1) Appearance potential
![点击朗读](/dictall/images/read.gif)
离子出现势
2) Appearance potential
![点击朗读](/dictall/images/read.gif)
出现势
1.
The appearance potentials of the fragments CH3OCH2CH3+ and CH3OCH2+ are found at (9.
![点击朗读](/dictall/images/read.gif)
04)eV,碎片离子CH_3OCH_2CH_3~+和CH_3OCH_2~+的出现势分别为(9。
2.
The appearance potentials(AP)of these ions are obtained from their PIE curves.
![点击朗读](/dictall/images/read.gif)
通过质谱测量各离子的光电离效率曲线,得到了该分子的垂直电离能及主要碎片离子的出现势。
3.
04eV) and appearance potentials of various fragment ions have been determined by measuring their photoionization efficiency curves.
利用同步辐射真空紫外光,研究了HFC-152a(CH3CHF2)的光电离和光解离过程,通过测量各离子的光电离效率曲线,得到了该分子的电离能(11·94±0·04eV)和所有碎片离子的出现势,运用GAUSSIAN-03程序计算了母体和碎片及相应离子的结构、电子态和能量。
3) appearance distance
![点击朗读](/dictall/images/read.gif)
出现距离
1.
The formula for appearance distance of maximal concentration on the ground between two small distance chimneys was deducted from the formula of ground concentration of air pollutants.
通过大气污染物地面浓度计算公式,导出两根小间距烟囱大气污染物最大落地浓度出现距离的计算式,并给出二分法求解最大落地浓度及其出现距离的方法。
4) Ionic potential
![点击朗读](/dictall/images/read.gif)
离子势
1.
Ionic potential(Φ=zr), a frequently used term in inorganic chemistry, is used to discuss the influence of cations on the characters of substance, from the aspects of cation charges and ridius.
离子势 (Φ =zr)概念是无机化学中的常用术语。
2.
The salting-out power of divalent cations was influencedby ionic radius,ionic potential and hydrated ion configuratio
当阴离子相同时,2价阳离子的盐析能力与离子半径、离子势、离子构型以及水合离子构型有关。
5) ion potential
![点击朗读](/dictall/images/read.gif)
离子势
1.
Metallic element depends largely on the strength of "atomic structure characteristic" can be relatively negative,or to measure the size Eo,hydroxide and acid-base of only the dissociation of the compound,the main material from the structure and decision-polarization,or by the ionization constant Kb ion potential(Φ) to measure.
元素金属性的强弱主要取决于"原子结构特征",可用相对电负性或E0大小来量度;而氢氧化物酸碱性只与化合物的离解有关,主要由物质的结构及离子极化决定,可由电离常数Kb或离子势(Φ)来量度。
6) negative ion power
![点击朗读](/dictall/images/read.gif)
负离子势
补充资料:现势
1.目前的形势。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条