他还将矩阵计算应用于原子理论。
原子理论,元素周期表,价键,分子结构。
So, up here, atomic theory, periodic table, bonding, structures and molecules.
他的概念中,天文学和原子理论比体育比赛要有吸引力多了。
In his mind, astronomy had atom theory were much more attractive than sports games.
那么就能轻易地看到,物质中微粒的不同构成,那就是原子理论。
then you can see how you can have very easily different arrangement of corpuscles within substances, a kind of atomic theory.
本次其中考试涵盖了原子理论,量子力学理论和化学键。
The mid-semester exam covers atomic theories, quantum mechanics theories and chemical bonding.
这些概念联系在一起,可以得出与实验相符的原子理论。
When linked together, these concepts give rise to a theory of the atom that agrees with experiment.
1913年,丹麦物理学家尼尔斯·波尔第一个提出基于量子原理的原子理论。
In 1913, the Danish physicist Niels Bohr was the first to propose a theory of the atom based on quantum principles.
同时他也是古希腊最早的一位唯物主义者和原子理论的奠基人之一。
He was also one of the earliest materialists of ancient Greece and one of the founders of atomic theory.
当原子理论那样的科学模型还存在众多争议的时候,他就是该理论重要倡导者中的一位。
He was one of the most important advocates for atomic theory when that scientific model was still highly controversial.
压缩原子理论的发现及其实验的实现是量子光学与原子光学中重大进展之一。
The theoretical development and experimental realization of atomic squeezing is one of the greatest progresses in optical and atomic optics.
科学家们周三向亚原子理论的世界抛了颗重磅炸弹:可见世界的一块基石——质子——比先前人们认为得要小。
Scientists lobbed a bombshell into the world of sub-atomic theory on Wednesday by reporting that a primary building block of the visible Universe, the proton, is smaller than previously thought.
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.
利用自然键轨道理论(NBO)和分子中的原子理论(AIM)分析了这些异构体的成键特征、相对稳定性。
Theories of nature bond orbital(NBO)and atoms in molecules (AIM) were used to discuss bond nature and relative stabilities of such conformers.
还有所有那些日常消费品。其存在在很大程度上都得归功于那样一些制造方法,没有爱因斯坦对物质的原子理论的阐明,就不会有这些制造方法。
And all those everyday consumer products, which owe their existence, in no small part, to manufacturing methods that wouldn't work without Einstein's enunciation of the atomic theory of matter.
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.
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.
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