摘要
这个工作涉及粘滞由于弄弯的拉长流动表。这个问题的类似答案被一个射击方法用 RungeKutta 算法数字地获得。象液体速度和皮肤磨擦系数一样的兴趣的物理数量在无尺寸的弯曲的影响下面被获得并且讨论。它从那无尺寸的弯曲在皮肤磨擦系数在边界层厚度和减少引起增加的结果是明显的。
This work is concerned with the viscous flow due to a curved stretching sheet. The similarity solution of the problem is obtained numerically by a shooting method using the Runge-Kutta algorithm. The physical quantities of interest like the fluid velocity and skin friction coefficient are obtained and discussed under the influence of dimensionless curvature. It is evident from the results that dimensionless curvature causes an increase in boundary layer thickness and a decrease in the skin friction coefficient.