Abstract
The concept of computational algorithmic and sustainable elastic artery
evaluation and its impact on different variables such as structural and morphological
variations and its applications are explored in this chapter. The Crank-Nicolson
approach has solved the mathematical goal of the equation. The result is explained in
the case of blood supply in elastic vessels while the electromagnetic effect is
established. In this computational analysis, the discrepancy between the arteries and
veins attached to the elastic arteries in the blood vessel is easier than determining the
presence or absence of the elastic layer within the vessel. The obtained results in the
analysis are in relatively accurate compliance with the computational findings in this
chapter. The findings may be applicable to cases of pulmonary edema, etc.
Keywords: Blood flow, Computational algorithm, Crank- Nicolson scheme, Elastic artery, Shear rate, Vessels.
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