1.〔物〕电动力学
1.a branch of physics that studies how electric currents interact with magnetic and mechanical forces
1.In the second chapter, we present the experimental and theoretical study of cavity quantum electrodynamics and its recent development.
第二章介绍了腔量子电动力学的实验研究与进展,并简单介绍了腔量子电动力学的发展前景。
2.Examples deal with electrodynamics , propagation, guidance, and radiation of electromagnetic waves.
并举例说明电动力学、电磁波的传播、引导和辐射。
3.All this was based on classical electrodynamics, assuming an ether theory.
所有这些都基于电动力学,是以太论的前提。
4.Out of quantum electrodynamics come all known electrical, mechanical, and chemical laws.
从量子电动力学可以得出所有已知的电学、力学和化学定律。
5.This book provides an exceptionally lucid treatment of classical electrodynamics.
这部书对经典电动力学讲解得非常透彻。
6.Explain quantum electrodynamics in two minutes, starting now. " -- Intel" .
用两分钟时间解释一下量子电动力学,现在开始。
7.Quantum electrodynamics (QED), some processes in which we have discussed above, is the prototype quantum field theory.
量子电动力学(量子电动力学),其中一些工序中,我们讨论了上述情况,是原型量子场论。
8.These handouts accompany and summarize the physical electrodynamics demonstrations shown during class.
以下讲义简介本课程会接触到之电动力学物理实验摘要。
9.With the present development of cavity quantum electrodynamics (QED) techniques, the scheme can be achieved.
随着近来腔量子电动力学技术的发展,这个方案是能够被实行的。
10.But the spacetime used in general relativity, also based on electrodynamics, was left unchanged.
但是同样奠基于电动力学的广义相对论,时空观却没有被物理学家修改。