Investigations into the magnetohydrodynamics of viscous fluids have become more important in recent years, owing to their practical significance and numerous applications in astro-physical and geo-physical phenomena. In this paper, the radial base function was utilized to answer fractional equation associated with fluid flow passing through two parallel flat plates with a magnetic field. The magnetohydrodynam- ics coupled stress fluid flows between two parallel plates, with the bottom plate being stationary and the top plate moving at a persistent velocity. We compared the radial basis function approach to the numer- ical method (fourth-order Range-Kutta) in order to verify its validity. The findings demonstrated that the discrepancy between these two techniques is quite negligible, indicating that this method is very reliable. The impact of the magnetic field parameter and Reynolds number on the velocity distribution perpendic- ular to the fluid flow direction is illustrated. Eventually, the velocity parameter is compared for diverse conditions α , Reynolds and position ( y ), the maximum of which occurs at α = 0.4. Also, the maximum velocity values occur in α = 0.4 and Re = 1000 and the concavity of the graph is less for α = 0.8.

Saman Hosseinzadeh;Seyed Mahdi Emadi;Seyed Mostafa Mousavi;Davood Domairry Ganji

Department of Mechanical Engineering,Babol Noshirvani University of Technology,Babol,Iran

力学快报（英文）

[1]Saman Hosseinzadeh;Seyed Mahdi Emadi;Seyed Mostafa Mousavi;Davood Domairry Ganji-.Mathematical modeling of fractional derivatives for magnetohydrodynamic fluid flow between two parallel plates by the radial basis function method)[J].力学快报（英文）,2022(04):241-250

magnetohydrodynam,perpendic

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