好的,让我们看看范德瓦尔斯气体。
通过分析范德瓦尔斯方程的体积修正项在几个典型实验中所起的作用,讨论分子斥力对实际气体性质的影响。
The influence of molecular repulsive force in the properties of real gas was discussed through the analysis with Van der Weals equation.
具有离子化头的表面活性剂是产生排斥力的关键,这种排斥力可以对抗范德瓦尔斯力,从而使的一个肥皂泡薄膜稳定的存在。
Surfactants with ionizable heads are key to creating a repulsive force that counteracts the van der Waals attraction and thus stabilizes a soap film.
壁虎趾部触压表面时,通过一种称做“范德瓦尔斯力”的静电现象使壁虎脚隆起部位的分子与接触表面的分子产生黏合吸力。
Pressed against a surface, the molecules of these ridges attract those of the surface via an electrostatic phenomenon called the van der Waals force.
由超声分子束产生的多原子范德瓦尔斯分子的光谱可以通过红外半导体激光光谱仪进行探测,从而对处于基态和激发态的分子势能进行分析。
Diode laser spectroscopy of van der Waals polyatoms produced in supersonic beams is a source of information on the ground-and excited-state intermolecular potentials.
所以,从测量的到的状态方程的数据,或者从状态方程模型比如理想气体方程,范德·瓦尔斯方程或者其他状态方程,我们就可以知道。
So from measured equation of state data, or from a model like the ideal gas or the van der Waal's gas or another equation of state you know this.
该文对范德·瓦尔斯气体模型提出修改意见,并导出更符合实际气体特点的状态方程和内能公式。
In the paper, modification suggestion to Vander Waals gas model is provided; state equation and internal energy formula which are more suitable for characteristic of real gas are derived.
原子间及分子间的范德·瓦尔斯相互作用在分子结构和固体结构起着非常重要的作用。
Van der Waals interactions between atoms and molecules are important for many molecular and solid structures.
用量子统计的方法得到非理想气体的范德·瓦尔斯方程。
The dimensional characters of ideal gas, Boyle gas and non-ideal gas are given.
用量子统计的方法得到非理想气体的范德·瓦尔斯方程。
The dimensional characters of ideal gas, Boyle gas and non-ideal gas are given.
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