类氢原子在量子化学中是独特的而最重要的体系。
The hydrogenlike atom is the single most important system in quantum chemistry.
在以往工作基础上对类氢原子体系的薛定谔方程进行了进一步求解。
Based on the previous works, the Schrdinger equation of the hydrogen-like atom is analytically solved further.
利用平方反比引力给出的关系式和索末菲量子化条件推导出类氢原子的椭圆轨道和能量。
The energy and the elliptical orbit of the electron in hydrogen-like atom are derived from formula inverse square attraction and Sommerfeld's quantized conditions.
本文主要讨论在没有外场的情况下,量子人体的电子自旋对类氢原子的能级和谱线的影响;
The influence of electronic self spin of quantum human body to the energy grade and spectrum line of sort hydrogen atom under the case without outfield was mainly discussed in this paper.
本文对高激发态原子的二次蔡曼效应进行了讨论,并着重分析了类氢原子光谱计及二次蔡曼效应的磁场条件。
This paper discuss the QZE of atoms for highly excited states, particularly analyse the relation between Spectra of hydrogen-like atoms and magnetic field under consideration of the QZE.
从比耐公式出发,结合玻尔———索末菲量子化条件,对类氢原子电子的量子化椭圆轨道,给出了一个简化的推导,并在此基础上,对轨道的稳定性进行进一步的讨论。
A quantized elliptical orbit of electron in hydrogen_like atom is concisely derived from Binet equation with the aid of Bohr_Sommerfeld s quantized condition.
当你在烧氢类燃料(如石油)时,燃料中的氢原子和碳原子与空气中的氧结合反应,生成了二氧化碳和水。
When you burn a hydrocarbon fuel such as oil, its hydrogen and carbon atoms combine with oxygen from the atmosphere to create water and carbon dioxide.
太阳一类的恒星在其核心将氢融合成氦。而白矮星则是将其曾用作核燃料的所有氢原子都燃烧殆尽的恒星。
Stars like our sun fuse hydrogen in their cores into helium. White dwarfs are stars that have burned up all of the hydrogen they once used as nuclear fuel.
氢原子或类氢离子的薛定谔方程一般解是结构化学中所需解答的问题,然而是一个较复杂的数学演算过程。
The work on equation of hydrogen atom or hydrogen-like hydroxonium needs to be calculated in the structure chemistry, however, it is a more, complicated calculus by maths calculus.
用算符理论推出了氢原子和类氢离子的等式型径向动量-位置不确定关系。
The radial momentum-position uncertainty relation in equality form of hydrogen atom and hydrogen-like ion is deduced by using the operator theory.
根据与氮相连结的活性氢原子的多寡与有无,讨论了伯、仲、叔胺类溶剂化能力的强弱。
The number of active hydrogen atoms attached to nitrogen atom of different classes of amine determine their effectiveness in extraction of metals by solvation.
根据与氮相连结的活性氢原子的多寡与有无,讨论了伯、仲、叔胺类溶剂化能力的强弱。
The number of active hydrogen atoms attached to nitrogen atom of different classes of amine determine their effectiveness in extraction of metals by solvation.
应用推荐