Abstract This study investigates the features of Hall current and thermophysical properties (viscosity, density and thermal conductivity) on unsteady, compressible, laminar flow of viscous fluid. Swirl flow is perceived by oscillatory movement of revolving disk. The well suited variables are adapted in order to achieve the non-similar system of expressions. The non-similar solutions are worked out numerically through scheme of finite differences and then utilizing Successive over Relaxation (SOR) technique. Physical parameters are discussed through one, two and three dimensional graphical forms. Tabular description of the resulting quantities is also formulated. The oscillatory thermal traces enhanced corresponding to increased magnetic parameter. An enhancement in Prandtl number contributes to lower down the thermal field but improves the rate of heat transportation.

中文翻译：

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霍尔电流和热物理特性在粘性流体透旋振荡盘可压缩流动中的有效性

摘要 本研究研究了粘性流体不稳定、可压缩、层流时的霍尔电流特性和热物理特性（粘度、密度和热导率）。旋流是通过旋转盘的振荡运动来感知的。调整非常适合的变量以实现非相似的表达系统。非相似解是通过有限差分方案，然后利用连续过度松弛（SOR）技术以数值方式计算出来的。物理参数通过一维、二维和三维图形形式进行讨论。还制定了结果数量的表格描述。振荡热迹增强对应于增加的磁参数。