利用下面的代换,便于使这个问题无量纲化。
It is convenient to nondimensionalize this problem with the following substitutions .
对于指标的无量纲化处理,本文主张采用极值化方法。
The paper advocates using extreme method for non-dimension of indicators.
其中一阶和二阶差分关联度能满足规范性要求,具有无量纲化后的保序性。
The first order and second order incidence degree formulae can satisfy the requirement of specification, and possess isotonicity after non-dimensional disposal.
分析研究采用专家法、无量纲化方法和加权分析法进行计算,得出理想成本及运行收益的数值。
By means of a comprehensive calculation which uses the expert method, no-dimension analysis and weighted analysis method reaches an ideal cost and operation income analysis result.
车辆在道路路段上的旅行支出是综合考虑道路的各种属性,通过加权、无量纲化等计算后的结果。
Traveling cost of vehicle on a road segment is resulting from all kinds of road attribute, through computation of weighting, dimensionless etc.
通过联合使用绝对和相对误差限,可以对使用无量纲化方法设计光子晶体光纤时引入的误差进行评估。
By using these two criteria together, it is adequate to evaluate the simulated dispersion of PCFs when normalized dispersion method is employed.
建立了摇摆条件下圆管内的层流流动模型,推导出无量纲化的速度表达式,得到摩擦阻力系数关系式。
The model of laminar flow in tubes in rolling motion is established. The dimensionless correlation of velocity is derived, and the correlation of frictional resistance coefficient is also obtained.
在求解过程中采用无量纲化和等数量级的预处理方法,提高了计算精度,使结果更直观,也便于选择加权因子。
Two pretreatment methods, normalization and equal scale, are used to improve calculating precision so as to make results comprehensible and weighting factors be easily chosen.
在这一基础上开发针对于三维健康每一个评价指标的运动处方,并运用无量纲化方法解决运动处方的选择问题。
On this basis, the exercise prescription are developed for three-dimension health indicators, and chosen by non-dimension solutions.
本文通过对磁流体激波跃变方程组的无量纲化处理,得到了有关磁流体激波跃变条件及其解析解的一种普遍化的最简形式;
The jump equations of the magnetohydrodynamics shock wave are transformed to the dimensionless form, so that their solutions become very simple and straightforward.
文章首先导出了以无量纲位移表示的矩阵形式的控制方程,并将边界条件齐次化。
Firstly, the dimensionless displacement governing equations in matrix form are derived and the boundary conditions is homogenized.
导出了以固体骨架位移表示的无量纲控制方程,并将边界条件齐次化。
Firstly, the dimensionless governing equations in terms of displacement of solid skeleton are derived; and the boundary conditions are homogenized.
导出了以固体骨架位移表示的无量纲控制方程,并将边界条件齐次化。
Firstly, the dimensionless governing equations in terms of displacement of solid skeleton are derived; and the boundary conditions are homogenized.
应用推荐