这一软件包是建立在用矩量法求解电磁场积分方程的基础之上的。
This software package is based on the electromagnetic field integral equation and moment method (mom).
然后通过磁场积分方程,运用简单矩量法求得劈附近的电流和未知的绕射系数。
The magnetic field equation is solved to obtained four coefficients and the currents in the close vicinity of the edges.
用矩量法求解闭合导体目标的电场积分方程或磁场积分方程将得到不正确的表面电流。
The incorrect surface current may be obtained in the vicinity of the resonant frequencies when the method of moments is used to solve either the electric or magnetic field surface integral equation.
主要原理是用迭代的方法来求解磁场积分方程(MFIE),以求得存在耦合部件的RCS。
The principle of the IPO method is to solve the magnetic field integral equation (MFIE) by means of iterativeness so as to obtain the RCS of object with coupling components.
本文将准正交高阶叠层矢量基函数用于时域电磁场积分方程(TDIE),求解了三维金属目标的时域电磁散射问题。
The near orthogonal hierarchical vector basis functions are used for solving three-dimensional time-domain electromagnetic integral equations (TDIE) of the metallic object.
众所周知,在内谐振频率点上,用矩量法求解电场或磁场表面积分方程将得到不正确的表面电流。
That the modified surface current will be given using the method of moments to solve either the electric or magnetic field surface integral equation at the resonant frequencies.
本文运用叠加原理,从麦克斯韦方程的积分形式出发推导出在交变电磁场中储藏在电容器中的电场能量,并且指出了决定电容器电容数值的因素。
The energy of electric field stored in the capacitor placed in an alternating electromagnatic field is concluded by using the principle of superposition and by starting with Maxwell equations.
通过求解微分方程,得到圆形平行板电容器间匀变电场激发的感生磁场,所得结果与积分法完全相同。
The magnetic field induced by the even varying electric field is calculated by solving differential equations, and the result is identical to that from integral.
利用这个方程组,我们讨论了恒定外磁场中的半无限大超导体,给出了能隙函数和穿透深度的积分表达式。
The equations are applied to a semi-infinite superconductor in a static magnetic field. The integral expressions for energy-gap function and penetration depth are given.
处理孔缝边界时,用级数展开和积分方程得到金属拐角处电磁场的近似解。
For dealing with the electromagnetic fields near edges, an approximate scheme is developed using the series expansions and integral equations.
积分方程法使埋弧炉三维磁场计算成为可能。
The integral equation method makes the calculation of 3d magnetic field in electric furnaces (EF) possible.
此外,当使用转动时间对感应电压进行积分时,积分磁场(B0L)可由如下的方程来求解。
Furthermore, when the induction voltage is integrated by the rotation time, integral magnetic field (B0L) is solved by the following equation.
电磁场的边值问题的解可以转化为积分方程来处理。
Classically, the solution of boundary value problems associated with electromagnetic radiation and scattering phenomena may be reduced to the integral equation.
本文用积分方程法建立了永磁步进球形电动机磁场的数学模型,导出了用于计算其磁场分布的离散计算公式。
The model of magnetic field inside PMSS is developed using integral equation method (IEM) and discrete expressions on field distribution are also derived.
本文用积分方程法建立了永磁步进球形电动机磁场的数学模型,导出了用于计算其磁场分布的离散计算公式。
The model of magnetic field inside PMSS is developed using integral equation method (IEM) and discrete expressions on field distribution are also derived.
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