M
M. S. Alam
Researcher at Chittagong University of Engineering & Technology
Publications - 41
Citations - 249
M. S. Alam is an academic researcher from Chittagong University of Engineering & Technology. The author has contributed to research in topics: Boundary layer & Natural convection. The author has an hindex of 8, co-authored 41 publications receiving 188 citations. Previous affiliations of M. S. Alam include University of Rajshahi & University of South Alabama.
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Head-on collision of ion acoustic shock waves in electron-positron-ion nonextensive plasmas for weakly and highly relativistic regimes
TL;DR: In this paper, two-sided KdV-Burger equations are derived employing the extended Poincar e ´-Lighthill-Kuo method, considering the plasma system to be consisting of relativistic warm ions and nonextensive electrons and positrons, taking into account the effects of nonlinearity and dispersion.
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Similarity Solution of Unsteady MHD Boundary Layer Flow and Heat Transfer past a Moving Wedge in a Nanofluid using the Buongiorno Model
TL;DR: In this article, the Boungiorno model is applied to the MHD boundary layer flow and heat transfer over a wedge stretching surface moving in a nanofluid with the effects of various dimensionless parameters.
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Interactions of ion acoustic multi-soliton and rogue wave with Bohm quantum potential in degenerate plasma
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Similarity Solution of Heat and Mass Transfer Flow over an Inclined Stretching Sheet with Viscous Dissipation and Constant Heat Flux in Presence of Magnetic Field
TL;DR: In this article, the impact of the flow parameters on the velocity, temperature, and concentration are computed, discussed and have been graphically represented in figures and also the shearing stress, and rate of concentration shown in table 1 for various values of different parameters.
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Head-on collision of ion acoustic solitary waves in electron-positron-ion nonthermal plasmas for weakly and highly relativistic regimes
TL;DR: In this paper, a comparative study of the interactions between nonlinear ion acoustic solitary waves (IASWs) propagating toward each other, and the electrostatic nonlinear propagation of IASWs, both for the weakly and relativistic regimes consisting of relativistically warm ions, nonthermal electrons, and positrons, is carried out.