atomic structure 中文意思是什麼
atomic structure
解釋
原子構造。-
It is wonderful that they did guess at atomic structure.
可驚的是他們居然猜測到了原子的結構。 -
The atomic structure is often compared to a miniature solar system.
原子結構時常被比喻為微型太陽系。 -
We now have the key concepts needed to make sense of atomic structure.
現在,我們有了理解原子結構所需的基本概念。 -
Quantum mechanics scored first in providing an explanation of atomic structure.
量子力學首先在提供對原子結構的說明中取得成功。 -
The importance of electron spin in shaping atomic structure is worth emphasizing.
電子自旋在形成原子結構方面的重要性是值得強調的。 -
The study of the radiation emitted by atoms was largely responsible for the growth of modern ideas about atomic structure.
對原子發出的輻射的研究在很大程度上導致現代的原子結構概念的發展。 -
Education design of quot; the atomic structure quot; shandong edition
課堂教學設計魯科版 -
Angular momentum theory atomic structure
角動量理論與原子結構 -
Advances in atomic structure calculations
原子結構計算的進展 -
Connolly surface on an atomic structure via voronoi diagram of atoms
基於原子voronoi圖構建原子結構connolly曲面的方法 -
Democritus was one of the earliest philosophical materialists and speculated about the atomic structure of matter. marx ' s first published word was a study of democritus
德謨克利特是最早的唯物主義哲學家之一,也是最早的原子論創始人之一。馬克思發表的第一部哲學著作就是以德謨克利特的思想為研究對象的。 -
Democritus was one of the earliest philosophical materialists and speculated about the atomic structure of matter. marx ’ s first published word was a study of democritus
德謨克利特是最早的唯物主義哲學家之一,也是最早的原子論創始人之一。馬克思發表的第一部哲學著作就是以德謨克利特的思想為研究對象的。 -
Application of quantum mechanics to atomic structure, molecular bonding, and spectroscopy gives us quantum chemistry.
將量子力學應用於原子結構,分子鍵及光譜學即形成量子化學。 -
An atomic smictufal model for c ( 2x2 ) reconstruction is proposed and a total energy calculation illustrates that the hollow - site - occupied si adatom model might be a possible atomic structure of the c ( 2x2 ) reconstruction
光電子發射譜被用於研究界面形成過程中出zp 、 hf4f芯能級譜和價帶譜,以及功函數等的變化。 -
This book, which was a simple outline of the periodic table and atomic structure, impressed me greatly
這本書簡明地概述了元素周期表和原子的結構,給我留下了極為深刻的印象。 -
In order to improve the properties of materials, one needs to understand the structural relationship between interface and matrix of the materials, such as interface atomic structure, misfit dislocation, chemical bond structure, stress field distribution, composition segregation etc. there are tremendous research works on the grain boundary and interface structures during last century and the sophisticated theory about grain boundary and interface, i. e. coincidence site lattice and 0 - lattice theories had been developed simultaneously
眾所周知,材料的宏觀性質是由其微觀結構所決定的,因此,為了改善材料的宏觀性能我們有必要弄清楚材料的界面與基體之間的結構關系,如界面的原子結構、失配位錯、化學鍵合、應力場的分佈等等。在上世紀,人們已對晶界和相界面結構進行了大量的研究,同時,相關的理論如「重位點陣」和「 o -點陣」理論也發展成熟。 -
Amorphous materials have disordered atomic structure as compared to crystalline materials : that is, they have only short - range order rather than the long - range periodicity of crystals
與晶體材料相比,非結晶體材料使原子結構發生無序變化,即:它們只有晶體的短程序列特徵,而沒有晶體結構的長期周期性特徵。 -
Thirdly, basic approaches of molecular dynamics simulation, which include building the model potential, potential truncation, short - range interaction computations, integration methods, boundary conditions and so on, are studied in detail. they are discussed in detail which include preparations for data before simulating, control method during simulating, different factors related to equilibration of simulating systems, observation of atomic structure after simulating, statistic and control methods of macro characters
再次,深入研究了分子動力學模擬的基本演算法,包括物理建模、勢能截斷、計算短程作用力的方法、時間求積演算法和邊界條件問題等,並詳細討論了分子動力學模擬前的數據準備工作、運行時的控制方法、影響系統達到平衡狀態的各種因素和模擬后對原子結構的觀測以及宏觀特性的統計控制方法。 -
Buckminsterfullerene and its elongated cousins the carbon nanotubes or buckytubes were discovered, it suddenly became clear that our understanding of many factors governing the atomic structure of carbon and other materials was quite na
作為化學及物理的邊緣學科,以及在另一邊緣學科的化學和生物學開始變得不能區別,多學科研究正在使納米科學及納米技術(不要將納米科學技術固體力學和材料工程相混淆)成為令人神往的新領域。 -
Chemists had no less astonishment as they recognized in these radioactive bodies, elements which had undergone modifications of the atomic structure which had been thought unalterable
化學家們對他們在放射體中發現的元素同樣感到驚奇:這些元素經歷了原子結構變異,而原子結構一直被認為是不可變的。
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