Thermodynamic potentials are a fascinating concept that can
be quite complex, but I will do my best to explain them in simpler terms in my
blog!😁
One
way to think about thermodynamic potential is that they are a set of
mathematical functions that allows us to calculate the energy and work
associated with a particular process or change in thermodynamic system. Each
potential has its own unique set of properties which I will discuss in more
detail.
One
important concept in thermodynamic potentials is that they are state functions.
This means the value of potential only depends on the current state of the
system and not on how that state was achieved.
In
this blog, we will discuss the four types of thermodynamic potentials which
includes:
- Internal Energy
- Enthalpy
- Helmholtz free energy
- Gibbs Free Energy
To discuss in detail about thermodynamic potential types:
1. Internal
Energy (U)
It is the total energy of a system’s
particles, including their kinetic and potential energies. This energy is
related to the temperature of the system and is measure of total energy
that can be exchanged between the system and its surroundings. In short, we can
say that it is the energy that is stored within a system and is available to do
work. It is given by;
dU = Tds - pdV
Enthalpy
(H)
Enthalpy
is the sum of the internal energy of a system and the product of its pressure
and volume. It is measure of heat that is released or absorbed during a process
that occurs at constant pressure.
dH
= Tds + vdp
Helmholtz Function (F)
This
function is the difference between the internal energy of a system and the
product of its temperature and entropy. It is a measure of the energy that is
available to do work at constant temperature and volume. This energy is useful
thermodynamic potential for describing the behavior of systems that are in
contact with a heat reservoir at constant temperature.
dF
= -pdV - SdT
1. Gibbs
Free Energy (G)
It
is the difference between the enthalpy of a system and the product of its
temperature and entropy. It is a measure of the energy that is available to do
work at constant temperature and pressure.
dG
= Vdp - SdT
Each
of these potentials provides different information about a system and can be
used to describe its behaviour under different conditions. The idea behind
thermodynamic potential is that there are certain properties of a system such
as temperature, entropy, pressure and volume that determine its state.
In
conclusion, thermodynamic potential is a crucial concept in thermodynamics that
allows us to describe the behavior of physical systems under different
conditions. The four most common thermodynamic potential, Internal energy, Enthalpy, Helmholtz function and Gibbs free energy provides us with different
information about a system.
Thank
You!😀
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