1)  GIAO
规范不变原子轨道法
1.
The 13C-NMR chemical shifts of cis- and trans-2-nutyl-tetrahydrothiophene-1-oxide (BTHTO) have been calculated with RHF and B3LYP methods at the 6-31G**, 6-31+G** and 6-31++G** levels by using ab initio GIAO method.
在RHF/6-31G和B3LYP/6-31G水平上对顺式(Cis-)与反式(Trans-)2-丁基-四氢噻吩亚砜(BTHTO)进行几何优化,应用规范不变原子轨道法(GIAO)在6-31G、6-31+G、6-31++G和6-31+G(2d,p)水平上计算了Cis-和Trans-BTHTO的13C-NMR,对13C-NMR谱进行了归属。
2)  code
规范
1.
Amended proposals to perfect code of design on building fire protection and prevention;
完善基础性建筑防火设计规范的探讨
2.
ASME Code Case and New Rules of Ultrasonic Examination of Welded Joints;
ASME规范案例和焊缝超声检测新规定
3.
Questions in terms of fire damper installation in current codes;
建筑规范中有关空调系统防火阀设置若干条文的商榷
3)  specification
规范
1.
Discussion on New Specification A Grade Asphalt Processing Technology;
交通部新规范A级沥青的生产技术探讨
2.
Analysis on Problems in "Drilling and Production Lifting Device Specification" Conceming Adopting Standard;
对《钻井和采油提升设备规范》“采标”中几个问题的分析
3.
Intro duction of Pharmacy Intelligence Information Work Specification in Our Hospital;
我院药学情报信息工作规范介绍
4)  standard
规范
1.
Group Behavior Standard and Social Mobilization in Health Education;
论健康教育中的群体行为规范与社会动员
2.
Several Advices for " the Standard of Chinese Hospital Pharmaceutics;
对中国医院制剂规范的几点商榷及建议
3.
Practices about standardizing the a dministration to the clinical nursing -students;
规范临床护生管理的几点做法
5)  norm
规范
1.
Analyse Accomplishment Condition of the Norm in Diagnosis and Treatment of Lung Cancer in the Primary Hospital;
肺癌诊治规范在基层医院实施情况分析
2.
Research and inspiration of the administrative behavioural norm of higher education of several countries;
若干国家高等教育行政行为规范的研究及其启迪
3.
Comparison and research in norm of single tube tower structural deflection quota;
单管塔结构挠度限值的规范比较研究
6)  standardization
规范
1.
Model Establishment and Standardization of Medication History in China;
探索我国药历的模式建立与规范化
2.
Standardization of Antibiotics Sales and Promotion of Reasonable Drug Use;
规范抗菌药物销售,促进合理用药
3.
Developmend and standardization of engineering supervision market;
工程监理市场的发展和规范
参考词条
补充资料:原子轨道
原子轨道
atomic orbit
    描述原子中单电子处于真实的(如氢原子或类氢离子的单电子体系)或假定的(即有效的,如多电子原子的电子体系)中心势场中束缚态波函数的空间部分,即单电子薛定谔方程!!!Y1886_1(1)ψ(1)=Eψ(1)的解ψ(1)称原子轨道。式中
    !!!Y1886_2
    为单电子哈密
    
    算符;
    μmM/(mM),为约化质量;hh/2π,h是普朗克常数;▽2是拉普拉斯算符;mM分别是电子和原子核的质量;V(r)是单电子真实的或假定的有效势函数
    h(1)和ψ(1)中的数字1表示单电子空间坐标(以核为参考点)。
   氢原子和类氢离子是由一个电子和原子核组成的双粒子体系,引入质心坐标以后,求解电子相对于核的相对运动方程,得到电子的波函数ynlmr,θ!!!Y1886_3)=RnlrYlmθ!!!Y1886_4),式中n=1,2,3,…,为主量子数;l=0,1,2,…,-1,为角量子数;m=0,±1,±2,…,±l ,为磁量子数;Rnlr) 是原子轨道的径向部分;Ylmθ!!!Y1886_5)是球谐函数
    ,即原子轨道的角度部分。通常用符号s
    ,p
    ,d
    ,f,…等依次代表l=0,1,2,3,…,故
    n=2
    l=0
    的状态的原子轨道可写为ψ2sn=3,l=2的状态可写为ψ3d,余类推。多电子原子轨道通常用自洽场方法求解单电子函数满足的哈特里福克方程获得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。