应用量子理论研究了磁单极子的存在,从而得到电荷量子化这一重要特性。
Using quantion theory, this paper researches existence of magnetic monopole, and further, obtains the important characteristics about quantization of electric charge.
出于此结论,他总结出电荷是量子化的。
电荷是量子化的,换句话说,它一批一批的以单位形式出现。
Charge is quantized. In other words, it comes in batches of a certain unit.
电荷是量子化的,第二,他能,测量出电荷基本的量值。
Charge is quantized. And, secondly, he was able to measure the value of the elemental charge.
在考虑电荷是量子化的基础上,研究了外加磁场对介观耦合金属环中持续电流的影响。
Based on the discreteness of electric charge, the influences of an external magnetic filed on the persistent current of the mesoscopic coupling metallic rings a re investigated.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
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