Abstract
Purpose The transient hydrodynamics and thermal behavior of free convection flow over an isothermal vertical flat plate is investigated. Designmethodologyapproach The study focuses on the role of the local acceleration term in the magnetohydrodynamic MHD momentum equation. A finite difference method based on a secondorder differential equation is used to solve the differential equations. Findings It is found that the local acceleration term has insignificant effect on the flow behavior especially at large values of magnetic forces. Also, it is found that the effect of the magnetic forces on the flow hydrodynamics behavior is significant but its effect on the thermal behavior is insignificant. It has been realized that the local acceleration term is usually small compared to the magnetic retarding force, and hence can be neglected. Research limitationsimplications A quantitative description of the operating and geometrical parameters within which the local acceleration term may be significant is not available in the literature yet. Also, the authors' intention is to improve physical understanding of the hydrodynamic and thermal behaviors of the present problem. Originalityvalue The study provides results concerning the thermal behavior of free convection flow.