A. More efficient power transmission B. Faster transportation C. Better communication D. More accurate timekeeping 相关知识点: 试题来源: 解析 A。尼古拉·特斯拉在交流电(alternating current,AC)方面的工作很有名,他的发明对现代社会的贡献是更高效的电力传输(More efficient power transmission)。反馈 收藏 ...
Nikola Tesla is known for his contributions to the development of alternating current. He is a famous ___. A. inventor B. painter C. singer D. actor 相关知识点: 试题来源: 解析 A。尼古拉·特斯拉以他对交流电发展的贡献而闻名,他是一位著名的发明家。“painter”是画家,“singer”是歌手,“acto...
交流电alternating current,简称为AC。发明者是尼古拉·特斯拉(Nikola Tesla,1856—1943)。交流电也称“交变电流”,简称“交流”。一般指大小和方向随时间作周期性变化的电压或电流。它的最基本的形式是正弦电流。我国交流电供电的标准频率规定为50赫兹,日本等国家为60赫兹。交流电随时间变化可以以多种多样的形式表现出来...
博森 黄卓明 GMAT & EA考试 SC 经典真题-12:Nikola Tesla, the inventor of alternating current, because he was excited with the prospects, 视频播放量 14、弹幕量 0、点赞数 0、投硬币枚数 0、收藏人数 0、转发人数 0, 视频作者 博森GMAT教育中心, 作者简介 专注GMAT
交流电 alternating current 简称为 AC。 发明者是尼古拉·特斯拉(Nikola Tesla 1856—1943)。交流电也称“交变电流” 简称“交流”。一般指大小和方向随时间作周期性变化的电压或电流。它的最基本的形式是正弦电流。我国交流电供电的标准频率规定为 50 赫兹 日本等国家为 60 赫兹。交流电随时间变化可以以多种多样的形...
NIKOLA TESLA ON HIS WORK WITH ALTERNATING CURRENTS: Preface, Introduction, Section IV, Apparatus for Transformation by Condenser Discharge; Damped Waves, and Section VII, Theory and Technique of Energy Transmission.
Nikola Tesla, a rival of Thomas Edison, was Serbian American physicist, engineer and futurist who is known for his contributions to the design of the alternating current (A/C) electrical system.
1.Nikola Tesla was a great inventor,engineer,and physicist.He is best known for his contribution to the design of the modern alternating current (AC)(交流电) electricity supply system. Tesla started working in the electrical fields before he came to work for Thomas Edison in the United ...
Nikola Tesla and Thomas Edison invented AC and DC respectively. They battled over the standardization of the current notation. After all AC won the battle when it powered France Fair and finally, it came into existence. Contentshide 1Alternating Current (AC) ...
“It is questionable whether the Tesla motor will ever be a success. Such motors will go round, of course, and will give outputs, but their efficiency is doubtful; and if they need three-wire circuits and special generators there is no object in using them, as a direct current motor can...