静磁学:磁场,安培的法律,法拉第的感应。
Magnetostatics: magnetic field, ampere's laws, Faraday's law of induction.
因此,我要成为一个像法拉第的物理学我的发言结束,谢谢。
So I want to be physics like Faraday The end of my speech, thank you.
不幸的是,法拉第的电磁原理经受了时间的检验,Splashpower却没有。它还未曾发布一款产品就已于去年宣布破产了。
Unfortunately, although Faraday's principles of electromagnetic induction have stood the test of time, Splashpower has not-it was declared bankrupt last year without having launched a single product.
许多科学家都把自己的理念画出来。“举个例子,我们看看大家麦克斯韦和法拉第的成就便知道,他们把画图视为创作发明的一部分。”
Many scientists draw their concepts. “For example, if we look at the work of somebody like Maxwell or Farady—we know they drew as part of their inventing process.”
马可尼研究了许多发明家的著作,包括海因里希·赫兹的书,他发现了我们现在所称的无线电波,以及迈克尔·法拉第的书,他是产生电能之发电机的发明者。
Marconi studied books by many inventors, including Heinrich Hertz, who discovered what we now call radio waves, and Michael Faraday, the inventor of the dynamo for producing electrical energy.
1832年,也就是迈克尔·法拉第发现磁场变化会产生电场的那一年,一位年轻的法国工程师为一种新的、效率更高的水车申请了专利。
In 1832, the year of Michael Faraday's discovery that a changing magnetic field produces an electric field, a young French engineer patented a new and more efficient waterwheel.
法拉第完全没有用数学方法来证明他的定律。
而且,为一艘军舰造一个常规的法拉第笼会非常昂贵。
And building a conventional Faraday cage round a naval vessel would be horribly expensive.
法拉第做了银的电解实验。
法拉第不仅成了戴维的化学助手,而且最终自己也展露了头角。
Faraday not only became Davy's chemical assistant, but eventually assumed his role. In 1821 he discovered electromagnetic rotation, the principle behind the electric motor.
迈克尔·法拉第是铁匠的儿子,幸运的他在21岁事业便有了突破。
Michael Faraday, the 21-year-old son of a blacksmith, had a lucky break.
当然一个变化的磁场会产生电场,就像法拉第做的那样。
A changing magnetic field, of course, gives rise to an electric field, as had been established by Faraday.
该感应现象被描述1831年在英国的迈克尔·法拉第。
The induction phenomenon was described by Michael Faraday in England in 1831.
1831年,迈克尔·法拉第(Michael Faraday)发现,在一根电线内流动的电流会在邻近的一根电线内产生次级电流(secondarycurrent)。
Michael Faraday discovered in 1831 that an electric current flowing in a wire induces a secondary current in a neighbouring wire.
法拉第是发现电磁感应的科学家。
Faraday was the scientist who discovered electromagnetic induction.
其中大多数方法均为法拉第笼模式的——这是用十九世纪做了大量关于电磁学基础研究的研究者的名字命名的。
Most such foils are types of Faraday cage-named after the 19th-century investigator who did much of the fundamental research on electromagnetism.
桑普森谈到,法拉第如何利用新方式将人类与更广阔的世界联系在一起。
Sampson talked about how Faraday wants to find new ways to connect people to the larger world.
利用这组方程,作者研究了纵向磁化铁氧体柱中的法拉第旋转(铁氧体柱的两端是截面变化的圆锥)。
With these equations, they have investigated the problem of Faraday rotation in a longitudinally magnetized ferrite rod with tapering cross-sections at both ends.
在最近的实验中,乔和他的小组建了一个法拉第氏罩,骊设想测试人类的磁场感应能力。
During the recent trial, Kirschvink and his team built a Faraday cage to test the ability in humans.
目前,法拉第效应还有更令人鼓舞的,有前途的应用。
In recent times the Faraday effect has been put to even more exciting and promising USES.
本文介绍了用法拉第筒作为离子检测器的四极滤质器存在干扰电子流的原因。
The causes of disturbing electron current in quadrupole mass filter with Farady cylinder as an ion detector are described.
各种电荷测量的应用:电容测量、使用法拉第杯的静电电荷测量等。
Charge measurement Applications: Capacitance measurements, static charge measurements using a Faraday cup.
由于闭合、中空导体中的电场为零,所以,使用法拉第杯就把放在其内部的物体屏蔽起来,不受大气的或任何寄生的电场的影响。
The electric field within a closed, empty conductor is zero, so the cup shields the object placed inside it from any atmospheric or stray electric fields.
二十一岁时,他读到迈克尔·法拉第在电学方面进行的实验。
When he was twenty-one he read about Michael Faraday's experiments in electricity.
法拉第杯的形状可以各式各样,决定于被测物体的尺寸和形状。
Faraday cup can have virtually any dimensions, depending on the size and shape of the object to be tested.
法拉第杯的形状可以各式各样,决定于被测物体的尺寸和形状。
Faraday cup can have virtually any dimensions, depending on the size and shape of the object to be tested.
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