1) ideal gas constant
理想气体常数
2) ideal gas constant R
理想气体常数R
1.
According to Dalton's law of partial pressures,the principle of experiment "Determination of the ideal gas constant R",the volume and pressure of hydrogen produced in the experiment were analyzed and discussed.
从道尔顿分压定律出发,对教学实验"理想气体常数R的测定"中产生的氢气的体积、分压和该实验的原理进行了详细的分析和讨论。
3) equilibrium constants for reactions of ideal gases
平衡常数(理想气体反应)
4) ideal gas
理想气体
1.
Basic differential equation of self-similar motion of one-dimensional nonsteady flow of ideal gas;
理想气体一维不定常流自模拟运动的基本微分方程
2.
A deducing method of the average translational kinetic energy of the ideal gas molecules;
理想气体分子的平均平动能的一种推导方法
3.
Discussion on the state equation of the ideal gas "pV=Nk_BT";
对理想气体方程pV=Nk_BT的讨论
5) perfect gas
理想气体
1.
Analysis for several questions of perfect gas in the process of heat imsulation;
理想气体绝热过程若干问题分析
2.
several method to solve question about perfect gas;
理想气体问题的几种基本解法
3.
The state function, entropy, is introduced by the means of a perfect gas behavior, and the second law of thermodynamics is demonstrated based on the first law.
本文以理想气体的行为为手段引出熵函数,并以热力学第一定律为基础,论证了熵增大原理。
6) Ideal gases
理想气体
1.
A concise derivation of the pressure formula of ideal gases is given by considering the gas molecules moving within spherical container.
本文从球形容器中理想气体入手 ,用一种简单易懂且不失一般性的方法 ,推导出理想气体压强公式 。
2.
which used thermodynamics alone, in line with the hypothe- sis of James Clerk Maxwell velocity distribution and energy, we may derive two course equation on isotherm and heat in- sulation process of ideal gases.
与通常单独从热力学推导相反,本文用能量和麦克斯韦速度分布假设推导出理想气体等温过程和绝热过程的过程方程。
3.
Pressure formula of ideal gases is right.
采用玻耳兹曼统计验证了理想气体压强公式是完全正确的。
补充资料:理想气体
理想气体 ideal gas 假想的、理想化的气体模型。又称完全气体。严格遵循气体实验定律,亦即严格遵循理想气体状态方程。理想气体是实际气体的近似和简化,是实际气体在压强趋于零时的极限。理想气体把握住了气体的某些重要特征,使问题简化,得以研究。实际气体,则应根据涉及的问题和条件,在理想气体的基础上,作必要的修正、补充。在微观上,理想气体模型的特点是,分子的大小与分子间平均距离相比可以忽略不计;除碰撞外,分子间以及分子与器壁间的相互作用可以忽略不计;分子间以及分子与器壁间的碰撞是完全弹性的。换言之,理想气体的分子间除弹性碰撞外没有能量交换,这使得理想气体的内能严格地等于分子功能之和,只与温度有关,与压强或体积无关。 |
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