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diff --git a/content/know/concept/fundamental-thermodynamic-relation/index.pdc b/content/know/concept/fundamental-thermodynamic-relation/index.pdc new file mode 100644 index 0000000..8f3a742 --- /dev/null +++ b/content/know/concept/fundamental-thermodynamic-relation/index.pdc @@ -0,0 +1,59 @@ +--- +title: "Fundamental thermodynamic relation" +firstLetter: "F" +publishDate: 2021-07-07 +categories: +- Physics +- Thermodynamics + +date: 2021-07-05T17:39:57+02:00 +draft: false +markup: pandoc +--- + +# Fundamental thermodynamic relation + +The **fundamental thermodynamic relation** combines the first two +[laws of thermodynamics](/know/concept/laws-of-thermodynamics/), +and gives the change of the internal energy $U$, +which is a [thermodynamic potential](/know/concept/thermodynamic-potential/), +in terms of the change in +entropy $S$, volume $V$, and the number of particles $N$. + +Starting from the first law of thermodynamics, +we write an infinitesimal change in energy $\dd{U}$ as follows, +where $T$ is the temperature and $P$ is the pressure: + +$$\begin{aligned} + \dd{U} &= \dd{Q} + \dd{W} = T \dd{S} - P \dd{V} +\end{aligned}$$ + +The term $T \dd{S}$ comes from the second law of thermodynamics, +and represents the transfer of thermal energy, +while $P \dd{V}$ represents physical work. + +However, we are missing a term, namely matter transfer. +If particles can enter/leave the system (i.e. the population $N$ is variable), +then each such particle costs an amount $\mu$ of energy, +where $\mu$ is known as the **chemical potential**: + +$$\begin{aligned} + \dd{U} = T \dd{S} - P \dd{V} + \mu \dd{N} +\end{aligned}$$ + +To generalize even further, there may be multiple species of particle, +which each have a chemical potential $\mu_i$. +In that case, we sum over all species $i$: + +$$\begin{aligned} + \boxed{ + \dd{U} = T \dd{S} - P \dd{V} + \sum_{i}^{} \mu_i \dd{N_i} + } +\end{aligned}$$ + + + +## References +1. H. Gould, J. Tobochnik, + *Statistical and thermal physics*, 2nd edition, + Princeton. |