Quantum Entanglement Explained
IntroBooks Team
IntroBooks
电子书
14
页
family_home
符合条件
info
report评分和评价未经验证 了解详情
关于此电子书
When a set of particles are created, communicated, or shared by spatial proximity in a manner that stops the quantum states of any one of them from being independently described, regardless of how far apart they are from one another, this physical phenomenon known as quantum entanglement takes place.
The fundamental difference between conventional and quantum physics is the issue concerning quantum entanglement, which is the essence of quantum mechanics that is absent from classical mechanics.
It is possible to find instances where measurements of entangled particles' physical characteristics, such as orientation, momentum, rotation, and polarization, are fully synchronized.
For instance, if a pair of entangled particles is created with known zero total spin, and one particle is shown to have clockwise rotation on an initial axis, the other particle's spin is observed to be anticlockwise when examined on the identical axis. But these actions and measurements have seemingly counterintuitive results.
为此电子书评分
欢迎向我们提供反馈意见。
如何阅读
智能手机和平板电脑
笔记本电脑和台式机
您可以使用计算机的网络浏览器聆听您在 Google Play 购买的有声读物。
电子阅读器和其他设备
如果要在 Kobo 电子阅读器等电子墨水屏设备上阅读,您需要下载一个文件,并将其传输到相应设备上。若要将文件传输到受支持的电子阅读器上,请按帮助中心内的详细说明操作。
