Abstract
Abstract This article presents the results of the studies relating to the squeezing flow of copper–water nanoliquid between two moving parallel plates in existence of a magnetic field using a semi analytical technique namely Differential Transformation Method (DTM). A special feature of this paper is the inclusion of heat radiation term on the flow behavior of the nanofluid. Influences of physical parameters; Eckert number, squeezing parameter, Hartmann number, and thermal radiation on temperature and velocity profiles are analyzed and discussed with tables and graphs. Through this study it is found that the increasing squeezing parameter and Hartmann number lower the velocity & thermal profiles. Further in enhancing the radiation parameter the temperature decreases to a greater extent. The outcomes obtained in this investigation are analogized with the results of earlier investigator.
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