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Magnetohydrodynamic flow and heat transfer of a hybrid nanofluid over a rotating disk by considering Arrhenius energy
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M Gnaneswara Reddy,Naveen Kumar R,B C Prasannakumara,N G Rudraswamy,K Ganesh Kumar
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Table 3. Numerical values of ${{Re}}^{-1/2}Nu$ for different physical parameter values for both the hybrid and nanofluid case.
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| | | | | ${{Re}}^{-1/2}Nu$ |
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| ${\Pr }$ | $Ec$ | $M$ | ${\varnothing }_{1}$ | ${\varnothing }_{2}$ | Nanofluid | Hybrid nanofluid |
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| 0.1 | | | | | 0.147 526 | 0.166 076 | | 0.3 | | | | | 0.171 266 | 0.166 270 | | 0.5 | | | | | 0.201 602 | 0.201 61 | | 0.1 | | | | 0.262 315 | 0.171 266 | | 0.3 | | | | 0.238 968 | 0.166 031 | | 0.5 | | | | 0.218 061 | 0.161 655 | | | 0.1 | | | 0.184 255 | 0.179 411 | | | 0.2 | | | 0.187 977 | 0.180 097 | | | 0.3 | | | 0.192 973 | 0.183 820 | | | | 0.1 | | 2.452 295 | 2.457 524 | | | | 0.2 | | 2.349 007 | 2.359 885 | | | | 0.3 | | 2.241 073 | 2.258 100 | | | | | 0.1 | 2.632 48 | 2.527 524 | | | | | 0.2 | 2.415 200 | 2.429 885 | | | | | 0.3 | 2.351 073 | 2.338 100 |
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