Abstract
Objectives: Magnetohydrodynamics (MHD) stream of Casson liquid over a limitless vertical porous plate with Newtonian heating is considered. Casson liquid is non-Newtonian liquid. Methods/ statistical analysis: The governing nonlinear equations are comprehended utilizing shooting system. Findings: The impacts of relevant governing parameters on the liquid velocity and the temperature are exhibited graphically. The coefficient of skin friction and the rate of heat transfer are determined numerically. The present outcomes have been good simultaneousness with existing outcomes under some unique cases. Applications: Porous plates are additionally used in the design of heat exchangers, computer assemblies, polymer industry, and automotive industry. Keywords: MHD, Casson Liquid, Newtonian Heating, Shooting Technique, Vertical Porous Plate.
Highlights
Magnetohydrodynamics (MHD) steam of Casson liquid over an infinite vertical porous plate is used in various Industrial and Engineering areas
The employments of magnetohydrodynamics are cooling of nuclear reactors, controlling boundary layer stream, geothermal energy extraction, sun power vitality gatherers, plasma aerodynamics, etc
The present assessment reveals that hydromagnetic stream of Casson liquid over a vast vertical porous plate with Newtonian heating
Summary
Magnetohydrodynamics (MHD) steam of Casson liquid over an infinite vertical porous plate is used in various Industrial and Engineering areas. Casson liquid is one of the non-Newtonian liquid. [10,11], researchers developed MHD natural convection flow past an impulsively started infinite vertical porous plate with Newtonian heating in the presence of radiation and effects of thermal radiation and mass diffusion on free convection flow near a vertical plate with Newtonian heating. The researchers [12,13,14,15,16,17,18,19] discovered the effect of MHD over a various geometries (vertical channel, vertical cylinder, stretching sheet)
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