Add to ORKGIn this current paper, the fractional Riccati expansion method is proposed for obtaining the new exact solutions of the time-fractional Gardner equation. The fractional derivative is considered in the sense of Jumarie’s modified Riemann-Liouville fractional derivative (JMRFD). A travelling wave transformation is firstly utilized to convert the nonlinear fractional partial differential equation (NFPDE) into a fractional ordinary differential equation (FODE). Our main intention in this present paper is to indicate that the suggested method is appropriate to obtain the new exact solutions of fractional partial differential equations. It can be said that the main advantage of the mentioned scheme is very simple and easy to apply. As a result, a...
Based on Jumarie’s modified Riemann-Liouville derivative, the fractional complex transformation is u...
WOS: 000320812300001Nonlinear fractional partial differential equations have been solved with the he...
Abstract In this paper, the two variables (G′G,1G) $( \frac{G'}{G},\frac{1}{G} ) $-expansion method ...
The fractional Riccati expansion method is proposed to solve fractional differential equations. To i...
In this paper, the improved fractional Riccati expansion method is proposed to solve fractional diff...
We have enucleated new and further exact general wave solutions, along with multiple exact traveling...
In this paper, a new fractional Riccati equation rational expansion method is proposed to establish ...
In this article, we investigate the exact traveling wave solutions of two nonlinear time fractional ...
Fractional order nonlinear evolution equations involving conformable fractional derivative are formu...
In this paper, we constructed a traveling wave solutions expressed by three types of functions, whic...
AbstractIn this paper, the fractional partial differential equations are defined by modified Riemann...
Purpose – Fractional order nonlinear evolution equations (FNLEEs) pertaining to conformable fraction...
In this article, modified (G\u27/G )-expansion method is presented to establish the exact complex so...
In this paper, we obtain several novelty solutions by applying the improved F-expansion method to so...
In this article, the analytical solutions to the space-time fractional foam drainage equation and th...
Based on Jumarie’s modified Riemann-Liouville derivative, the fractional complex transformation is u...
WOS: 000320812300001Nonlinear fractional partial differential equations have been solved with the he...
Abstract In this paper, the two variables (G′G,1G) $( \frac{G'}{G},\frac{1}{G} ) $-expansion method ...
The fractional Riccati expansion method is proposed to solve fractional differential equations. To i...
In this paper, the improved fractional Riccati expansion method is proposed to solve fractional diff...
We have enucleated new and further exact general wave solutions, along with multiple exact traveling...
In this paper, a new fractional Riccati equation rational expansion method is proposed to establish ...
In this article, we investigate the exact traveling wave solutions of two nonlinear time fractional ...
Fractional order nonlinear evolution equations involving conformable fractional derivative are formu...
In this paper, we constructed a traveling wave solutions expressed by three types of functions, whic...
AbstractIn this paper, the fractional partial differential equations are defined by modified Riemann...
Purpose – Fractional order nonlinear evolution equations (FNLEEs) pertaining to conformable fraction...
In this article, modified (G\u27/G )-expansion method is presented to establish the exact complex so...
In this paper, we obtain several novelty solutions by applying the improved F-expansion method to so...
In this article, the analytical solutions to the space-time fractional foam drainage equation and th...
Based on Jumarie’s modified Riemann-Liouville derivative, the fractional complex transformation is u...
WOS: 000320812300001Nonlinear fractional partial differential equations have been solved with the he...
Abstract In this paper, the two variables (G′G,1G) $( \frac{G'}{G},\frac{1}{G} ) $-expansion method ...