非理想气体
- 与 非理想气体 相关的网络例句 [注:此内容来源于网络,仅供参考]
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As regard to gas dehydration, there are also some obvious nonideal factors which have important effects on separation.
对膜法气体脱湿而言,同样存在一些非理想因素对分离效果产生重大的影响。
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In this paper air separation and gas dehydration are took for examples to study the effects on separation results of some nonideal elements.
本文以空气分离与气体脱湿为例,考察了一些非理想因素对分离效果的影响。
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To estimate this effect in a weakly nonideal Bose gas, find the expectation value of the
为了评估弱非理想玻色气体的效应,找出基态密度的期望值
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It is showed by calculations that solid carbon appeared only when stoichiometry is less than 0.4 under equilibrium state.
模型中还考虑了非理想气体对燃烧的影响。
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On the basis of the concept of perfect quantum gas, a physical model of extreme relativity is established for perfect quantum gas, and also according to the conclusions of the state density of the extreme theory of relativity, the densities of quantum statistics′ particle numbers and energy, the extreme relativity′s result of the enthalpy、internal energy and heat capacity of the perfect quantum gas is obtained under the high temperature by strict theory inference.
在理想量子气体概念的基础上,首先建立极端相对论理想量子气体的物理模型;再根据极端相对论的态密度和量子统计的粒子数、能量的密度结论,通过严格的理论推导,得出理想量子气体在高温条件下的极端相对论性的焓、内能和热容量的结果,并将其热容量与高温条件下的理想量子气体、经典理想气体的热容量对比,指出极端相对论与非相对论两种模型、理想量子气体与经典理想气体两种模型的热容量之间的差异,同时分析这些差异的物理原因在于各自气体模型的态密度以及对应体系的波函数的对称性;最后阐明高温条件下极端相对论理想量子气体的热容量在量子统计方面的先进性及应用前景。
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Finally it clarifies the advance in quantum statistics and the practical prospect of heat capacity of the extreme relativity's perfect quantum gas under high tamperature.
摘 要:在理想量子气体概念的基础上,首先建立极端相对论理想量子气体的物理模型;再根据极端相对论的态密度和量子统计的粒子数、能量的密度结论,通过严格的理论推导,得出理想量子气体在高温条件下的极端相对论性的焓、内能和热容量的结果,并将其热容量与高温条件下的理想量子气体、经典理想气体的热容量对比,指出极端相对论与非相对论两种模型、理想量子气体与经典理想气体两种模型的热容量之间的差异,同时分析这些差异的物理原因在于各自气体模型的态密度以及对应体系的波函数的对称性;最后阐明高温条件下极端相对论理想量子气体的热容量在量子统计方面的先进性及应用前景。
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According to density of particle numbers and energy of perfect quantum gas ,by strict theoretical calculation ,the energy of non relativity and relativity about perfect quantum gas under high temperature and low density is given.
根据理想量子气体的粒子数和能量的密度,通过严格的理论推算,给出理想量子气体在高温低密度条件下非相对论和极端相对论能量;再由巨正则系综中能量和压强相对涨落的公式,采用合理的近似方法,给出巨正则系综能量和压强相对涨落的严格解,并将其与正则系综对比,完备地展示两种系综在强度量的涨落方面热力学的等价性和个性差
- 推荐网络例句
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I didn't watch TV last night, because it .
昨晚我没有看电视,因为电视机坏了。
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Since this year, in a lot of villages of Beijing, TV of elevator liquid crystal was removed.
今年以来,在北京的很多小区里,电梯液晶电视被撤了下来。
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I'm running my simile to an extreme.
我比喻得过头了。