1·Where was the device that connected charge and magnetic flux?
连接电荷和磁通量的元件在哪里?
2·Pass a current through an inductor, and you create a magnetic flux.
把电流传给电感器,就会产生磁通量。
3·Fast cooling in heat treatment can decrease magnetic flux density.
快速冷却可降低钢的磁通密度。
4·A unit of magnetic flux density equal to one weber per square meter.
磁通量密度单位等于每平方米韦伯。
5·Finally, magnetic flux varies with time, leading to the quantity we call voltage.
最后,磁通量随时间改变,产生了我们叫做电压的参数。
6·Charge and current, and magnetic flux and voltage, are connected through their definitions.
电荷和电流,磁通量和电压,根据它们的解释关联在一起。
7·The signal of magnetic flux leakage is calculated when damage occurs at the wall of the pipeline.
模拟损伤发生时的漏磁信号,与没有发生任何损伤时的检测信号进行对比。
8·The current equalization design of a redundant actuation system with magnetic flux sum is discussed.
讨论了磁通综合式余度舵机系统电流均衡的设计问题。
9·Explosively driven magnetic flux compression generators (FCG) are a type of compact pulsed power sources.
爆炸磁通量压缩发生器(FCG)是一种紧凑的脉冲功率源。
10·The generation of electromotive force in a closed circuit by a varying magnetic flux through the circuit.
在一个封闭回电路里,通过改变其磁流而产生电动势。
1·Pass a current through an inductor, and you create a magnetic flux.
把电流传给电感器,就会产生磁通量。
2·The research showed that the control result of electromagnetic brake was related to casting speed, mould Angle and magnetic flux density.
研究表明,电磁制动的控制效果与浇铸速度、水口角度和磁通量密度有关。
3·The magnetic flux density on the crack tip in a metal pipeline was studied by numerical simulation method.
用数值模拟方法研究了金属管道裂纹尖端磁通量密度的分布情况。
4·We suggest that the powerful electromotive force caused by the rapid changes of the magnetic flux created the conditions of acceleration of electrons and protons.
我们猜想,可能是磁通量的迅速变化引起的强大电动势造成了电子和质子加速的条件。
5·The characteristic velocities and the compatibility relations along characteristics are derived from the system of equations for the motion of thin magnetic flux tubes.
从细磁通量管运动方程组导出了特征速度、特征线及其相容关系。