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- electrodynamic galvanometer 电动式电流计
- There is no current through the galvanometer. 没有电流通过电流计。
- What causes the galvanometer to move? (是什么原因引起灵敏电流计的指针发生偏转?
- How to Select Sensitive Galvanometer in Electrical Experiments? 如何在电学实验中选配灵敏电流计?
- What situation makes the galvanometer deflect the most? 什么情况下它偏转的角度最大?)
- Study on the Servo System of Galvanometer Scanner[J]. 引用该论文 叶柏林;杨海;赵学明.
- The requirement on scanning galvanometer is given during the practical using. 提出了实际使用时对扫描振镜的要求。
- When the galvanometer reads zero the circuit is in the null-balance position. 当检流计的读数为零时,电路处于零平衡位置。
- When the galvanometer reads zero the circuit is in the null -balance position. 当检流计的读数为零时,电路处于零平衡位置。
- These two basic electrodynamic properties give superconductivity its unique interest. 上述两个基本电动力学性质使超导电性具有无比的重要性。
- And they must learn to control the various vibrations that arise in electrodynamic tether systems. 他们也必须学习控制电动缆索系统出现的各类震动。
- The full apparatus of quantum field theory is often unnecessary for describing electrodynamic systems. 对于描述电力学系统量子场理论的全部设备常常是多余的。
- Electrodynamic shakers are used in most cases because they can operate over a broad frequency range with accurately controlled waveform. 极大多数的情况下应用电动振动台,因为它能在一定广的频率范围内工作并且能准确地控制波形。
- This paper mainly introduces the application of SRS in electrodynamic vibration system. 本文主要介绍冲击响应谱在电动振动试验系统中的应用。
- The more the perlite content is,the small the initial magneto conductivity and induced electrodynamic potential. 珠光体含量越高,初始磁导率越小,感应电势亦越小。
- Abstract: Electrodynamic vibration equipment is a most widely used vibration equipment in vibration test. 摘要: 电动振动设备是振动试验中运用的最广泛的振动设备。
- Abstract:Electrodynamic vibration equipment is a most widely used vibration equipment in vibration test. 摘要:电动振动设备是振动试验中运用的最广泛的振动设备。
- Electrodynamic vibration equipment includes electrodynamic vibrator and electrodynamic exciter. 电动振动设备包括电动振动台和电动激振器等,以电动振动台为例,系统分析了电动振动设备的主要结构和工作原理等。
- If a sinusoidal current is sent through a movingcoil galvanometer, the meter reads zero. 如果将一正弦电流通入动圈式电流计,那么这电流计的读数为零。
- What makes the theory so tricky is that the fields are stronger than the quantum electrodynamic threshold of4 x1013 gauss. 这个理论的奥妙之处,就在于磁场强度比量子电动力学门槛的4×013高斯还要强。