Ternary hybrid nanofluids offer promising roles in biomedical engineering, solar energy, atomic reactors, automobiles, and heat pipes. Through these facts influenced by recent work nanotechnology their rich utilization, this particular research emphasizes the MWCNT (Multi wall carbon nano tube)-Au-Ag/blood ternary nanofluid flow through a bidirectional stretching sheet. The coupled non-linear partial differential equations (PDEs) for developed model are altered into dimensionless ordinary (ODEs) via similarity transformations, also subsequently undertaken computationally spectral linearization methodology. physical description of parameters is presented against graphically, related quantities such as Sherwood quantity surface frictional force exhibited. Furthermore, plots to examine boundary layer effect. study reveals that increasing stretchable ratio upsurges velocity result thinning same direction, which reduces resistance fluid movement. Trihybrid rapidity less than due increment number molecules interspace between molecules. Enhancing Lorentz pores numbers factors nanofluid.

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