This course introduces the theory of engineering electromagnetics.
本课程在介绍工程上基本的电磁学理论。
Microwave power measurements have taken an important role in electromagnetics.
微波功率测量已成为电磁测量的重要部分。
Tesla electromagnetics are composed of potentials and their corresponding motion.
特斯拉的电磁学是由势能组成,它们相当于运动。
But another plane, the Boeing Growler, USES electromagnetics as offensive weapons.
而另一款波音“咆哮者”的电磁武器则是用来进攻的。
This paper presents a new treatment of boundary value problems in electromagnetics.
本文提出了一种处理电磁边界条件的新方法。
The Coulomb law of inverse ratio to the square is one of the basic laws of electromagnetics.
库仑平方反比定律是电磁学的基本定律之一。
In recent years, an important field on the study of electromagnetics is one about new material.
近年来,电磁学研究的一个重要领域是关于新材料的研究。
University degree, Telecomm or Electronics Engineering, RF, Microwave or Electromagnetics Major.
本科以上学历,主修电信、电子、射频、微波或电磁学专业。
Electromagnetics is one of the most fundamental subjects in an electrical engineering curriculum.
电磁学为电机、电子工程课程中最基本的科目之一。
Thus an alternative for the global optimization of inverse problems in electromagnetics is introduced.
因此,本文为电磁场逆问题的求解计算提供他一种可供选择的全局优化算法。
The relation between potential and electric field intensity is an important content in electromagnetics.
电势和场强的关系是电磁学中的一个重要内容。
On the other hand, many techniques used nowadays in computational electromagnetics rely on processing matrices.
另一方面,当今许多计算电磁学技术还是依赖于矩阵的。
Electromagnetics and hydrodynamics have many homologous physical phenomena and mathematical expressions in the same form.
电磁学与流体力学之间有许多对应的物理现象,有在形式上相同的数学表示式。
In this paper, the computational Mechanics and electromagnetics have been combined to develope the theory and design of EHD.
文中将计算力学方法与电磁场理论结合起来,建立了电磁式谐波传动的理论和设计方法。
This mathematical model is composed of the electromagnetics model and the mechanics model. The electromagnetic model is descri…
该数学模型由电磁学模型和力学模型组成。
Image features are represented using the theory of electromagnetics. Corners are detected in the vector potential of the field.
该方法利用电磁场理论表达图象特征,进而从特征图象中提取出角点。
This course features a series of MATLAB? And physical demonstrations which help to illustrate the principles of electromagnetics.
本课程借由一系列的MATLAB ?文件和物理实验说明电磁学的原理。
Based on the basic principle of electromagnetics, the windings of the high temperature superconducting transformer are optimized.
以电磁学的基本原理为基础,对高温超导变压器的绕组进行电磁优化。
Time is a created illusion and gravity, earth spin ratio, electromagnetics and celestial alignments are components of its unfolding.
时间是一个被创造出来的幻像,重力、地球自转、电磁场和天体对应都是用来展现它的要素。
The reasonable and suitable application of the interpolation and extrapolation can make computation in electromagnetics more efficient.
因此内插和外推算法的成功应用,直接关系到电磁场数值计算技术的计算效率。
Based on the fundamental of electromagnetics, are summarily derived idle, load and short-circuit voltage as well as current and leakage reactance formulas.
并根据电磁基本原理推导出空载,负载和短路时的电压、电流和漏抗的计算公式。
AMB is one of the advanced technology, and the research come down to Electromagnetics, Control Theory, Mechanics, Rotor Dynamics and Computer Science, and so on.
主动磁轴承技术是一种高新技术,其研究涉及到电磁学、控制理论、机械学、转子动力学以及计算机科学等多个学科的知识。
This paper introduce Computational Electromagnetics a new subject in analysis methods of electromagnetic field, and introduce the application of it in field of EMC.
本文介绍了一种与电磁兼容仿真中电磁场计算有关的新兴学科——计算电磁学,并对其在电磁兼容仿真中的应用进行了介绍。
For the mathematical description of the basic laws of the classical electromagnetics there existed some different systems and each of them has its own shortcomings.
经典电磁学的规律的数学表述,有许多种不同的结构方案,它们各有其缺点。
The concept of non-electrostatic field refers to the induced electric field stimulated by the changing magnetic field of reference system in a lab in electromagnetics.
非静电场这一概念,在电磁学里指对实验室参照系存在变化的磁场激发的感生电场而言。
The teaching of the Lenz's law is a difficult point in electromagnetics teaching . The pedagogy inquiry of the Lenz's law is discussed in connection with this problem.
楞次定律是电磁学教学中的难点。针对这一问题讨论了楞次定律的教法。
In this article, digital image processing, electromagnetic theory, computer version and computational electromagnetics were applied in getting the biology information.
本文将数字图像处理技术、计算机视觉技术、电磁场理论以及计算电磁学与生物学结合起来,从而更好地解决生物问题。
Methods used have been gravity, ground and airborne magnetics, ground and airborne electromagnetics, IP/resistivity, downhole geophysical logging, and reflection seismic.
使用的物探方法有重力、地面和航空磁法、地面和航空电磁、IP/电阻率法、钻孔物探测井及地震反射。
Methods used have been gravity, ground and airborne magnetics, ground and airborne electromagnetics, IP/resistivity, downhole geophysical logging, and reflection seismic.
使用的物探方法有重力、地面和航空磁法、地面和航空电磁、IP/电阻率法、钻孔物探测井及地震反射。
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