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Fig 1.

The ℏ–curves for f″(0), θ′(0) and Φ′(0) when K = 0.01, λ1 = 0.5, λ = 0.9, γ1 = 0.1, M = 0.3, Pr = 1, Sc = k1 = 0.9 and k2 = 0.7.

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Fig 1 Expand

Table 1.

HAM solutions convergence when K = 0.01, λ1 = 0.5, λ = 0.9, γ1 = 0.1, M = 0.3, Pr = 1, Sc = k1 = 0.9 and k2 = 0.7.

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Table 1 Expand

Fig 2.

Impact of M on velocity.

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Fig 2 Expand

Fig 3.

Impact of λ on velocity.

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Fig 3 Expand

Fig 4.

Impact of λ1 on velocity.

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Fig 4 Expand

Fig 5.

Impact of K on velocity.

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Fig 5 Expand

Fig 6.

Impact of Pr on temperature.

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Fig 6 Expand

Fig 7.

Impact of γ1 on temperature.

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Fig 7 Expand

Fig 8.

Impact of K on temperature.

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Fig 8 Expand

Fig 9.

Impact of Sc on concentration.

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Fig 9 Expand

Fig 10.

Impact of k1 on concentration.

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Fig 10 Expand

Fig 11.

Impact of k2 on concentration.

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Fig 11 Expand

Fig 12.

Impact of λ on pressure.

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Fig 12 Expand

Fig 13.

Impact of λ1 on pressure.

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Fig 13 Expand

Fig 14.

Impact of K on pressure.

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Fig 14 Expand

Fig 15.

Impact of K via M on

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Fig 15 Expand

Fig 16.

Impact of λ1 via λ on

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Fig 16 Expand

Table 2.

Comparison of skin friction coefficient with previous published articles when λ1 = 0 = λ and K = ∞.

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Table 2 Expand

Fig 17.

Impact of γ1 via Pr on –θ′(0).

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Fig 17 Expand

Fig 18.

Impact of Pr via K on –θ′(0).

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Fig 18 Expand

Fig 19.

Impact of k1 via Sc on Φ(0).

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Fig 19 Expand

Fig 20.

Impact of k2 via Sc on Φ(0).

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Fig 20 Expand