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Beilstein J. Nanotechnol. 2020, 11, 1303–1315, doi:10.3762/bjnano.11.114
Figure 1: Schematic of the physical model in which a Casson nanofluid is passing a radially stretched surface...
Figure 2: The velocity profile of a fluid for increasing values of the Hartmann number, Ha.
Figure 3: The temperature profile of a fluid for increasing values of the Hartmann number, Ha.
Figure 4: The concentration profile of a fluid for increasing values of the Hartmann number, Ha.
Figure 5: The velocity profile for increasing values of A.
Figure 6: The temperature profile for increasing values of A.
Figure 7: The concentration profile for increasing values of A.
Figure 8: The velocity profile for increasing values of β.
Figure 9: The temperature profile for increasing values of β.
Figure 10: The concentration profile for increasing values of β.
Figure 11: The temperature profile for increasing values of Pr.
Figure 12: The concentration profile for increasing values of Pr.
Figure 13: The temperature profile for increasing values of Ec.
Figure 14: The temperature profile for increasing values of R.
Figure 15: The temperature profile for increasing values of Q.
Figure 16: The concentration profile for increasing values of Sc.
Figure 17: The concentration profile for increasing values of γ.
Figure 18: The temperature profile for increasing values of Nt.
Figure 19: The concentration profile for increasing values of Nt.
Figure 20: The temperature profile for increasing values of Nb.
Figure 21: The concentration profile for increasing values of Nb.
Figure 22: The temperature profile for increasing values of Bi1.
Figure 23: The concentration profile for increasing values of Bi2.