Abstract
This chapter is associated with the nanocomposite microemulsions study of single-walled carbon nanotubes in arteries with applications of nanocomposite materials in drug delivery. The main flow problem has been modeled using cylindrical coordinates and flow equations are simplified to ordinary differential equations using long wavelength and low Reynolds number approximation, and exact solutions have been obtained for velocity, pressure gradient, and temperature. Results acquired are discussed graphically for better understanding. It is seen that with an increment in the Grashof number the velocity of the governing fluids start to decrease significantly.
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