1) circuit integral
环路积分
1.
By calculating the circuit integral along the borders of effective damage areas, the precision measure of damage area was firstly derived in the procedure of effectiveness evaluation of cargo projectile.
解析——仿真法作为评估子母弹效能的新途径,回避了计算子弹毁伤幅员重叠面积的数学难题,通过在有效毁伤区域的边界上计算环路积分,得到了子母弹效能评估过程中计算毁伤幅员的精确度量。
2.
To calculate effective damage area,the overlapped area of a given circle and a given arbitrary polygon is derived from the circuit integral calculation around this region.
在毁伤区域边界上计算环路积分,可以用解析算法解决此问题。
3.
To calculate the effective damage area,the overlapped area of the jointly covered region of multi-missiles and the given arbitrary polygon is derived from the circuit integral calculation around this region.
在有效毁伤区域边界上计算环路积分,可以用解析算法解决此问题。
2) circuit Integral Algorithm
环路积分算法
3) magnetic field integral loop
磁场环路积分
4) integral circuit
积分电路
1.
Simultaneously,the sensing mode for spot welding current was chosed and an structure of integral circuit and system circuit was designed.
同时,进行了点焊焊接电流方式的选择,积分电路和系统电路的设计。
2.
The circuit mainly consists of a current-current converter,an integral circuit,an analog switch circuit,and a steady current source circuit.
该电路主要由电流转换电路、恒流源电路、积分电路、模拟开关电路等组成,其突出特点是转换速度快、电路简单及输人信号范围大,适合构建成多路,在传感器测量系统中有着广泛地应用前景。
3.
In order to measure and control some multi-channel temperature of device, I had designed an integral circuit base on PT100 and adopt AT89C51 controller to make data linear compensate.
为了远程测量和控制多路设备温度,采用一种积分电路精确测量PT100热电阻的阻值。
5) path integrals
路径积分
1.
Using the canonical transformation and the method of path integrals, the quantum wavefunction of the time-dependent RLC circuit after quantization is solved, and the quantum fluctuations of the charge and current are investigated.
应用正则化变换结合路径积分方法,求解了电感、电阻、电容随时间变化情况下的有源含时RLC回路的量子化波函数,并进一步研究了电路中电荷、电流的量子起伏。
2.
The mathematical structure and physical sense of Feynman s path integrals have been redefined,by using the theory of stochastic processes.
用随机过程的理论,重新解释了Feynman路径积分的数学结构与物理意义,而且改进了Feynman对“一个自由粒子的精确解的计算。
3.
Using the canonical transformation and the method of path integrals,the exact wavefunction of the time dependent damped harmonic oscillator is derived.
对与速度成正比和与速度平方成正比的阻尼变频谐振子 ,通过正则变换 ,采用路径积分方法 ,得出了阻尼变频谐振子的严格波函
6) integrating circuit
积分电路
1.
With examples,the analytical method of integrating circuit composed of integrated operational amplifier is described in detail.
结合实例详细阐述由集成运算放大器组成的积分电路的分析方法,并利用PSpice所提供的脉冲信号源及瞬态分析功能,解决了以往受传统实验仪器设备限制而难以验证的问题。
补充资料:安培环路定律(见磁场强度)
安培环路定律(见磁场强度)
Ampere's circuital law
A rlpe{h口。)11L一dingILJ安培环路定律(Amp之re’5 CirC。ital law)见磁场强度。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条