Table 1.
Convergence of series solutions for various order of approximations when K = 0.02, M = 0.1 = Nt, c = 0.2 = Nb, γ = 0.3, Le = 1.0 and Pr = 1.2 = n.
Fig 1.
The ħ-curves for the functions f(η) and g(η).
Fig 2.
The ħ-curves for the functions θ(η) and ϕ(η).
Table 2.
Values of skin-friction coefficients and
for various values of n, K, M and c.
Table 3.
Values of local Nusselt number for various values of n, K, M, c, γ, Nt, Nb, Le and Pr.
Table 4.
Values of temperature and nanoparticles concentration profiles for various values of n, K, M, c, γ, Nt, Nb, Le and Pr when η = 1.0.
Fig 3.
Effects of n and K on θ(η).
Fig 4.
Effects of n and M on θ(η).
Fig 5.
Effects of n and c on θ(η).
Fig 6.
Effects of n and γ on θ(η).
Fig 7.
Effects of n and Pr on θ(η).
Fig 8.
Effects of n and Nt on θ(η).
Fig 9.
Effects of n and K on ϕ(η).
Fig 10.
Effects of n and M on ϕ(η).
Fig 11.
Effects of n and c on ϕ(η).
Fig 12.
Effects of n and γ on ϕ(η).
Fig 13.
Effects of n and Le on ϕ(η).
Fig 14.
Effects of n and Pr on ϕ(η).
Fig 15.
Effects of n and Nb on ϕ(η).
Fig 16.
Effects of n and Nt on ϕ(η).