Table 3 Comparison of \({f}^{\prime\prime} (0,\text{0)}\) and \(-{\theta }^{\prime}(0,0)\) at \(\varepsilon =\phi ={N}_{R}=0\) for different Prandtl number values (0.1, 1.0, 10).
From: Thermal radiation effects on nanofluid flow over a vertical cone in the presence of pressure work
\(f^{{\prime}{\prime}}(\text{0,0})\) | \(-\theta^ {\prime}(\text{0,0})\) | |||||||
|---|---|---|---|---|---|---|---|---|
\(\text{Pr}\) | Cebeci and Bradshaw36 | Present results | Na37 | Na and Chiou38 | Cebeci and Bradshaw36 | Kays and Crawford39 | Lin and Chen40 | Present results |
0.1 | 1.2104 | \(1.2150\) | – | – | 0.1637 | 0.164 | 0.1627 | 0.162733 |
1.0 | 0.9081 | 0.9081 | 0.4010 | 0.4011 | 0.4009 | 0.4010 | 0.4009 | 0.401011 |
10 | 0.5930 | 0.5926 | 0.8269 | 0.8269 | 0.8266 | 0.8270 | 0.8258 | 0.826651 |
