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- ionization energy loss 电离能损
- Ionization energy (ie) 3.894 electron volts. 电离能3.;894电子伏特。
- Each interaction produces an energy loss and deflection. 每次相互作用都引起粒子能量损失和方向偏转。
- Imported thermostable fabrics to minimize thermal energy loss. 进口耐高温织维隔热布大大减少热能损耗。
- By lagging the hot water tank and pipes you can reduce energy loss. 通过给热水箱和管道包上保温材料,可以减少能量损失。
- Ionization Energy (IE) and Electron Affinities (EA) are expressed as kilojoules per mole. 电离能和电子亲和性表达为每千焦耳摩尔。
- For a given species the energy required to remove the first electron is called the first ionization energy, and so on. 对于某种物种,移去第一个电能量所需要的能量叫做第一电离能,依此类推。
- The process of reflection does not in itself involve any energy loss. 反射过程本身不存在任何能量损耗。
- In Gaseous state,Numerical Value of Ionization energy measure difficult and easy of metal atom lose electron. 在气相中,金属原子失去电子的难易用电离势数值大小来衡量。
- The energy losses are due to turbulence. 能量损失起因于紊流。
- Ionization potential (ionization energy): Amount of energy required to remove an electron from an isolated atom or molecule. 电离电势(亦称电离能):从孤立原子或分子中移去一个电子所需要的能量。
- It is interesting to inquire into the exact mechanism of this energy loss. 确切地查明这一能量损失的作用过程还是有意义的。
- This paper I am going to discuss the activity order of metals through standard electric potential and ionization energy metal. 本文从金属的标准电极电势,电离势分别讨论金属活动顺序。
- At the same time broaden the spectrum as result of energy loss fluctuations. 与此同时,电子谱由于能量损失的涨落而展宽。
- Near the location of the hammer blow, this energy loss is negligible. 在靠近榔头的撞击点,此处能量的损失是可以忽略的;
- The periodical rule of element ionization energy can explain the FDMS characteristic of the kind of salts and predict FDMS characteristic of other group inorganic salts. 元素电离能呈周期性变化的规律能解释这类无机盐的FDMS行为和预测其它族元素组成的无机盐行为。
- In this paper, factor of influence on matal activity is expounded by studying ionization energy, Cohesive force, ionic hydration energy and cystal lattice energy of the compound. 本文通过对金属的电离能,内聚力,离子水合能以及形成化合物的品格能大小的研究来阐明影响金属活性的因素。
- The energy loss, combined with angular-momentum redistribution, causes a dense ring system to flatten. 由于能量散失再加上角动量重新分布,稠密的行星环系统就变得更为扁平。
- charged particles energy loss by ionization 带电粒子的电离能量损失
- Their ionization energies, electron affinities, charge densities, frontier orbitals have also been computed.And their coordination has been discussed. 计算了分子的电离能、电子亲合能、电荷密度和前线轨道,并研究了该分子的配位性能。