1·The derived equation was compared with experimental data and found to fit very well.
并以实验数据对该方程进行了验证,两者符合程度甚佳。
2·The reason is that the derived equation assumes the formation is homogeneous and fluid flow is single phase.
具原因在于公式推导中假定地层是均质的、 流体做单相流动等。
3·By using finite difference method, the derived equation was solved coupling with energy conservation equations.
利用有限差分法将该方程与能量守恒方程进行了耦合求解。
4·Moreover, the derived equation, and the stability theory of differential equations to explain the actual meaning of equations.
再者,求出方程的解,并用微分方程解的不变性理论诠释方程解的实践意义。
5·The derived equation provides a basis for how to put the rollers in a suitable position. The authors also simply introduce how to use the computer program of drawing section curve of belt.
所导出的方程对于圆管式胶带机在过渡段内的托辊布置提供了初步的依据,并简要地介绍了画胶带横截面曲线的计算机程序。
6·When the upper and the lower half-planes are of the same parameters, the stress field of crack of orthotropic composite materials can be obtained. The derived equation is verified with FEM analysis.
当上下半平面材料参数相同时,可获得受弯曲载荷正交异性复合材料板裂纹尖端应力场,并利用有限元算例分析验证了理论结果的正确性。
7·Lens equation is derived by using Fermat's principle.
用费马原理推导了透镜的物像公式.
8·For example, If a production run has generated 200 units, the total cost can be derived by taking the equation below and applying it 200 times (for units 1 to 200) and then summing the 200 values.
例如,如果一个生产产生了了200个单位,那么总成本可以通过应用下面公式200次得到(从1到200)然后把这200个数值相加。
9·Now that you understand the contributions of each of the parts of a WebSphere eXtreme Scale solution, you can see the need to apply some best practices derived from the factors in this equation
我们已经了解了 WebSphere eXtreme Scale 解决方案的每个组成的作用,现在需要应用一些从该方程式中各因子推断得出的最佳实践
10·Best practices derived from the caching equation.
从缓存方程序得出的最佳实践。