Magnetohydrodynamic flow and heat transfer of a hybrid nanofluid over a rotating disk by considering Arrhenius energy

M Gnaneswara Reddy,Naveen Kumar R,B C Prasannakumara,N G Rudraswamy,K Ganesh Kumar

Table 5. Comparison of of statistical values with Miklavcic and Wang [36] in the absence of $M,$ $\varepsilon ,$ $\lambda $ Pressure gradient, nanoparticles, energy and mass effects.

Miklavcic and Wang [36] Present results A $\eta $ $f^{\prime\prime} (0)$ $g^{\prime} (0)$ $f^{\prime\prime} (0)$ $g^{\prime} (0)$ 0.0 0.0 0.510 232 −0.615 922 0.509 680 −0.605 830