Browsing by Author SALIHU, NASIRU OMEIZA
Showing results 1 to 7 of 7
| Issue Date | Title | Author(s) |
| 2022 | BOUNDARY LAYER ANALYSIS FLOW PAST A POROUS ROTATING DISK WITH DUFOUR AND SORET EFFECTS | YUSUF, ABDULHAKEEM; Abdulrahman, BIMA; SALIHU, NASIRU OMEIZA |
| 2016 | Effects of Pollutants and Atmospheric Temperature Rise on Agriculture | AIYESIMI, Y. M.; SALIHU, NASIRU OMEIZA |
| 2022 | FORMULATION OF 𝒌 −STEP ORDER 𝟐𝒌 FUZZY-STRUCTURED BLOCK HYBRID BACKWARD DIFFERENTIATION FORMULAE ALGORITHMS FOR THE APPROXIMATE SOLUTION OF FUZZY DIFFERENTIAL EQUATIONS | MOHAMMED, U.; USMAN, A. M.; SALIHU, NASIRU OMEIZA; MA’ALI, A. I.; AKINTUBOBO, B. G. |
| 2022 | Magnetohydrodynamics Micropolar Boundary Layer Flow Past a Stretching Sheet with Microstructural Slip Heat Generation with Convective Boundary Condition | YUSUF, A.; ISHAQ, M. A.; SAYEED, N. H.; SALIHU, NASIRU OMEIZA |
| 2021 | MATHEMATICAL MODELING OF BLOOD FLOW IN THE STENOSED ARTERY | SALIHU, NASIRU OMEIZA |
| 2022 | Mixed Convective Mmagnetohydrodynamics Micropolar Boundary Layer Flow Past a Stretching Sheet with Heat Generation | YUSUF, A.; ISHAQ, M. A.; SALIHU, NASIRU OMEIZA; SALISU, A.; BOLARIN, G. |
| 2022 | Mixed Convective Mmagnetohydrodynamics Micropolar Boundary Layer Flow Past a Stretching Sheet with Heat Generation 1Yusuf, A., 1 Ishaq, M. A., 1Salihu, N. O., 2Salisu, A. and 1Bolarin, G. 1Department of Mathematics, Federal University of Technology, Minna, Niger State, Nigeria 2Department of Computer Science, Niger State Polytechnic, Zungeru, Niger State, Nigeria ABSTRACT The problem of mixed convective magnetohydrodynamics micropolar boundary layer past a stretching sheet with heat generation was presented in rectangular form. The partial differential equations formulated are transformed into nonlinear ordinary differential equations using the stream functions and appropriate similarity variables. The solution to the nonlinear coupled ordinary differential equations is presented via decomposition method. The results are validated with the literatures and there is an agreement. The effects of dimensionless physical parameters which occur in the presented results are graphically studied in the absence of microstructural slip. The micro rotation is found to be a reducing agent of thermal and mass Grashof numbers while the fluid is an increasing agent due to the increase in the temperature which resulted in reduction of the viscousity. | YUSUF, A.; ISHAQ, M. A.; SALIHU, NASIRU OMEIZA; SALISU, A.; BOLARIN, G. |
