Electricity and Magnetism: Maxwell's equations.
电与磁:麦克斯韦方程组。
And, in fact, something that is known as Maxwell's equations.
实际上,是讲Maxwell方程组。
FDTD is direct time domain method for solving Maxwell's equations.
其中时域有限差分法(FDTD)是求解麦克斯韦微分方程的直接时域方法。
Maxwell's equations actually tell you about div and curl of these fields.
实际上,Maxwell方程组,描述了这两个场的旋度和散度。
The mathematical analysis model for MFL is established, based on Maxwell's equations.
根据微分形式的麦克斯韦方程组得出漏磁场动态数据模型。
If you have been taking 8.02, have you seen Maxwell's equations, at least part of them? Yeah.OK.
如果你上过8。,就会见过Maxwell方程,或至少见过其中某部分。
Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form.
像是向量微积分、微分和积分形式的麦斯威尔方程序。
Maxwell's equations can be discretized by finite difference time domain (FDTD) to simulate ground penetrating radar (GPR).
利用时间域有限差分(FDTD)法将麦克斯韦方程进行离散化,可以对地质雷达进行数值模拟。
From Maxwell's equations, the dispersion relation of space charge mode is strictly deduced, and the field pattern is studied.
从麦克斯韦方程出发,严格推导了空间电荷波模式的色散关系,绘制了波导内的场型图。
Time-dependent electromagnetic fields and Maxwell's equations. Electromagnetic waves, emission, absorption, and scattering of radiation.
时变电磁场与马克思威尔方程式、电磁波、电磁辐射特性(发射,吸收及散射)。
Based on the vector angular spectrum representation of Maxwell's equations, the diffracted plane wave is decomposed into the te and TM terms.
运用麦克斯韦方程组的矢量角谱表述,将平面衍射波分解为TE项和TM项。
Maxwell's equations are "asymmetrical": electricity has an electron monopole and a proton monopole, each with opposite charge, but magnetism does not.
Maxwell方程组是“非对称的”:电场有一个负电极子和一个正电极子,带着不同的电荷;但磁场却没有。
Then Einstein, with his special theory of relativity, looked at a whole set of symmetries of Maxwell's equations, which are called special relativity.
接着爱因斯坦提出了狭义相对论—一种更简明的公式,它更体现了对称性。
By using the Maxwell's equations and axial symmetry, a method on calculating non-static axial symmetry fields with unstable charge source is given.
利用麦克斯韦方程组和场的轴对称性,给出了由对称轴的非静态电场计算含不稳定电荷源的轴对称非静态空间电磁场的一种方法。
By using the Maxwell's equations and axial symmetry, a method on calculating non-static axial symmetry fields with unstable charge source is given.
利用麦克斯韦方程组和场的轴对称性,分别对含不稳定电荷源和不稳定电流源的轴对称非静态空间电磁场进行了研究。
The boundary value problem on the magnetic vector potential A is derived by introducing the magnetic vector potential A and using Maxwell's equations.
通过引入矢量磁位A并利用麦克斯韦方程组推出了以矢量磁位A为求解对象的边值问题。
In practice, the vast majority of optical phenomena can be accounted for using the electromagnetic description of light, as described by Maxwell's Equations.
在实践中,绝大多数的光学现象,可占利用光电磁描述,由麦克斯韦方程描述。
We usually understand Maxwell's equations in the form and physical significance, and we seldom ponder the relation of Maxwell's equations and other discipline.
一般对麦克斯韦方程组的理解仅仅在形式上和它的物理意义,与其它学科的联系探讨较少。
By using the Maxwell's equations and axial symmetry, the axial symmetric unstable electromagnetic field with unstable charge source and unstable current source is studied.
利用麦克斯韦方程组和场的轴对称性,分别对含不稳定电荷源和不稳定电流源的轴对称非静态空间电磁场进行了研究。
The authors show how Maxwell's equations can be expressed and manipulated via space-time algebra and how geometric algebra reveals electromagnetic waves' states of polarization.
那些作者显示马克斯·韦尔的方程序怎样可以被表示并且透过空间时间代数操作和几何学的代数怎样显示电磁波的极化作用的状态。
By constructing principal function of a charged particle in electromagnetic field and using conservative system's Lagrange equation two formulas in Maxwell's equations are induced.
构造了带电粒子在电磁场中的作用量,借助于保守力系的拉格朗日方程,导出了麦克斯韦方程中的两个式子。
On the basis of Maxwell's equations, the propagation rule of EME (electromagnetic emission) radiated from coal or rock in the course of rock-burst is studied and analyzed theoretically.
基于麦克斯韦方程,本文对岩爆过程中产生的电磁辐射在煤层、岩石中的传播规律进行了理论计算。
Maxwell's equations conserve certain properties-the magnetic field intensity, the electric displacement field and the Poynting vector that describes the electric flux of an electromagnetic field.
麦克斯韦方程中有某些特性是恒定不变的——磁场强度、电位移场以及描述电磁场电通量的坡印廷矢量。
Electromagnetic field theory based on Maxwell's equations (field method) and circuit theory based on Kirchhoff's laws (circuit method) are the main tools to analyze transmission line problems.
基于麦克斯韦方程组的电磁场理论(场方法)和基于基尔霍夫定律的电路理论(路方法)是分析微波传输线的主要理论工具。
In this paper, the expressions of the electromagnetic field components in a plasma waveguide immersed in a strong longitudinal magnetic field are derived in detail from the Maxwell's equations.
文章从麦克斯韦方程组出发,利用纵向场分量法,详细地推导了强引导磁场下等离子体波导中电磁场分量的表达式。
Maxwell's field equations described this measurable disturbance of the medium without explicitly discussing the ether itself.
斯 韦电磁场方程描写了媒质的这种可测量的扰动,而不去详细讨论以太本身。
It satisfies the Maxwell's scalar equations and Kirchhoff's boundary conditions and includes propagating waves and evanescent waves.
它满足麦克斯韦方程标量形式和基尔霍夫边界条件,包括传播波和衰减波。
It satisfies the Maxwell's scalar equations and Kirchhoff's boundary conditions and includes propagating waves and evanescent waves.
它满足麦克斯韦方程标量形式和基尔霍夫边界条件,包括传播波和衰减波。
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