玻尔理论具有强烈的初等古典力学的气味,这就构成了古典物理和近代原子理论间的一座重要的桥梁。
The Bohr theory, with its strong flavor of elementary classical mechanics, formed an important bridge between classical physics and present-day atomic theory.
概括了自十九世纪以来经典物理学所取得的重大成就,并回顾了玻尔理论的建立背景,阐述了玻尔理论的基本原理。
This article describes the great achievements of classical physics in the 19th century. The background of Bohr's theory and the fundamental principle of this theory.
在玻尔理论基础上 ,以氢原子能级和氢原子光谱为主线 ,探讨了狄拉克理论、兰姆移位、氢原子光谱的超精细结构理论对氢原子理论的修正。
We advance a way to explore extra dimensions by calculating the change in hydrogen Lamb shift coursed by two extra dimensions, which gives theoretical basises for future experiments.
尼尔斯·玻尔之后所做的发现帮助解释了海森堡的理论。
Niels Bohr later made a discovery that helps to explain Heisenberg's principle.
获得诺贝尔奖之前,玻尔已经被任命为哥本哈根理论物理研究所所长。
Before he won the Nobel Prize, Bohr had already been made head of the Copenhagen Institute for Theoretical Physics.
基于对大量数据的统计分析,计算出了玻尔兹曼常量,与理论值的相对误差约为4%。
Based on the statistics of a large sample of data, the Boltzmann constant is determined at a relative error of 4%.
以四元件模型为基础,利用玻尔兹曼叠加原理建立了纱线应力松弛变化过程的理论方程,并分别对彩棉喷气涡流纺及环锭纺纱线进行松弛实验。
Based on the four-element model, the equation of the stress relaxation process is developed using the principle of Boltgation superposition in this paper.
以四元件模型为基础,利用玻尔兹曼叠加原理建立了纱线应力松弛变化过程的理论方程,并分别对彩棉喷气涡流纺及环锭纺纱线进行松弛实验。
Based on the four-element model, the equation of the stress relaxation process is developed using the principle of Boltgation superposition in this paper.
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