time-fractional Phi-four equation
2021
[5] On the Exact Traveling Wave Solutions to the van der Waals p-System
2021
[6] An Extension of the Double-Expansion Method for Conformable Fractional Differential Equations
2020
[7] A weak Galerkin finite element method for solving time-fractional coupled burgers' equations in two dimensions
2020
[8] New Exact Solutions of the Time-space Fractional order (1+ 3)− Dimensional Burger Equation
2020
[9] Peer Review History: Kink Type Traveling Wave Solutions of Righthanded Non-commutative Burgers Equations via Extended (G0/G)-Expansion Method
Physical Science International Journal, 2019
[10] The conformable space-time fractional mKdV equations and their exact solutions
2019
[11] Bright and Singular Soliton Solutions of Tzitzéica Type Equations Appear in Nonlinear Optics
2019
[12] Closed form wave solutions to the time fractional Boussinesq-type equation and the Zakharov-Kuznetsov equation
2019
[13] Regarding rational exponential and hyperbolic functions solutions of conformable time-fractional Phi-four equation
2018
[14] A variety of explicit exact and soliton type solutions of conformable fractional Equal-Width equations
2018
[15] New exact wave solutions to the space-time fractional coupled Burgers equations and the space-time fractional foam drainage equation
Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 2018
[16] Traveling wave solution of conformable fractional generalized reaction Duffing model by generalized projective Riccati equation method
Optical and Quantum Electronics, 2018
[17] New exact wave solutions to the space-time fractional-coupled Burgers equations and the space-time fractional foam drainage equation
Cogent Physics, 2018
[18] ()-Expansion method: new traveling wave solutions for some nonlinear fractional partial differential equations
Optical and Quantum Electronics, 2018
[19] Rational exponential solutions of conformable space-time fractional equal-width equations
Nonlinear Engineering, 2018
[20] Analytical approach for space–time fractional Klein–Gordon equation
Optik, 2017
[21] New exact solutions of some nonlinear evolution equations of pseudoparabolic type
Optical and Quantum Electronics, 2017
[22] Auxiliary equation method for time-fractional differential equations with conformable derivative
Computers & Mathematics with Applications, 2017
[23] Solitary Waves Solutions of Non-Linear Schrodinger Equation with Higher Order Dispersion by Phase Amplitude Method Mathematically
2017
[24] Solving Space-Time Fractional Differential Equations by Using Modified Simple Equation Method
Communications in Theoretical Physics, 2016
[25] Regarding on the exact solutions for the nonlinear fractional differential equations
Open Physics, 2016
[26] Solitary wave and shock wave solutions of (1+ 1)-dimensional perturbed Klein-Gordon,(1+ 1)-dimensional Kaup-Keperschmidt and (2+ 1)-dimensional ZK-BBM …
Open Engineering, 2015
[27] Fractional variational iteration method for fractional 2 Fornberg-Whitham equation and comparison with the 3 undetermined coefficient method 4
2015
[28] The generalized projective Riccati equations method and its applications for solving two nonlinear PDEs describing microtubules
International Journal of Physical Sciences, 2015
[29] Fractional variational iteration method for fractional Fornberg-Whitham equation and comparison with the undetermined coefficient method
British Journal of Mathematics & Computer Science, 2015
[30] Numerical solution of time fractional Burgers equation
Acta Universitatis Sapientiae, Mathematica, 2015
[31] Solitary wave and shock wave solutions of (1+ 1)-dimensional perturbed Klein-Gordon,(1+ 1)-dimensional Kaup-Keperschmidt and (2+ 1)-dimensional ZK-BBM …
Open Engineering, 2015
[32] Existence and Uniqueness of Positive Solution for a Nonlinear Multi-Order Fractional Differential Equations
British Journal of Mathematics & Computer Science, 2014
[33] Solitary wave and shock wave solitons to the transmission line model for nano-ionic currents along microtubules
Applied Mathematics and Computation, 2014
[34] Existence and Uniqueness of Positive Solution for a Nonlinear Multi-Order Fractional Differential Equations.
British Journal of Mathematics & Computer Science, 2014
[35] Analytical Solutions to the Fractional Fisher Equation by Applying the Fractional Sub-equation Method
British Journal of Mathematics & Computer Science, 2014
[36] Caudrey-Dodd-Gibbon 方程相似, 约化, 精确解及守恒律
聊城大学学报: 自然科学版, 2014
[37] A New Approach for the Exact Solutions of Nonlinear Equations of Fractional Order via Modified Simple Equation Method
Applied Mathematics, 2014
[38] New Applications to Solitary Wave Ansatz
Applied Mathematics, 2014
[39] Solution of Nonlinear Space-time Fractional Differential Equation via the Triple Fractional Riccati Expansion Method
British Journal of Mathematics & Computer Science, 2014
[40] Solution of Nonlinear Space–time Fractional Differential Equation via the Triple Fractional Riccati Expansion Method
2014
[41] Partial Differential Equations in Applied Mathematics
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