... 汤姆逊散射 classical scattering; thomson scattering 汤姆逊式 thomson type 汤姆逊系数 thomson coefficient ...
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Joule-Thomson coefficient 汤姆生系数 ; 焦耳 ; 绝热节流系数 ; 汤姆孙系数
the Joule-Thomson coefficient 焦耳
joule e thomson coefficient 焦耳
coefficient of thomson 汤姆逊系数
The Joule-Thomson coefficient is equal to zero.
焦耳- 汤姆逊系数等于。
The key to calculate the temperature drop induced by adiabatic throttle of compressed natural gas is to find the solution of the Joule-Thomson coefficient.
计算压缩天然气绝热节流的温度降的关键是求解焦耳-汤姆逊系数。
Based on the BWRS state equation, the complete formula for calculation Joule-Thomson coefficient is derived, and the detail calculation procedure is given.
使用BWRS状态方程,推导出了计算焦耳-汤姆逊系数的完整公式,给出了详细的计算步骤。
And if that's equal to zero, that means that the Joule-Thomson coefficient for an ideal gas is also equal to zero. We're going to actually prove this later in the course.
说明理想气体的,焦耳-汤姆逊系数也等于0。,详细的证明过程,会在以后的课上给出。
The Joule-Thomson coefficient is equal to zero.
焦耳-汤姆逊系数等于。
but right now you're going to have to take it for granted. So, if the Joule-Thomson coefficient is equal to zero, just like we wrote, du = Cv dT du = Cv dT for an ideal gas, we're going to dH = Cp dT have dH = Cp dT for an ideal gas as well.
但是现在请你们应该把它看成理所当然的,所以,如果焦耳-汤姆逊系数等于零,就像我们写的,对于理想气体,我们也可以得到对于理想气体。
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