Abstract

The measuring instrument for medical investigation and bio screening depending on organic labeling and nanoparticle identification is an active research in the current world. An analytical approach is used in order to investigate mass and heat transfer properties on an unstable movement of Casson nanofluid beyond the stretched exterior under the influence of induction heat. In addition to this, a simple perturbation method is used to determine the flow of dominating mathematical statements, while titanium oxide and ferrous oxide nanoparticles are drooping in H2O based nanofluid. The velocity increases with the temperature slip. The field of magnetic has the stability to raise the ending layer surface to slow down the velocity. The friction factor grows with the amplification in the nanoparticle volume fraction and it lessens with the raise of the thermal slip. The thermal convection effect of nanoparticles reveals that the temperature distribution increases, as a result, helps to damage cancer cells in the process of medicine distribution.

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