@misc{Joseph_Kpop_Moses_Unsteady,
 author={Joseph, Kpop Moses and Ayankop-Andi, Emem and Mohammed, Sani U.},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={This study investigates the unsteady MHD flow of a fourth-grade fluid in a horizontal parallel plates channel. The upper plate is oscillating and moving while the bottom plate is stationary. Solutions for momentum, energy and concentration equations are obtained by the He-Laplace scheme.},
 abstract={This method was also used by Idowu and Sani and there is agreement with our results. The effect of various flow parameters controlling the physical situation is discussed with the aid of graphs. Significant results from this study show that velocity and temperature fields increase with the increase in the thermal radiation parameter, while velocity and concentric fields decrease with an increase in the chemical reaction parameter.},
 abstract={Furthermore, velocity, temperature and concentric fields decrease with an increase in the suction parameter. It is also interesting to note that when S4 = 0, our results will be in complete agreement with Idowu and Sani [12] results. The results of this work are applicable to industrial processes such as polymer extrusion of dye, draining of plastic films etc.},
 type={artykuł},
 title={Unsteady MHD plane couette-poiseuille flow of fourth-grade fluid with thermal radiation, chemical reaction and suction effects},
 keywords={thermal radiation, MHD, chemical reaction, fourth-grade fluid, suction, He-Laplace},
}