By analyzing the model, we calculate the spherical distance in MATLAB programming method.
并且通过对模型的分析,采用MATLAB编程计算球面距离。
Through the solution, the star position angle can be found with so - called "star distance" (Short for the spherical distance between two stars)determined So as to have the fix solved.
用解球面三角形的方法,通过两天体的球面距离,求得星位角,从而求得船位的经纬度。
In other cases, a spherical model is used, and the primary distance calculation used is the great-circle distance (see Resources).
在其他情况下使用球面模型,所使用的主要距离计算为大圆弧长(参见参考资料)。
a perfectly spherical shell dr at some distance, thickness, d r, dr we talk about it as 4 pi r squared d r, so we just multiply that by the probability density.
在某个地方的完美球型壳层,厚度,我们把它叫做4πr平方,我们仅仅是把它,乘以概率密度。
So, if you are asked to find the average distance from the origin, spherical coordinates can be interesting.
如果你想求到中心的平均距离,球坐标还是不错的。
Spherical divergence decreases energy with the square of the distance.
球面扩散使波的能量与传播距离的平方成反比。
Thus, the measured On Earth (Spherical) distance from the boundary of the original input object to the boundary of the new buffered object may vary slightly from node to node.
像这样,地球上合标准的(球面的)距离从最初的输入物件的范围到新的环围物件的范围可能非常轻微地结点到结点。
The finite attenuation distance of the cylindrical and spherical detonation was deduced through analyzing the asymptotic attenuation.
通过对冲击波、爆轰波衰减渐近规律的分析,推导出柱面、球面强爆轰波的衰减有限距离的函数表达式。
A simple approximate calculation method is given, which can exactly reconstruct the long distance non ideal propagation of detonation waves in the spherical shell of the charge.
针对实验结果给出一种简便的近似计算方法,它能准确地重现炸药球壳中长程绕射爆轰波的非理想传播行为。
Object - image distance formula of single spherical surface is derived through Times Compensation.
用时间补偿法推导了单一球面的物像距公式。
The research is further extended to the ordered liquid film confined between two solid plates with the distance of nanometers, and liquid layer cumulated on spherical nano-particle in nanofluids.
把拟有序层研究拓展到双平板作用形成的拟有序层(双固壁拟有序层)和纳米流体中的纳米颗粒添加剂表面形成的拟有序层(球面拟有序层)。
The research is further extended to the ordered liquid film confined between two solid plates with the distance of nanometers, and liquid layer cumulated on spherical nano-particle in nanofluids.
把拟有序层研究拓展到双平板作用形成的拟有序层(双固壁拟有序层)和纳米流体中的纳米颗粒添加剂表面形成的拟有序层(球面拟有序层)。
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