1.
The relationship between the molecular orbitals energy levels and the biochemistry properties, electron spectrum are discussed.
分析分子轨道能级与生化性质和电子光谱的关系。
2.
Discussed on Effect in the Energy Gap of Some AO for the Optimum Hybridization Obital;
原子轨道的能级差对最优杂化轨道的形成影响
3.
Maximum overlap symmetry molecular orbital calculation under MNDO approximation;
MNDO级别上的最大重迭对称性分子轨道
4.
Simple Derivation of Kinetic Energy and Quantize Semi axis of Elliptical Orbit in Hydrogen like Atom;
椭圆轨道的动能和量子化半轴、能级的简明推导
5.
The Spineorbit Coupling Items Influence on the sequence of the Multimode Energy Levels;
自旋轨道耦合因子对多重态能级次序的影响
6.
free electron molecular orbital model
自由电子分子轨道模型
7.
spherically symmetrical orbitals
(分子的) 球形对称轨道
8.
principle of the conservation of molecularorbital symmetry
分子轨道对称守恒原理
9.
Can the Molecular Orbit Theory Explain that O_2~+ is more Stable than O_2;
分子轨道理论能够说明O_2~+比O_2更稳定吗
10.
Electron Orbit and Quantization of Energy in Hydrogen-like Atom;
类氢原子中电子轨道和能量的量子化
11.
An energy level diagram for frontier orbitals was plotted with transition energies calculatsd from the frontier orbitals.
画出了前线轨道能级图并计算了其跃迁能。
12.
Each state represents a different combination of rotational, vibrational, or orbital energy for the molecule.
每个态均表示分子的旋转,振动或轨道能量的不同组合。
13.
Closed Orbits of the Hydrogen Molecular Ion within BOA
绝热近似下氢分子离子的闭轨道(英文)
14.
Visualization Program of AO and MO--Orbital Viewer;
原子及分子轨道演示软件——Orbital Viewer
15.
Partitioned and Graded Monitoring and Measuring in Urban Mass Transit Engineering
城市轨道交通工程监控量测分区分级问题
16.
Thus each orbit may be called, alternatively, an energy level.
因此,每一个轨道也可以交替地称作一个能级。
17.
Design of Control System for Supercapacitor-based Rail Transit Energy Recovery System
轨道交通超级电容能量回收控制系统设计
18.
Performance analysis of Cd-Ni battery for low earth orbit satellite
低轨道卫星镉镍蓄电池组在轨性能分析