You must change title. The Joule-Thomson effect does not occur in "an ideal Gas". It is the phenomenon of gaseous molecules with van der Waals interaction.
You are right. The title is misleading. I think this effect (Internal energy dependent only on temperature for ideal gas) is named after Joule too but not Thomson.
You must change title. The Joule-Thomson effect does not occur in "an ideal Gas". It is the phenomenon of gaseous molecules with van der Waals interaction.
You are right. The title is misleading. I think this effect (Internal energy dependent only on temperature for ideal gas) is named after Joule too but not Thomson.
If it has sound and explanation..it will be more easy to understand...not bad..
I wish this video has a acoustic description as week
Well**
Thanks for provided and clear and concise visualization.
why same temperature it should cool down after passing through the permeable material at the middle thats the principle of JT Expansion Cooling.
JT expansion/ throttling process for an IDEAL GAS is not accompanied by a decrease in temperature.
What expansion is it that you show of
what do particles pass the throttle?
Wtf is this
Nice 👍👍
µ=0
acctually this cause LARGE drop in T
best
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