Journal of Applied Mathematics

Research Article

The Effects of Chemical Reaction, Hall, and Ion-Slip Currents on MHD Micropolar Fluid Flow with Thermal Diffusivity Using a Novel Numerical Technique

Table 1

Comparison of the present results (4th-order) for the local Nusselt number 𝜃 ( 0 ) against the 𝑏 𝑣 𝑝 4 𝑐 results and the results of [12] for various values of 𝛽 𝑒 , 𝛽 𝑖 and 𝑀 at P r = 0 . 7 2 , 𝛽 2 = 0 . 5 , 𝑓 𝑤 = 0 . 1 , 𝑘 𝑝 = 2 , R e = 1 , 𝐺 = 2 , 𝑁 1 = 0 . 2 , and E c = 0 . 0 2 .
𝑀 𝛽 𝑒 𝛽 𝑖 [12] Presentbvp4c
0 5 0.4 0.327498 0.32749528 0.32749528
0.5 0.324844 0.32484164 0.32484164
1 0.321912 0.32190912 0.32190912
1.5 0.318772 0.318768090.31876809
0.3 0 0.311234 0.31122885 0.31122885
1 0.319297 0.31929392 0.31929392
2 0.323083 0.323080610.32308061
0.3 5 0 0.326696 0.32669328 0.32669328
0.2 0.326225 0.32622274 0.32622274
0.5 0.325865 0.32586231 0.32586231