多原子气体

  • 网络polyatomic gas
多原子气体多原子气体
  1. 引用等效比定压热容可减小因装置散热和多原子气体高温离解引起的仿真误差。

    The introduction of an equivalent specific heat capacity at constant pressure can decrease the simulation error because of the heat loss from combustion chamber and the decomposition heat of polyatomic gas .

  2. 对多原子分子气体实验值与理论值有一定的偏差,说明能均分定理存在一定的局限性。

    There is a certainty localization accounting for theorem of energy average .

  3. 多组分原子分子气体二元统计分布函数

    The binary statistical distribution functions of the multi-component atom-molecular gases

  4. 上述基于量子相干效应的现象多是首先在原子气体中预见并观测到的,但是对于其潜在应用而言,全固态系统方案显然更具价值,也更值得追求和探索。

    The phenomena based on quantum coherence mentioned above are mostly predicted and ob-served first in the atomic media . However , for their potential applications , solid media seem more valuable and worth researching and pursuing .